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INSTRUCTION MANUAL FOR SCREW COMPRESSOR UNIT CONTROLLER MYPRO-CPIV MYPRO-CPIV (standard version) Read this manual carefully before you can use and service MYPRO-CPIV safely and properly. F1 START STOP CLEAR ALARM F2 F3 F4 F5 F6 F7 1 2 3 4 5 6 7 8 9 0 . - ALT ESC SAVE ENTER SH IFT DELETE TAB MYPRO-CPⅣ

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INSTRUCTION MANUAL FOR

SCREW COMPRESSOR UNIT CONTROLLER MYPRO-CPIV

MYPRO-CPIV (standard version)

Read this manual carefully before you can use and service MYPRO-CPIV safely and properly.

F1

START

STOP

CLEARALARM

F2 F3 F4 F5 F6 F7

1 2 3

4 5 6

7 8 9

0 . -

ALT

ESC

SAVE ENTER

SH IFT

DELETE

TABMYPRO-CPⅣ

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• This manual has been prepared as a guide to allow you to use the Screw Compressor Unit Controller

MYPRO-CPIV properly and safely. Follow all the instructions in this manual. Failure to do so could result in

unforeseen accidents.

• Keep this manual handy for ready and regular reference by all persons working on your MYPRO-CPIV.

• If the manual is lost or damaged, contact any of the Mayekawa offices or sales/service centers in your area to

order a new copy.

• This manual must remain with the product when you resell it to another user.

• Mayekawa reserves the right to make changes to the specifications of the product the contents of this manual for

improvements without prior notice.

• If you have any query due to inconsistency between the product and the information in this manual that can

result from such changes, please ask questions to any of the Mayekawa offices or sales/service centers in your

area.

• Be sure to start operation, inspection, and servicing of the equipment only after having thoroughly read and

understood all the hazard preventive instructions and precautions in this manual. Almost all the past accidents

occurred due to failure to follow the basic safety rules.

All safety instructions and precautions in this manual are highlighted by appropriate one of the following

symbol-letter combinations:

Indicates a potentially hazardous situation which, if not avoided, will result in death or serious

injury.

Indicates a potentially hazardous situation which, if not avoided, could result in death or

serious injury.

Indicates a potentially hazardous situation which, if not avoided, will or could result in minor or

moderate injury.

This also indicates an instruction that should be followed to obtain full performance from the

product.

• The safety instructions and precautions in this manual are not exhaustive. There may be other safety

precautions to be observed that vary from user to user. It is your responsibility to establish a safety management

system most appropriate for your particular use of the product.

• Never disassemble or otherwise interfere with the Screw Compressor Unit Controller MYPRO-CPIV, as it

contains many electronic components that can be adversely affected by disassembly or other interference.

Mayekawa Mfg. Co., Ltd. assumes no responsibility for any undesirable consequences that would result from

disassembly of or interference with the controller.

• Use this controller solely for control and management of the screw compressor units produced by Mayekawa

Mfg. Co., Ltd.

Important Notice

DANGER

WARNING

CAUTION

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Preface

Thank you for your purchase of Mayekawa Screw Unit Controller MYPRO-CPIV (hereafter called ‘CP4’ in this manual).

Before installing and putting your CP4 into service, check the following points:

a. Is your CP4 exactly of the factory-option variation you specified?

CP4 is available from the following 12 factory-option variations:

CPIV-110 (standard version): 16 digital inputs/outputs; 16 analog inputs; 2 communication ports

CPIV-111: 16 digital inputs/outputs; 16 analog inputs; 4 analog outputs; 2

communication ports

CPIV-110C: 16 digital inputs/outputs; 16 analog inputs; 2 communication ports; 2

extension communication ports

CPIV-111C: 16 digital inputs/outputs; 16 analog inputs; 4 analog outputs; 2

communication ports; 2 extension communication ports

CPIV-210: 32 digital inputs/outputs; 16 analog inputs; 2 communication ports

CPIV-211: 32 digital inputs/outputs; 16 analog inputs; 4 analog outputs; 2

communication ports

CPIV-210C: 32 digital inputs/outputs; 16 analog inputs; 2 communication ports; 2

extension communication ports

CPIV-211C: 32 digital inputs/outputs; 16 analog inputs; 4 analog outputs; 2

communication ports; 2 extension communication ports

CPIV-220: 32 digital inputs/outputs; 32 analog inputs; 2 communication ports

CPIV-221: 32 digital inputs/outputs; 32 analog inputs; 4 analog outputs; 2

communication ports

CPIV-220C: 32 digital inputs/outputs; 32 analog inputs; 2 communication ports; 2

extension communication ports

CPIV-221C: 32 digital inputs/outputs; 32 analog inputs; 4 analog outputs; 2

communication ports; 2 extension communication ports

b. Are all necessary items supplied?

Check the items in the package against the packaging list.

The standard version CP4 should be provided with a set of the following items:

Control panel enclosure, analog input boards (AI10, AI11); connection cable (1-meter long C1200); digital

input/output board (OIA0); connection cable (1-meter long C1300); power cables (1.2-meter long C0312 x

2, 1.2-meter long C0322 x 1); noise filter (rating: 250 VAC, 6 A); instruction manual (one copy of this

manual)

c. Are the settings in the following windows correct?

Be sure to confirm the following settings in the corresponding windows before putting CP4 into service.

‘SETUP’ menu windows (F6): Are the settings for the ‘OPTION SETUP’ items appropriate for the

compressor unit under control? (see Chapter 4)

‘ADJUSTMENT’ menu windows (F5): Is the scaling setting for each sensor correct? (see Chapter 5)

‘LIMITS’ menu windows (F3): Are the settings for each alarm appropriate? (see Chapter 7)

‘SETPOINT’ menu window (F1): Are the start/stop (‘CUT IN / CUT OUT’) settings appropriate? (see

Chapter 6)

Mayekawa Mfg. Co., Ltd.

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Table of Contents Preface .........................................................................................................................................................................................2

Table of Contents..........................................................................................................................................................................3

Chapter 0 Information on This Manual..........................................................................................................................................6

0.1 This Manual and Other Related Manuals .......................................................................................................................6

0.2 Organization of This Manual...........................................................................................................................................6

0.3 Glossary of Special Terms..............................................................................................................................................7

0.4 Units ...............................................................................................................................................................................8

0.5 Words Displayed on Screen ...........................................................................................................................................8

0.6 Acronyms and Abbreviations..........................................................................................................................................8

Chapter 1 General Description .....................................................................................................................................................9

1.1 Functions and Features..................................................................................................................................................9

1.2 Menu-Window Organization (Menu Tree).......................................................................................................................9

1.3 Usable Control Functions Depending on Selected Factory Options.............................................................................11

Chapter 2 Components and Their Functions ..............................................................................................................................13

2.1 Front Panel...................................................................................................................................................................13

2.2 Parts on CPU Board (REF-CX100-PR01) ....................................................................................................................15

2.2.1 Reset Switch on CPU Board................................................................................................................................17

2.2.2 Replacement of Memory Backup Battery on CPU Board .....................................................................................18

2.3 EPROM Board (REF-CX100-RM01) ............................................................................................................................19

2.3.1 Replacement of EPROM on CPU Board ..............................................................................................................20

2.4 Analog Input Boards (REF-CX100-AI01, REF-CX100-AI11) ........................................................................................21

2.4.1 Current / Voltage Selection and Terminal Block Connections for Analog Input Boards .........................................22

2.4.2 Input Type Selection for Channels 15 and 16 of Analog Input Boards ..................................................................23

2.5 Optional Analog Output Board (REF-CX100-DA01) .....................................................................................................24

2.6 Optional Digital Input/Output Drive Base (DB) Board (REF-CX100-DB01) ..................................................................25

2.7 Digital Input/Output Board (REF-MCS200-OIA0, REF-MCS200-OIE0 (Optional)) .......................................................26

2.8 Optional Communication Board (REF-CX100-RS01)...................................................................................................27

2.9 Optional Analog-to-Digital (AD) Converter Board (REF-CX100-AD01) ........................................................................28

Chapter 3 Operation ...................................................................................................................................................................29

3.1 Display Screens ...........................................................................................................................................................29

3.1.1 Acronyms and Abbreviations Used for Indicated Items.........................................................................................29

3.1.2 Main Graphic Screen ............................................................................................................................................32

3.1.3 Main Status Screen...............................................................................................................................................33

3.2 To Make Settings – Selection from Options..................................................................................................................39

3.3 To Make Setting – Entry Using Keys ............................................................................................................................40

3.4 Software Resetting Method ..........................................................................................................................................42

3.5 Special Booting.............................................................................................................................................................43

Chapter 4 Setups (‘SETUP’ Menu (F6))......................................................................................................................................46

4.1 Setting in ‘SYSTEM SETUP’ Window (Option 1 of ‘SETUP’ Menu (F6)) ......................................................................46

4.2 Settings in ‘ANALOG INPUT SCALING’ Window (Option 2 of ‘SETUP’ Menu (F6)).....................................................48

4.3 Settings in ‘OPTION ANALOG INPUT’ Window (Option 3 of ‘SETUP’ Menu (F6)).......................................................49

4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6)) ...............................................................51

4.5 Setting in ‘OPTION SETUP 2/2’ Window (Option 5 of ‘SETUP’ Menu (F6)) .................................................................53

4.6 Settings in ‘OPTION SELECT’ Window (Option 6 of ‘SETUP’ Menu (F6)) ...................................................................55

Chapter 5 Adjustments (‘ADJUSTMENT’ Menu (F5)) .................................................................................................................57

5.1 Settings in ‘SLIDE VALVE SETUP’ Window (Option 1 of ‘ADJUSTMENT’ Menu (F5)) ................................................57

5.2 Settings in ‘SET TIME’ Windows (Option 2 of ‘ADJUSTMENT’ Menu (F5)) .................................................................66

5.3 Settings in ‘PASSWORD’ Window (Option 3 of ‘ADJUSTMENT’ Menu (F5)) ...............................................................68

5.4 Settings in ‘ANALOG INPUT ADJUSTMENT’ Window (Option 4 of ‘ADJUSTMENT’ Menu (F5)) ................................69

5.5 Settings in ‘ANALOG OUTPUT ADJUSTMENT’ Window (Option 5 of ‘ADJUSTMENT’ Menu (F5)) ............................70

5.6 Settings in ‘ANALOG OUTPUT ASSIGNMENT’ Window (Option 6 of ‘ADJUSTMENT Menu (F5))’.............................71

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5.7 Settings in ‘AUXILIARY INPUT TIMER’ Window (Option 7 of ‘ADJUSTMENT’ Menu (F5)) .........................................74

5.8 Adjustments in ‘COMMUNICATION SETUP’ Window (Option 8 of ‘ADJUSTMENT’ Menu (F5)) .................................75

Chapter 6 Control Selections (‘SETPOINTS’ Menu (F1)) ...........................................................................................................77

6.1 Settings in ‘OPERATION MODE’ Window (Option 1 of ‘SETPOINTS’ Menu (F1)) .......................................................77

6.2 Manual Control from ‘D/O TEST OPERATION’ Window (Option 2 of ‘SETPOINTS’ Menu (F1))..................................78

6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1)) ..................................................................80

6.4 Settings in ‘SCHEDULER’ Window (Option 4 of ‘SETPOINTS’ Menu (F1)) .................................................................81

6.5 Setting in ‘OTHER SETPOINT’ Window (Option 5 of ‘SETPOINTS’ Menu (F1))..........................................................84

6.6 Settings in ‘AUTO Vi’ Window (Option 6 of ‘SETPOINTS’ Menu (F1)) .........................................................................86

6.7 Settings in ‘AUTO STAGE’ Window (Option 7 of ‘SETPOINTS’ Menu (F1)).................................................................88

Chapter 7 Alarms (‘LIMITS’ Menu (F3)) ......................................................................................................................................95

7.1 Settings in ‘ALARM/FAILURE’ Windows 1/3 to 3/3 ......................................................................................................95

7.1.1 ‘ALARM/FAILURE 1/3’ Window ............................................................................................................................95

7.1.2 ‘ALARM/FAILURE 2/3’ Window ............................................................................................................................97

7.1.3 ‘ALARM/FAILURE 3/3’ Window ............................................................................................................................98

7.2 Settings in ‘OEM LIMITS 1/2’ and ‘OEM LIMITS 2/2’ Windows (Options 4 and 5 of ‘LIMITS’ Menu (F3)) ....................99

7.2.1 ‘ALARM/FAILURE & OEM LIMITS 1/2’ Window ...................................................................................................99

7.2.2 ‘ALARM/FAILURE & OEM LIMITS 2/2’ Window .................................................................................................100

7.3 Settings in ‘RANGE OVER’ Window (Option 6 of ‘LIMITS’ Menu (F3)) ......................................................................100

Chapter 8 Operation .................................................................................................................................................................102

8.1 Control of Compressor Unit Operation .......................................................................................................................102

8.1.1 Start/Stop Control in Different Operation Control Modes.....................................................................................102

8.1.2 Compressor Capacity Control Settings in ‘CAPACITY CONTROL’ Window

(Option 1 of ‘CONTROLLER’ Menu (F2)) ............................................................................................................104

8.1.3 Settings in ‘VFD COMPRESSOR CONTROL’ window (Option 2 of ‘CONTROLLER’ Menu (F2)) ......................107

8.1.4 Settings in ‘VFD SETUP’ Window (SHIFT 3 of ‘CONTROLLER’ Menu (F2))......................................................108

8.1.5 Settings in ‘CONDENSER CONTROL’ Window (Option 0 of ‘CONTROLLER’ Menu (F2)).................................109

8.2 Communications.........................................................................................................................................................112

8.2.1 System Configuration .........................................................................................................................................112

8.2.2 Remote Communication Device and Communication Protocols.........................................................................112

8.2.3 Connecting Communication Terminating Resistors ............................................................................................113

8.2.4 MODBUS Protocol..............................................................................................................................................114

Chapter 9 Maintenance (‘LOGS’ Menu (F4)) ............................................................................................................................116

9.1 Display in ‘TRENO LOG’ Window (Option 1 of ‘LOGS’ Menu (F4))............................................................................116

9.2 Display in ‘TREND GRAPH’ Window (SHIFT 1 of ‘LOGS’ Menu (F4)) .......................................................................117

9.3 Settings in ‘GRAPH ASSIGNMENT’ Window (SHIFT2 of ‘LOGS’ Menu (F4))............................................................118

9.4 Displays in ‘ALARM LOG’ Window (Option 2 of ‘LOGS’ Menu (F4)) ..........................................................................119

9.5 Display in ‘EVENT LOG’ Window (Option 3 of ‘LOGS’ Menu (F4)).............................................................................121

9.6 Display in ‘DEVICE COUNTER MONITOR’ Window (Option 4 of ‘LOGS’ Menu (F4)) ...............................................122

9.7 Resetting Made in ‘DEVICE COUNTER SET’ Window (Option 5 of ‘LOGS’ Menu (F4) )...........................................123

Chapter 10 Analysis (‘DIAGNOSTIC’ Menu (F7)) .....................................................................................................................124

10.1 Display in ‘SHOW SYSTEM SETUP’ Window (Option 1 of ‘DIAGNOSTIC’ Menu (F7)) ..........................................124

10.2 Display in ‘SHOW ANALOG INPUT SCALINGT’ Window (Option 2 of ‘DIAGNOSTIC’ Menu (F7)).........................124

10.3 Display in ‘SHOW OPTION ANALOG INPUT’ Window (Option 3 of ‘DIAGNOSTIC’ Menu (F7)).............................125

10.4 Display in ‘SHOW DIGITAL I/O STATUS’ Window (Option 4 of ‘DIAGNOSTIC’ Menu (F7)) ....................................125

10.5 Display in ‘SHOW OPTION SETUP 1/2’ Window (Option 5 of ‘DIAGNOSTIC’ Menu (F7)) .....................................126

10.6 Display in ‘SHOW OPTION SETUP 2/2’ Window (Option 6 of ‘DIAGNOSTIC’ Menu (F7)) .....................................126

10.7 Display in ‘SHOW PROGRAM VERSION’ Window (Option 7 of ‘DIAGNOSTIC’ Menu (F7)) ..................................127

10.8 Display in ‘READ REGISTER’ Window (Option 8 of ‘DIAGNOSTIC’ Menu (F7)).....................................................127

10.9 Display in ‘READ BIT’ Window (Option 9 of ‘DIAGNOSTIC’ Menu (F7)) .................................................................128

10.10 Display in ‘READ TIMER/COUNTER’ Window (Option 0 in ‘DIAGNOSTIC’ Menu (F7)) .............................................128

Chapter 11 Troubleshooting......................................................................................................................................................129

Chapter 12 Specifications .........................................................................................................................................................133

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Device List ............................................................................................................................................................................136

List of Replaceable Parts ......................................................................................................................................................242

Software Revision Record 1..................................................................................................................................................243

Software Revision Record 2..................................................................................................................................................244

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Chapter 0 Information on This Manual

0.1 This Manual and Other Related Manuals

This manual is one of the four manuals each containing information about MYPRO-CPIV (CP4) as follows:

- COMPRESSOR CONTROL PANEL (Model MYPRO-CPIV/E) MANUAL

Contains information necessary for the engineering staff in charge of operation, maintenance, and communications of CP4.

The information includes description on the CP4’s functions and specifications, instructions for wiring/connections, setting and

operation, method for troubleshooting, and other data necessary for maintenance service.

- MYPRO-CPIV (MYCOM SCREW UNIT CONTROLLER) MANUAL

Provides information on transportation, installation, setting up for operation, maintenance, and disposal of the MYCOM Screw

Compressor Unit Control Panel Model MYPRO-CPIV/E.

- MYPRO-CPIV (MYCOM SCREW UNIT CONTROLLER) START-UP MANUAL

Describes the start-up procedures of CP4 in a simplified form, beginning with the initialization.

- MYPRO-CPIV (MYCOM SCREW UNIT CONTROLLER) FACTORY MANUAL

Contains instructions for the setting to be made on CP4 before shipment from the factory.

0.2 Organization of This Manual

This manual consists of the following three groups of chapters.

Chapters 1 to 3

These chapters contain the following introductory information for the use of CP4.

Chapter 1 shows the function menus (hereafter simply called “menu”) and the function windows (hereafter simply called

“windows”) that can be accessed from each menu (menu tree). The functions available as factory options are also shown in

this chapter.

Chapter 2 contains the following items of information about CP4: the functions and operation of the individual keys on the front

panel; description of the CPU board including the operations you need to perform on it; and the optional extension circuit

boards.

Chapter 3 contains the following items of information: how to make appear a desired display on the front panel screen and read

the displayed data; how to make selections or entries to set parameters; and how to perform “special booting” required when

making some settings and initialization/resetting.

Chapters 4 to 10

These chapters contain detailed description of individual windows, including the methods of setting for the parameter items in

each window, limitations applied to certain settings, and detailed explanation of special function-related items, such as the

communication protocol, automatic staging (AUTO STAGE) control, etc.

Chapters 11 and 12

Chapter 11 provides troubleshooting information.

Chapter 12 contains the specifications and other miscellaneous information including the replacement parts list, software

version list, device lists etc.

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0.3 Glossary of Special Terms

The special terms used in this manual are defined below.

ALARM

ALARM is a non-critical alarm that does not involve any compressor unit shutdown.

Automatic staging control (AUTO STAGE)

The automatic staging control works on multiple compressor units with their CP4s inter-connected through communication

ports. Of these CP4s, one is assigned to the “master station”. The master station issues commands to start or stop the

compressor under control of each of the other CP4s (called the “slave stations”) to properly adjust the number of operating

compressors according to the required gas compressing capacity for the refrigerating system.

Compressor unit

Compressor unit refers to a system consisting of a compressor, condenser, expansion values, chiller, and driving motors.

Each compressor unit operates under control of one CP4.

FAILURE

FAILURE is a critical alarm that involves compressor unit shutdown.

Hardware key

The hardware key is a special device that is not supplied with the product. It is used for adjustments necessary before

shipment of the product from the factory.

Main Graphic Screen

This screen appears first when CP4 is turned on and shows the compressor’s status using graphics.

Main Status Screen

This screen shows the compressor’s status using alphanumeric characters. This screen appears when the TAB key is pressed

on the front panel when the Main Graphic Screen is displayed.

Manipulating value

The amount of control expressed in a sum of the proportional, integral, and derivative controls (PID control) concerning with

the capacity, speed, and other controls.

Mask time

Mask time refers to the time set by the user during which no determination to or not to issue an alarm takes place.

Master station

“Master station” is defined differently according to the control configuration using PC4s.

- In the case of the automatic staging control (AUTO STAGE), the master station is the CP4 that gives operational commands

to the other CP4s according to information of its own as well as that it receives from the slave CP4s.

- In the case of the control using a remote control device such as a computer through communications, the master station

refers to the remote control device controlling the CP4s in the network.

Menu

Each function of CP4 has a menu that provides options to make access to individual windows. Each menu can be selected by

pressing one of the function keys on the front panel.

OEM limit

OEM limit refers to the upper or lower limit of each alarm set value.

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Offset

If analog input values are too small or too large for processing over the entire range of measurement, a positive or negative

offset value is added for proper processing and indication. You can specify offset values as part of settings.

Passwords

You must enter a password of the specified level before you can make settings in some special windows. Three different levels

of password (LEVEL-1, LEVEL-2, and LEVEL-3) must be registered beforehand to be able to access these windows, each

requiring a specific level of password for authorization. See Section 5.3 Settings in ‘PASSWORD’ Window (Option 3 of

‘ADJUSTMENT’ Menu (F5)) for further details.

Scaling

Scaling means a setting to specify the range (upper and lower limits) for input values from each sensor.

Special booting

Special booting is the method for booting CP4 that is required before performing the system setup and initializing individual

control settings.

Trimming data

With CP4, “trimming,” means “output adjustment”. The value for the adjustment is written in a non-volatile memory.

Window

A screen that is accessed from each menu. It is used for making parameter settings and for checking the status of settings or

operation of the compressor unit. Some windows include multiple sub-windows.

0.4 Units

Unless otherwise specified, all pressures are indicated in MPa (gauge readings) and temperatures in °C.

0.5 Words Displayed on Screen

In this manual, the words displayed on the screen (menus, windows, parameter items, selective options, etc.) are indicated in all

capital letters enclosed by single quotation marks like ‘SETUP’ (although quotation marks are basically omitted in tables).

0.6 Acronyms and Abbreviations

For interpretation of the acronyms and abbreviations used in display, see Section 3.1 Display Screens.

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Chapter 1 General Description

1.1 Functions and Features

CP4 is a controller developed for controlling operation of the Mayekawa-produced screw compressor units.

The controller has the following standard features:

• Sequence control and process control inputs/outputs

- 16 digital inputs/outputs No-voltage contact signals or under-voltage solid-state relay (SSR) signals

- 16 analog inputs 4 to 20 mA DC inputs, 1 to 5 V DC inputs, or 1-kΩ potentiometer inputs

• User-controller interface

- Backlit color LCD capable of displaying 80 digits x 30 lines alphanumeric characters

- Keypad with numeric keys, function keys, and control keys (33 keys in total)

The LCD can collectively display multiple measurements and concurrently display settings and actual measurements. The

key groups are arranged efficiently, allowing easy screen switching and change of settings.

• Communication ports

The following communication ports are standard provisions:

- One serial communication port with a round connector conforming to special-purpose RS-232C

- One half-duplex, 4-wire serial communication port conforming to RS-485

The serial communications function allows remotely monitoring the operating conditions of compressor units, making their

start/stop control, and changing various parameter settings. The MODBUS protocol employed is world standard protocol

for serial communications in industry and allows for the use of commercially available supervisory control and data

acquisition (SCADA) software as well as connection to and communication with PLC MODBUS communications units of

various manufacturers.

• Optional extension boards for additional inputs/outputs channels and communication ports

The following optional items are available for expanded connections to CP4.

- Extension digital/analog converter (DA) board for additional 4 analog outputs

- Extension analog input board for additional 16 analog inputs

- Extension digital input/output board for additional 14 digital output channels and 2 digital input channels

- Extension communication board for additional 2 communication ports

• Either of two status windows is selectable: “Main Graphic” and “Main Status”. (A function key is used on the menu screen for

selecting each window.)

1.2 Menu-Window Organization (Menu Tree)

The individual function menus are associated with the function keys F1 to F7 (see Section 2.1). Each menu includes the windows

to which specific names are given together with Option numbers as shown below.

The section number in parentheses after each window menu indicates the section of this manual containing the information on

the window.

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Menu Tree

1. OPERATION MODE (Section 6.1) 2. D/O TEST OPERATION (Section 6.2) 3. SET POINTS (Section 6.3) 4. SCHEDULER (Section 6.4) 5. OTHER SET POINTS (Section 6.5) 6. AUTO Vi (Section 6.6) 7. AUTO STAGE (Section 6.7) 1. CAPACITY CONTROL (Section 8.1.2) 2. VFD COMPRESSOR CONTROL (Section 8.1.3) 3 .HIGH STAGE CONTROL 4. EXPANSION VALVE (SH) CONTROL (4.LIQUID SUPPLY CONTROL) 5. EXPANSION VALVE (SP) CONTROL 6. EXPANSION VALVE (LB) CONTROL 7. ECONOMIZER/INTER COOLER EXPANSION VALVE CONTROL (7.ECONOMIZER/INTERCOOLER SV) 8. LIQUID INJECTION OIL COOLING (8.LIQUID INJECTION SV) 9. CHILLER LB TEMPERATURE CONTROL 0. CONDENSER CONTROL (Section 8.1.5) SHIFT1. LEVEL CONTROL SHIFT3. VFD SETUP (Section 8.1.4)

1. ALARM/FAILURE 1/3 (Section 7.1) 2. ALARM/FAILURE 2/3 (Section 7.1) 3. ALARM/FAILURE 3/3 (Section 7.1) 4. OEM LIMITS 1/2 (Section 7.2) 5. OEM LIMITS 2/2 (Section 7.2) 6. RANGE OVER (Section 7.3)

1. TREND LOG (Section 9.1) 2. ALARM LOG (Section 9.4) 3. EVENT LOG (Section 9.5) 4. DEVICE COUNTER MONITOR (Section 9.6) 5. DEVICE COUNTER SET (Section 9.7) SHIFT1. TREND GRAPH SHIFT2. GRAPH ASSIGNMENT

1. SLIDE VALVE SETUP (Section 5.1) 2. SET TIME (Section 5.2) 3. PASSWORD (Section 5.3) 4. ANALOG INPUT ADJUSTMENT (Section 5.4) 5. ANALOG OUTPUT ADJUSTMENT (Section 5.5) 6. ANALOG OUTPUT ASSINGMENT (Section 5.6) 7. AUXILIARY INPUT TIMER (Section 5.7) 8. COMMUNICATION SETUP (Section 5.8)

1. SYSTEM SETUP (Section 4.1) 2. ANALOG INPUT SCALING (Section 4.2) 3. OPTION ANALOG INPUT (Section 4.3) 4. OPTION SETUP 1/2 (Section 4.4) 5. OPTION SETUP 2/2 (Section 4.5) 6. OPTION SELECT (Section 4.6)

1. SHOW SYSTEM SETUP (Section 10.1) 2. SHOW ANALOG INPUT SCALING (Section 10.2) 3. SHOW OPTION ANALOG INPUT (Section 10.3) 4. SHOW DIGITAL I/O STATUS (Section 10.4) 5. SHOW OPTION SETUP 1/2 (Section 10.5) 6. SHOW OPTION SETUP 2/2 (Section 10.6) 7. SHOW PROGRAM VERSION (Section 10.7) 8. READ REGISTER (Section 10.8) 9. READ BIT (Section 10.9) 0. READ TIMER/COUNTER (Section 10.10)

“Main Graphic” and “Main Status” windows

F1 SETPOINTS

F2 CONTROLLER

F3 LIMITS

F4 LOGS

F5 ADJUSTMENT

F6 SETUP

F7 DIAGNOSTIC

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1.3 Usable Control Functions Depending on Selected Factory Options

You can use any control functions listed in the ‘OPTION SETUP’ column in the table below according to your selection in the

‘Item’ column if the corresponding functions in the ‘OPTION SELECT’ column have been enabled for your specific CP4 before its

shipment from the factory (factory option). Any setups you make is invalid if they are for those ‘OPTION SETUP’ items that

correspond to the disabled ‘OPTION SELECT’ functions. You cannot enable any disabled ‘OPTION SELECT’ functions yourself.

(see Chapter 4 for details of the ‘OPTION SELECT’ and ‘OPTION SETUP’ windows)

NOTE:

In the table below, marked * in the “Item” column are the default selections.

Usable Control Functions

‘OPTION SELECT’ ‘OPTION SETUP’ Item

* NONE

DIGITAL ‘REMOTE CAPACITY CONTROL’ REMOTE CAPACITY CONTROL

ANALOG

* NOT USE CONDENSER CONTROL

USE

* LOCAL DISCHARGE PRESSURE CONDENSER VFD CONTROL

CONDENSER CONTROL TARGET SYSTEM DISCHARGE PRESSURE

* NOT USE CONDENSER CONTROL

USE

* LOCAL DISCHARGE PRESSURE CONDENSER CONTROL TARGET

SYSTEM DISCHARGE PRESSURE

* ON/OFF SIGNAL SET

CONDENSER 3STEPS CONTROL or CONDENSER 6STEPS CONTROL CONDENSER CONTROL METHOD

ON/OFF MULTI SET

* NOT USE CHILLER CONTROL

USE

* 1

2 LIQUID SUPPLY SV

3

NONE/THERMAL EXPANSION

YOSAKU 1-VALVE

YOSAKU 2-VALVES

YOSAKU 3-VALVES

* 1-MOTORIZED CONTROL VALVE

EXPANSION VALVES

2-MOTORIZED CONTROL VALVES

* NO CHILLER GAS TEMP. SENSOR

YES

* NO CHILLER ENTERING TEMP. SENSOR

YES

* NO CHILLER LEAVING TEMP. SENSOR

YES

* NOT USE CHILLER LEAVING TEMP. CONTROL

USE

CONTINUOUS

CHILLER CONTROL

CHILLER PUMP MODE * AUTO START/STOP

* NOT USE AUTO STAGING (Control of the number of operating compressors)

AUTO STAGER 2 UNITS - 8 UNITS

* NOT USE VFD COMPRESSOR

USE

* NOT USE

VFD COMPRESSOR (Inverter control)

VFD COMPRESSOR OUTPUT LIMIT USE

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Usable Control Functions (continued)

‘OPTION SELECT’ ‘OPTION SETUP’ Item

* NOT USE HIGH STAGE CAPACITY CONTROL (Control of the high stage capacity of compound type two stage compressors)

HIGH STAGE CAPACITY CONTROL USE

* NOT USE

USE Y10,11,12,16,17(UD-V)

USE Y19,1A,1B,1C,1D(UD-V) AUTO Vi CONTROL AUTO Vi CONTROL

USE J SERIES

* NOT USE LIQUID INJECTION OIL COOLING CONTROL USE

NONE/THERMAL EXPANSION

* YOSAKU 1-VALVE

YOSAKU 2-VALVES INJECTION VALVES

MOTORIZED CONTROL VALVE

* DISCHARGE TEMPERATURE

LIQUID INJECTION CONTROL (Oil cooling control)

CONTROL TARGET DISCHARGE SUPERHEAT

* NOT USE HOT GAS BYPASS CONTROL HOT GAS BYPASS CONTROL

USE

* NOT USE STARTING BYPASS CONTROL STARTING BYPASS CONTROL

USE

* LSV & SP ECONOMIZER/INTERCOOLER LIQUID SUPPLY CONTROL HSV & IP

* NOT USE ECONOMIZER/INTERCOOLER EXPANSION VALVE CONTROL USE

NONE

* YOSAKU

ECONOMIZER/INTERCOOLER EXPANSION VALVE CONTROL

EXPANSION VALVES

MOTORIZED CONTROL VALVE

* NOT USE LEVEL CONTROL (Liquid level control)

LEVEL CONTROL USE

* NOT USE COMPRESSOR OIL SEAL CONTROL COMPRESSOR OIL SEAL CONTROL

USE

400 SERIES COMPRESSOR CONTROL

--- ---

* LOCAL SUCTION PRESSURE

SYSTEM SUCTION PRESSURE

CHILLER ENTERING TEMPERATURE

--- CONTROL TARGET (CUT IN/OUT) (Target of start/stop control)

CHILLER LEAVING TEMPERATURE

* LOCAL SUCTION PRESSURE

SYSTEM SUCTION PRESSURE

CHILLER LEAVING TEMPERATURE

COMBINED LOCAL SP/LB

COMBINED SYSTEM SP/LB

LOCAL DISCHARGE PRESSURE

--- CONTROL TARGET (CAPACITY CONTROL) (Target of capacity control)

SYSTEM DISCHARGE PRESSURE

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Chapter 2 Components and Their Functions

2.1 Front Panel

Keys on Front Panel

No. Key Function

1 Function keys Press one of the F1 to F7 keys to display the corresponding menu. If you press the same function key while the menu is displayed, the menu will close (see Section 1.1 for the key-to-menu correspondence).

2 ESC key Press this key to close a menu or window.

3 SHIFT key Press this key in combination with an arrow key to make an up-down or right-left shift between items in the same window. (This key has no effect when pressed independently.)

4 ALT key Press this key in combination with the TAB key to make a shift between items across different windows/windows or with the SHIFT key to make a shift between items within the same window/window (it has no effect when pressed independently).

5 DELETE key Use this key when correcting entries.

6 Arrow keys Use these keys to move the cursor (in reverse video) from one item to another within a menu or window.

7 TAB key Use this key to move the cursor (in reverse video) from an item in a window/sub-window to an item in another window/sub-window.

8 ENTER key Used to confirm a selection or entry. When confirmed by pressing this key, the selected option or entry turns red. Even when confirmed, the selection or entry is not saved in memory.

9 SAVE key Pressing this key saves selections or entries in memory. Stored in memory are the new/altered selections or entries that have been confirmed by pressing the ENTER key. The characters that have turned red by the confirmation now turn white.

10 Numeric keys Use these keys to select a window in each menu or make entries in each window.

F1

START

STOP

CLEARALARM

F2 F3 F4 F5 F6 F7

1 2 3

4 5 6

7 8 9

0 . -

ALT

ESC

SAVE ENTER

SH IFT

DELETE

TABMYPRO-CPⅣ

1

2

3

5

4

6

8

7

9

11

12

13

10

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Keys on Front Panel (continued)

No. Key Function

11 START key Used to start the compressor only when the LOCAL mode (operation control mode) is selected. This key does not work in the REMOTE, COMM, or AUTO STAGE mode (see Section 6.1).

12 STOP key This key can be used to stop the compressor regardless of the operation mode selected (see CAUTION below).

13 CLEAR ALARM key Use this key to clear an alarm if the compressor has stopped by issuance of an alarm (FAILURE).

According to the selection for the ‘OPERATION’ item in the ‘OPERATION MODE’ window, the following conditions automatically take place when the STOP key is pressed on the front panel of PC4. - When the ‘LOCAL’, ‘REMOTE’, or ‘COMM’ mode (not the ‘AUTO STAGE’ mode) has

been selected, pressing the STOP key causes no change to the operation control mode in the case of the ‘LOCAL’ mode, but the mode automatically changes to ‘LOCAL’ in the case of the ‘REMOTE’ and ‘COMM’ modes. The compressor, if operating, will then stop after the liquid recovering sequence. (It remains stopped thereafter.) To restart the compressor, simply press the START key if you need not change the mode from ‘LOCAL’ to another, or turn ON the relevant operation control command after changing the mode from ‘LOCAL’ to the desired mode.

- When the ‘AUTO STAGE’ mode has been selected, pressing the STOP key does not

cause any change to the setting for the ‘OPERATION’ item in the ‘OPERATION MODE’ window, but the selection of ‘ENABLE’ you made for the ‘CONTROL’ item in the ‘AUTO STAGE’ window automatically changes to ‘DISABLE’. In this case, if the compressor under control is running when the STOP key is pressed, the compressor will then stop after completing the liquid recovering sequence. Even the STOP key is pressed on the master station and its ‘CONTROL’ item setting in the ‘AUTO STAGE’ window is consequently changed to ‘DISABLE’, the automatic staging control continues to work on all the other stations (slave stations). To recover the ‘AUTO STAGE’ mode control after pressing the ‘STOP’ key, it is necessary (for the case of the master station and the case of a slave station) to perform the steps below. (Simply pressing the START key on the station does not recover the automatic staging control.)

1. From the ‘SETPOINTS’ menu (F1), open the ‘AUTO STAGE’ window. 2. Select ‘ENABLE’ for the ‘CONTROL’ item in the window.

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2.2 Parts on CPU Board (REF-CX100-PR01)

The above figure shows the CPU board used in CP4 and the locations of the circuit boards, switches, connectors, and other parts

on it. These parts are explained in the following table.

Parts on CPU Boards

No. Parts Function

1 Analog input board

connector

Used to connect the two different analog input boards to the CPU board. (Use cable “REF-CX100-C1201-U” for connection.)

2 LCD board connector Used to connect the LCD interface board to the CPU board. (Use cable “REF-CX100-C0901-U” for connection.)

3 ROM board connector Used to connect the ROM board to the CPU board.

4 DC (5V) board connector Used to supply 5 V DC from the CPU circuit power supply to the CPU board. (Use cable “REF-CX100-C0312-U” for connection.)

5 Extension communication

board connector

Used to connect an extension communication board (option) to the CPU board.

6 Digital input/output drive

connector

Used to connect digital input/output drive boards. The connectors are provided on the CPU board and can accommodate a maximum of four digital input/output drive boards (16 inputs/outputs). The #1 connector is for switch inputs/outputs 1 to 4, #2 for digital inputs/outputs 5 to 8, #3 for switch inputs/outputs 9 to 12, and #4 for switch inputs/outputs 13 to 16.

7 KP board connector Used to connect the KP board to the CPU board. (Use cable “REF-CX100-C1000-U” for connection.)

8 Communication power

connector

Used to supply power from the CPU board power supply to an extension communication board (option). (Use cable “REF-CX100-C0100-U” for connection.)

9 DB board connector Used to connect a digital input/output driver base (DB) board (option) to the CPU board.

10 DB board power

connector

Used to supply power from the CPU board power supply to the connected DB board (option). (Use cable “REF-CX100-C0100-U” for connection.)

11 DC (12V) connector Used to supply 12 V DC from the power supply of the analog/digital and digital input/output circuits to the CPU board. (Use cable “REF-CX100-C0322-U” for connection.)

12 Digital input/output board

connector

Used to connect the digital input/output board to the CPU board with a cable. (Use cable “REF-CX100-C1301-U” for connection.)

1

14

2

3

4

5

6

7

8

9

10

11

12

13

15

16

17

19

18

20

21

23

24

25

26

22

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Parts on CPU Boards (continued)

No. Parts Function

13 Analog output board

connector

Used to connect an analog output board (option) to the CPU board.

14 Extension AD board

connector

Used to connect an extension AD converter board (option) to the CPU board.

15 Analog/digital board

power connector

Used to supply power from the CPU board to an extension analog/digital board (option). (Use cable “REF-CX100-C0100-U” for connection.)

16 Battery holder Used to hold the memory backup battery (lithium primary cell CR2032).

17 Reset switch Used to reset CP4 system.

Operate the reset switch carefully.

18 CPU lamp Blinks red at regular intervals while the CPU is running normally.

19 DIP switch The top switch is numbered “1” and the bottom one is numbered “8”. Slide each switch to the right to set it to ON.

Slide each switch until it clicks.

20 Input selector switch for

CH 15 and CH 16

Used to switch between terminal blocks 15A and 15B for analog input CH15 and between 16A and 16B for analog input CH16.(15B and 16B are selected by default.) Moving the switch to the right selects terminal block 15A/16A, and moving it to the left selects terminal block 15B/16B.

Move the switch until it clicks.

21 Heat sink

The heat sink is hot. Do not touch it by hand.

22 COM 0 operation lamp Lights green during transmission; lights red during reception.

23 COM 1 terminal block Provides terminals for 4-wire RS-485 communication ports.

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Parts on CPU Boards (continued)

No. Parts Function

24 COM 1 terminating

resistor switches

These switches turn ON/OFF the terminating resistors in the CPU board. They provides termination for the transmission and receiving lines independently. Move the switch up to turn ON the terminating resister.

Move the switch until it clicks.

25 COM 1 operation lamp Lights green during transmission; lights red during reception.

26 COM 0 connector Provides RS-232C Communication Ports. For setting for the ports, see Section 5.8 Adjustments in ‘COMMUNICATION SETUP’ Window (Option 8 of ‘ADJUSTMENT’ Menu (F5)).

2.2.1 Reset Switch on CPU Board

CP4 requires system resetting if the stored setting data is lost or before newly setting up the system.

There are the following two methods for the system resetting.

• Hardware resetting method

• Software resetting method

This section explains the hardware method. (For the software method, see Section 3.4 Software Resetting Method.)

The reset switch is in the location encircled in the above figure.

Press and release the switch to reset CP4. CP4 will be rebooted (but the system is not set up by simply pressing this switch).

The system can also be reset by turning OFF and then ON the CP4 power supply.

Resetting CP4 brings the controller in a momentary instable condition, following which CP4 is placed in a condition that would result just after turning power ON. As this condition is detrimental to the compressor unit if it occurs during operation, never perform system resetting while the compressor and accessory is in operation.

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2.2.2 Replacement of Memory Backup Battery on CPU Board

CP4 uses a primary cell as a power source to retain the setting data and keep driving the internal clock in the event of a power

failure. The battery can supply power enough to back up the memory of setting data for about three years. The battery starts

running down immediately after it is produced even if it is not used.

If power failure occurs when the battery is completely discharged, all data including the setting and log data will be lost and the

internal clock will be reset to zero.

NOTE:

The battery life may be shorter than three years in high-temperature or other unfavorable environments.

To prevent this kind of problem, CP4 has a low battery detection function. If a low battery condition is detected, this function

causes the “BATTERY ALARM” message to blink at the center of the top line in both status display screens (see Section 3.1

Display Screens).

If the “BATTERY ALARM” message is blinking, replace the battery immediately. If the CPU is reset following such an operation as turning on the power supply with the internal battery discharged, PC4 will automatically be restarted by “special booting” for the sake of safety. Once this has occurred, the compressor cannot be operated any further unless the memory backup battery is replaced with a battery of the normal voltage (see Section 3.5 Special Booting).

The memory backup battery can be replaced regardless of whether the system is under power or not. The setting data are not

lost as long as the battery is replaced while the system is under power. However, if the battery is replaced while power is out, all

stored setting data are lost and the internal clock is initialized.

Use the following method to replace the internal battery.

Do this operation carefully not to let the battery touch any of the nearby components.

(1) Insert your fingernail into the part indicated by the arrow and, while holding the old battery by its top and bottom, disengage

only the clip on the left side of the holder. Now the battery is free for removal.

Be sure to hold the battery; otherwise, it will drop from the board when the clip is released.

(The right figure shows the holder after

removal of the battery.)

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(2) While holding a new battery by its top and bottom, engage the battery with the clip (indicated by the arrow) at the right part

in the holder.

(The right figure shows the battery

engaged with the clips. You should still

keep holding the battery as it can drop

out of the board if it is released.)

(3) Set the battery into its horizontal position in the holder.

(4) Lightly press the part indicated by the arrow to fit the battery snugly into position in the holder.

2.3 EPROM Board (REF-CX100-RM01)

The EPROM board to be installed on the CPU board has the following connector and sockets.

NOTE:

The 32-megabit EPROM (software-written circuit board) is installed on the standard version. (The 40-pin socket for 4-megabit

ROM is not used.)

Parts on EPROM Board

No. Parts Function

1 ROM board connector Used to connect the ROM board to the CPU board. The connector is provided on the back of the CPU board.

2 40-pin socket for 4-megabit ROM

This socket is for mounting a programmable ROM circuit board. Mount the ROM board with the recess facing up. A ROM equivalent to 27C4002 (4 megabits) is connectable to this socket. (The use of an ST Micro M27C4002-12F1 is recommended.)

Mount/demount the ROM board carefully.

1

2

3

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Parts on EPROM Board (continued)

No. Parts Function

3 42-pin socket for 32-megabit EPROM

This socket is for mounting a programmable ROM circuit board. Mount the ROM board with the recess facing up. An EPROM equivalent to 27C322 (32 megabits) is connectable to this socket. (The use of an ST Micro M27C322-100F1 is recommended.)

Mount/demount the ROM board carefully.

2.3.1 Replacement of EPROM on CPU Board

Follow the procedure below when replacing (updating) the EPROM (software-written circuit).

(1) Take a note of the settings and other data. (This step may be not necessary depending on the type of the EPROM to be

replaced.)

(2) Turn off the power supply of CP4.

(3) Check that the CPU lamp on the CPU board is OFF. (This is necessary to make sure the power supply has been turned

off.)

(4) Using an EPROM extractor, remove the EPROM carefully from the ROM board.

Do not pry the EPROM using a flat head screwdriver or a similar tool; this may damage the ROM board.

(5) Connect a new EPROM to the IC socket on the left side (as viewed from the front), with the recess facing upward (see the

figure below).

Incorrect connection can cause an operational failure.

(6) Reconfirm that the EPROM is installed correctly.

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(7) Turn on the power supply of CP4. (According to the condition, CP4 may need to be initialized.)

2.4 Analog Input Boards (REF-CX100-AI01, REF-CX100-AI11)

The analog input boards for installation on the CPU board have the following terminal blocks and connectors.

Parts on Analog Input Boards

No. Name Function

1 Analog input board connector

The connector on each analog input board is used to connect it to the CPU board. Theconnector is a 20-pin connector for both analog input boards. (Use cable “REF-CX100-C1201-U” for connection.)

2 24 V DC connectors Used to connect 24 V DC from the analog input/output circuit power supply to the analog input board. (Use cable “REF-CX100-C0401-U” for connection; use cable “REF-CX100-C0501-U” for connection between the AI01 and AI11 boards.)

4 (CH1 to CH3)

4 (CH4 to CH6)

4 (CH7 to CH9)

3

1

2

2

4 (CH16A - CH16B)

4 (CH13 - CH15A)

4 (CH10 - CH12)

3

1

2

2

Insert the EPROM while aligning its recess with the recess in the IC socket.

MY

PR

O-C

PIV

V

er.A.B

C

Not used

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Parts on Analog Input Boards (continued)

No. Name Function

3 Current/voltage selector switches (JP1 to 9 and JP1

to 7) for analog inputs

Each of these switches selects either voltage or current for analog inputs. Set each switch to ON for current input or OFF for voltage input. (All of these switches are defaulted to OFF.)

Move the switch to each position until it clicks.

4 Analog input terminal blocks

Used to connect analog input wires. Each terminal block can supply sensors with power (although the power level is limited). Either current/voltage input or potentiometer input is selectable for CH15 and CH16. CH15A and CH16A are assigned to current/voltage inputs. CH15B is assigned to low-stage potentiometer inputs, and CH16B is assigned to high-stage potentiometer inputs. To use CH15 and CH16, connect desired input lines to the corresponding terminal blocksand then set the current/voltage selector switches for on the CPU board CH 15 and CH 16as appropriate (see Section 2.2).

NOTE:

Use also the above analog input boards when adding analog input channels (AD CH17 to CH32).

2.4.1 Current / Voltage Selection and Terminal Block Connections for Analog Input Boards

Set switches JP1 to JP9 (for CH1 to CH9) and switches JP1 to JP7 (for CH10 to CH14, CH15A, and CH16A) on the associated

analog input boards to ON when the analog input sources provide current signals. Set these switches to OFF for voltage signal

inputs.

The analog input circuits (internal circuit of CP4) are schematically shown below.

When the current/voltage selector switch is set to ON, a 250-ohm resistor is connected to the input circuit as shown in the above

diagram. DC current signals of 4 to 20 mA are then converted into 1 to 5 V DC voltage signals before being input to the

analog-to-digital (A/D) converter circuit. When the selector switch is set to OFF, the current signals are input directly to the A/D

converter circuit.

Make connections on each terminal block as follows:

Analog input boards

To A/D converter circuit

AG

FG

24V

250Ω

1 24V

2 1+

3 1-

4 FG

Input

filter

circuit

Current/voltage

selector switch

Internal circuits of CP4

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- Current signal sources using CP4’s power supply:

Connect “+” side of the input source to the 24V terminal of the terminal block and the “-” side to an appropriate one of the “+”

terminals 1 to 16 on the terminal block.

- Current signal sources using an outside power supply:

Connect the “+” side of the input source to an appropriate one of the “+” terminals 1 to 16 on the terminal block and the “-” side

to an appropriate one of the “-” terminals 1 to 16 on the terminal block.

- Voltage signal sources:

Connect the “+” side of the input source to an appropriate one of the “+” terminals 1 to 16 on the terminal block and the “-” side

to an appropriate one of the “-” terminals 1 to 16 on the terminal block.

Move the switch until it clicks.

NOTE:

The switch is set to OFF before shipment from the factory.

2.4.2 Input Type Selection for Channels 15 and 16 of Analog Input Boards

Like with the Mayekawa’s controller MYPRO-CPIII, CP4 has a means for setting the analog input channels 15 and 16 (CH15 and

CH16) for receiving current/voltage inputs or potentiometer inputs.

When the lever of the analog input selector switch marked “JP3” on the CPU board is moved to the “15A” side, Channel 15 is set

for receiving current/voltage inputs (analog input terminal block CH15A is enabled). When the lever is moved to the 15B side,

Channel 15 is set for receiving potentiometer inputs (analog input terminal block CH15B is enabled).

The same applies to Channel 16 although the switch number and terminal board designations are different accordingly (see

NOTE under the table below).

The diagram below shows the analog-to-digital (A/D) converter circuit (internal circuit of CP4) to schematically depict the above

explanation taking Channel 15 for example.

CPU board Current/voltage inputs CH15A from analog input board

15BPotentiometer converter circuit

Analog-to-

digital

converter

circuit

Analog input selector switch

JP3

Potentiometer inputs CH15B from analog inputboard

15A

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Selection of Input Source Type for Channel 15 (in the case of position inputs for low-stage unloader slide valve)

Input Source Connection JP6 switch

position on analog input board

JP3 switch position on CPU board

Potentiometer Potentiometer inputs 1 to 3 are connected to terminals LF1 to LF3 of terminal block CH15B on analog input board.

Any position 15B

Current input source with power supplied from CP4

Connect “+” side to terminal 24V on CH15A terminal block of analog input board, and “-” side to terminal15A+.

ON 15A

Current input source with power supplied from outside

Connect “+” side of input to terminal 15A+ on CH15A terminal block of analog input board, and “-” side to terminal 15A-.

ON 15A

Voltage input source Connect “+” side of input to terminal 15A+ on CH15A terminal block of analog input board, and “-” side to terminal 15A-.

OFF 15A

NOTE:

The above table also applies to selection of analog input type for channel 16 if channel number “15” is read as “16”, switch

number “JP6” of the AI board as “JP7”, and switch number “JP3” of CPU board as “JP4”.

Move the switch lever until it clicks.

2.5 Optional Analog Output Board (REF-CX100-DA01)

Parts on Analog Output Board

No. Name Function

1 Analog output board connector

Used to connect this analog output board to the CPU board. The CPU board’s connector is located on its back.

2 24 V DC connector Used to supply 24 V DC from the analog input/output circuit power supply to this analog output board. (Use cable “REF-CX100-C0322-U” for connection.)

3 Trimming data memory The trimming data (output adjustment data) for the analog section of the analog outputcircuit is written in a non-volatile memory. As each analog output board has this data memory, re-trimming is not necessary even if an analog output board is added or replaced.

4 Analog output terminal block

Used to connect wires for analog outputs (4 to 20 mA DC).

2

1

3

4

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2.6 Optional Digital Input/Output Drive Base (DB) Board (REF-CX100-DB01)

Parts on Optional Digital Input/Output DB Board

No. Name Function

1 DB board connector Used to connect this DB board to the CPU board.

2 12 V DC connector Used to supply 12 V DC from AD digital input/output circuit power supply via the CPU board. (Use cable “REF-CX100-C0100-U” for connection.)

3 DIO driver connectors Used to connect digital input/output driver (DIOD) boards. Connectors for four DIOD boards (16 terminals) are provided on this DB board. The #1 connector corresponds to I/O terminals 17 to 20, the #2 connector corresponds to I/O terminals 21 to 24, and so on. DIOD boards for connection to the connectors are as follows: #1 : REF-MCS200-SO* (4 outputs) #2 : REF-MCS200-SO* (4 outputs) #3 : REF-MCS200-SO* (4 outputs) #4 : REF-MCS200-SC2* (2 outputs and 2 inputs) (* indicates a revision number.)

4 Rotary switch Used to set the ID (station number) of the DB board.

Do not move the switch from position 1.

5 Digital input/output board connector

Used to connect a digital input/output board and DB board with a cable. Digital input/output boards and cables used are the same as those for the CPU board. (Use cable “REF-CX100-C1301-U” for connection.)

6 Reserved Currently not used

2

5

3

1

4

6

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2.7 Digital Input/Output Board (REF-MCS200-OIA0, REF-MCS200-OIE0 (Optional))

Parts on Digital Input/Output Board

No. Name Function

1 Digital input/output board connector

Used to connect an optional DB board to the CPU board or to a digital input/output board using a cable. (Use cable “REF-CX100-C1301-U” for connection.)

2 Digital input/output terminal block

Used to connect digital input/output wires. Terminals 1A and 1B correspond to digital input/output CH 1; terminals 16A and 16B correspond to digital input/output CH 16.

3 Digital input/output lamp Indicates whether digital input/output is ON or OFF (goes on when input/output is ON and goes off when input/output is OFF). LED 1 corresponds to digital input/output CH1; LED 16 corresponds to digital input/output CH16.

4 Digital output circuit On the REF-MCS200-0IA0 board, digital input/output channels CH1 to CH10 are assigned to digital outputs. On the REF-MCS200-0IE0 board (option), digital input/output channelsCH1 to CH14 are assigned to digital outputs (switch outputs).

5 Digital input circuit On the REF-MCS200-0IA0 board, digital input/output channels CH11 to CH16 are assigned to digital inputs. On the REF-MCS200-0IE0 board (option), digital input/output channels CH15 and CH16 are assigned to digital inputs.

6 Relay sockets These relay sockets provided for digital outputs allow the use of mechanical relays or solid state relays.

7 Relay The following relays are usable. Mechanical relay: OMRON G6B-1114P-US, 12 V DC (rated output load: 5A at 250 V AC/30

V DC) Solid state relay: G3S-201PL-PD-US, 12 V DC (rated output load: 1.2 A at 100 to 240 V

AC)

8 TNR (ceramic variable resistor)

Provided to protect contacts of the relays.

9 Circuit protector Provided to protect the relays from overcurrent. Output is interrupted if current exceeding 1 A flows through relay contacts. Remove the overcurrent condition first and then push in the white knob of the circuit protector to recover relay outputs.

1

3

6, 7

4

5

8

9

2

10

REF-MCS200-OIA0

REF-MCS200-OIE0 (optional) 4

5

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Parts on Digital Input/Output Board (continued)

No. Name Function

10 Frame ground (FG) terminal

Provided to keep continuity between ground (terminal) and the printed circuit board.

Securely connect the FG terminal to ground (terminal); otherwise, the digital input/output board does not work normally.

NOTE:

This digital input/output board is not installed on the back surface of the MYPRO-CPIV Control Panel.

2.8 Optional Communication Board (REF-CX100-RS01)

Parts on Optical Communication Board

No. Name Function

1 Extension Communication board connector

Used to connect this optional extension communication board to the CPU board.

2 COM2 and COM3 lamps Left lamp is for COM2 port and right lamp is for COM3 port. Each lamp lights green during transmission and lights red during reception.

3 Communication power supply connector

Used to supply power from CPU board power supply to this extension communication board. (Use cable “REF-CX100-C0100-U” for connection.)

4 COM2 terminal block Terminal block for 4-wire RS-485 communication ports

5 COM2 terminating switch Used to terminate the transmission and receiving line independently. Moving the switch up terminates the line.

Move the switch until it clicks.

6 COM3 terminal block Terminal block for 4-wire RS-485 communication ports

1

2

3

5

7

6

4

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Parts on Optical Communication Board (continued)

No. Name Function

7 COM3 terminating switch Used to terminate transmission and receiving lines independently. Moving the switch up terminates the line.

Move the switch until it clicks.

2.9 Optional Analog-to-Digital (AD) Converter Board (REF-CX100-AD01)

Parts on Optical AD Converter Board

No. Name Function

1 Extension AD converter board connector

Used to connect this extension AD converter board to the CPU board.

2 Analog input board connector

Used to connect the two types of analog input board and the AD converter board like withthe CPU board. (Use cable “REF-CX100-C1201-U” for connection.)

3 Input selector switch for CH15 and CH16

This switch is used to switch analog input between 15A and 15B terminal boards and between 16A and 16B terminal boards. Moving the switch to the right selects 15A or 16A;moving it to the left selects 15B or 16B.

Move the switch until it clicks.

4 AD board power supply connector

Used to supply power from the CPU board to this AD converter board. (Use cable “REF-CX100-C0100-U” for connection.)

2

3

1

4

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Chapter 3 Operation

3.1 Display Screens

CP4 has two types of status display screen: the “Main Graphic Screen” and “Main Status Screen”. You can swap these screens

by pressing the TAB key while no function menu and windows are displayed.

3.1.1 Acronyms and Abbreviations Used for Indicated Items

In these two screens, the indicated items are represented using the acronyms and abbreviations shown in the following tables.

The tables also show the channel numbers for analog and digital inputs and outputs. For digital input/output channel numbers,

their aliases are also shown.

Real analog inputs

Acronym Full Spelling Input Channel No.

SP SUCTION PRESSURE AI 1 DP DISCHARGE PRESSURE AI 2 OP OIL SUPPLY PRESSURE AI 3 AFP AFTER FILTER PRESSURE AI 4 ST SUCTION TEMPERATURE AI 5 DT DISCHARGE TEMPERATURE AI 6 OT OIL SUPPLY TEMPERATURE AI 7 OS OIL SEPARETER TEMPERATURE AI 8 AFFP AFTER FINE FILTER PRESSURE AI 8 IP IMTERMEDIATE PRESSURE AI 9 IT INTERMEDIATE TEMPERTURE AI10 SDP SYSTEM DISCHARGE PRESSURE AI11 LVL LIQUID LEVEL AI11 MA MOTOR ELECTRIC CURRENT AI12 EBT ENTERING BRINE TEMPERATURE AI13 LBT LEAVING BRINE TEMPERATURE AI14 LSV (LOW STAGE) SLIDE VALVE POSITION AI15 HSV HIGH STAGE SLIDE VALVE POSITION AI16 SSP SYTEM SUCTION PRESURE AI16 or AI19 SVOP SLIDE VALVE OIL SUPPLY PRESSURE AI16 PSV Vi PORT SLIDE VALVE POSITION AI16 SP1 SUCTION PRESSURE1 AI17 GT1 CHILLER GAS TEMPERATURE1 AI18 RLD REMOTE CAPACITY CONTROL TARGET AI20 SP2 SUCTION PRESSURE2 AI25 GT2 CHILLER GAS TEMPERATURE2 AI26 OPT1 OPTION ANALOG INPUT 1/4 AI8, AI9, AI10, AI11, AI13, AI14, AI21, AI22, AI23 or AI24 OPT2 OPTION ANALOG INPUT 2/4 AI8, AI9, AI10, AI11, AI13, AI14, AI21, AI22, AI23 or AI24 OPT3 OPTION ANALOG INPUT 2/4 AI8, AI9, AI10, AI11, AI13, AI14, AI21, AI22, AI23 or AI24 OPT4 OPTION ANALOG INPUT 4/4 AI8, AI9, AI10, AI11, AI13, AI14, AI21, AI22, AI23 or AI24

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Virtual analog inputs (derived from real analog inputs through calculation)

Acronym Full Spelling Assigned Input Channel No.

⊿OP OIL DIFFERENTIAL PRESSURE AI65

⊿FP FILTER DIFFERENTIAL PRESSURE AI66

⊿P DIFFERENTIAL PRESSURE AI67 SSH SUCTION SUPERHEAT AI68 ISH INTERMEDIATE SUPERHEAT AI69 DSH DISCHARGE SUPERHEAT AI70 D/S DISCHARGE/SUCTION PRESSURE RATIO AI71 Vi CALCULATED Vi AI72 CRVi CURRENT Vi AI73 CAP COMPRESSOR CAPACITY AI74 SVP SLIDE VALVE PERCENTAGE AI75 ATP AUTO STAGE TARGET PRESSURE AI76 ⊿OP2 OIL DIFFERENTIAL PRESSURE2 AI77 SH2 SUCTION SUPERHEAT2 AI78 ⊿FFP FINE FILTER DIFFERENTIAL PRESSURE AI79 N.C. NOT CONNECTED

Digital inputs/outputs

Acronym Full Spelling Input/Output Cannel No. Alias

COMP COMPRESSOR DO1 Y 0 OILP OILPUMP DO2 or DO20 Y 1 or Y13I/CS LIQUID SUPPLY SOLENOID VALVE for

ECONOMIZER/INTERCOOLER DO2 or DO8 Y 1 or Y 7

LOAD (LOW STAGE) LOADING SOLENOID VALVE DO3 Y 2 UNLD (LOW STAGE) UNLOADING SOLENOID VALVE DO4 Y 3 HILD HIGH STAGE LOADING SOLENOID VALVE DO5 Y 4 INJS LIQUID SUPPLY SOLENOID VALVE for LIQUID

INJECTION DO5 Y 4

HIUL HIGH STAGE UNLOADING SOLENOID VALVE DO6 Y 5 INJY YOSAKU EXPANSION VALVE for LIQUID

INJECTION DO6 Y 5

OILH OIL HEATER DO7 Y 6 EVPS LIQUID SUPPLY SOLENOID VALVE for CHILLER DO7 or DO17 Y 6 or Y10ViBP BYPASS SOLENOID VALVE for Vi PORT DO7 Y 6 ViLD LOADING SOLENOID VALVE for Vi PORT DO8 Y 7 OILD OIL DRAIN SOLENOID VALVE DO9 Y 8 OILF OIL FEED SOLENOID VALVE DO9 Y 8 OILR OIL RETURN SOLENOID VALVE DO9 Y 8 ViUL UNLOADING SOLENOID VALVE for Vi PORT DO9 Y 8 FAIL FAILURE DO10 Y 9 EMGC EMERGENCY STOP DI11 X A MSRB MAIN STARTER READ BACK DI12 X B ITL1 INTERLOCK-1 DI13 X C ITL2 INTERLOCK-2 DI14 X D ITL3 INTERLOCK-3 DI15 X E RMST REMOTE START INPUT DI16 X F MPLD LOADING SOLENOID VALVE for PORT-M DO17 or DO26 Y10 or Y19EVPY YOSAKU EXPANSION VALVE for CHILLER DO18 Y11 MPUL UNLOADING SOLENOID VALVE for PORT-M DO18 or DO27 Y11 or Y1ACHLP CHILLER PUMP DO19 Y12 SVBP BYPASS SOLENOID VALVE for Vi SLIDE VALVE DO19 Y12 SBYP BYPASS SOLENOID VALVE for STARTING DO20 or DO28 Y13 or Y1BHBYP BYPASS SOLENOID VALVE for HOT GAS DO20 Y13 I/CY YOSAKU EXPANSION VALVE for

ECONOMIZER/INTERCOOLER DO21 Y14

O/P2 OIL PUMP2 DO21 Y14 ALRM ALARM DO22 Y15 EVS2 LIQUID SUPPLY SOLENOID VALVE2 for CHILLER DO23 Y16 LHLD LOADING SOLENOID VALVE for PORT-L/H DO23 or DO29 Y16 or Y1CEVY2 YOSAKU EXPANSION VALVE2 for CHILLER DO24 Y17 LHUL UNLOADING SOLENOID VALVE for PORT-L/H DO24 or DO30 Y17 or Y1DCND1 OUTPUT1 for CONDENSER(VFD) DO25 Y18 AUX AUXILIARY DO25 Y18

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Digital inputs/outputs (continued)

Acronym Full Spelling Input/Output Cannel No. Alias

CND2 OUTPUT2 for CONDENSER DO26 Y19 CND3 OUTPUT3 for CONDENSER DO27 Y1A CND4 OUTPUT4 for CONDENSER DO28 Y1B IJY2 YOSAKU EXPANSION VALVE2 for LIQUID

INJECTION DO28 Y1B

CND5 OUTPUT5 for CONDENSER DO29 Y1C EVS3 LIQUID SUPPLY SOLENOID VALVE3 for CHILLER DO29 Y1C CND6 OUTPUT6 for CONDENSER DO30 Y1D EVY3 YOSAKU EXPANSION VALVE3 for CHILLER DO30 Y1D RMLD REMOTE LOAD INPUT DI31 X1E RMUL REMOTE UNLOAD INPUT DI32 X1F

PID controller

Acronym Full Spelling

LSV P (LOW STAGE) SLIDE VALVE on PRESSURE LSV T (LOW STAGE) SLIDE VALVE on CHILLER LEAVING BRINE TEMPERATURE SCTSH CHILLER EXPANSION VALVE on SUCTION SUPERHEAT SPLMT LIMIT on SUCTION PRESSURE for CHILLER EXPANSIN VALVE LBLMT LIMIT on CHILLER LEAVING BRINE TEMPERATURE for CHILLER EXPANSIN VALVE INTSH ECONOMIZER/INTERCOOLER EXPANSION VALVE on INTERMEDIATE SUPERHEAT INJCT LIQUID INJECTION LVGBT FLOW CONTROL VALVE on CHILLER LEAVING BRINE TEMPERATURE CNDNS VFD CONDENSER FAN HI SV HIGH STAGE SLIDE VALVE on INTERMEDIATE PRESSURE VFD P VFD COMPRESSOR on PRESSURE VFD T VFD COMPRESSOR on CHILLER LEAVING BRINE TEMPERATURE SCSH2 CHILLER EXPANSION VALVE2 on SUCTION SUPERHEAT2 SP2LM LIMIT on SUCTION PRESSURE2 for CHILLER EXPANSIN VALVE2 LEVEL LEVEL SV SET VALUE MV MANIPULATION VALUE

Others

Acronym Full Spelling

A/O, AO ANALOG OUTPUT AI ANALOG INPUT C7 CHARACTER BIT 7 C8 CHARACTER BIT 8 CH. CHANNEL COM, COMM

COMMUNICATION

COMP. COMPRESSOR CTRL CONTROL D/O DIGITAL OUTPUT ECONO. ECONOMIZER/INTER COOLER EXP.VALVE EXPANSION VALVE H.SLIDE VALVE

HIGH STAGE SLIDE VALVE

HI HIGH HRS HOURS HSV HIGH STAGE SLIDE VALVE POSITION I/O INPUT/OUTPUT INTER INTERMEDIATE L.SLIDE VALVE

LOW STAGE SLIDE VALVE

LB CHILLER LEAVING BRINE TEMPERATURE LO LOW MV MANIPURATING VALUE MVH MANIPULATING VALUE HIGH LIMIT MVL MANIPULATING VALUE LOW LIMIT OIL P. OIL PUMP P. PAGE

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Others (continued)

Acronym Full Spelling

PE EVEN PARITY PN NON PARITY PO ODD PARITY PRES. PRESSURE PRESS. PRESSURE S1 STOP BIT 1 S2 STOP BIT 2 SETPT SET POINT SH SUPERHEAT SP SUCTION PRESSURE SV SLIDE VALVE POSITION or SOLENOID VALVE TEMP TEMPERATURE VFD VARIABLE FREQUNCY DRIVE W/ WITH W/O WITHOUT

3.1.2 Main Graphic Screen

The “Main Graphic Screen” shows the compressor’s current status using graphics. Colors and symbols help you to check the

compressor’s operating conditions and alarms.

The Main Graphic Screen has priority over the “Main Status Screen”, the other compressor status screen. To select the Main

Status Screen, press the TAB key when no function menu or window is displayed.

Colors and symbols are used as follows:

Refrigerating system and oil pump in operation: Displayed in green.

Refrigerating system and oil pump not in operation: Displayed in gray.

Refrigerating system automatically stopped: Displayed in red.

In FAILURE (critical failure) condition: Indicated by a blinking symbol.

In ALARM (non-critical failure) condition: Indicated by a blinking symbol.

Title block

Warning display

Timer

ALARM/FAILURE display

Function menu display

DATE

Status display

Low battery alarm

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• If a low battery alarm “BATTERY ALARM” is displayed showing that the memory

backup battery is discharged, replace the battery immediately (see Section 2.2.2 Replacement of Memory Backup Battery on CPU Board).

• If the CPU is reset following such an operation as turning on the power supply with the internal battery discharged, PC4 will automatically be restarted by “special booting” for the sake of safety. Once this has occurred, the compressor cannot be operated any further unless the memory backup battery is replaced with a battery of the normal voltage (see Section 3.5 Special Booting).

3.1.3 Main Status Screen

The “Main Status Screen” shows the current status related to operation of the compressor unit using letters and numeric values.

To change the display to the Main Graphics Screen, press the TAB key when no function menu or window is displayed.

Display of Main Status Screen

No. Name Function

1 Title block Displays controller’s name.

2 DATE Displays current date and time. Also indicates panel inside temperature.

3 OPERATION MODE window

Displays current operation control mode, compressor status, and operation start/stop

settings.

4 CAPACITY CONTROL window

Displays current status of capacity control.

This window also gives an indication if increase of the compressor’s capacity is prohibited

or it is forcedly reduced.

5 MAIN STATUS window

Displays current values of individual analog inputs, calculated values derived from analog

inputs, total operating time count, and day’s operating time count.

6 COMMUNICATION window

Displays current communication status.

1

3

4

6

7

8

2

5

9

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Display of Main Status Screen (continued)

No. Name Function

7 ALARM/FAILURE display area

Displays currently issued alarms.

The alarms cannot be cleared unless the ALARM CLEAR key is pressed (certain alarms

cannot be cleared by the ALARM CLEAR key.).

This field is blank if no alarm is issued.

(see Section 7.1 Settings in ‘ALARM/FAILURE’ Windows 1/3 to 3/3)

8 Function display area Displays function menus corresponding to function keys (F1 to F7).

(see Section 1.2 Menu-Window Organization (Menu Tree))

9 Low battery alarm Displays “BATTERY ALARM” warning when the memory backup battery is discharged.

If the low battery alarm “BATTERY ALARM” is displayed, replace the memory backup battery immediately.

‘OPERATION MODE’ window The ‘OPERATION MODE’ window indicates the current selections and states concerning the operation control mode and other

items related to control of the compressor.

Items of ‘OPERATION MODE’ Window

Item Selection/State Description

NO ‘D/O TEST OPERATION’ is disabled (automatic operation is possible).

D/O TEST OPERATION (Manual operation (see

Section 6.2)) YES ‘D/O TEST OPERATION’ is enabled (automatic operation is impossible).

-ON LOCAL -OFF

START and STOP keys on the front panel are used to start and stop the compressor.

-ON REMOTE -OFF

Compressor starts/stops according to the remote start/stop inputs at DI-16.

-ON COMM -OFF

Compressor starts/stops according to commands given by a remote device through communications.

-ON

MODE (Operation control mode

(see Section 6.1))

STAGE -OFF

Compressor starts/stops according to the “automatic staging” (‘AUTO STAGE’) control (option). (see Section 6.7)

NO Automatic start/stop control of the compressor according to the set values is disabled.

YES Automatic start/stop control of the compressor according to the set values is enabled.

AUTO START/STOP (Automatic operation

(see Section 6.1)) STG Automatic start/stop control according to the “automatic staging”

(‘AUTO STAGE’) control (option) is enabled. STOP Compressor is stopped. ANTI CYCLE Compressor is in “anti-cycle” state. AUTO STOP Compressor is automatically stopped. CUT IN Operation sequence of compressor is started. SYSTEM START System is being activated. OIL PUMP START Oil pump is started. START Compressor is being started. RUN Compressor is running. CUT OUT Stop control sequence is started.

COMP STATE (Compressor state)

PUMP OUT Liquid recovery is in progress.

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Items of ‘OPERATION MODE’ Window (continued)

Item Selection/State Description

CUT IN (Operation start

pressure) Pressure or temperature

Indicates current setting for the start (CUT IN) pressure/temperature. This item also indicates new setting resulting from switching/change made to ‘SCHEDULE’ (see Section 6.4) or ‘COMM’ (see Section 6.1).

CUT OUT (Operation stop

pressure) Pressure or temperature

Indicates current setting for the stop (CUT OUT) pressure/temperature. This line also indicates new setting resulting from switching/change made to ‘SCHEDULE’ (see Section 6.4) or ‘COMM’ (see Section 6.1).

SCHEDULE (Schedule No.) 1 to 7 Displays current SCHEDULE No. (see Section 6.4).

SETPOINT (Set point No.)

1 to 4 Displays current SETPOINT No. (see Section 6.4).

‘CAPACITY CONTROL’ window This window displays the current states of the capacity control.

Items of ‘CAPACITY CONTROL’ Window

Item Status Description

SETPOINT (Capacity control set

value) Pressure or temperature

Indicates the current set value for capacity control. This item also indicates new setting resulting from switching/change made to ‘SCHEDULE’ (see Section 6.4) or ‘COMM’ (see Section 6.1).

% Indicates calculated value currently used by the capacity controller. PID OUT (Capacity controller

output) rpm Rotating speed that corresponds to the manipulating value is indicated for a variable frequency drive (VFD) compressor.

LOAD Indicates the unloader slide valve’s “increase” movement (as finally determined from combination of the positioner, limiter, and sequence controls). STATE

(Capacity control state) UNLOAD

Indicates the unloader slide valve’s “decrease” movement (as finally determined from combination of the positioner, limiter, and sequence controls).

LIMIT Indicates that an increase in compressor’s capacity caused by an increase in electric current of the compressor motor power is prohibited. MA

(Motor amperage limiter) UNLOAD Indicates that the compressor’s capacity is forcibly decreased upon

increase in electric current of the compressor motor power.

LIMIT Indicates that an increase in compressor’s capacity caused by an increase in discharge pressure is prohibited.

DP (Discharge pressure

limiter) UNLOAD Indicates that the compressor’s capacity is forcibly decreased upon increases in discharge pressure.

LIMIT Indicates that an increase in compressor’s capacity caused by an decrease in suction pressure is prohibited.

SP (Suction pressure

limiter) UNLOAD Indicates that the compressor’s capacity is forcibly decreased upon decreases in suction pressure.

LIMIT Indicates that an increase in compressor’s capacity caused by an increase in intermediate pressure is prohibited (option). IP

(Intermediate pressure limiter) UNLOAD Indicates that the compressor’s capacity is forcibly decreased upon

increases in intermediate pressure (option).

NOTE:

- If a limiter is activated, the capacity control is limited even when the control target pressure or temperature is higher than the

capacity control set value (SETPOINT).

- When a limiter is activated, words ‘LIMIT’ and ‘UNLOAD’ are displayed in white. When the limiter is deactivated, they are

displayed in gray.

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‘COMMUNICATION’ window This window displays the status of communications for each port.

Items of ‘COMMUNICATION’ Window

Item Status Description

OFF NEUTRAL Communications are disabled.

NEUTRAL Communications are enabled but no signal is being transmitted through the communication line.

REQUESTED Communications are enabled, and a request message is being received.

REQUESTING Communications are enabled, and a request message is being sent.NO REQUEST Communications are enabled but there is no request. ERROR Communications are enabled but error occurred (during reception).

COMM-0 (Communication

port 0) ACTIVE

FAILED Communications are enabled but there is no response to request message.

NOTE:

Indication for communication ports ‘COM-2’ and ‘COM-3’ are provided only when an extension communication board is installed.

‘MAIN STATUS’ window This window displays various measurements and other analog input data.

Items of ‘MAIN STATUS’ Window

Item Description Item Description

SP Actual suction pressure measurement at AI-01

ST Actual measurement of suction temperature at AI-05

( SSP ) Actual system suction pressure measurement at AI-16 or -19

SSH Calculated value of suction superheating temperature at VAI-04

( SP1 ) Actual measurement of evaporator’s gas outlet pressure 1 at AI-17

( GT1 ) Actual measurement of evaporator’s gas outlet temperature 1 at AI-18

( SH2 ) Calculated value of suction superheating temperature 2 at VAI-14

( SP2 ) Actual measurement of evaporator’s gas outlet pressure 2 at AI-25

( GT2 ) Actual measurement of evaporator’s gas outlet temperature 2 at AI-26

DP Actual discharge pressure measurement at AI-02

DT Actual measurement of discharge temperature at AI-06

( SDP ) Actual system discharge pressure measurement at AI-11 DSH Calculated value of discharge superheating

temperature at VAI-06 ( LVL ) Actual liquid level measurement at AI-11

OP Actual supply oil pressure measurement at AI-03

OT Actual measurement of supply oil temperature at AI-07

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Items of ‘MAIN STATUS’ Window (continued)

Item Description Item Description

( OS ) Actual measurement of separated oil temperature at AI-08 (North American markets) AFP Actual measurement of after-oil-filter oil

pressure at AI-04 ( AFFP ) Actual measurement of after-fine-filter

differential pressure at AI-08 (EU markets)

( SVOP ) Actual measurement of supply oil pressure for slide valve at AI-17

(⊿OP2 ) Calculated value of supply oil differential pressure 2 at VAI-17

( IP ) Actual intermediate pressure measurement at AI-09

( IT ) Actual measurement of intermediate temperature at AI-10

(⊿FFP) Calculated value of after-fine-filter differential pressure at VAI-15 ( ISH ) Calculated value of intermediate superheat

temperature at VAI-05

⊿OP Calculated value of supply oil differential pressure at VAI-01

( EBT ) Actual chiller inlet temperature at AI-13

⊿P Calculated value of differential pressure at VAI-03

( LBT ) Actual chiller outlet temperature at AI-14

⊿FP Calculated value of after-oil-filter differential pressure at VAI-02 MA Actual electric current value of compressor

motor at AI-12

LSV Actual position measurement of low-stage slide valve at AI-15

( HSV ) Actual measurement of high-stage slide valve position at AI-16

( RLD ) Actual measurement of remote capacity command input at AI-20

REFRIGERANT Refrigerant type RUN Running time of last operation cycle STOP Time of duration of final stop

TODAY Today’s running time

RUN TIME After-resetting (after-overhaul) running time

TOTAL TIME Total (non-resettable) running time

( OPT1 ) Actual measurement of optional analog input 1/4

( OPT2 ) Actual measurement of optional analog input 2/4

( OPT3 ) Actual measurement of optional analog input 3/4 ( OPT4 ) Actual measurement of optional analog input

4/4

NOTE:

- In the above table “AI-xx” indicates an analog input channel number, while “VAI-xx” indicates a virtual analog input channel

number. Virtual analog values are generated through calculation inside CP4 and used as inputs.

- The parenthesized items are indicated only when the corresponding options have been selected. (For the method for selecting

options, see Chapter 4 Setups (‘SETUP’ Menu (F6)).)

- The following virtual input values are derived from the associated actual measurements as follows:

• Calculated supply oil differential pressure “⊿OP”

Case 1 (all conditions except those of Case 2):

⊿OP = OP (actual supply oil pressure) - DP (actual discharge pressure)

Case 2 (when the compressor is of a Single J Group or an FM160 Group, or when the compressor has no oil pump or the oil

pump is not in operation):

⊿OP = OP (actual supply oil pressure) - SP (actual suction pressure)

• Calculated differential pressure “⊿P”

Case 1 (all single-stage compressors except Single J Group compressors with operating oil pumps):

⊿P = AFP (actual after-oil-filter pressure) - SP (actual suction pressure)

Case 2 (two-stage compressor Compound-1 or Compound-2):

⊿P = AFP (actual after-oil-filter pressure) - IP (actual intermediate pressure)

Case 3 (Single J Group compressors with operating oil pumps):

⊿P = OP (actual supply oil pressure) - SP (actual suction pressure)

Case 4 (Single J Group or FM160 Group compressors with no oil pumps or oil pumps not in operation):

Differential pressure calculation is disabled.

• Calculated after-oil-filter differential pressure “⊿FP”

Case 1 (all compressors except Single J Group and FM160 Group compressors):

⊿FP = DP (actual discharge pressure) - AFP (actual after-oil-filter oil pressure)

Case 2 (Single J Group compressors):

⊿FP = DP (actual discharge pressure) - OP (actual supply oil pressure)

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Case 3 (FM160 Group compressors):

⊿FP = AFP (actual after-oil-filter pressure) - OP (actual supply oil pressure)

• Calculated after-fine-filter differential pressure “⊿FFP”

⊿FFP = DP (actual discharge pressure) - AFFP (actual after-fine-filter oil pressure)

• Calculated supply oil differential pressure 2 “⊿OP2”

⊿OP2 = SVOP (actual supply oil pressure for slide valve) - DP (actual discharge pressure)

Function Menus When one of the function keys (F1 to F7) is pressed, a menu listing the options (window titles) available in it is displayed as

shown in the following example.

12345678901234567890123456789012345678901234567890123456789012345678901234567890

Function Menus

No. Name Function

1 Function display area When one of the function keys F1 to F7 is pressed, the name of corresponding function (title of the menu) is displayed in reverse video.

2 Function menu When one of the function keys F1 to F7 is pressed, the menu listing the options (windows) for the function is displayed.

2

1

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Windows When any of the options in a function menu is selected, the window corresponding to the selection will open as shown in the

following example.

Windows

No. Name Function

1 Window When an option is selected from a function menu, the corresponding window opens. The window shows its title and the setting items it contains.

3.2 To Make Settings – Selection from Options

Use the TAB key to select the window where setting is to be made. The first item of the selected window is displayed in reverse

video.

To select an item for setting within the window, use the , , , or key.

Any item with a box in the setting area has two or more options for your selection. Use the following method to make setting

for such an item.

1. Use the TAB key to move the cursor into the window that contains the item for which you desire to make setting.

1

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2. Move the cursor to the item using the or key.

3. Press the ENTER key; a list of options appears.

4. Select the desired option from the list using the or key.

5. Press the ENTER key to confirm your selection. The selected option then turns red. (The cursor will move to the next item.)

6. Press the SAVE key to save your selection into memory. (The selected option will turn into the normal display color when

saved.)

NOTE:

Without pressing the SAVE key, the setting will not have any effect on the control.

3.3 To Make Setting – Entry Using Keys

Use the TAB key to select the window where setting is to be made. The first item of the selected window is displayed in reverse

video.

To select an item for setting within the window, use the , , , or key.

Any item having a setting area enclosed between brackets requires the use of numeral keys for entering a value. Use the

following method to make entries for such an item.

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NOTE:

If you select “psi” gauge to display pressures, then “inch Hg” is automatically selected as units of vacuums for both monitoring

and setting.

1. Use the TAB key to move the cursor to the window that contains the item for which you desire to make setting.

2. Move the cursor to the item using the , , , or key.

3. Enter the desired value using numeric keys.

When entering a value in units of “inch Hg”, press the minus (-) key first to enter a number proceeded by “-”.

4. Press the ENTER key to confirm the entry. The entered value then turns red. (The cursor will move to the next item.)

For entry in units of “inch Hg”, the unit display changes to “Hg” when you press the ENTER key to confirm the entry.

5. Press the SAVE key to save the entry into memory.

NOTE:

- Without pressing the SAVE key, the setting will have no effect on the control. Saving by pressing the SAVE key is necessary

also for units of values to make the setting valid.

- When you enter values in units of “inch Hg”, confirming the entry by pressing the ENTER key determines “inch Hg” as units for

display.

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3.4 Software Resetting Method

It is necessary to perform “special booting” of CP4 before you can select optional control functions and make setting for these

functions, but CP4 requires “system resetting” before you can perform or cancel “special booting”.

There are the following two “system resetting” methods:

- Hardware method

- Software method

This section describes the software method (For the hardware method, see Section 2.2.1 Reset Switch on CPU Board.).

Procedure

With CP4 activated when the compressor unit is not operating, close all menus and press the SHIFT, ALT, and DELETE keys

simultaneously. (Pressing these keys when the compressor unit is in operation is invalid.)

The screen shown above appears. (Pressing the ESC key in this state cancels the above operation of the three keys, causing

normal operation of CP4 to resume.)

Press the ENTER key; “system resetting” will be executed.

Resetting the system brings CP4 in a momentarily instable condition, following which CP4 is placed in a condition that would result just after turning power ON. As this condition is detrimental to the system if it occurs during operation, never perform system resetting while the compressor or any of the accessories is in operation.

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3.5 Special Booting

In addition to normal booting, “special booting” is used to start PC4.

Special booting is the method used before performing the system setup and initializing individual control settings. When PC4 is

started using special booting, the compressor’s control sequence and other sequence are placed into a halt, rendering the

compressor inoperative.

If CPU is reset following turning power on or other action that takes place under a low battery condition, the CP4 automatically performs special booting for the sake of safety. Once this occurs, further operation of the compressor unit is prohibited unless the battery is replaced with a normal voltage battery (see Section 2.2.2 Replacement of Memory Backup Battery on CPU Board).

Special booting also automatically takes place after performing any of the setting changes described in Section 4.2 Settings in

‘ANALOG INPUT SCALING’ Window (Option 2 of ‘SETUP’ Menu (F6)).

Special booting is necessary before performing the following operation:

- Selection of an optional control function

- System setup

- Option setups

- Initialization of settings

The figure below shows the first screen that appears immediately after power-up or resetting of CP4.

For normal booting, either wait 5 seconds with the above screen displayed or press the ESC key.

For special booting, press the SHIFT, ALT, and DELETE keys at the same time while this display is on the screen.

The screen will then display the following messages.

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(The above screen is for the case without using the “hardware key”.)

When any of the numeric keys 1 to 4 is pressed while this display is on the screen, the items indicated to the right of each number

in the following table are initialized (reset to the initial values).

Numeric key Initialized items

1

The following settings are returned to the initial settings: Control settings, ‘OPTION SETUP’ items, ‘SYSTEM SETUP’ items, and ‘OPTION SELECT’ items. (Use of the “hardware key” is required. This special device is not supplied with the product and used for adjustments necessary before shipment of the product from the factory.)

2 The following settings are returned to the initial settings: Control settings, ‘OPTION SETUP’ items and ‘SYSTEM SETUP’ items.

3 The following settings are returned to the initial settings: Control settings and ‘OPTION SETUP’ items.

4 The following settings are returned to the initial settings: Control settings.

NOTE:

For the ‘OPTION SETUP’, ‘SYSTEM SETUP’, and ‘OPTION SELECT’ items, see Chapter 4.

After the initialization, or if do not want the initialization, pressing the ESC key causes the following screen to appear, where you

can make setting for each item.

Message appearing when special booting is

performed.

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When special booting is executed, the screen displays the “CONTROL PROGRAM HAS BEEN STOPPED BY SPECIAL BOOT.”

message, indicating that the internal sequences such as the compressor control sequence are brought to a halt (all digital

outputs turn off and all analog outputs are at 0 %).

To cancel special booting and restart PC4 by normal booting perform the following operation:

Close all menus and press the SHIFT, ALT, and DELETE keys simultaneously.

The post-resetting screen showing the “BOOT PROCESS IS IN PROGRESS” message will then appear. Wait 5 seconds without

doing anyting or press the ESC key to initiate the normal booting.

Resetting the system brings CP4 in a momentarily instable condition, following which CP4 is placed in a condition that would result just after turning power ON. As this condition is detrimental to the system if it occurs during operation, never perform system resetting while the compressor or any of the accessories is in operation.

The settings for the items in the ‘OPTION SELECT’, ‘SYSTEM SETUP’, and ‘OPTION SETUP’ windows (see Chapter 4) must be cnsistent with the settings made on the compressor unit. If there are discrepancies in setting between the controller and the compressor unit, the operational control of the compressor may become improper and the compressor’s protection functions may not work at all. When canceling the special booting (i.e. shifting to the normal booting), be sure to turn OFF the operation command inputs in order to prevent the compressor from starting unexpectedly. Whenever new settings or changes to settings are made for the ‘OPTION SELECT’, ‘OPTION SETUP’ and ‘SYSTEM SETUP’ items, be sure to also confirm the relevant settings for other functions before starting the compressor unit.

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Chapter 4 Setups (‘SETUP’ Menu (F6))

4.1 Setting in ‘SYSTEM SETUP’ Window (Option 1 of ‘SETUP’ Menu (F6))

The ‘SYSTEM SETUP’ window is for setting the type of the compressor, type of the refrigerant used, units of the entered and

displayed values, and other parameters related to the setup of CP4.

Special booting is needed to enable this window. (Simply doing normal booting does not make the ‘SETUP’ menu appear on the

screen even when the F6 key is pressed.)

In addition, entry of a LEVEL-3 password is required to access to the ‘SYSTEM SETUP’ window.

Do not make setting to enable any parameter item that assumes prior installation of an optional extension board if the board itself is not installed. Doing such setting may cause PC4 to issue an “EMERGENCY STOP FAILURE” alarm that cannot be canceled by the CLEAR ALARM key. If the alarm is issued, the compressor cannot continue operation.

NOTE:

Even when PC4 is started by normal booting, you can check the current setting for each item using the ‘SHOW SYSTEM SETUP’

window (Option 1 of the ‘DIAGNOSTIC’ menu (F7)), although no setting change is possible in this window.

NOTE:

In the following table, the setting options marked * are the default settings.

Items in ‘SYSTEM SETUP’ Window

Item Setting Option Description

* NORTH AMERICA North American specification. (Oil separator temperature (OS) can be displayed.)

EUROPE European specification. (The after-fine-filter pressure (AFFP) can be displayed.)

I/O PLATFORM (Input/output specification)

ASIA Asian specification. (Neither OS nor AFFP can be displayed.)* YES With oil separator temperature sensor OIL SEPARATOR TEMP.

SENSOR NO Without oil separator temperature sensor

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Items in ‘SYSTEM SETUP’ Window (continued)

Item Setting Option Description

* YES With after-fine-filter pressure sensor AFTER FINE FILTER PRESS. SENSOR NO Without after-fine-filter pressure sensor

* ENGLISH - FRENCH - GERMAN - PORTUGUESE - RUSSIAN -

LANGUAGE

SPANISH - * SINGLE Single-stage compressor models ECONOMIZER W/O

SENSOR Economizer (without intermediate temperature and pressure sensors)

ECONOMIZER W/SENSOR

Economizer (with intermediate temperature and pressure sensors) (Intermediate pressure (IP), intermediate temperature (IT) and intermediate superheat (ISH) are displayed.)

COMPOUND-1 (1610 & 1612)

Two-stage compressor models (1610 and 1612) (Intermediate pressure (IP), intermediate temperature (IT) and intermediate superheat (ISH) are displayed.)

COMPOUND-2 (2016 & HIGHER)

Two-stage compressor (2016 and higher number models) (High-stage slide valve position (HSV), intermediate pressure (IP), intermediate temperature (IT), and intermediate superheat (ISH) are displayed.)

SINGLE UD-V (VARIABLE Vi)

Compressor with automatic Vi control

400 SERIES 400 series compressors (unloader side valve oil supply pressure (SVOP) and oil differential pressure 2 (⊿OP2) are displayed.)

SINGLE J J series compressors SINGLE J ECONOMIZER

W/O SENSOR J series with economizer (without intermediate temperature and pressure sensors)

SINGLE J ECONOMIZER W/ SENSOR

J series with economizer (with intermediate temperature and pressure sensors) (Intermediate pressure (IP), intermediate temperature (IT), and intermediate superheat (ISH) are displayed.)

FM160 FM160 model compressors FM160 ECONOMIZER

W/O SENSOR FM160 model compressors with economizer (without intermediate temperature and pressure sensors)

COMPRESSOR (Compressor type)

FM160 ECONOMIZER W/ SENSOR

FM160 model compressors with economizer (with intermediate temperature and pressure sensors) (Intermediate pressure (IP), intermediate temperature (IT), and intermediate superheat (ISH) are displayed.)

* OBVERSE Obverse side of mAYEKAWA MYCOM refrigerating system LOAD INDICATOR LOCATION (Unloader side valve position indicator location)

REVERSE Reverse side of mAYEKAWA MYCOM refrigerating system

W/O OIL PUMP Without oil pump * W/ 1-OIL PUMP With one oil pump

OIL PUMP (Number of oil pumps)

W/ 2-OIL PUMPS With two oil pumps * LEAD Y01/LAG Y14 Output for leading pump: Y01; output for lagging pump: Y14OIL PUMP LEAD/LAG

LEAD Y14/LAG Y01 Output for leading pump: Y14; output for lagging pump: Y01* FULL LUBE Pump-pressurized oil feed PRE LUBE Differential-pressure oil feed

OIL FEED TYPE

PARTIAL LUBE Pump-pressurized oil feed only at startup MPascal Abs Absolute pressure in MPa Mpascal Gauge Gauge reading in MPa Kgf/cm2 Abs Absolute pressure in Kgf/cm2 Kgf/cm2 Gauge Gauge reading in Kgf/cm2 bar Abs Absolute pressure in bar bar Gauge Gauge reading in bar psi Abs Absolute pressure in psi

PRESSURE DISPLAY (Units of pressure display)

* psi Gauge Gauge reading in psi K Absolute temperature oC Centigrade temperature

TEMPERATURE DISPLAY (units)

* oF Fahrenheit temperature

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Items in ‘SYSTEM SETUP’ Window (continued)

Item Setting Option Description

R22 Chloradifluoromethane (CHCIF2) R23 Trifluoromethane (CHF3) R134a 1,1,2,2-Tetrafluoromethane (C2H2F4) R404A Blend of R-125/R-143a/R-134a R407C Blend of R-32/R-125/R-134a R410A Blend of R-32/R-125 R502 Blend of R-22/R-115 R507A R-125/R-143a * R717 Ammonia(NH3) R290 Propane(C3H8) R744 Carbon dioxide (CO2)

REFRIGERANT (Type)

USER DEFINED Undefined refrigerant (Superheat is not displayed.) Change to LOCAL MODE Automatic change to the LOCAL mode OPERATION MODE

ON FAILURE * Keep Current MODE Staying in the current operation control mode Change to LOCAL STOP Changed to the STOP state in the LOCAL mode OPERATION MODE

RESTORE ON POWER UP * Keep Current CONDITION Staying in the current operation control mode and state. * AUTO RESET Alarm is automatically reset. ALARM RESET KEY PAD Alarm is reset by CLEAR ALARM key. * YES Alarm is output. ALARM OUTPUT NO Alarm is not output. * NORMAL OPEN Normally “open”; “closed” on alarm ALARM/FAILURE OUTPUT

TYPE NORMAL CLOSE Normally “closed”; “open” on alarm

NOTE:

“ALARM” indicates a non-critical alarm allowing continued operation of the compressor unit. “FAILURE” indicates a critical alarm

causing an immediate shutdown of the compressor unit.

4.2 Settings in ‘ANALOG INPUT SCALING’ Window (Option 2 of ‘SETUP’ Menu (F6))

The ‘ANALOG INPUT SCALING’ window is for setting the scaling (the range between the upper and lower limits and units) of the

values of the sensors connected to the analog input channels and the units in which these values are indicated. This window is

also used to set the upper and lower limits of the compressor motor current (in terms of the primary current to secondary current

ratio (CT ratio)) and the scaling of optional analog inputs.

Special booting is needed to enable this window. Simply doing normal booting does not cause the ‘SETUP’ menu to appear even

when the F6 key is pressed. In addition, entry of the LEVEL-3 password is required to access to this window.

NOTE:

Even after a start of CP4 by normal booting, you can check the current setting for each item using the ‘SHOW SYSTEM SETUP’

window (Option 2 of ‘DIAGNOSTIC’ menu (F7)) although no setting change is possible in the window.

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Items in ‘ANALOG INPUT SCALING’ Window

Item Parameter Description

NO UNIT Units are not displayed. MPascal Abs Absolute pressure in MPa Mpascal Gauge Gauge reading in MPa Kgf/cm2 Abs Absolute pressure in Kgf/cm2 Kgf/cm2 Gauge Gauge reading in Kgf/cm2 bar Abs Absolute pressure in bar bar Gauge Gauge reading in bar psi Abs Absolute pressure in psi psi Gauge Gauge reading in psi K Absolute temperature oC Temperature in Centigrade oF Temperature in Fahrenheit Ampere Compressor motor current in ampere % Percent mm/SEC mm/second *2 “/SEC inch/second *2 rpm Number of rotations/minute *2

SENSOR (Units of sensor values)

Hz Hertz (cycles/second) *2 LEFT Enter a value (in the range from -99999 to 99999) at the time

of 0% input. (However, | LEFT - RIGHT | ≤ 2047) *1

SCALING (Scaling of sensor values)

RIGHT Enter a value (in the range from -99999 to 99999) at the time of 100% input. (However, | LEFT - RIGHT | ≤ 2047) *1

PROCESS VALUE (Current value)

Displays the current value after scaling.

NOTE:

*1 This limit is ignored when “Ampere” is selected for a sensor item.

*2 Effective only for the analog inputs that are assigned in the ‘OPTION ANALOG INPUT’ window (Option 3 of ‘SETUP’ menu

(F6)).

When any of the settings is changed in the ‘ANALOG INPUT SCALING’ window, the CPU will automatically reset itself upon closure of the window. After every closure of the window under this condition, CP4 automatically initiates special booting to prevent unexpected start of the compressor.

4.3 Settings in ‘OPTION ANALOG INPUT’ Window (Option 3 of ‘SETUP’ Menu (F6))

This window allows assigning up to four unoccupied analog input channels to sensors so that their values (together with their

units) can be displayed on the screen. When analog input channels are assigned to sensors in this window, not only the sensor

data can be displayed on the screen and read via communications, but also it becomes possible to assign an ALARM

(non-critical alarm) and FAILURE (critical alarm) thresholds to the sensor outputs in both upward and downward directions.

Special booting is needed to enable this window. (Simply doing normal booting does not cause the ‘SETUP’ menu (F6) to appear

on the screen.)

In addition, entry of the LEVEL-3 password is required to access to this window.

NOTE:

Even after a start of CP4 by normal booting, you can check the current setting for each item using the ‘SHOW OPTION ANALOG

INPUT’ window (Option 3 of ‘DIAGNOSTIC’ menu (F7)) although no setting change is possible in the window.

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Unless channel numbers corresponding to the sensors in parentheses below already occupy the boxes 1/4 to 4/4 under

‘CHANNEL’ in the window, you can assign a channel numbers to a vacant channel. (Default values are “xxxx”, indicating “no

assignment”.)

- AI 8 (oil separator temperature, after-fine-filter pressure)

- AI 9 (intermediate pressure)

- AI10 (intermediate temperature)

- AI11 (system discharge output, liquid level)

- AI13 (brine inlet temperature)

- AI14 (brine outlet temperature)

- AI16 (high-stage slide valve position, system suction pressure)

- AI21: Does not work even if assigned unless optional AD board REF-CX100-AD01 is installed.

- AI22: Does not work even if assigned unless optional AD board REF-CX100-AD01 is installed.

- AI23: Does not work even if assigned unless optional AD board REF-CX100-AD01 is installed.

- AI24: Does not work even if assigned unless optional AD board REF-CX100-AD01 is installed.

The following units can be assigned to the option analog inputs.

Item Unit Description

NO UNIT (default) No unit TEMPERATURE Temperature sensor PRESSURE Pressure sensor CURRENT Current sensor RATE 0.0 - 100.0 % VIBRATION Vibrometer sensor REVOLUTION Revolution sensor

SENSOR

FREQUENCY Frequency

NOTE:

When setting the scaling for inputs of the assigned sensors, See Section 4.2 Settings in ‘ANALOG INPUT SCALING’ Window

(Option 2 of ‘SETUP’ Menu (F6)) Window”.

Following types of ALARM or FAILURE are selectable for the assigned optional analog input item. For the method, see Section

7.1 Settings in ‘ALARM/FAILURE’ Windows 1/3 to 3/3.

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Item Type Description

NOT USE (default) No ALARM and FAILURE are assigned LOW Low ALARM or Low FAILURE is assigned HIGH High ALARM or High FAILURE is assigned

ALARM or FAILURE

HIGH & LOW Low and High ALARM, or Low and High FAILURE is assigned

4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))

This window allows you to make “USE/NOT USE” setting and other selection for each optional control function.

Special booting is needed to enable this window.

In addition, entry of the LEVEL-2 password is required to access to this window.

Do not enable any of the items that assume prior installation of an optional extension board if the board itself is not actually installed. Doing such setting may cause PC4 to generate an “EMERGENCY STOP FAILURE” alarm that cannot be canceled by the CLEAR ALARM key. If the alarm is issued, the compressor cannot continue operation.

NOTE:

Even after a start of CP4 by normal booting, you can check the current setting for each item using ‘SHOW OPTION SETUP 1/2’

window (Option 5 of the ‘DIAGNOSTIC’ menu (F7)) , although no setting change is possible in the window.

Option selection for each of the items in the “OPTION SELECT Item” column in the following table is possible only when that item

is enabled (that is, ‘ENABLE’ is selected for the item in the ‘OPTION SELECT’ window). See Section 4.6 Settings in ‘OPTION

SELECT’ Window (Option 6 of ‘SETUP’ Menu (F6)) for details. (Also refer to Section 1.3.)

NOTE:

- The setting options marked * in the following table are the default selections.

- For interpretation of the acronyms and abbreviations in the “Description” column, see Section 3.1.

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Items in ‘OPTION SETUP 1/2’ Window

‘OPTION SELECT’ Item Item Setting Option Description

* NONE Not used DIGITAL Control using digital inputs

REMOTE CAPACITY CONTROL

REMOTE CAPACITY CONTROL

ANALOG Control using analog inputs (RLD is displayed.)

* NOT USE Not used CONDENSER CONTROL USE Used * LOCAL DISCHARGE

PRESSURE - CONDENSER CONTROL

TARGET SYSTEM DISCHARGE

PRESSURE System discharge pressure is displayed.

* ON/OFF SINGLE SET Single target ON/OFF control

CONDENSER VFD CONTROL

CONDENSER CONTROL METHOD ON/OFF MULTI SET Multiple target ON/OFF

control * NOT USE - CONDENSER CONTROL USE - * LOCAL DISCHARGE

PRESSURE - CONDENSER CONTROL

TARGET SYSTEM DISCHARGE

PRESSURE System discharge pressure is displayed.

* ON/OFF SINGLE SET Single target ON/OFF control

CONDENSER 3STEPS CONTROL or CONDENSER 6STEPS CONTROL

CONDENSER CONTROL METHOD ON/OFF MULTI SET Multiple target ON/OFF

control * NOT USE - AUTO STAGING AUTO STAGER 2UNITS - 8UNITS - * NOT USE - VFD COMPRESSOR

(Inverter capacity control) USE - * NOT USE -

VFD COMPRESSOR

VFD COMPRESSOR OUTPUT LIMIT (Inverter output range limit control)

USE -

* NOT USE - HIGH STAGE CAPACITY CONTROL

HIGH STAGE CAPACITY CONTROL USE IP, IT, ISH, and HSV are

displayed. * NOT USE - USE

DO10,11,12,16,17(UD-V) USE

DO19,1A,1B,1C,1D(UD-V)

AUTO Vi CONTROL AUTO Vi CONTROL

USE J SERIES

(‘AUTO Vi’ window is displayed in Main Status Screen.)

* NOT USE - LIQUID INJECTION OIL COOLING CONTROL USE -

NONE/THERMAL EXPANSION

-

* YOSAKU 1-VALVE YOSAKU expansion valve x 1 YOSAKU 2-VALVES YOSAKU expansion valve x 2

INJECTION VALVES (Type of control valves)

MOTORIZED CONTROL VALVE

4 - 20 mA driven expansion valve

* DISCHARGE TEMPERATURE

-

LIQUID INJECTION OIL COOLING CONTROL

CONTROL TARGET

DISCHARGE SUPERHEAT

-

* NOT USE - HOT GAS BYPASS CONTROL

HOT GAS BYPASS CONTROL USE -

* NOT USE - STARTING BYPASS CONTROL

STARTING BYPASS CONTROL USE -

* LSV & SP Liquid supply control depending on both high-stage capacity and suction pressure

When ‘COMPOUND-2(2016 & HIGHER)’ is selected for ‘COMPRESSOR’ in ‘SYSTEM SETUP’ window

ECONIMIZER/INTERCOOLER LIQUID SUPPLY CONTROL

HSV & IP Liquid supply control depending on both high-stage capacity and intermediate pressure

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Items in ‘OPTION SETUP 1/2’ Window (continued)

‘OPTION SELECT’ Item Item Setting Option Description

* NOT USE - ECONOMIZER/INTERCOOLER EXPANSION VALVE CONTROL

USE (IP, IT, and ISH are displayed.)

NONE/TERMAL EXPANSION

-

* YOSAKU YOSAKU expansion valve

ECONOMIZER/INTERCOOLER EXPANSION VALVE CONTROL

EXPANSION VALVES

MOTORIZED CONTROL VALVE

4 - 20 mA driven expansion valve

* NOT USE - COMPRESSOR OIL SEAL CONTROL

COMPRESSOR OIL SEAL CONTROL USE -

* NOT USE - LEVEL CONTROL LEVEL CONTROL USE - * LOCAL SUCTION

PRESSURE -

SYSTEM SUCTION PRESSURE

(System suction pressure is displayed.)

CHILLER ENTERING TEMPERATURE

(EBT is displayed.)

CONTROL TARGET (CUT IN/OUT)

CONTROL TARGET (CUT IN/OUT)

CHILLER LEAVING TEMPERATURE

(LBT is displayed.)

* LOCAL SUCTION PRESSURE

-

SYSTEM SUCTION PRESSURE

SSP is displayed.

CHILLER LEAVING TEMPERATURE

LBT is displayed.

COMBINED LOCAL SP/LB - COMBINED SYSTEM

SP/LB -

LOCAL DISCHARGE PRESSURE

-

CONTROL TARGET (CAPACITY CONTROL)

CONTROL TARGET (CAPACITY CONTROL)

SYSTEM DISCHARGE PRESSURE

SDP is displayed.

4.5 Setting in ‘OPTION SETUP 2/2’ Window (Option 5 of ‘SETUP’ Menu (F6))

This window allows you to make “USE/NOT USE” setting and other selection for each optional control function.

Special booting is needed to enable this window.

In addition, entry of the LEVEL-2 password is required to access to this window.

Do not enable any of the items that assume prior installation of an optional extension board if the board itself is not actually installed. Doing such setting may cause PC4 to generate an “EMERGENCY STOP FAILURE” alarm that cannot be canceled by the CLEAR ALARM key. If the alarm is issued, the compressor cannot continue operation.

NOTE:

Even after a start of CP4 by normal booting, you can check the current setting for each item using ‘SHOW OPTION SETUP 2/2’

window (Option 6 of the ‘DIAGNOSTIC’ menu (F7)), although no setting change is possible in the window.

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Option selection for each of the items in the “OPTION SELECT Item” column in the following table is possible only when that item

is enabled (that is, ‘ENABLE’ is selected for the item in the ‘OPTION SELECT’ window). See Section 4.6 Settings in ‘OPTION

SELECT’ Window (Option 6 of ‘SETUP’ Menu (F6)) for details.

NOTE:

- The setting options marked * in the following table are the default selections.

- For interpretation of the acronyms and abbreviations in the “Description” column, see Section 3.1.

Items in ‘OPTION SETUP 2/2’ Window

‘OPTION SELECT’ Item Item Setting Option Description

* NOT USE - CHILLER CONTROL USE - * 1 1 valve 2 2 valves

LIQUID SUPPLY SV

3 3 valves NONE/THERMAL

EXPANSION None or thermal expansion valve

YOSAKU 1-VALVE YOSAKU expansion valve x 1 YOSAKU 2-VALVES YOSAKU expansion valve x 2* 1-MOTORIZED CONTROL

VALVE 4 - 20 mA driven expansion valve

EXPANSION VALVES

2-MOTORIZED CONTROL VALVES

4 - 20 mA driven expansion valve x 2 (SP1, GT1, SP2, and GT2 are displayed.)

* SH ONLY Control depending on superheat alone

SH W/ SP LIMIT Limit control depending on superheat and suction pressure

SH W/ LB LIMIT Limit control depending on superheat and chiller outlet temperature

EXPANSION VALVE CONTROL

SH W/ SP & LB LIMIT Limit control depending on suction pressure and chiller outlet temperature

* NO - CHILLER GAS PRESS. SENSOR YES (SP1 is displayed.)

* NO - CHILLER GAS TEMP. SENSOR YES (GT1 is displayed.)

* NO -

CHILLER CONTROL

CHILLER ENTERING TEMP. SENSOR YES (EBT is displayed.)

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Items in ‘OPTION SETUP 2/2’ Window (continued)

‘OPTION SELECT’ Item Item Setting Option Description

* NO - CHILLER LEAVING TEMP. SENSOR YES (LBT is displayed.)

* NOT USE - CHILLER LEAVING TEMP. CONTROL USE -

* NOT USE - CONTINUOUS Continuous operation

CHILLER CONTROL (continued)

CHILLER PUMP MODE

AUTO START/STOP Automatic start/stop

4.6 Settings in ‘OPTION SELECT’ Window (Option 6 of ‘SETUP’ Menu (F6))

This window allows you to make enable/disable setting for each optional control function.

Special booting is needed to enable this window.

In addition, entry of a LEVEL-3 password is required to access to this window.

NOTE:

The setting options marked * in the following table are the default selections.

Items in ‘OPTION SELECT’ Window

‘OPTION SELECT’ Item Setting Option Description

* DISABLE - REMOTE CAPACITY CONTROL ENABLE -

* DISABLE - VFD ONLY Enabled (Variable frequency drive only) VFD + 2STEPS Enabled (Variable frequency drive and 2-step control) VFD + 3STEPS Enabled (Variable frequency drive and 3-step control)

CONDENSER VFD CONTROL

VFD + 5STEPS Enabled (Variable frequency drive and 5-step control) * DISABLE - CONDENSER 3STEPS

CONTROL ENABLE - * DISABLE - CONDENSER 6STEPS

CONTROL ENABLE - * DISABLE - CHILLER CONTROL ENABLE - * DISABLE - AUTO STAGING ENABLE - * DISABLE - VFD COMPRESSOR ENABLE - * DISABLE - HIGH STAGE CAPACITY

CONTROL ENABLE -

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Items in ‘OPTION SELECT’ Window (continued)

‘OPTION SELECT’ Item Setting Option Description

* DISABLE - AUTO Vi CONTROL ENABLE - * DISABLE - LIQUID INJECTION OIL

COOLING CONTROL ENABLE - * DISABLE - HOT GAS BYPASS

CONTROL ENABLE - * DISABLE - STARTING BYPASS

CONTROL ENABLE - * DISABLE - ECONOMIZER/INTERCOOL

ER EXPANSION VALVE CONTROL

ENABLE -

* DISABLE - LEVEL CONTROL ENABLE - * DISABLE - COMPRESSOR OIL SEAL

CONTROL ENABLE - * DISABLE - 400 SERIES COMPRESSOR

CONTROL ENABLE -

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Chapter 5 Adjustments (‘ADJUSTMENT’ Menu (F5))

5.1 Settings in ‘SLIDE VALVE SETUP’ Window (Option 1 of ‘ADJUSTMENT’ Menu (F5))

The settings in this window are necessary to enable automatic calibration of the 0 % and 100 % position signals of the unloader

slide valve.

NOTE:

CP4 cannot complete the automatic calibration processing if any of the following conditions exists:

- The potentiometer for detecting the slide valve position is defective.

- The potentiometer is installed at an inappropriate angle.

- Connection to analog input channels is incorrect.

- Any of the analog input selections is incorrect (see Section 2.4.2 Input Type Selection for Channels 15 and 16 of Analog Input

Boards).

The setting in this window is possible only when ‘YES’ is selected for ‘D/O TEST OPERATION’ in the ‘OPERATION MODE’

window (Option 1 of the ‘SETPOINT’ menu (F1)). If ‘NO’ is selected, the ‘NOT AVAILABLE’ message shown in the following

figure appears, indicating that the setting in the ‘SLIDE VALVE SETUP’ window is not possible.

When ‘YES’ is selected for ‘D/O TEST OPERATION’, the screen displays as follows.

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Setup Procedure

The setup procedure in this window is different according to the compressor type. Use the appropriate one of the following four

different procedures.

a. Single-stage compressors (except compressors with an automatic Vi adjustment function and J-Series compressors)

and two-stage compressors without a function for detecting the high-stage unloader valve position

1. Press the ENTER key to activate the ‘SLIDE VALVE SETUP’ function

(Display showing the current settings for the unloader slide

valve)

2. The output from DO-04 (Y03) of the digital input/output board on CP4 turns ON, energizing the low-stage capacity

“reduction” solenoid valve to start unloading the compressor. (The output from DO-02 (Y01) also turns on to

command operation of the oil pump.)

Press the TAB key when the capacity has reached 0.0 % to set the ‘SLIDE VALVE MINIMUM’ value.

The ‘SLIDE VALVE Location’ value changes from 0 to 4095 as the input changes from 0 % to 100 %.

(Screen for setting ‘SLIDE VALVE MINIMUM’ value)

3. The output from DO-03 (Y02) of the digital input/output board on CP4 turns on, energizing the low-stage capacity

“increase” solenoid valve to start loading of the compressor.

Press the TAB key when the capacity has reached 100.0 %.

NOTE:

The processing does not advance to the next step unless the ‘SLIDE VALVE Location’ value at this time is larger than

the value at the time of the ‘SLIDE VALVE MINIMUM’ value in the above step.

(Screen for setting ‘SLIDE VALVE MAXIMUM’ value)

4. The output from DO-04 (Y03) of the digital input/output board on CP4 turns on, energizing the low-stage capacity

“reduction” solenoid valve to start unloading the compressor. When the compressor is unloaded down to 5.0 %, the

output from DO-04 (Y03) to the low-stage capacity “reduction” solenoid valve automatically turns OFF. (The oil pump

operation command output from DO-02 (Y01) also turns OFF. The ‘SLIDE VALVE SETUP’ window then closes and

the display returns to the ‘ADJUSTMENT’ menu.)

(Screen showing automatic movement of the slide valve to

unload the compressor)

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Setup operation in this ‘SLIDE VALVE SETUP’ window involves actual operation of the oil pump. Check for safety in the compressor unit area before pressing the keys.

NOTE:

Pressing the ESC key at any time can cancel the setup procedure halfway.

b. Two-stage compressors (when ‘COMPOUND-2 (2016 & HIGHER)’ has been selected for the ‘COMPRESSOR’ item

in the ‘SYSTEM SETUP’ window)

1. Press the ENTER key to activate the ‘SLIDE VALVE SETUP’ function.

(Display showing the current settings for the unloader slide

valve)

2. The output from DO-04 (Y03) of the digital input/output board on CP4 turns on, energizing the low-stage capacity

“reduction” solenoid valve to start unloading of the compressor. (The output from DO-02 (Y01) also turns on to

command operation of the oil pump.)

Press the TAB key to set the low-stage ‘SIDE VALVE MINIMUM’ value when the capacity has reached 0.0 %.

The ‘SLIDE VALVE Location’ value changes from 0 to 4095 as the input changes from 0 % to 100 %.

(Screen for setting the low-stage ‘SLIDE VALVE MINIMUM’

value)

3. The output from DO-03 (Y02) of the digital input/output board on CP4 turns on, energizing the low-stage capacity

“increase” solenoid valve to start loading of the compressor.

Press the TAB key to set the low-stage ‘SLIDE VALVE MAXIMUM’ when the capacity has reached 100.0 %.

NOTE:

The processing does not advance to the next step unless the ‘SLIDE VALVE Location’ value at this time is larger than

the value at the time of the (low-stage) ‘SLIDE VALVE MINIMUM’ value in the above step.

(Screen for setting the low-stage ‘SLIDE VALVE

MAXIMUM’ value)

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4. The output from DO-06 (Y05) of the digital input/output board on CP4 turns on, energizing the high-stage capacity

“reduction” solenoid valve to start unloading of the compressor.

Press the TAB key to set the high-stage ‘SLIDE VALVE MINIMUM’ value when the capacity has reached 0.0 %.

(Screen for setting the high-stage ‘SLIDE VALVE

MINIMUM’ value)

5. The output from DO-05 (Y04) of the digital input/output board on CP4 turns on, energizing the high-stage capacity

“increase” solenoid valve to start loading of the compressor.

Press the TAB key when the capacity has reached 100.0 %.

NOTE:

The processing does not advance to the next step unless the ‘SLIDE VALVE Location’ value at this time is larger than

the value at the time of the high-stage ‘SLIDE VALVE MINIMUM’ value in the above step.

(Screen for setting the high-stage ‘SLIDE VALVE

MAXIMUM’ value)

6. The outputs from DO-04 (Y03) and DO-06 (Y05) of the digital input/output board on CP4 turn ON, energizing the

low-stage capacity “reduction” solenoid valve and high-stage capacity “reduction” solenoid valve to start unloading of

the compressor. When the compressor is unloaded down to 5.0 %, the outputs from both DO-04 (Y03) and DO-06

(Y05) to the corresponding low- and high-stage capacity “reduction” solenoid valves automatically turn OFF. (The oil

pump operation command output from DO-02 (Y01) also turns OFF. The ‘SLIDE VALVE SETUP’ window then closes

and the display returns to the ‘ADJUSTMENT’ menu.)

(Screen showing automatic movement of the slide valves

for unloading)

Setup operation in the ‘SLIDE VALVE SETUP’ window involves actual operation of the oil pump. Check for safety in the compressor area before pressing the keys.

NOTE:

Pressing the ESC key at any time can cancel the setup procedure halfway.

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c. Compressors with an automatic Vi adjustment function (when ‘SINGLE UD-V (Variable Vi)’ has been selected for

‘COMPRESSOR’ in the ‘SYSTEM SETUP’ window)

1. Press the ENTER key to activate the ‘SLIDE VALVE SETUP’ function.

(Display showing the current settings for the unloader slide

valve)

2. At the end of a fixed 5-second period taken for confirming the rise in oil supply differential pressure, the outputs from

DO-18 (Y11), DO-23 (Y16), and DO-04 (Y03) of the digital input/output board on CP4 all turn on, energizing the Vi

slide (M port) “plug” solenoid valve, Vi slide (LH port) “increase” solenoid valve, and capacity control “decrease”

solenoid valve, respectively. (The output from DO-02 (Y01) also turns on to command operation of the oil pump.)

Wait for 60 seconds (the Vi port is brought into the H port in this period).

(Adjustment is in progress to bring Vi port into H port)

3. Among the above outputs of the digital input/output board on CP4, the one from DO-18 (Y11) for the Vi slide (M port)

“plug” solenoid valve and the one from DO-23 (Y16) for the Vi slide (LH port) “increase” solenoid valve are both

turned OFF, while the rest from DO-04 (Y03) for the capacity control “decrease” solenoid valve remains ON, letting

the compressor be unloaded.

Press the TAB key to set the ‘SLIDE VALVE MINIMUM’ (0 %) value when the capacity and the unloader slide valve

position have reached 0.0 %.

The ‘SLIDE VALVE Location’ value changes from 0 to 4095 as the input changes from 0 % to 100 %.

(Screen for setting ‘SLIDE VALVE MINIMUM (0 %)’)

4. Of the outputs from the digital input/output board on CP4, output from DO 04 (Y03) for the capacity “decrease” control

solenoid valve turns off, while that from DO-03 (Y02) for the capacity “increase” control solenoid valve turns on to

start loading of the compressor.

Press the TAB key to set the ‘SLIDE VALVE MAXIMUM at H PORT’ value when the capacity has reached 100.0 %.

NOTE:

The processing does not advance to the next stage unless the ‘SLIDE VALVE Location’ value is larger than the value

at the time of the ‘SLIDE VALVE MINIMUM (0 %)’ setting in the above step.

(Screen for setting ‘SLIDE VALVE MAXIMUM at H PORT’)

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5. Of the outputs from the digital input/output board on CP4, the one from DO-03 (Y02) for the capacity “increase”

control solenoid valve turns OFF, and the ones from DO-17 (Y10) for the Vi slide (M port) “drain” solenoid valve and

from DO-24 (Y17) for the Vi slide (LH port) “decrease” solenoid valve both turn ON.

Wait for 60 seconds (the Vi port is brought into the M port during this period).

(Adjustment is in progress to bring Vi port into M port)

6. Among the outputs of the digital input/output board on CP4, the one from DO-17 (Y10) for the Vi slide (M port) “drain”

solenoid valve and the one from DO-24 (Y17) for the Vi slide (LH port) “decrease” solenoid valve both turn OFF, while

the one from DO-03 (Y02) for the capacity control “increase” solenoid valve turns ON, letting the compressor be

loaded.

Press the TAB key to set the ‘SLIDE VALVE MAXIMUM at M PORT’ value when the unloader slide valve position

reached 100.0 %.

NOTE:

The processing does not advance to the next stage unless the ‘SLIDE VALVE Location’ value at this time is larger

than the value at the time of the H port setting in the above step.

(Screen for setting ‘SLIDE VALVE MAXIMUM at M PORT’)

7. Of the outputs from the digital input/output board on CP4, the output from DO-03 (Y02) for capacity “increase”

solenoid valve turns OFF, while the output from DO-18 (Y11) for the Vi slide (M port) “plug” solenoid valve and the

one from DO-24 (Y17) Vi slide (LH port) “decrease” solenoid valve both turn ON.

Wait for 60 seconds (the Vi port is brought into the L port during this period).

(Adjustment is in progress to bring Vi port into L port)

8. Among the outputs of the digital input/output board on CP4, the one from DO-18 (Y11) for the Vi slide (M port) “plug”

solenoid valve and the one from DO-24 (Y17) for the Vi slide (LH port) “decrease” solenoid valve both turn off, while

the one from DO-03 (Y02) for the capacity control “increase” solenoid valve turns on, letting the compressor be

loaded.

Press the TAB key to set the ‘SLIDE VALVE MAXIMUM 100 %’ value when the capacity and unloader slide valve

position have reached 100.0 %.

NOTE:

The processing does not advance to the next stage unless the ‘SLIDE VALVE Location’ value at this time is larger

than the value at the time of the M port setting in the above step.

(Screen for setting ‘SLIDE VALVE MAXIMUM 100 %’ value)

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9. Of the outputs from the digital input/output board on CP4, the output from DO-03 (Y02) for capacity “increase” control

solenoid valve turns off and the output from DO-04 (Y03) for the capacity “decrease” control solenoid valve turns on.

When the compressor is unloaded to 5.0 % as a result, the output from DO-04 (Y13) for the capacity “decrease”

control solenoid valve automatically turns off.

(The oil pump operation command output from DO-02 (Y01) also turns off, the SLIDE VALVE SETUP window closes,

and the display returns to the ‘ADJUSTMENT’ menu.)

(Screen showing automatic movement of the slide valve for

unloading)

NOTE:

Depending on the settings made in the ‘OPTION SETUP 1/2’ and ‘OPTION SETUP 2/2’ windows (Options 4 and 5 of the

‘SETUP’ menu (F6)), the assignments for digital outputs may change to the following:

Vi slide (M port) “drain” solenoid valve output Y19

Vi slide (M port) “plug” solenoid valve output Y1A

Vi slide “bypass” solenoid valve output Y1B

Vi slide (LH port) “increase” solenoid valve output Y1C

Vi slide (LH port) “decrease” solenoid valve output Y1D

Setup operation in the ‘SLIDE VALVE SETUP’ window involves actual operation of the oil pump. Check for safety in the compressor area before pressing the keys.

NOTE:

Pressing the ESC key at any time can cancel the setup procedure halfway.

d. J Series compressors (when ‘SINGLE J’, ‘SINGLE J ECONOMIZER W/O SENSOR’, or ‘SINGLE J ECONOMIZER W/

SENSOR’ has been selected for ‘COMPRESSOR’ in the ‘SYSTEM SETUP’ window)

1. Press the ENTER key to activate the ‘SLIDE VALVE SETUP’ function.

(Display showing the current settings for unloader slide

valve)

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2. CP4 retains the following output states for 60 seconds in order to ensure that the Vi slide value is set to the H port

poison and the unloader slide valve moves completely to the unloaded (0 %) position.

Y01: Oil pump ON

Y02: Unloader slide valve’s “increase” solenoid valve OFF

Y04: Unloader slide valve’s “decrease” solenoid valve ON

Y07: Vi slide valve’s “increase” solenoid valve ON

Y08: Vi slide valve’s “decrease” solenoid valve OFF

Wait until the display changes at the end of 60 seconds.

(Display while variable Vi auxiliary slide valve is being

adjusted to H port position)

3. After the display has changed, CP4 retains the following output states again in order to record the 0 % position of the

unloader slide valve in memory.

Y01: Oil pump ON

Y02: Unloader slide valve’s “increase” solenoid valve OFF

Y04: Unloader slide valve’s “decrease” solenoid valve ON

Y07: Vi slide valve’s “increase” solenoid valve ON

Y08: Vi slide valve’s “decrease” solenoid valve OFF

Press the TAB key to set the ‘SLIDE VALVE MINIMUM (0 %)’ value when the position indicator of the unloader slide

valve has become 0.0 %.

(Screen for setting ‘SLIDE VALVE MINIMUM (0 %)’)

4. After you have pressed the TAB key, CP4 retains the following output states now in order to move the unloader slide

value to the 100 % position.

Y01: Oil pump ON

Y02: Unloader slide valve’s “increase” solenoid valve ON

Y04: Unloader slide valve’s “decrease” solenoid valve OFF

Y07: Vi slide valve’s “increase” solenoid valve ON

Y08: Vi slide valve’s “decrease” solenoid valve OFF

Press the TAB key to set the ‘SLIDE VALVE MAXIMUM at H PORT’ value when the position of the unloader slide

valve has become 100.0 %.

NOTE:

The processing does not advance to the next stage unless the ‘SLIDE VALVE Location’ value is larger than the value

for the ‘SLIDE VALVE MINIMUM’ value in the above step.

(Screen for setting ‘SLIDE VALVE MAXIMUM at H PORT’)

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5. CP4 retains the following output states for 60 seconds now in order to set the Vi slide valve to the L port position.

Y01: Oil pump ON

Y02: Unloader slide valve’s “increase” solenoid valve OFF

Y04: Unloader slide valve’s “decrease” solenoid valve OFF

Y07: Vi slide valve’s “increase” solenoid valve OFF

Y08: Vi slide valve’s “decrease” solenoid valve ON

Wait until the display changes at the end of 60 seconds.

(Screen displayed while Vi slide valve is being adjusted to L

port position)

6. After the display has changed, CP4 retains the following output states now in order to fix the 100 % position (for L

port) of the unloader slide valve.

Y01: Oil pump ON

Y02: Unloader slide valve’s “increase” solenoid valve ON

Y04: Unloader slide valve’s “decrease” solenoid valve OFF

Y07: Vi slide valve’s “increase” solenoid valve OFF

Y08: Vi slide valve’s “decrease” solenoid valve ON

Press the TAB key to set ‘SLIDE VALVE MAXIMUM’ value when the position of the unloader slide valve has become

100.0 %.

NOTE:

The processing does not advance to the next step unless the ‘SLIDE VALVE Location’ value is larger than the value

for the 100 % position of the unloader slide valve at the H port and also the ‘Vi Location’ value is smaller than the

value for the Vi slide valve at the H port.

(Screen while ‘SLIDE VALVE MAXIMUM’ is being set)

7. After you have pressed the TAB key, CP4 retains the following output states now in order to bring the unloader slide

valve back to the fully unloaded position.

Y01: Oil pump ON

Y02: Capacity “increase” solenoid valve OFF

Y04: Capacity “decrease” solenoid valve ON

Y07: Vi slide “increase” solenoid valve OFF

Y08: Vi slide “decrease” solenoid valve OFF

(After the unloader slide valve has returned to the fully unloaded position, CP4 set all the above outputs to OFF. The

SLIDE VALVE SETUP window closes and the display returns to the ‘ADJUSTMENT’ menu.)

(Screen showing the unloader slide valve being brought to

the fully unloaded position automatically)

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Setup operations in the ‘SLIDE VALVE SETUP’ window involve actual operation of the oil pump. Check for safety in the compressor area before pressing the keys.

NOTE:

Pressing the ESC key at any time can cancel the setup procedure halfway.

5.2 Settings in ‘SET TIME’ Windows (Option 2 of ‘ADJUSTMENT’ Menu (F5))

When you open the ‘SET TIME’ window, three sub-windows with the following titles appear on the screen: ‘SET TIME’, ‘DISPLAY

TIMER’, and ‘OTHER TIMER’. These sub-windows allow you to make settings related to the date/time and timers.

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Items in ‘SET TIME’ Windows

Sub-window Title Item Description

30SEC

Press ENTER key after selecting this item. Second count will change to “00” of the nearest minute as follows: The second count from 0 to 29 will adjust to 00 with the minute count unchanged. The second count from 30 to 59 will adjust to 00 with the minute count advanced by one.

WEEK Select a day of week from the setting options.

MONTH Enter the number for current month (“1” for January, “2” for February, and so on).

DAY Enter the number for the current date. YEAR Enter the number for the current year. HOUR Enter the number for the current hour. MINUITE Enter the number for the current minute.

SET TIME

SECOND Enter the number for the current second.

CLOSE MENU

This item is for setting the time before the menus and windows automatically close (default setting: 8 minutes). A function menu and a window, if opened, will be closed upon the lapse of the set time unless a key on the front panel is pressed before the time expires. NOTE: If “0” is set, the menus and windows remain opened regardless of the time.

BACK LIGHT OFF

This item is for setting the time before the screen backlight automatically goes out (default setting: 10 minutes). The backlight will turn off upon the lapse of the set time unless a key on the front panel is pressed before the time expires. NOTE: - The backlight will light again if you press any of the front panel keys. - If “0” is set, the backlight remains on regardless of the time.

DISPLAY TIMER

PASSWORD LIFE

This item is for setting a desired time during which the entered password remains valid (default: 30 minutes). The entered password, if it is correct, remains valid until the set time expires. NOTE: - Entry of the password is requested again before you can open a window

after the expiration of the time. - If “0” is set, the password remains valid regardless of the time.

OTHER TIMER TREND LOG

This item is for setting the time of sampling interval for the trend log. The number of sampling points for the trend log is fixed at 1,440. This means the time over which the sampling is made becomes longer as you set a longer time as the interval. You can set “0” or any time between 1 and 21,600 seconds. NOTE: If “0” is set for the interval, data will not be updated. Example: - When the interval is set to 60 seconds (1 minute), the trend log time

becomes 24 hours. - When the interval is set to 1 second, the trend log time becomes 24

minutes.

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5.3 Settings in ‘PASSWORD’ Window (Option 3 of ‘ADJUSTMENT’ Menu (F5))

This window allows you to change any of the previously registered LEVEL-1 to LEVEL-3 passwords.

First, enter the old password in the brackets [ ] under ‘OLD’ on the old appropriate line. If the password you entered is valid, you

are authorized to enter a new password in the corresponding brackets under ‘NEW’.

For the method of the entry, see Section 3.3 To Make Setting – Entry Using Keys.

You can also invalidate the currently valid password (i.e., to designate it to “LEVEL-0”).

To do this, first press the SAVE key while no window is open. The window shown below will appear.

If you certainly desire to invalidate the password, then select ‘YES’ using the appropriate arrow key and press the ENTER key to

confirm the selection. The password will then be brought to LEVEL-0 and be invalidated. You have to then press the ESC key to

close the window, as it is not closed automatically.

If you want to stop the invalidation, then simply select ‘NO’. The window automatically closes and the original password remains

valid.

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5.4 Settings in ‘ANALOG INPUT ADJUSTMENT’ Window (Option 4 of ‘ADJUSTMENT’ Menu (F5))

This window allows you to adjust the offset and filter coefficient values that are needed for proper indication and processing of

each analog input data.

Item Headings in ‘ANALOG INPUT ADJUSTMENT’ Window

Item Heading Description

CH. DESCRIPTION Under this heading, the display shows a list of the analog input items assigned to the individual channels.

OFFSET

If you enter positive or negative values in the ‘LOW’ and ‘HIGH’ brackets under this heading, CP4 makes scaling after adding these values to actual analog input data and use them as actual measurements. (see NOTE below) Positive or negative ‘LOW’ and ‘HIGH’ values may be up to ± 50 % of full scale.

FILTER COEFFICIENT If you decrease this value, the processing responses more quickly to change in actual measurements but has more influence of noise and other interferences. The reverse is true when you increase this value. Any number between 0.00 and 0.99 can be entered.

CHANEL SELECT Select ‘CH. 1 - 16’ or ‘CH. 17 - 32’; the items for 16 channels are displayed for each selection.

PROCESS VALUE Under this heading, values represented in industrial units are indicated. These values reflect the offset calculation made to the FILTER COEFFICIENT values and scaling.

NOTE:

The diagram to the left shows the case in which

the displayed values are too small in the entire

measurement range. To make the values

appropriate for display, positive numbers should

be entered in both ‘LOW’ and ‘HIGH’ brackets.

If the displayed values are too large over the entire

range, negative numbers must be entered.

Maximum value in sensor range

Displayed process value

Actual process value100% 0%

OFFSET ‘HIGH’

OFFSET ‘LOW’

Minimum value in sensor range

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5.5 Settings in ‘ANALOG OUTPUT ADJUSTMENT’ Window (Option 5 of ‘ADJUSTMENT’ Menu (F5))

This window allows you to adjust the offset value for analog outputs. The adjustment is possible only when an optional

digital-to-analog converter board (AO board) is installed.

The offset values have already been adjusted before shipment from the factory and the adjustments are retained in the

non-volatile random access memory on the AO board. Use this window if fine adjustment to the preset values is needed.

Item Headings in ‘ANALOG OUTPUT ADJUSTMENT’ Window

Item Heading Description

OUT Displays the current output (in %) with offset value incorporated.

OFFSET The offset values are incorporated in the calculated analog output values to create actual output values. Any values up to ±10.0 can be set for ‘LOW’ and ‘HIGH’ offset values.

If the output values are too small over the entire range, enter positive numbers as both the ‘LOW’ and ‘HIGH’ offset values. Enter

negative numbers in the opposite case.

If you perform special booting, it becomes possible to enter a value in the ‘OUT’ brackets (indicating the current output

percentage) to make the value be output as an actual output.

To make this entry, first perform special booting and then select the ‘ANALOG OUTPUT ADJUSTMENT’ window (Option 5 of

‘ADJUSTMENT’ menu (F5)). This selection, however, is impossible if an optional DA board is not installed.

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5.6 Settings in ‘ANALOG OUTPUT ASSIGNMENT’ Window (Option 6 of ‘ADJUSTMENT Menu (F5))’

This window allows you to make new channel assignments or change the existing assignments for analog outputs. This window

cannot be selected if no optional AO board is installed.

NOTE:

In the following table, the assignments for the items in parentheses ( ) are valid if the associated optional inputs are available.

Item in ‘ANALOG OUTPUT ASSIGNMENT’ Window

Heading Title Item Description

DIRECT Controller outputs 0 to 100% are output as 4 to 20 mA DC signals. DIRECTION

(Polarity) REVERSE

Controller outputs 0 to 100% are output as 20 to 4 mA DC signals.

NOT USE Not used

A/O01 REPLACEMENT

If the analog output item having been assigned to A/O01 is to be reassigned to another channel, selecting ‘A/O01 REPLACEMENT’ during the setting for the new channel automatically reassigns the item to the new channel.

A/O02 REPLACEMENT

If the analog output item having been assigned to A/O02 is to be reassigned to another channel, selecting ‘A/O02 REPLACEMENT’ during the setting for the new channel automatically reassigns the item to the new channel.

A/O03 REPLACEMENT

If the item having been assigned to A/O03 is to be reassigned to another channel, selecting ‘A/O03 REPLACEMENT’ during the setting for the new channel automatically reassigns the item to the new channel.

A/O04 REPLACEMENT

If the item having been assigned to A/O04 is to be reassigned to another channel, selecting ‘A/O04 REPLACEMENT’ during the setting for the new channel automatically reassigns the item to the new channel.

SUCTION PRESSURE Outputs actual suction pressure measurements at AI01. DISCHARGE PRESSURE Outputs actual discharge pressure measurements at AI02. OIL SUPPLY PRESSURE Outputs actual oil supply pressure measurements at AI03. AFTER FILTER PRESSURE Outputs actual after-filter-pressure measurements at AI04. SUCTION TEMPERATURE Outputs actual suction temperature measurements at AI05. DISCHARGE TEMPERATURE Outputs actual discharge temperature measurements at AI06.OIL SUPPLY TEMPERATURE Outputs actual oil supply temperature measurements at AI07.( OIL SEPARATOR TEMPERATURE ) ( AFTER FINE FILTER PRESSURE )

Outputs actual oil separator temperature measurements or after-fine-filter pressure measurements at AI08.

ASSIGNMENT

( INTERMEDIATE PRESSURE ) ( OPTION */4 )

Outputs actual intermediate pressure measurements or optional input at AI09.

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Item in ‘ANALOG OUTPUT ASSIGNMENT’ Window (continued)

Heading Title Item Description

( INTERMEDIATE TEMPERATURE ) ( OPTION */4 )

Outputs actual intermediate temperature measurements or optional input at AI10.

( SYSTEM DISCHARGE PRESSURE ) ( OPTION */4 )

Outputs actual system discharge pressure measurements at AI11.

COMPRESSOR MOTOR CURRENT Outputs actual compressor motor current measurements at AI12.

( CHILLER ENTERING PROCESS TEMPERATURE ) ( OPTION */4 )

Outputs actual measurements of chiller inlet temperature or of optional input from AI13.

( CHILLER LEAVING PROCESS TEMPERATURE ) ( OPTION */4 )

Outputs actual chiller outlet temperature measurements or optional input at AI14.

( LOW STAGE ) SLIDE VALVE POSITION

Outputs actual low-stage capacity measurements at AI15.

(( HIGH STAGE ) SLIDE VALVE POSITION) ( SLIDE VALVE OIL PRESSURE ) ( SYSTEM SUCTION PRESSURE ) ( OPTION */4 )

Outputs actual measurements of high-stage slide valve position, slide valve oil pressure, system suction pressure, or optional input at AI16.

( SUCTION PRESSURE1 ) Outputs actual measurements of evaporator gas outlet pressure at AI17.

( CILLER LEAVING GAS TEMPERATURE )

Outputs actual measurements of evaporator gas outlet temperature at AI18.

( SYSTEM SUCTION PRESSURE ) Outputs actual system suction pressure measurements at AI19.

( REMOTE SLIDE VALVE POSITION INPUT )

Outputs actual measurements of remote slide valve position input at AI20.

( OPTION */4 ) Outputs actual optional input measurements at AI21. ( OPTION */4 ) Outputs actual optional input measurements at AI22. ( OPTION */4 ) Outputs actual optional input measurements at AI23. ( OPTION */4 ) Outputs actual optional input measurements at AI24.

( SUCTION PRESSURE2 ) Outputs actual measurements of evaporator gas outlet pressure 2 at AI25.

( CHILLER GAS TEMPERATURE2 ) Outputs actual measurements of evaporator gas outlet temperature 2 at AI26.

INVALID No default assignments for inputs at AI27 to AI32. OIL DIFFERENTIAL PRESSURE Outputs calculated oil differential pressure (OP-DP) at VAI01.

FILTER DIFFERENTIAL PRESSURE Outputs calculated filter differential pressure (DP-AFP) at VAI02.

DIFFERENTIAL PRESSURE Outputs calculated differential pressure (AFP-SP or AFP-IP) at VAI03.

SUCTION SUPERHEAT Outputs calculated suction superheat (ST-SP saturation temperature or GT1-SP1 saturation temperature) at VAI04.

( INTERMEDIATE SUPERHEAT ) Outputs calculated intermediate superheat (IT-IP saturation temperature) at VAI05.

DISCHARGE SUPERHEAT Outputs calculated discharge superheat (DT-DP saturation temperature) at VAI06.

( DISCHARGE/SUCTION PRESSURE RATIO )

Outputs discharge pressure divided by suction pressure at VAI07.

( CALCULATED Vi ) Outputs calculated Vi at VAI08. ( Vi POSITION ) Outputs Vi position at VAI09. ( COMPRESSOR CAPACITY ) Outputs compressor capacity at VAI10. ( SLIDE VALVE PERCENT ) Outputs percent position of slide valve at VAI11.

( AUTO STAGE TARGET PRESSURE ) Outputs suction pressure for automatic staging control at VAI12.

( OIL DEFFERENTIAL PRESSURE2 ) Outputs calculated oil differential pressure 2 (“slide valve oil supply pressure (SVOP)” – “discharge pressure (DP)”) at VAI13.

( SUCTION SUPERHEAT2 ) Outputs calculated suction superheat 2 (“chiller gas temperature (GT) 2” – “suction pressure (SP) 2 saturation temperature”) at VAI14.

ASSIGNMENT (continued)

INVALID No default assignments for inputs at VAI15 to VAI16

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Item in ‘ANALOG OUTPUT ASSIGNMENT’ Window (continued)

Heading Title Item Description

CAPACITY CONTROL PID OUT Outputs manipulating value for low-stage capacity control based on suction pressure control at REG01.

( CAPACITY-CONTROL PID OUT ) Outputs manipulating value for low-stage capacity control based on process output control at REG02.

( SUCTION SUPERHEAT CONTROL PID OUT )

Outputs one of the following values whichever is the minimum: - Manipulating value of evaporator expansion valve for

suction superheat control at REG03, - Manipulating value of limiter for suction pressure control at

REG04, and - Manipulating value of limiter for process outlet temperature

control at REG05 ( INTERMEDIATE SUPERHEAT CONTROL PID OUT )

Outputs manipulating value of intercooler YOSAKU expansion valve for intermediate superheat control at REG06.

( LIQUID INJECTION CONTROL PID OUT )

Outputs manipulating value of liquid injection YOSAKU expansion valve for discharge temperature or discharge superheat control at REG07.

( CHILLER LEAVING TEMPERATURE CONTROL PID OUT )

Outputs manipulating value for process flow rate control based on process outlet temperature control at REG08.

( DISCARGE PRESSURE CONTROL PID OUT )

Outputs manipulating value for condenser fan speed control based on discharge pressure control at REG09.

( HIGH STAGE CAPACITY CONTROL PID OUT )

Outputs manipulating value for high-stage capacity control based on intermediate pressure control at REG10.

( VFD COMPRESSOR CONTROL PID OUT )

Outputs manipulating value for VFD control based on suction pressure control at REG11.

( VFD-COMPRESSOR CONTROL PID OUT )

Outputs manipulating value for VFD control based on process outlet temperature control at REG12.

INVALID

Outputs one of the following values whichever is the minimum: - Manipulating value of evaporator expansion valve for

suction superheat 2 control at REG13, and - Manipulating value of limiter for suction pressure 2 control

at REG14

( LEVEL CONTROL PID OUT ) Outputs manipulating value of flow rate regulator valve for liquid level control at REG15.

ASSIGNMENT (continued)

INVALID No default assignment for input at REG16.

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5.7 Settings in ‘AUXILIARY INPUT TIMER’ Window (Option 7 of ‘ADJUSTMENT’ Menu (F5))

This window allows you to make timer settings for various digital ON/OFF inputs at the auxiliary input channels.

NOTE:

In the following table, ‘INTERLOCK-3’ is valid only when the associated optional function is provided.

Items in ‘AUXILIARY INPUT TIMER’ Window

Window Title Item Description

COMP. MSRB (Starting)

This item is for setting the limit delay time until the operation confirmation input at DI-12 (X0B) turns ON after the operation command output at DO-01 (Y00) has turned ON during the startup sequence of the compressor. If the operation confirmation input does not turn ON even after the limit time, “START FAIL” alarm is issued.

COMP. MSRB (Running)

This item is for setting the limit time for which the operation confirmation input at DI-12 (X0B) may remain OFF during operation of the compressor. If the operation confirmation input remains OFFlonger than the limit time, “START FAIL” alarm is issued.

COMP. MSRB (Stopping)

This item is for setting the limit delay time until the operation confirmation input at DI-12 (X0B) turns OFF after the operation command output at DO-01 (Y00) has turned OFF during the shutdown sequence of the compressor. If the operation confirmation input does not turn off even after the limit time, “START FAIL” alarm is issued.

INTERLOCK-1 (Auxiliary input 1)

This item is for setting the limit time for which the signal from auxiliary input 1 at DI-12 (X0B) may remain OFF during operation of the compressor. If the input signal remains OFF longer than the limit time, “Interlock–1 Failure” alarm is issued.

INTERLOCK-2 (Auxiliary input 2)

This item is for setting the limit time for which the signal from auxiliary input 2 at DI-14 (X0D) may remain OFF after the oil pump operation command output at DO-02 (Y01) has turned ON. If the signal remains OFF even after the limit time, “Interlock–2 Failure” alarm is issued. When chiller pump is not used: If the signal from auxiliary input 3 at DI-15 (X0E) remains OFF longer than the limit time you set for this item after all operating conditions of the compressor has been met, then “Interlock–3 Failure” alarm is issued.

AUXILIARY INPUT TIMER

( INTERLOCK-3 ) (Auxiliary input 3) When chiller pump is used:

If the signal from auxiliary input 3 at DI-15 (X0E) remains OFF longer than the limit time you set for this item after the chiller pump operating command at DI-19 (Y12) has turned ON, then “Interlock–3 Failure” alarm is issued.

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5.8 Adjustments in ‘COMMUNICATION SETUP’ Window (Option 8 of ‘ADJUSTMENT’ Menu (F5))

This window allows you to make all necessary settings for each communication port.

NOTE:

Settings for communication ports “COM2” and “COM3” are possible only when an optional extension board is installed.

Items in ‘COMMUNICATION SETUP’ Window

Item Description

COMMUNICATION Select ‘START’ to make communications active for the port being set. Select ‘STOP’ to deactivate communications for the port.

ADDRESS Enter different one of the numbers from 0 to 99 as the station number for each CP4 constituting a communication control network.

RATE (Data transmission

speed)

Select a baud rate from among the options: 300, 600, 1,200, 2,400, 4,800, 9,600, 19,200, 38,400, 57,600, and 115,200. NOTE: Determine the baud rate so that the total of the baud rates for all communication ports of one CP4 does not exceed 192,000 bps.

FORMAT (Communication character format)

Select a desired combination of character format specifications to apply to the communications established. You can select a one from a total of 12 combination options:

Data length: 7 or 8 bits Parity check: None, Odd, or Even Stop bit: 1 or 2 bits

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Items in ‘COMMUNICATION SETUP’ Window (continued)

Item Description

MODBUS RTU

Selecting this protocol allows the remote communication device to read/write data from/into the devices of CP4 using MODBUS RTU (binary data) protocol.

MODBUS ASCII

Selecting this protocol allows the remote communication device to read/write data from/into the devices of CP4 using MODBUS ASCII (ASCII data) protocol.

AUTO STAGE Selecting this choice activates the communication protocol specially used for the optional automatic staging control (AUTO STAGE).

TREND LOG

This option is selectable only for communication port 0 (COM0). If this protocol is selected, the terminal software on the remote personal computer can receive all data displayed in the ‘TREND LOG’ window (Option 1 of ‘LOGS’ menu (F4)) in the form of a file by using 1k-Xmodem protocol.

TERMINAL

This option is selectable only for communication port 0 (COM0). Selecting protocol allows the terminal software on the remote personal computer to display the screen of CP4 and makes it possible to control the CP4 through the keyboard of the computer. In addition, the remote personal computer can receive all data displayed in ‘TREND LOG’ window (Option 1 of ‘LOGS’ menu (F4)) in the form of a file by using 1k-Xmodem protocol.

CP3 PROTOCOL 0

This option is not selectable for communication port 0 (COM0). Selecting this protocol allows the remote communication device to read/write data from/into devices of CP4 by using MYPRO-CPIII protocol 0.

PROTOCOL

CP3 PROTOCOL 1

This option is not selectable for communication port 0 (COM0). Selecting this protocol allows the remote communication device to read/write data from/into devices of CP4 by using MYPRO-CPIII protocol 1.

RESPONSE (Response delay)

This item is for setting the delay time until a response is sent from CP4 after it has received a command from the communication master station (remote communication device). (You can set any delay time between 0 and 100 milliseconds at 10 millisecond increments.)

WIRING (Type of communication

connections)

This setting is possible only for communication port 0 (COM0). Select either of the following options, whichever is appropriate as the type of communication line connection.

‘DIRECT’: Communication line is connected directly to the remote computer. ‘MODEM’: Communication line is connected to the remote computer via a MODEM.

TERMINAL (Trend log transmission

command)

This setting is possible only for communication port 0 (COM0). When ‘LOG’ is selected for this item, transmission of all the data displayed in ‘TREND LOG’ window (Option 1 of ‘LOGS’ menu (F4)) will be started by using the 1k-Xmodem protocol if you put the cursor on ‘TERMINAL’ at the terminal software on the remote computer and press the ENTER key. (This function works only when ‘TERMINAL’ has been selected for the ‘PROTOCOL’ item and ‘RUN’ has been selected for the ‘COMMUNICATION’ item.)

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Chapter 6 Control Selections (‘SETPOINTS’ Menu (F1))

6.1 Settings in ‘OPERATION MODE’ Window (Option 1 of ‘SETPOINTS’ Menu (F1))

This window allows you to make settings related to the operation control modes of the compressor unit(s).

Items in ‘OPERATION MODE’ Window

Item Description

OPERATION

Select the operation control mode of the compressor unit(s) from the following options: ‘LOCAL’: Start/stop control of the compressor unit is performed using the START and STOP

keys on the front panel. ‘REMOTE’: Start/stop control of the compressor unit is performed by ON/OFF of external

command through DI-16 (X0F). ‘COMM’: Start/stop control of the compressor unit(s) is performed by ON/OFF commands

(X140) from a remote control device through communications. ‘AUTO STAGE’: Start/stop control of the compressor units is performed according the commands

(see Section 8.2.4 MODBUS Protocol) sent from the master station (see Section 6.7 Settings in ‘AUTO STAGE’ Window (Option 7 of ‘SETPOINTS’ Menu (F1)) for the automatic staging control). This mode is selectable only when the automatic staging control (option) is provided.

COMPRESSOR AUTO START/STOP

The setting for this item is necessary to enable or disable the automatic start/stop (CUT IN/CUT OUT) control that takes place according to the settings made in the ‘SET POINTS’ window (see Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))). ‘YES’:Automatic CUT IN/CUT OUT control is enabled. ‘NO’:Automatic CUT IN/CUT OUT control is disabled.

D/O TEST OPERATION

The setting for this item is necessary to enable or disable manual intervention on the digital ON/OFF outputs for testing purposes. To be able to select ‘YES’, you must have selected ‘LOCAL’ for the ‘OPERATION’ item and ‘NO’ for the ‘COMPRESSOR AUTO START/STOP’ item in the above. ‘YES’:Manual intervention is enabled. ‘NO’:Manual intervention is disabled. NOTE: About the manual ON/OFF control of the compressor, see Section 6.2 Manual Control from ‘D/O TEST OPERATION’ Window (Option 2 of ‘SETPOINTS’ Menu (F1)).

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According to the selection for the ‘OPERATION’ item in the ‘OPERATION MODE’ window, the following conditions automatically take place when the STOP key is pressed on the front panel of PC4. - When the ‘LOCAL’, ‘REMOTE’, or ‘COMM’ mode (not the ‘AUTO STAGE’ mode) has

been selected, pressing the STOP key causes no change to the operation control mode in the case of the ‘LOCAL’ mode, but the mode automatically changes to ‘LOCAL’ in the case of the ‘REMOTE’ and ‘COMM’ modes. The compressor, if operating, will then stop after the liquid recovering sequence. (It remains stopped thereafter.) To restart the compressor, simply press the START key if you need not change the mode from ‘LOCAL’ to another, or turn ON the relevant operation control command after changing the mode from ‘LOCAL’ to the desired mode.

- When the ‘AUTO STAGE’ mode has been selected, pressing the STOP key does not

cause any change to the setting for the ‘OPERATION’ item in the ‘OPERATION MODE’ window, but the selection of ‘ENABLE’ you made for the ‘CONTROL’ item in the ‘AUTO STAGE’ window automatically changes to ‘DISABLE’. In this case, if the compressor under control is running when the STOP key is pressed, the compressor will then stop after completing the liquid recovering sequence. Even the STOP key is pressed on the master station and its ‘CONTROL’ item setting in the ‘AUTO STAGE’ window is consequently changed to ‘DISABLE’, the automatic staging control continues to work on all the other stations (slave stations). To recover the ‘AUTO STAGE’ mode control after pressing the ‘STOP’ key, it is necessary (for the case of the master station and the case of a slave station) to perform the steps below. (Simply pressing the START key on the station does not recover the automatic staging control.)

1. From the ‘SETPOINTS’ menu (F1), open the ‘AUTO STAGE’ window. 2. Select ‘ENABLE’ for the ‘CONTROL’ item in the window.

6.2 Manual Control from ‘D/O TEST OPERATION’ Window (Option 2 of ‘SETPOINTS’ Menu (F1))

Using the ‘D/O TEST OPERATION’ window, you can monitor the ON/OFF state of each digital input/output. This window can

also be used for testing the condition of digital ON/OFF outputs by manually turning them ON/OFF.

Both monitoring and testing using this window is possible when the following conditions are all met:

- ‘LOCAL’ is selected for the ‘OPERATION’ item in the ‘OPERATION MODE’ window (see Section 6.1 Settings in ‘OPERATION

MODE’ Window (Option 1 of ‘SETPOINTS’ Menu (F1))).

- The compressor is in a stopped state (the state of operation confirmation input (MSRB) at DI-12 (X0B) is OFF).

- ‘NO’ is selected for the ‘COMPRESSOR AUTO START/STOP’ item in the ‘OPERATION MODE’ window (see Section 6.1

Settings in ‘OPERATION MODE’ Window (Option 1 of ‘SETPOINTS’ Menu (F1))).

- ‘YES’ is selected for the ‘D/O TEST OPERATION’ item in the ‘OPERATION MODE’ window (see Section 6.1 Settings in

‘OPERATION MODE’ Window (Option 1 of ‘SETPOINTS’ Menu (F1))).

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(The above screen shows the case with the standard digital input/output assignments.)

Monitoring the ON/OFF state of digital outputs/inputs

When white characters are displayed against a blue background, the corresponding digital outputs are in the OFF state. When

blue characters are displayed against a white background, the corresponding digital outputs are in the ON state.

When gray characters are displayed against a blue background, the corresponding digital inputs are in the OFF state. When blue

characters are displayed against a gray background, the corresponding digital inputs are in the ON state.

Manually turning ON/OFF the selected digital output

Select the desired digital output channel by moving the cursor () with the right/left arrow keys on the front panel. (Only an

output channel can be selected). Then use the SAVE or ENTER key as follows:

- If you press the SAVE key, the selected digital output turns ON and OFF alternately each time you press the key.

- If you press the ENTER key, the selected digital output turns ON momentarily. The output remains ON while the key is held

pressed.

NOTE:

When this ‘D/O TEST OPERATION’ window is closed, all the states you have changed in this window are cleared (all digital

outputs are set to OFF).

For the sake of safety, the following design considerations are incorporated: - Only the momentary turning ON of output by the use of the ENTER key is

permitted for the compressor operation command (COMP) output at DO-01 (Y00). (Alternating ON and OFF with the SAVE key is impossible.)

- If the operation confirmation input (MSRB) at DI-12 (X0B) turns ON while the compressor operation command output at DO-01 (Y00) is being momentarily turned ON by pressing the ENTER key, the compressor operation command output at DO-01 (Y00) automatically turns OFF.

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6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))

This window includes four sub-windows, entitled ‘SYSTEM START’, ‘MISCELLANEOUS’, ‘PUMP OUT’, and ‘SET POINTS’.

These sub-windows allow you to make settings of parameters related to compressor operation.

Items in ‘SET POINTS’ Window

Sub-window Title Item Description

SYSTEM START SYSTEM START DELAY Set the delay time before start of the system after turning ON of the operation command for each of the operation control mode.

CUT IN DELAY (Compressor start delay time)

Set the delay before the “CUT IN” control is actually performed after a rise exceeding the “CUT IN” value for the “CUT IN/OUT” control target.

CUT OUT DELAY (Compressor stop delay time)

Set the delay before the “CUT OUT” control is actually performed after a drop exceeding the “CUT OUT” value for the “CUT IN/OUT” control target.

CUT OUT LSV% (Compressor stop capacity)

Set the minimum low-stage capacity at which compressor operation command at DO-01 (Y00) turns OFF.

OIL P. START DELAY Set the delay before turning ON of oil pump start command at DO-02 (Y01) after system startup.

COMP. START DELAY Set the delay before turning ON of compressor operation command at DO-01 (Y00) after turning ON of oil pump start command at DO-02 (Y01).

COMP. RE-START DELAY Set the delay before the restart check sequence begins when the compressor fails to start with the unloader slide valve at 5% or higher position.

MISCELLANEOUS (Settings for start-up)

OIL FEED OFF DELAY

Set the delay before the oil return solenoid valve at DO-09 (Y08) turns OFF after turning OFF of compressor start command at DO-01 (Y00). NOTE: This item is displayed only when ‘PRE LUBE’ is selected for the ‘OIL FEED TYPE’ item in the ‘SYSTEM SETUP’ window (Option 1 of ‘SETUP’ Menu (F6)).

CAPACITY 0% STOP (Stop when low-stage

capacity is 0 %)

YES: Enables a stop only when the low-stage capacity is 0% after liquid recovery sequence.

NO: Enables a stop even when the low-stage capacity is not 0% after liquid recovery sequence.

PUMP OUT (Settings for liquid

recovery sequence) MINIMUM DELAY (Minimum delay before termination

of liquid recovery sequence)

Set the minimum delay before liquid recovery sequence terminates for when suction pressure drops below the liquid recovery termination suction pressure set for ‘PUMP OUT PRESS’ below. NOTE: Setting for ‘MINIMUM DELAY’ must be smaller than setting for ‘MAXIMUM DELAY’.

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Items in ‘SET POINTS’ Window (continued)

Sub-window Title Item Description

MAXIMUM DELAY (Minimum delay before termination

of liquid recovery sequence)

Set the maximum delay before liquid recovery sequence terminates for when suction pressure remains above the liquid recovery termination suction pressure. NOTE: Setting for ‘MINIMUM DELAY’ must be smaller than setting for ‘MAXIMUM DELAY’.

PUMP OUT PRESS (Liquid recovery termination

suction pressure

Set the suction pressure at which the liquid recovery sequence terminates.

LSV% (Low-stage slide valve position

during liquid recovery sequence)

Set the low-stage capacity of the compressor during the liquid recovery sequence.

PUMP OUT

STOP LSV% (Low-stage slide valve position at end of liquid recovery sequence)

Set the low-stage capacity of the compressor at the end of liquid recovery sequence.

CUT IN SETPOINT (Start value during automatic

operation)

Set an operation starting value during automatic operation (a pressure or temperature value according to the selection made for the ‘CONTROL TARGET (CUT IN/OUT)’ item in the ‘OPTION SETUP 1/2’ window (see Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6)))).

CONTROL PRESS. (Value for capacity control during

operation)

Set a value for capacity control during operation (a pressure or temperature value according to the selection made for the ‘CONTROL TARGET (CAPACITY CONTROL)’ item in the ‘OPTION SETUP 1/2’ window (see Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6)))). NOTE: The setting for this item is valid when the capacity control is set to “automatic”. (It is invalid for “manual” capacity control.)

SET POINTS

CUT OUT SETPOINT (Stop value during automatic

operation)

Set an operation stopping value during automatic operation (a pressure or temperature value according to the selection made for the ‘CONTROL TARGET (CUT IN/OUT)’ item in the ‘OPTION SETUP 1/2’ window (see Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6)))).

NOTE:

In the ‘SET POINTS’ sub-window, you can enter a specific value under each of the SET POINT numbers 1 to 4 (indicated as

‘SETPT #1’ to ‘SETPT #4’ on the display). The entered values are associated with these numbers and the numbers can be used

for setting in the ‘SCHEDULER’ window (see Section 6.4). (The values under ‘COMM’ are the set values written from the remote

station through communications. These values become valid when ‘COMM’ is selected for the ‘OPERATION’ item in the

‘OPERATION MODE’ window (see Section 6.1 Settings in ‘OPERATION MODE’ Window (Option 1 of ‘SETPOINTS’ Menu (F1))).

They cannot be changed from the front panel using numeral keys.)

In the ‘SCHEDULER’ window, you specify any of numbers SETPT #1 to #4 in combination with the schedule patterns to program

a schedule for automatic operation control of the compressor so that the compressor can be operated at different settings

depending on the day of week and time in a day. (For the method of specifying the set point numbers, see Section 6.4 Settings in

‘SCHEDULER’ Window (Option 4 of ‘SETPOINTS’ Menu (F1)).)

6.4 Settings in ‘SCHEDULER’ Window (Option 4 of ‘SETPOINTS’ Menu (F1))

The ‘SCHEDULER’ window includes a total of eight sub-windows: ‘SCHEDULER (ASSIGN DAYS)’ and ‘SCHEDULE 1’,

‘SCHEDULE 2’, ‘SCHEDULE 3’, ‘SCHEDULE 4’, ‘SCHEDULE 5’, ‘SCHEDULE 6’, and ‘SCHEDULE 7’. (The last seven

sub-windows present schedule patterns.)

By making entries in these sub-windows, you can program a compressor operation schedule according which operation of the

compressor is controlled automatically.

During the programming, you select an appropriate one of the numbers (SETPT #1 to #4) to which different pressure or

temperature settings are associated in the ‘SET POINTS’ window (see Section 6.3) for both automatic starting/stopping (CUT IN

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/ CUT OUT) control and automatic capacity control. After this, you allot the selected number to each day of the week and each

time of the day.

In these sub-windows, you can also make ALARM / FAILURE selection and assignment using one of the numbers (#1 and #2) to

which different warning points are associated in the ‘ALARM/FAILURE’ windows (see Section 7.1 Settings in ‘ALARM/FAILURE’

Windows 1/3 to 3/3).

Items in ‘SCHEDULER’ Windows

Sub-window Title Item Description

SUNDAY to SATURDAY (Schedule number

assignment)

Assign one of the schedule pattern numbers (SCHEDULE1 to SCHEDULE7) to each day of the week.

SCHEDULER (ASSIGN DAYS) CUT IN / CUT OUT

(CUT IN / CUT OUT number selection)

If ‘YES’ is selected for the ‘COMPRESSOR AUTO START/STOP’ item in the ‘OPERATION MODE’ window (see Section 6.1 Settings in ‘OPERATION MODE’ Window (Option 1 of ‘SETPOINTS’ Menu (F1))), CP4 makes automatic start/stop (CUT IN / CUT OUT) control according to your selection from the following options: SET POINT #1: Setting for ‘SETPT #1’ in ‘SET POINTS’ window (Section

6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))) is always used.

SET POINT #2: Setting for ‘SETPT #2’ in ‘SET POINTS’ window (Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))) is always used.

SET POINT #3: Setting for ‘SETPT #3’ in ‘SET POINTS’ window (Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))) is always used.

SET POINT #4: Setting for ‘SETPT #4’ in ‘SET POINTS’ window (Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))) is always used.

SCHEDULER: ‘SETPT #1’ to ‘SETPT #4’ settings are used as you have programmed for a scheduled automatic control.

COMM: Settings written by the remote computer through communications are used.

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Items in ‘SCHEDULER’ Windows (continued)

Sub-window Title Item Description

SCHEDULER (ASSIGN DAYS)

CONTROL TARGET (Capacity control number

selection)

CP4 makes automatic capacity control of the compressor according to your selection from the following options: SET POINT #1: Setting for ‘SETPT #1’ in ‘SET POINTS’ window (Section

6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))) is always used.

SET POINT #2: Setting for ‘SETPT #2’ in ‘SET POINTS’ window (Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))) is always used.

SET POINT #3: Setting for ‘SETPT #3’ in ‘SET POINTS’ window (Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))) is always used.

SET POINT #4: Setting for ‘SETPT #4’ in ‘SET POINTS’ window (Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))) is always used.

SCHEDULER: ‘SETPT #1’ to ‘SETPT #4’ settings are used as you have programmed for a scheduled automatic control.

COMM: Settings written by the remote computer through communications are used.

SCHEDULER (ASSIGN DAYS)

(continued)

ALARM/FAILURE (Alarm number selection)

SET POINT #1: ALARM/FAILURE warning is issued based on the settings made for ‘ALARM #1’ and ‘FAILURE #1’ in ‘ALARM/FAILURE’ window (Section 7.1 Settings in ‘ALARM/FAILURE’ Windows 1/3 to 3/3).

SET POINT #2: ALARM/FAILURE warning is issued based on the settings made for ‘ALARM #2’ and ‘FAILURE #2’ in ‘ALARM/FAILURE’ window (Section 7.1 Settings in ‘ALARM/FAILURE’ Windows 1/3 to 3/3).

SET# (SET POINT # selection)

Assign one of the ‘SETPT #1’ to ‘SETPT #4’ settings (made in the ‘SET POINTS’ window (Section 6.3)) to each of the schedule patterns ‘SCHEDULE 1’ to ‘SCHEDULE 7’. If ‘YES’ is selected for the ‘COMPRESSOR AUTO START/STOP’ item in the ‘OPERATION MODE’ window (see Section 6.1 Settings in ‘OPERATION MODE’ Window (Option 1 of ‘SETPOINTS’ Menu (F1))), CP4 makes both automatic start/stop (CUT IN / CUT OUT) and automatic capacity control from the first ‘START’ time to the ‘START’ time of the time segment (time span) specified below it according to your set point assignment by a number (one of #1 to #4).

SCHEDULE1 to 7 (Schedule patterns)

START (start time setting)

Divide a day into 8 time segments and enter the start time of each time segment in hours and minutes to program a schedule for a day of the week. (The end of the time segment is the ‘START’ time entered on the bottom line.) If ‘YES’ is selected for the ‘COMPRESSOR AUTO START/STOP’ item in the ‘OPERATION MODE’ window (see Section 6.1 Settings in ‘OPERATION MODE’ Window (Option 1 of ‘SETPOINTS’ Menu (F1))), CP4 makes both automatic start/stop (CUT IN / CUT OUT) and automatic capacity control from the first ‘START’ time according to your set point assignment by a number (one of #1 to #4).

NOTE:

- You cannot specify the same time for different ‘START’ times within the same ‘SCHEDULE’ number.

- If you divide a day into segments of smaller number than eight, set the same number in ‘SET #’ of two or more time segments.

(The same number is set for all ‘SET #’ by default.)

- Any set time must be earlier than that on the next lower line. Otherwise, time entries are not accepted.

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6.5 Setting in ‘OTHER SETPOINT’ Window (Option 5 of ‘SETPOINTS’ Menu (F1))

This window includes three sub-windows, ‘ANTI CYCLE’, ‘OIL HEATER’, and ‘OIL DRAIN SV’. They allow you to set the

anti-cycle timer and other parameters for optional functions.

NOTE:

The displayed items may be different from those shown above depending on the setting.

Items in ‘OTHER SETPOINT’ Window

Sub-window Title Item Description

ANTI CYCLE TIME (Restart prohibition time)

Set the time after start of the compressor during which the start for the next operation is prohibited. (This limits the number of start/stop times in a unit time.) ANTI CYCLE *1

INTERVAL TIME (Operation-to-operation

interval)

Set the time from the end of a compressor operation to the start of the next operation. (This limits the stop-to-start interval.)

HEATER ON OS (Oil heater ON temperature)

Set an oil separator temperature at which OIL HEATER output at DO-07 (Y06) turns ON.

OIL HEATER *2 HEATER OFF OS

(Oil heater OFF temperature)Set an oil separator temperature at which OIL HEATER output at DO-07 (Y06) turns OFF.

OIL DRAIN SV *3 SV OFF DELAY

(Oil drain solenoid valve OFF delay)

Set the delay before OIL DRAIN SV at DO-09 (Y08) turns OFF after turning OFF of compressor operation command at DO-01 (Y00).

INTERVAL (Interval operation)

Select either of the following options concerning “interval operation” of the oil pump.

DISABLE (Interval operation disabled) ENABLE (Interval operation enabled)

SEAL PROTECTION *4 (Oil pump operation for

protecting oil seals) AUTO ONLY/ALL (Operation mode subjected to

oil pump interval operation)

Select either of the following options in which interval operation of the oil pump is to be enabled.

AUTO ONLY: Enabled only when ‘YES’ is selected for the ‘COMPRESSOR AUTO START/STOP’ item (see Section 6.1). ALL: Enabled only when ‘NO’ is selected for the ‘COMPRESSOR AUTO START/STOP’ item (see Section 6.1).

NOTE: Setting for this item is valid only when ‘ENABLE’ is selected for the ‘INTERVAL’ item.

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Items in ‘OTHER SETPOINT’ Window (continued)

Sub-window Title Item Description

START PERIOD (Oil pump operation interval)

Set the interval at which the oil pump is operated. (Interval operation of the oil pump takes place when the count of compressor non-operation time is longer than the time set here.) NOTE: Setting for this item is valid only when ‘ENABLE’ is selected for the ‘INTERVAL’ item.

SEAL PROTECTION *4 (Oil pump operation for

protecting oil seals)

(continued)

PUMP RUN (Oil pump running time)

Set the length of running time for each “interval operation” of the oil pump. NOTE: Setting for this item is valid only when ‘ENABLE’ is selected for the ‘INTERVAL’ item in the above.

COMP. STOP (Operation of oil pump after

stop of compressor)

Select either of the following options to determine whether to allow or not a delay before start of the oil pump after stopping of the compressor.

DISABLE: Delay is not allowed. ENABLE: Delay is allowed. SEAL PROTECTION *4

(Oil pump operation for protecting oil seals)

OIL PUMP DELAY

Set the delay before the oil pump stops after turning OFF of the compressor operation command at DO-01 (Y00). NOTE: Setting for this item is valid only when ‘ENABLE’ is selected for the ‘COMP. STOP’ item in the above.

STARTING BYPASS SV *5 (Start bypass solenoid valve)

SV OFF DELAY (Delay before solenoid valve

turns OFF)

Set the delay before the start bypass solenoid valve is deenergized after operation confirmation input at DI-12 (X0B) turns ON.

SV ON LSV% (Capacity at which solenoid

valve turns ON)

Set the low-stage capacity at which the hot gas bypass solenoid valve turns ON.

SV OFF LSV% (Capacity at which solenoid

valve turns OFF)

Set the low-stage capacity at which the hot gas bypass solenoid valve turns OFF.

SV ON DELAY (LSV%) (Delay before solenoid valve

turns ON)

Set the delay before the hot gas bypass solenoid valve turns ON after the low-stage capacity has reached the set value.

SV ON SP (Pressure at which solenoid

valve turns ON)

Set the suction pressure at which the hot gas bypass solenoid valve turns ON.

HOT GAS BYPASS SV *6 (Hot gas bypass solenoid

valve)

SV ON DELAY (SP) (Delay before soienoid valve

turns ON)

Set the delay before the hot gas bypass solenoid valve turns ON after the suction pressure has reached the set value.

NOTE:

*1 Any settings for ‘ANTI CYCLE’ are invalid if, in the ‘OPERATION MODE’ window (Section 6.1 Settings in ‘OPERATION

MODE’ Window (Option 1 of ‘SETPOINTS’ Menu (F1))), ‘LOCAL’ is selected for the ‘OPERATION’ item and ‘NO’ is selected

for the ‘COMPRESSOR AUTO START/STOP’ item.

*2 Display of and setting for the items in the ‘OIL HEATER’ sub-window is possible only when ‘NORTH AMERICA’ is selected

for the ‘I/O PLATFORM’ item in the ‘SYSTEM SETUP’ window (see Section 4.1 Setting in ‘SYSTEM SETUP’ Window

(Option 1 of ‘SETUP’ Menu (F6))).

*3 Display of and setting for the item in the ‘OIL DRAIN SV’ sub-window is possible only when ‘NORTH AMERICA’ is selected

for the ‘I/O PLATFORM’ item and ‘COMPOUND-2 (2016 & HIGHER)’ is selected for the ‘COMPRESSOR’ item, both in the

‘SYSTEM SETUP’ window (see Section 4.1 Setting in ‘SYSTEM SETUP’ Window (Option 1 of ‘SETUP’ Menu (F6))).

*4 Display of and setting for the items in the ‘SEAL PROTECTION’ sub-window is possible only when ‘USE’ is selected for the

‘COMPRESSOR OIL SEAL PROTECTION’ item in the ‘OPTION SETUP 1/2’ window (see Section 4.4 Settings in ‘OPTION

SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))).

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*5 Display of and setting for the item in the ‘STARTING BYPASS SV’ sub-window is possible only when ‘USE’ is selected for

the ‘STARTING BYPASS CONTROL’ item in the ‘OPTION SETUP 1/2’ window (see Section 4.4 Settings in ‘OPTION

SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))).

*6 Display of and setting for the items in the ‘HOT GAS BYPASS SV’ sub-window is possible only when ‘USE’ is selected for

the ‘HOT GAS BYPASS CONTROL’ item in the ‘OPTION SETUP 1/2’ window (see Section 4.4 Settings in ‘OPTION SETUP

1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))).

The hot gas bypass solenoid valve turns ON when the following conditions are concurrently met during operation of the

compressor:

- The capacity remains equal to or smaller than the value set for ‘SV ON LSV%’ for the period set for ‘SV ON DELAY

(LSV%)’.

- The suction pressure remains equal to or smaller than the value set for ‘SV ON SP’ for the period set for ‘SV ON DELAY

(SP)’.

The hot gas bypass solenoid valve turns OFF when the capacity becomes equal to or larger than the value set for ‘SV OFF

LSV%’.

6.6 Settings in ‘AUTO Vi’ Window (Option 6 of ‘SETPOINTS’ Menu (F1))

This window (consisting of two sub-windows) allows you to set the parameters related to the automatic Vi control function

(option).

Installation of an extension digital input/output board is required to use the automatic Vi control function according to the

selection you make in the ‘OPTION SETUP 1/2’ window (Option 4 of ‘SETUP’ menu (F6)) (see Section 4.4 Settings in ‘OPTION

SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))). (The extension digital input/output board is required if ‘USE DO10, 11, 12,

16, 17 (UD-V)’ or ‘USE DO19, 1A, 1B, 1C, 1D (UD-V)’ is selected for the ‘AUTO Vi CONTROL’ item in the window.)

The following table shows the Vi-related data displayed on the Main Status Screen, together with the function menu, windows,

and items that show these data.

‘COMPRESSOR’ in ‘SYSTEM SETUP’ window (Option 1 of ‘SETUP’ menu (F6))

‘SINGLE UD-V(VARIABLE Vi)’ ‘SINGLE J, SINGLE J ECONOMIZER W/O SENSOR, SINGLE J ECONOMIZER W/ SENSOR’

‘AUTO Vi CONTROL’ in ‘OPTION SETUP 1/2’ window (Option 4 of ‘SETUP’ menu (F6))

‘NOT USE’ ‘USE J SERIES’

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These sub-windows appear when one of ‘SINGLE J’, ‘SINGLE J ECONOMIZER W/O SENSOR’, ‘SINGLE J ECONOMIZER W/

SENSOR’, and ‘SINGLE UD-V (VARIABLE Vi)’ is selected for ‘COMPRESSOR’ in ‘SYSTEM SETUP’ window (see Section 4.1).

Items in ‘AUTO Vi’ Window

Sub-window Title Item Description

CURRENT Vi (Vi for current port)

Indicates the Vi value of the unloader slide valve in currently selected port position

AUTO Vi CONTROL (MONITOR)

(Status display) CALCULATED Vi (Calculated Vi value)

Indicates the current calculated Vi value.

INITIAL Vi (Port for initial Vi control)

Select one of the following as the port from which automatic Vi control is started.

2.63(L) or 2.50(L) *: L port 3.65(M) or 3.50(M) *: M port 5.80(H) or 5.00(H) *: H port

AUTO Vi CONTROL (SETPOINT)

(Setting display) SAMPLE DELAY

(Vi calculation cycle) Set the frequency (time) at which sampling is made to determine the need for port switching.

SAMPLE QUANTITY (number of Vi samples)

Set the number of samples for determining the need for port switching.

CONFIRM DELAY * (Delay before confirmation of port

position) Set the delay before confirmation of the port position.

MOVE DELAY (Delay before change of Vi

position) Set the delay before switching of port.

AUTO Vi CONTROL (SETPOINT)

(Setting display) (continued)

CONTROL * (Selection of Vi port control)

Select either “fixing to L, M, or H port” or “automatic Vi control”.

NOTE:

The items and options marked * are displayed when ‘SINGLE J’, ‘SINGLE J ECONOMIZER W/O SENSOR’, or ‘SINGLE J

ECONOMIZER W/ SENSOR’ is selected for the ‘COMPRESSOR’ item in the ‘SYSTEM SETUP’ window (see Section 4.1 Setting

in ‘SYSTEM SETUP’ Window (Option 1 of ‘SETUP’ Menu (F6))). They are not displayed if ‘SINGLE UD-V (VARIABLE Vi)’ is

selected.

Unloader slide valve position (absolute value)

Percentage (relative value) of unloader slide valve for currently selected port position

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6.7 Settings in ‘AUTO STAGE’ Window (Option 7 of ‘SETPOINTS’ Menu (F1))

This window (consisting of two sub-windows) allows you to make parameter settings concerning the automatic staging control

(an optional function that automatically increase or decrease the number of working screw compressor units in the system

according to load and other conditions).

An extension communication board (option) may be required according to the specification of your CP4 to implement the

automatic staging functions.

CP4 Configuration for Automatic Staging (AUTO STAGE) Control

The automatic staging control involves multiple CP4s that are inter-connected through the standard communication port

(COMM1) or optional communication port (COMM2 or COMM3) on each CP4. One of these CP4s is assigned to the “master

station” and the others to the “slave stations”.

Based on its own start/stop settings and the data from the pressure or temperature inputs associated with these settings, the

master station determines the compressor units to be operated or stopped either in the AUTO mode (where the priority is

determined according to the operation time (the station having the shortest operation time is given the top priority)) or in the

MANUAL mode (where the priority is determined according to the pre-established listing of station addresses). The master

station then sends start/operation and capacity-fixing commands to the slave stations that control the corresponding compressor

units one after another.

Starting Control

The master station issues a start/operation command to the slave station of the highest priority if a pressure or temperature in its

own compressor unit exceeds the corresponding target setting.

Control to Increase the Number of Operating Units

The slave station that has received the operation command from the master station starts operating its compressor unit. The

slave station then uses the master station’s capacity control values and the pressure/temperature data it receives continuously

from the master station as its own to make capacity control (normal capacity control) of its compressor unit.

When the capacity of the compressor unit in operation under the control of the slave station has reached its setting for capacity

control upper limit (“manipulating value high limit” (MVH%)), the master station sends a command for fixing the capacity to the

station and then issues a start command to the slave station of the next lower priority.

Likewise, the number of working compressor units is increased as conditions are met one by one subsequently.

Consequently, only the slave station that has last received a start command continues the capacity control according to the

varying value data from the master station, while the capacity control values of all the other slave stations of working compressor

units are fixed to the preset maximum values of the stations.

Control to Decrease the Number of Operating Units

When the capacity of the compressor unit in operation under control of the last-started (or the lowest-priority) slave station

reaches its setting for capacity control lower limit (“manipulating value low limit” (MVL%)), the master station cancels the

capacity-fixing command being sent until then to the slave station of the next higher priority and instead permits it making the

normal capacity control.

When the second lowest-priority station that has received the normal capacity control permission goes below the setting for its

stoppage threshold (‘SV HOLD PREVIOUS’), the master station cancels the operation command for the next lower priority

station (the lowest-priority station), thus stopping the compressor unit under the control of the last-priority station.

Likewise, the number of working compressor units is decreased one by one subsequently as conditions are met.

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Control for Stopping All Units

The master station sends a stop command to all slave stations when any of the pressure or temperature inputs indicates a value

exceeding the preset value.

The above screen is displayed only when you have selected ‘USE’ for the ‘AUTO STAGER’ item in the ‘OPTION SETUP 1/2’

window (see Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))).

NOTE:

In the following table, *M, *S, and *A indicate the following:

*M: Selection or setting is enabled only on the master station. On a slave station, the relevant item is displayed but selection or

setting is impossible.

*S: Selection or setting is enabled only on a slave station. On the master station, the relevant item is displayed but selection or

setting is impossible.

*A: Selection or setting is enabled on both the master and slave stations.

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Items in ‘AUTO STAGE’ Window

Sub-window Title

Item Description

ADDRESS *A (Communications

address)

Set the communication address of the master/slave station. (This setting can be changed when ‘DISABLE’ is selected for the ‘CONTROL’ item below.) 0: No automatic staging control is implemented at any station

(communications between stations are disabled). 1: The station with address 1 assigned becomes the master station. 2 to 99: The station with any of these numbers assigned becomes a slave

station.

CONTROL *A (AUTO STAGE control)

DISABLE: Automatic staging control is disabled. ENABLE: Automatic staging control is enabled. (When this option is selected,

the settings for some of the related items become unchangeable.)

LEAD LISTING *M (Starting priorities)

Select either of the following options as the mode used for determining the starting priorities of compressor units. MANUAL: Priority is fixed to the setting for the ‘LIST ADDRESS’ on the line

below the priority numbers on the ‘LIST (MANUAL)’ line. AUTO: Different priorities are automatically given to different stations

according to their operation times (the station with the shortest operation time is given the top priority).

LIST (MANUAL) (Display of starting

priorities)

This line displays the starting priority numbers used when ‘MANUAL’ is selected for the ‘LEAD LISTING’ item in the above.

LIST ADDRESS *M (Setting starting

priorities)

When ‘MANUAL’ is selected for the ‘LEAD LISTING’ item in the above, enter the station address numbers under the appropriate starting priority numbers each.

CUT IN SET POINT (Setting starting values)

This item normally displays the start (CUT IN) set point of the compressor unit controlled by the master station. (Either a pressure or temperature value is displayed according to the setting for the ‘CONTROL TARGET (CUT IN / CUT OUT)’ item in the ‘OPTION SETUP 1/2’ window (Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6)))). The set point displayed here is the one set on the master station using the ‘SETPOINT’ window (Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))) and the ‘SCHEDULER’ window (Section 6.4 Settings in ‘SCHEDULER’ Window (Option 4 of ‘SETPOINTS’ Menu (F1))). Displayed for this item on a slave station is the data sent from the master station through communications.

DELAY *M (Delay before start of an additional compressor

unit)

Set the delay before one additional slave station compressor is started after the CUT IN / CUT OUT control target has exceeded the CUT IN set point. Displayed on a slave station for this item is the data sent from the master station through communications.

CONTROL SETPOINT (Capacity control set

values)

This item normally displays the capacity control setting of the compressor unit controlled by the master station. (Either a pressure or temperature value is displayed according to the setting for the ‘CONTROL TARGET (CONTROL)’ item in the ‘OPTION SETUP 1/2’ window (Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6)))). The set point displayed here is the one set on the master station using the ‘SETPOINT’ window (Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))) and the ‘SCHEDULER’ window (Section 6.4 Settings in ‘SCHEDULER’ Window (Option 4 of ‘SETPOINTS’ Menu (F1))). Displayed on a slave station for this item is the data sent from the master station through communications.

AUTO STAGE

TARGET (Current value of control

target)

This item shows the current pressure or temperature value according to the control target selected on the master station for the ‘CONTROL TARGET (CAPACITY CONTROL)’ item (Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))).

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Items in ‘AUTO STAGE’ Window (continued)

Sub-window Title

Item Description

CUT OUT SET POINT (Displaying stop set

values)

This item normally displays the CUT OUT set point of the compressor unit controlled by the master station. (Either a pressure or temperature value is displayed according to the setting for the ‘CONTROL TARGET (CUT IN / CUT OUT)’ item in the ‘OPTION SETUP 1/2’ window (Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6)))). The set point displayed here is the one set on the master station using the ‘SETPOINT’ window (Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1))) and the ‘SCHEDULER’ window (Section 6.4 Settings in ‘SCHEDULER’ Window (Option 4 of ‘SETPOINTS’ Menu (F1))). Displayed on a slave station for this item is the data sent from the master station through communications.

DELAY *M (Setting stop delay time)

Set the delay before determining stoppage of all slave station compressors after dropping of CUT IN / CUT OUT control target value to or below the CUT OUT set value. The data displayed on a slave station for this item is the data sent from the master station through communications.

CUT IN/OUT & CONTROL *S

(Pressure/temperature display and selection for CUT IN and CUT OUT

values)

Either ‘PRESSURE’ or ‘TEMPERATURE’ is displayed (master station) or selectable (slave stations). The display on the master station for this item shows ‘PRESSURE’ or ‘TEMPERATURE’ according the selection made in the ‘CONTROL TARGET (CUT IN / OUT)’ item in the ‘SYSTEM SETUP’ window (Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))). On slave stations, select ‘PRESSURE’ or ‘TEMPERATURE’ whichever is the same as the selection the display on the master station. If the selection made on a slave station is different from (that) on the master station, incorrect CUT IN and CUT OUT set points will be displayed.

CUT IN/OUT & CONTROL *S

(Pressure/temperature display and selection for

compressor capacity control values)

Either ‘PRESSURE’ or ‘TEMPERATURE’ is displayed (master station) or selectable (slave station). On the master station, the display for this item shows ‘PRESSURE’ or ‘TEMPERATURE’ according to the selection made in the ‘CONTROL TARGET (CAPACITY CONTROL)’ item in the ‘SYSTEM SETUP’ window (Section 4.1 Setting in ‘SYSTEM SETUP’ Window (Option 1 of ‘SETUP’ Menu (F6))). On slave stations, select ‘PRESSURE’ or ‘TEMPERATURE’ whichever is the same as the selection on the master station. If the selection made on a slave station is different from that on the master station, incorrect capacity control set points will be displayed. If ‘USER DEFINED’ is selected for the ‘REFRIGERANT’ item in the ‘SYSTERM SETUP’ window (see Section 4.1), any selection for this item is impossible although its display is provided.

APPROACH ⊿T *S

This item is valid when ‘TEMPERATURE’ is selected for the ‘CONTROL TARGET (CAPACITY CONTROL)’ item (Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))). Enter an appropriate negative value on slave stations. The master station only displays this item.

AUTO STAGE (continued)

SV HOLD PREVIOUS *A

Set the capacity of the compressor for the station using which the stoppage of the compressor of the next- lower- priority station is determined. Any setting is unacceptable if it exceeds the valve of the percentage set for MVH%-5.0% in ‘CAPACITY RAMP CONTROL’ (F2). (see Section 8.1.2 Compressor Capacity Control Settings in ‘CAPACITY CONTROL’ Window (Option 1 of ‘CONTROLLER’ Menu (F2)))

LEAD (Starting priority)

This item displays the starting priority in an ascending order, beginning with 1 at the top.

LIST (Communications

address list)

This item displays the communication addresses of the stations corresponding to the starting priority numbers assigned.

MONITOR (State display)

LOAD% (Current compressor

capacity)

This item displays the current capacity of the compressor controlled by each station both numerically and in the form of a bar graph.

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Items in ‘AUTO STAGE’ Window (continued)

Sub-window Title

Item Description

STATE

This item displays the current state of each station using the following words. UNKNOWN : Slave station which is not registered or does not respond

to master station STOPPED : Stopped ANTI CYCLE : Stopped with restart restricted AUTO STOP : Automatically stopped PRE CUT IN : Compressor in preparation for start PRE SYSTEM : System in preparation for start PRE START : In preparation for start START : Started RUN : Running PRE CUT OUT : Compressor in preparation for stopping PUMP OUT : Liquid recovering in progress RUN MVH : Running with capacity at upper limit RUN MVL : Running with capacity at lower limit RUN UNDER HOLD : Below stop determination capacity READY TO RUN : Preparing for operation READY TO STOP : Preparing for stop FAILURE : FAILURE (critical alarm) occurred

MODE (Operation command)

Displays the current operation control mode of each station. UNKNOWN : Slave station which is not registered or does not respond

to the master station STAGE-OFF : Operation command from master station is OFF STAGE-ON : Operation command from master station is ON

MONITOR (State display)

(continued)

RUN TIME HRS (Operation time count)

Displays the operating time count of the compressor unit controlled by each station.

Selection of Pressure or Temperature Values as Control Targets for Start/Stop Control (‘CUT IN/OUT & CONTROL’) and Capacity Control (‘CUT IN/OUT & CONTROL’)

To implement the automatic staging control, you should use either pressure or temperature values as the control targets for both

start/stop (CUT IN / CUT OUT) control and capacity (CONTROL) control. Using pressure or temperature values as the target

values is determined depending on the combination of the selections you make for the following four items in both the ‘OPTION

SETUP 1/2’ window (Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))) and the ‘AUTO

STAGE’ window (this section):

- Selection for the ‘CONTROL TARGET (CUT IN/OUT)’ item in the ‘OPTION SETUP 1/2’ window (Option 4 of ‘SETUP’ menu

(F6))

- Selection for the ‘CONTROL TARGET (CAPACITY CONTROL)’ item in the ‘OPTION SETUP 1/2’ window (Option 4 of

‘SETUP’ menu (F6))

- On slave stations, selection of the ‘CUT IN/OUT’ side for the ‘CUT IN/OUT & CONTROL’ item in the ‘AUTO STAGE’ window

(Option 7 of ‘SETPOINTS’ menu (F1))

- On slave stations, selection of the ‘CONTROL’ side for the ‘CUT IN/OUT & CONTROL’ item in the ‘AUTO STAGE’ window

(Option 7 of ‘SETPOINTS’ menu (F1))

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a. When pressure values are used for the start/stop (CUT IN/OUT) control:

Select ‘LOCAL SUCTION PRESSURE’ or ‘SYSTEM SUCTION PRESSURE’ on the master station as follows.

Selection Item Selection on Master Station Selection on Slave Station

The ‘CONTROL TARGET (CUT IN/OUT)’ item in the ‘OPTION SETUP 1/2’ window (Option 4 of ‘SETUP’ menu (F6))

‘LOCAL SUCTION PRESSURE’ or ‘SYSTEM SUCTION PRESSURE’

‘LOCAL SUCTION PRESSURE’ (When ‘DISABLE’ is selected for ‘AUTO STAGING’ (see Section 4.6 Settings in ‘OPTION SELECT’ Window (Option 6 of ‘SETUP’ Menu (F6))), the compressor unit automatically starts/stops upon reach to the ‘LOCAL SUCTION PRESSURE’ value.)

The ‘CUT IN/OUT’ side of the ‘CUT IN/OUT & CONTROL’ item in the ‘AUTO STAGE’ window (Option 7 of ‘SETPOINTS’ menu (F1))

‘PRESSURE’ is automatically selected. ‘PRESSURE’ must be selected to match with the selection on the master station.

‘APPROACH ⊿T’ in the ‘AUTO STAGE’ window (this window)

Unchangeable Not used for control

b. When temperature values are used for the start/stop (CUT IN/OUT) control:

Select ‘CHILLER LEAVING BRINE TEMPERATURE’ or ‘CHILLER ENTERING BRINE TEMPERATURE’ on the master

station. (Slave stations have no CHILLER LEAVING BRINE TEMPERATURE and CHILLER ENTERING BRINE

TEMPERATURE sensors.)

Selection Item Selection on Master Station Selection on Slave Station

The ‘CONTROL TARGET (CUT IN/OUT)’ item in the ‘OPTION SETUP 1/2’ window (Option 4 of ‘SETUP’ menu (F6))

‘CHILLER LEAVING BRINE TEMPERATURE’ or ‘CHILLER ENTERING BRINE TEMPERATURE’

‘LOCAL SUCTION PRESSURE’ (When ‘DISABLE’ is selected for ‘AUTO STAGING’ (see Section 4.6 Settings in ‘OPTION SELECT’ Window (Option 6 of ‘SETUP’ Menu (F6))), the compressor unit automatically starts/stops upon reach to the ‘LOCAL SUCTION PRESSURE’ value.)

The ‘CUT IN/OUT’ side of the ‘CUT IN/OUT & CONTROL’ item in the ‘AUTO STAGE’ window (Option 7 of ‘SETPOINTS’ menu (F1))

‘TEMPERATURE’ is automatically selected.

‘TEMPERATURE’ must be selected to match with the selection on the master station.

‘APPROACH ⊿T’ in the ‘AUTO STAGE’ window (this window) (see NOTE)

Unchangeable Any temperature value (negative value)

NOTE:

If the automatic staging control on a slave station becomes invalid due to interferences or other communication disturbances, the

automatic start/stop control is continued using the saturation pressure value derived from the following two equations as the set

value for the ‘LOCAL SUCTION PRESSURE’.

[‘CUT IN SET POINT’ temperature setting written last by the master station] + [‘APPROACH ⊿T’ value]

and

[Set temperature for ‘CUT OUT SET POINT’] + [‘APPROACH ⊿T’ value]

Therefore, you should enter an appropriate negative value. Any negative value can be input if it is within ±20 % of the range. The

“range” here means the measurable range of the temperature sensor selected for the ‘CONTROL TARGET (CUT IN/OUT)’ item

in the ‘OPTION SETUP’ window (Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))).

(Normally, a temperature sensor measureable of temperatures between -50.0 and +50.0 C (i.e. 100 C in range) is used. So a

temperature between -20 to +20.0 C can be set as the ‘APPROACH ⊿T’ value.)

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c. When pressure values are used for the capacity control:

Select ‘LOCAL SUCTION PRESSURE’ or ‘SYSTEM SUCTION PRESSURE’ on the master station as follows.

Selection Item Selection on Master Station Selection on Slave Station

The ‘CONTROL TARGET (CAPACITY CONTROL)’ item in the ‘OPTION SETUP 1/2’ window (Option 4 of ‘SETUP’ menu (F6))

‘LOCAL SUCTION PRESSURE’ or ‘SYSTEM SUCTION PRESSURE’

‘LOCAL SUCTION PRESSURE’ (When ‘DISABLE’ is selected for ‘AUTO STAGING’ (see Section 4.6 Settings in ‘OPTION SELECT’ Window (Option 6 of ‘SETUP’ Menu (F6))), the capacity of the compressor unit is controlled using the ‘LOCAL SUCTION PRESSURE’ value.)

The ‘CONTROL’ side of the ‘CUT IN/OUT & CONTROL’ item in the ‘AUTO STAGE’ window (Option 7 of ‘SETPOINTS’ menu (F1))

‘PRESSURE’ is automatically selected. ‘PRESSURE’ must be selected match with the selection on the master station.

‘APPROACH ⊿T’ in the ‘AUTO STAGE’ window (this window)

Unchangeable Not used for the control.

d. When temperature values are used for the capacity control:

Select ‘CHILLER LEAVING BRINE TEMPERATURE’. (Slave stations have no chiller leaving brine temperature sensors.)

Selection Item Selection on Master Station Selection on Slave Station

The ‘CONTROL TARGET (CAPACITY CONTROL)’ item in the ‘OPTION SETUP 1/2’ window (Option 4 of ‘SETUP’ menu (F6))

‘CHILLER LEAVING BRINE TEMPERATURE’

‘LOCAL SUCTION PRESSURE’ (When ‘DISABLE’ is selected for ‘AUTO STAGING’ (see Section 4.6 Settings in ‘OPTION SELECT’ Window (Option 6 of ‘SETUP’ Menu (F6))), the capacity of the compressor unit is controlled using the ‘LOCAL SUCTION PRESSURE’ value.)

The ‘CONTROL’ side of the ‘CUT IN/OUT & CONTROL’ item in the ‘AUTO STAGE’ window (Option 7 of ‘SETPOINTS’ menu (F1))

‘TEMPERATURE’ is automatically selected.

‘TEMPERATURE’ must be selected to match with the selection on the master station.

‘APPROACH ⊿T’ in the ‘AUTO STAGE’ window (this window). (see NOTE)

Unchangeable Any temperature (negative value)

NOTE:

If the automatic staging control on a slave station becomes invalid due to interferences or other communication disturbances, the

capacity control is performed using the saturation pressure value derived from the following equation as the set values for the

‘LOCAL SUCTION PRESSURE’.

[‘CONTROL IN SET POINT’ temperature setting written last by the master station] + [‘APPROACH ⊿T’ value]

Therefore, you should enter an appropriate negative value. Any negative value can be input if it is within ±20 % of the “range”.

The “range” here means the measurable range of the temperature sensor selected for the ‘CONTROL TARGET (CAPACITY

CONTROL)’ item in the ‘OPTION SETUP’ window (Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’

Menu (F6))). (Normally, a temperature sensor of a measureable range of between -50.0 to +50.0 C (i.e. 100 C) is used. So a

temperature between -20 to +20.0 C can be set as the ‘APPROACH ⊿T’ value.)

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Chapter 7 Alarms (‘LIMITS’ Menu (F3))

7.1 Settings in ‘ALARM/FAILURE’ Windows 1/3 to 3/3

The ‘ALARM/FAILURE’ windows can be accessed from the ‘LIMITS’ menu by selecting Options 1 to 3.

Windows ‘ALARM/FAILURE 1/3’ and ‘ALARM/FAILURE 2/3’ allow you to set two sets of values (ALARM #1 and #2 values and

FAILURE #1 and #2 values) for each of all the items that require alarm settings except for optional analog inputs.

Which of the #1 and #2 values is used depends on the selections you make for the ‘ALARM/FAILURE’ item in the ‘SCHEDULER’

window (see Section 6.4 Settings in ‘SCHEDULER’ Window (Option 4 of ‘SETPOINTS’ Menu (F1))).

When making alarm settings for optional analog inputs, use the ‘ALARM/FAILURE 3/3’ window.

NOTE:

- “ALARM” refers to non-critical alarms that do not involve a compressor shutdown. The ‘ALARM/FAILURE’ display area on the

screen shows a message in dark red if any alarm of this type is issued.

“FAILURE” refers to critical alarms that involve a compressor shutdown. The ‘ALARM/FAILURE’ display area on the screen

shows a message in red if any alarm of this type is issued.

- “OEM LIMITS” refers to the upper or lower limit of each alarm set value. See Section 7.2 Settings in ‘OEM LIMITS 1/2’ and

‘OEM LIMITS 2/2’ Windows (Options 4 and 5 of ‘LIMITS’ Menu (F3)) for setting of OEM LIMITS values.

7.1.1 ‘ALARM/FAILURE 1/3’ Window

NOTE:

- No alarm is issued if you set the same value for both FAILURE and ALARM.

- No OEM LIMITS setting is possible in this window (see Section 7.2).

ALARM/FAILURE display

Indicates that #1 setting is selected.

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NOTE:

Setting and display of the parenthesized items in the following table is optionally available.

Items of ‘ALARM/FAILURE 1/3’ Window

Item Description

RE-START/TIMEOUT Set a period of time during which whether a RE-START ALARM is to be issued or not is determined.HIGH MA Set “compressor motor overcurrent” alarm point. LOW SP Set “low suction pressure” alarm point. DELAY Set delay before “low suction pressure” alarm is issued.

MASK TIME Set the mask time until “low suction pressure” alarm is issued after start of compressor. (This settingworks for both ALARM and FAILURE.)

HIGH SP Set “high suction pressure” alarm point. DELAY Set delay before “high suction pressure” alarm is issued. (HIGH IP) Set “high intermediate pressure” alarm point.

(LOW OP2) Set point at which “low ⊿OP2 slide valve oil differential pressure ([slide valve oil pressure] – [discharge pressure])” alarm is issued.

HIGH DP Set “high discharge pressure” alarm point.

LOW OP Set point at which “low ⊿OP oil differential pressure ([oil pressure] – [discharge pressure])” alarm is issued.

(LOW OP (OP - SP)) Set point at which “low ⊿OP oil differential pressure ([oil pressure] – [suction pressure])” alarm is issued.

LOW ⊿P Set “⊿P low” alarm point. ⊿P is as defined below: Single-stage compressor: ⊿P = [after-oil-filter pressure] – [suction pressure] Two-stage compressor: ⊿P = [after-oil-filter pressure] – [intermediate pressure]

MASK TIME Set a period of time during which “⊿P low” alarm is to be masked after start of compressor. (This setting works for both ALARM and FAILURE.)

HIGH OF Set point at which “⊿FP high” alarm is issued. ⊿FP = [discharge pressure] – [after-oil-filter pressure]”

DELAY Set delay before “⊿FP high” alarm is issued. (This setting works for both ALARM and FAILURE.)

(HIGH FF) Set point at which “⊿FFP high” alarm is issued. ⊿FFP = [discharge pressure] – [after-fine-filter pressure]

(DELAY) Set delay before “⊿FFP high” alarm is issued. (This setting works for both ALARM and FAILURE.) HIGH ST Set point at which “high suction temperature” alarm is issued.

DELAY/ Set delay before “high suction temperature” alarm is issued. (This setting works for both ALARM and FAILURE.)

/MASK TIME Set period during which “high suction temperature” alarm is masked after start of compressor. (This setting works for both ALARM and FAILURE.)

HIGH DT Set point at which “high discharge temperature” alarm is issued. HIGH OT Set point at which “high oil temperature” alarm is issued. (LOW OS) Set point at which “low oil separator temperature” alarm (ALARM) is issued.

(MASK TIME) Set period during which “low oil separator temperature” alarm (ALARM) is masked after start of compressor. (This setting works also for ⊿P MASK TIME.)

(LOW EB) Set point at which “low chiller inlet process temperature” alarm (ALARM) is issued. (LOW LB) Set point at which “low chiller outlet process temperature” alarm is issued.

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7.1.2 ‘ALARM/FAILURE 2/3’ Window

NOTE:

- No ALARM is issued if you set the same value for both FAILURE and ALARM.

- No OEM LIMITS setting is possible in this window (see Section 7.2).

NOTE:

Setting and display of the parenthesized items in the following table is optionally available.

Items of ‘ALARM/FAILURE 2/3’ Window

Item Description

LOW SSH Set point at which “low suction superheat” alarm is issued.

CANCEL/ Set point at which “low suction superheat” ALARM is cancelled. (Cancellation occurs with a fixed delay of 15 seconds).

/DELAY Set delay before “low suction superheat” FAILURE is issued. (In the case of ALARM, the delay time is fixed at 30 seconds.)

(LOW SH2) Set point at which “low suction superheat 2” alarm is issued.

(CANCEL/) Set point at which “low suction superheat 2” ALARM is cancelled. (Cancellation occurs with delay fixed at 15 seconds.)

(/DELAY) Set delay before “low suction superheat 2” FAILURE is issued. (In the case of ALARM delay time is fixed at 30 seconds.)

(LOW ISH) Set point at which “low intermediate superheat” alarm is issued. LOW DSH Set point at which “low discharge superheat” alarm is issued. DELAY Set delay before “low discharge superheat” alarm is issued. MASK TIME Set period during which “low discharge superheat” ALARM is masked after start of compressor. (LOW CHILLER LEVEL)

Set point at which “low liquid level” ALARM is issued.

DELAY/ Set delay before “low liquid level” ALARM is issued. /MASK TIME Set period during which “low liquid level” ALARM is masked after start of compressor.

ALARM/FAILURE display

Indicates that #1 setting is selected.

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7.1.3 ‘ALARM/FAILURE 3/3’ Window

The ‘ALARM/FAILURE 3/3’ window allows you to set a HIGH or LOW threshold of ALARM/FAILURE alarm for each optional

analog input. After the lapse of the specified masking time following the start of the compressor, an ALARM/FAILURE alarm is

issued with the preset delay if the optional analog input value exceeds the HIGH or LOW limit set here.

This window cannot be selected for display from the ‘LIMITS’ menu if no ALARM/FAILURE is assigned to any analog input in the

‘OPTION ANALOG INPUT’ window (Option 3 of the ‘SETUP’ menu (F6); see Section 4.3 Settings in ‘OPTION ANALOG INPUT’

Window (Option 3 of ‘SETUP’ Menu (F6))).

Unlike the alarms for standard analog input items handled in windows ‘ALARM/FAILURE 1/3’ and ‘ALARM/FAILURE 2/3’ where

two values (#1 and #2) are preset for each of the items, only one value is set for each ALARM/FAILURE alarm item in the case

of optional analog inputs. Another difference of ALARM/FAILURE alarms for optional analog inputs is that they are issued even

when you set the same value for both FAILURE and ALARM.

NOTE:

No OEM LIMITS setting is possible with optional analog inputs for ALARM/FAILURE.

Items of ‘ALARM/FAILURE 3/3’ Window

Item Description

LOW OPT1 Set point at which “low OPT1” alarm is issued (OPT1 = option analog input 1). DELAY/ Set delay before “low OPT1” alarm is issued (OPT1 = option analog input 1).

/MASK TIME Set period during which “low OPT1” alarm is masked after start of compressor (OPT1 = option analog input 1). (This setting works for both ALARM and FAILURE.)

HIGH OPT1 Set point at which “high OPT1” alarm is issued (OPT1 = option analog input 1). DELAY/ Set delay before “high OPT1” alarm is issued (OPT1 = option analog input 1).

/MASK TIME Set period during which “high OPT1” alarm is masked after start of compressor (OPT1 = option analog input 1). (This setting works for both ALARM and FAILURE.)

LOW OPT2 Set point at which “low OPT2” alarm is issued (OPT2 = option analog input 2). DELAY/ Set delay before “low OPT2” alarm is issued (OPT2 = option analog input 2).

/MASK TIME Set period during which “low OPT2” alarm is masked after the start of compressor (OPT2 = option analog input 2). (This setting works for both ALARM and FAILURE.)

HIGH OPT2 Set point at which “high OPT2” alarm is issued (OPT2 = option analog input 2). DELAY/ Set delay before “high OPT2” alarm is issued (OPT2 = option analog input 2).

/MASK TIME Set period during which “high OPT2” alarm is masked after start of compressor (OPT2 = option analog input 2). (This setting works for both ALARM and FAILURE.)

LOW OPT3 Set point at which “low OPT3” is issued (OPT3 = option analog input 3). DELAY/ Set delay before “low OPT3” alarm is issued (OPT3 = option analog input 3).

/MASK TIME Set period during which “low OPT3” alarm is masked after start of compressor (OPT3 = option analog input 3). (This setting works for both ALARM and FAILURE.)

HIGH OPT3 Set point at which “high OPT3” alarm is issued (OPT3 = option analog input 3). DELAY/ Set delay before “high OPT3” alarm is issued (OPT3 = option analog input 3).

ALARM/FAILURE display

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Items of ‘ALARM/FAILURE 3/3’ Window (continued)

Item Description

/MASK TIME Set period during which “high OPT3” alarm is masked after start of the compressor (OPT3 = option analog input 3). (This setting works for both ALARM and FAILURE.)

LOW OPT4 Set point at which “low OPT4” alarm is issued (OPT4 = option analog input 4). DELAY/ Set delay before “low OPT4” alarm is issued (OPT4 = option analog input 4).

/MASK TIME Set period during which “low OPT4” alarm is masked after start of compressor (OPT4 = option analog input 4). (This setting works for both ALARM and FAILURE.)

HIGH OPT4 Set point at which “high OPT4” alarm is issued (OPT4 = option analog input 4). DELAY/ Set delay before “high OPT4” alarm is issued (OPT4 = option analog input 4).

/MASK TIME Set period during which “high OPT4” alarm is masked after start of compressor (OPT4 = option analog input 4). (This setting works for both ALARM and FAILURE.)

7.2 Settings in ‘OEM LIMITS 1/2’ and ‘OEM LIMITS 2/2’ Windows (Options 4 and 5 of ‘LIMITS’ Menu (F3))

These windows (shown as ‘ALARM/FAILURE & OEM LIMITS 1/2’ and ‘ALARM/FAILURE & OEM LIMITS 2/2’ on the screen)

allow you to set the upper and lower limits (OEM limits) of each ALARM/FAILURE setting.

To access to these windows, you must perform “special booting” and enter the LEVEL-2 password (see Section 3.5 Special

Booting for details about the password).

NOTE:

- “ALARM” refers to non-critical warnings that do not involve a compressor shutdown. The ALARM/FAILURE display area on the

screen shows a message in dark red if any warning of this type is issued.

- “FAILURE” refers to critical warnings that involve a compressor shutdown. The ALARM/FAILURE display area on the screen

shows a message in red if any warning of this type is issued.

7.2.1 ‘ALARM/FAILURE & OEM LIMITS 1/2’ Window

This window allows you to set ALARM/FAILURE values in addition to OEM LIMITS values. The items displayed in this window

are the same as those in the ‘ALARM/FAILURE 1/3’ window. See the description on the window in Section 7.1.1

‘ALARM/FAILURE 1/3’ Window.

NOTE:

No alarm is issued if you set the same value for both FAILURE and ALARM.

ALARM/FAILURE display

Indicates that #1 setting is selected.

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7.2.2 ‘ALARM/FAILURE & OEM LIMITS 2/2’ Window

This window allows you to set ALARM/FAILURE values in addition to OEM values. The items displayed in this window are the

same as those in the ‘ALARM/FAILURE 2/3’ window; see Section 7.1.2 ‘ALARM/FAILURE 2/3’ Window for information on the

window.

NOTE:

No alarm is issued if you set the same value for both FAILURE and ALARM.

7.3 Settings in ‘RANGE OVER’ Window (Option 6 of ‘LIMITS’ Menu (F3))

This window allows you to set the period of time during which an over-range / under-range alarm condition is to be detected and

also the mask time during which a failure condition is not detected for each sensor.

If settings are made for the individual sensors listed in this window, you can identify a sensor to be faulty if it is sending data

showing a value above the upper limit (more than 95 % of the full scale) or below the lower limit (less than 5 % of the full scale).

If zero (0) is entered in the ‘[ ] SEC’ space for a sensor under the ‘FAILURE DELAY’ item, no alarm is issued for the sensor.

ALARM/FAILURE display

Indicates that #1 setting is selected.

ALARM/FAILURE display area

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Items in ‘RANGE OVER’ Window

Item Description

FAILURE MASK TIME No sensor alarm conditions are detected during this period of time after the start of compressor operation.

PRESSURE SENSOR Set the failure mask time for the pressure sensor. TEMPERATURE SENSOR Set the failure mask time for the temperature sensor.

FAILURE DELAY (VALUE 0 INVALIDATES) Set the delay before output of alarm for each sensor. (If it is set to “0”, no alarm is issued for the sensor.)

SUCTION PRESSURE OVER Upper limit alarm of suction pressure sensor at AI-01 DISCHARGE PRESSURE UNDER Lower limit alarm of discharge pressure sensor at AI-02 OIL SUPPLY PRESSURE OVER Upper limit alarm of oil supply pressure sensor at AI-03 AFTER FILTER PRESSURE OVER Upper limit alarm of after-oil-filter pressure sensor at AI-04 SUCTION TEMPERATURE OVER Upper limit alarm of suction temperature sensor at AI-06 SUCTION TEMPERATURE UNDER Lower limit alarm of suction temperature sensor at AI-06 DISCHARGE TEMPERATURE UNDER Lower limit alarm of discharge temperature sensor at AI-07 OIL SUPPLY TEMPERATURE UNDER Lower limit alarm of oil supply temperature sensor at AI-08 (INTERMEDIATE PRESSURE UNDER) *1 Lower limit alarm of intermediate pressure sensor at AI-09 (INTERMEDIATE TEMPERATURE UNDER) *1 Lower limit alarm of intermediate temperature sensor at AI-10 COMPRESSOR MOTOR CURRENT UNDER Lower limit alarm of compressor motor current sensor at AI-12 (LEAVING BRINE TEMPERATURE OVER) *2 Upper limit alarm of brine outlet temperature sensor at AI-14

LOW STAGE SLIDE VALVE POSITION OVERUpper limit alarm of low stage unloader slide valve position sensor at AI-15

LOW STAGE SLIDE VALVE POSITION UNDER

Lower limit alarm of low stage unloader slide valve position sensor at AI-15:

(HIGH STAGE SLIDE VALVE POSITION OVER) *3

Upper limit alarm of high stage unloader slide valve position sensor at AI-16

(HIGH STAGE SLIDE VALVE POSITION UNDER)*3

Lower limit alarm of high stage unloader slide valve position sensor at AI-16

(CHILLER GAS TEMPERATURE 1 & 2 UNDER) *4

Lower limit alarm of chiller gas temperature sensor at AI-18 or AI-26

(CHILLER GAS TEMPERATURE 1 & 2 OVER) *4

Upper limit alarm of chiller gas temperature sensor at AI-18 or AI-26

(SUCTION PRESSURE 1 & 2 UNDER) *5 Lower limit alarm of chiller gas pressure sensor at AI-17 or AI-25 (SUCTION PRESSURE 1 & 2 OVER) *5 Upper limit alarm of chiller gas pressure sensor at AI-17 or AI-25

NOTE:

Display and setting of each parenthesized item above is enabled according the option settings you make as follows.

*1 Enabled when any of the following is selected for the ‘COMPRESSOR’ item in the ‘SYSTEM SETUP’ window (Option 1 of

the ‘SETUP’ menu (F6); Section 4.1 Setting in ‘SYSTEM SETUP’ Window (Option 1 of ‘SETUP’ Menu (F6))):

ECONOMIZER W/ SENSOR

COMPOUND-1 (1610 & 1612)

COMPOUND-2 (2016 & HIGHER)

SINGLE J ECONOMIZER W/ SENSOR

FM160 ECONOMIZER W/ SENSOR

*2 Enabled when ‘YES’ is selected for the ‘CHILLER LEAVING TEMP. SENSOR’ item in the ‘OPTION SETUP 2/2’ window

(Option 5 of the ‘SETUP’ menu (F6); Section 4.5 Setting in ‘OPTION SETUP 2/2’ Window (Option 5 of ‘SETUP’ Menu

(F6))).

*3 Enabled when ‘COMPOUND-2 (2016 & HIGHER)’ is selected for the ‘COMPRESSOR’ item in the ‘SYSTEM SETUP’

window (Option 1 of the ‘SETUP’ menu (F6); Section 4.1 Setting in ‘SYSTEM SETUP’ Window (Option 1 of ‘SETUP’ Menu

(F6))).

*4 Enabled when ‘YES’ is selected for the ‘CHILLER GAS TEMP. SENSOR’ item in the ‘OPTION SETUP 2/2’ window (Option

5 of the ‘SETUP’ menu (F6); Section 4.5 Setting in ‘OPTION SETUP 2/2’ Window (Option 5 of ‘SETUP’ Menu (F6))).

*5 Enabled when ‘YES’ is selected for the ‘CHILLER GAS PRESS. SENSOR’ item in the ‘OPTION SETUP 2/2’ window

(Option 5 of the ‘SETUP’ menu (F6); Section 4.5 Setting in ‘OPTION SETUP 2/2’ Window (Option 5 of ‘SETUP’ Menu

(F6))).

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Chapter 8 Operation

8.1 Control of Compressor Unit Operation

8.1.1 Start/Stop Control in Different Operation Control Modes

The start/stop control of the compressor unit is different according to the selection you make for the ‘OPERATION’ item in the

‘OPERATION MODE’ window (Option 1 of the ‘SETPOINTS’ menu (F1); see Section 6.1 Settings in ‘OPERATION MODE’

Window (Option 1 of ‘SETPOINTS’ Menu (F1))).

‘LOCAL’: The START/STOP key on the front panel is used to make start/stop control of the compressor unit.

‘REMOTE’: Start/stop of the compressor unit is controlled by ON/OFF command inputs at DI-16 (X0F) by an external

device.

‘COMM’: Start/stop of the compressor unit takes place according to ON/OFF commands at X140 transmitted from a

remote controlling device through communications.

‘AUTO STAGE’: Each of the multiple compressor units operating under automatic staging control (AUTO STAGE; option) is

started and stopped according to commands sent from the master station.

a. Start/stop control in ‘LOCAL’ mode

Start:

- Press the START key on the front panel of CP4.

When the START key is pressed with the compressor in a non-operating condition and without any alarm issued, the system

will be activated after a lapse of the ‘SYSTEM START DELAY’ time*1.

- The system starts operating after a lapse of the ‘CUT IN DELAY’ time following its activation.

- The oil pump operation command at DO-02 (Y01) turns ON with a delay of the ‘OIL P. START DELAY’ time*1, causing the oil

pump to start.

- After the start of the oil pump, the following points are confirmed in the order of mention within the ‘COMP. START DELAY’

time*1:

The actual measurement of the supply oil differential pressure is larger than the setting for ‘LOW ⊿OP’ alarm (for the ‘LOW ⊿

OP MASK TIME’)*2.

The compressor’s capacity does not exceed 5 %.

- The compressor motor operation command at DO-01 (Y00) turns ON.

- The compressor motor starts and the compressor operation confirmation input at DI-12 (X0B) turns ON to complete the

compressor start sequence.

*1 See Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1)).

*2 See Section 7.1 Settings in ‘ALARM/FAILURE’ Windows 1/3 to 3/3.

Stop:

- Press the STOP key on the front panel of CP4.

Liquid recovering sequence starts as soon as the STOP key is pressed while the compressor is in operation. The compressor

capacity set for ‘PUMP OUT LSV%’*1 is maintained during the liquid recovering operation.

- After a delay of the ‘PUMP OUT MINIMUM DELAY’ time*1, the compressor completes the liquid recovering sequence either

after a lapse of the ‘PUMP OUT MAXIMUM DELAY’ time*1 or after the suction pressure has dropped to the ‘PUMP OUT

PRESS’ pressure*1.

At the end of the liquid recovering sequence, the compressor capacity is brought down to 0 % if ‘YES’ is selected for

‘CAPACITY 0% STOP’*1. If ‘NO’ is selected, the liquid recovering sequence finishes without reducing the compressor capacity

to 0 %.

- The compressor operation command at DO-01 (Y00) is turned OFF to complete the compressor stop control sequence.

*1 See Section 6.3 Settings in ‘SET POINTS’ Window (Option 3 of ‘SETPOINTS’ Menu (F1)).

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b. Start/stop control in ‘REMOTE’ mode

- The compressor is started and stopped according to ON/OFF commands at DI-16 (X0F) from an external device.

c. Start/stop control in ‘COMM’ mode

- The compressor is started and stopped according to ON/OFF commands at X140 transmitted from a remote computer

transmitted through communications.

d. Start/stop control in ‘AUTO STAGE’ mode

- The master station issues commands to start and stop the compressor units under the control of itself and the individual

slave stations to achieve the automatic staging control. The commands are transmitted to each slave station through

communications.

According to the selection for the ‘OPERATION’ item in the ‘OPERATION MODE’ window, the following conditions automatically take place when the STOP key is pressed on the front panel of PC4. - When the ‘LOCAL’, ‘REMOTE’, or ‘COMM’ mode (not the ‘AUTO STAGE’ mode) has

been selected, pressing the STOP key causes no change to the operation control mode in the case of the ‘LOCAL’ mode, but the mode automatically changes to ‘LOCAL’ in the case of the ‘REMOTE’ and ‘COMM’ modes. The compressor, if operating, will then stop after the liquid recovering sequence. (It remains stopped thereafter.) To restart the compressor, simply press the START key if you need not change the mode from ‘LOCAL’ to another, or turn ON the relevant operation control command after changing the mode from ‘LOCAL’ to the desired mode.

- When the ‘AUTO STAGE’ mode has been selected, pressing the STOP key does not

cause any change to the setting for the ‘OPERATION’ item in the ‘OPERATION MODE’ window, but the selection of ‘ENABLE’ you made for the ‘CONTROL’ item in the ‘AUTO STAGE’ window automatically changes to ‘DISABLE’. In this case, if the compressor under control is running when the STOP key is pressed, the compressor will then stop after completing the liquid recovering sequence. Even the STOP key is pressed on the master station and its ‘CONTROL’ item setting in the ‘AUTO STAGE’ window is consequently changed to ‘DISABLE’, the automatic staging control continues to work on all the other stations (slave stations). To recover the ‘AUTO STAGE’ mode control after pressing the ‘STOP’ key, it is necessary (for the case of the masterstation and the case of a slave station) to perform the steps below. (Simply pressing the START key on the station does not recover the automatic staging control.) 1. From the ‘SETPOINTS’ menu (F1), open the ‘AUTO STAGE’ window. 2. Select ‘ENABLE’ for the ‘CONTROL’ item in the window.

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8.1.2 Compressor Capacity Control Settings in ‘CAPACITY CONTROL’ Window (Option 1 of ‘CONTROLLER’ Menu (F2))

The sub-windows of the ‘CAPACITY CONTROL’ window allow you to make the following settings and monitoring related to the

capacity control of the compressor.

- Setting for the basic capacity control items

- Setting for the unloader slide valve positioner

- Setting for the capacity control limiters

- Monitoring and setting of the upper limit at the start of the capacity control (‘CAPACITY RAMP CONTROL’)

Setting in the ‘CAPACITY CONTROL (MONITOR)’ sub-window For the ‘OPERATION’ item, select appropriate one concerning determination of the capacity from the following options:

‘MANUAL’ The “increase” solenoid valve turns ON and OFF when you select ‘MANUAL LOAD’ using front panel

keys. The “decrease” solenoid valve turns ON and OFF when you select ‘MANUAL UNLOAD’.

‘AUTO’ CP4 automatically determines an appropriate compressor capacity according to the pressures or

temperatures of the control target.

‘REMOTE DIGITAL’ The “increase” and “decrease” solenoid valves turn ON and OFF as the relevant digital input turns ON

and OFF. (Option setting for ‘REMOTE CAPACITY CONTROL’ is required (see Section 4.4 Settings in

‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))).)

‘REMOTE ANALOG’ The value of the relevant analog input is used as the capacity value. (Option setting for ‘REMOTE

CAPACITY CONTROL’ is required (see Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4

of ‘SETUP’ Menu (F6))).)

‘COMM’ The value stored in the relevant register is used as the capacity value.(The value is written in the register

through communications.)

Setting in the ‘CAPACITY CONTROL (SETPOINTS)’ sub-window Enter an appropriate value (percentage) for the ‘MV (LSV) DEAD BAND’ item to adjust the positioner function of the low-stage

slide valve.

If the difference between the setting for the capacity controller’s manipulation value ‘PID OUT (MV)%’ in the CAPACITY

CONTROL (MONITOR) sub-window and the current low-stage slide valve position ‘L. SLIDE VALVE’ exceeds the value for ‘MV

(LSV) DEAD BAND’, CP4 issues an “increase” or “decrease” command to drive the corresponding solenoid valve.

In general, the response of the slide valve position to change in manipulation value improves if you set a relatively small value for

‘MV (LSV) DEAD BAND’. However, the life of the digital output device becomes shorter since the number of ON/OFF times to

energize and de-energize the solenoid valves becomes greater. In addition, if the slide valve must move quickly to meet the

setting, not only the number of the ON/OFF times to drive the “increase” and “decrease” solenoid valves increases, but also

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these two valves alternately turn ON and OFF. As a result, it takes too long time before their positions settle. In the worst case,

their positions would never settle.

The limiter function is mainly for preventing overloading. By setting proper values for the following ‘UNLOAD’ and ‘LOAD

FORBID’ items, you can limit the capacity “increase” movement.

‘HI MA UNLOAD’ “Decrease” command is continuously issued as long as the compressor motor current is equal to or

larger than the set value.

‘HI MA LOAD FORBID’ No “increase” command is issued if the compressor motor current is equal to or larger than the set

value.

‘HI DP UNLOAD’ “Decrease” command is continuously issued as long as the discharge pressure is equal to or larger than

the set value”.

‘HI DP LOAD FORBID’ No “increase” command is issued if the discharge pressure is equal to or larger than the set value.

‘HI IP UNLOAD’ Decrease command is continuously issued as long as the intermediate pressure is equal to or larger

than the set value. (Not displayed according to the option setting (see Section 4.4 Settings in ‘OPTION

SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6)))).

‘HI IP LOAD FORBID’ No “increase” command is issued if the intermediate pressure is equal to or larger than the set value.

(Not displayed according to option setting (see Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window

(Option 4 of ‘SETUP’ Menu (F6)))).

‘LO SP UNLOAD’ “Decrease” command is continuously issued as long as the suction pressure is equal to or smaller than

the set value. (This function prevents a drop in suction pressure rather than preventing overloading.)

‘LO SP LOAD FORBID’ No “increase” command is issued if the suction pressure is equal to or smaller than the set value. (This

function prevents a drop in suction pressure rather than preventing overloading.)

CP4 uses the setting you make for the ‘CTRL START DELAY’ item in this sub-window to allow for the time to keep the capacity

at 0 % for the period from the start of compressor operation to the time when the capacity control is started.

The setting for the ‘FORCE FULL LOAD’ item is used to adjust the time until a 100 % load is reached during the “forced 100 %

operation” implemented through communications.

The manipulation value of the capacity controller displayed in ‘PID OUT (MV) %’ starts increasing by the amount set for the

‘FORCE FULL LOAD’ item every second beginning with the value at the ON time of the corresponding coil (in which data are

written through communications). This means that the larger the set value, the shorter the time needed for the manipulating value

of the capacity controller to reach 100 %.

Settings in the ‘CAPACITY RAMP CONTROL’ sub-window CP4 uses time vales as well as capacity values (expressed in manipulating values (MV)) you have entered in ‘SEC’ and ‘%’ for

each of the capacity control steps (‘STEP-1’ to ‘STEP-8’) in this sub-window in order to prevent the capacity from going beyond

the upper limit during the initial period of capacity control.

Refrigerating system operation confirmation (OFF -> ON)

Normal operation

Controller manipulating value

MVH%:%-8

0.0%

100.0%

SEC-1 SEC-3 SEC-4 SEC-5 SEC-6 SEC-8 SEC-2 SEC-7

Start of capacity control

Time CTRL START

DELAY

MVL%

%-7 %-6

%-5

%-4

%-3

%-2

%-1

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STEP-1 The lower limit of the capacity changes over the time you set for this STEP along the line connecting the

0.0 % point and the MVL % point. (“MVL” stands for “manipulating value low limit”.)

The upper limit of the capacity changes over the time you set for this STEP along the line connecting the

0.0 % point and the percentage point you set for STEP-1.

STEP-2 to STEP-8 The capacity lower limit remains at the MVL %.

The capacity upper limit changes over the time you set for each STEP along the line connecting the

percentage point of the preceding STEP and the percentage point of each STEP.

After STEP-8 The capacity lower limit remains at the MVL % for normal operation.

The capacity upper limit remains at the MVH % (the same percentage as the one set for STEP-8) for normal

operation. (“MVH” stands for “manipulating value high limit”.)

You can set any percentage between 0.0 % and 100.0 % for all STEPs from STEP-1 to STEP-7. However, if you set percentages

smaller than MVL % for these STEPs, the ramp formed by the capacity upper limit may go below the MVL % line for a certain

period of time. The capacity lower limit in this period becomes 0.0 %, and CP4 confines the manipulating value (MV) of the

capacity controller within the shaded areas shown in the following diagram during this period.

Even during STEP-1 to STEP-8, however, either the capacity control limiter may work in the same manner as for the normal

operation or the manipulating value (‘PID OUT (MV)’) may go beyond the shaded area while the compressor is in the

limited-capacity operation, 100 %-capacity operation, or liquid recovery operation.

The settings made in this sub-window for the following two items are not displayed if the ‘VFD COMPRESSOR CONTROL’ is

made valid (see Section 8.1.3 Settings in ‘VFD COMPRESSOR CONTROL’ window (Option 2 of ‘CONTROLLER’ Menu (F2))).

To display and make settings for them, use the ‘CAPACITY RAMP CONTROL’ sub-window in the ‘VFD COMPRESSOR

CONTROL’ window (Option 2 of ‘CONTROLLER’ menu (F2)).

‘REMOTE MVH%’

The value set for this item is used as the capacity upper limit while the relevant communication-writable coil is in the ON state.

However, this function is invalid when any of the following conditions is met.

- ‘ENABLE’ is selected for ‘MVL%/MVH% BY COMM’ (see below).

- ‘AUTO STAGE’ is selected for ‘OPERATION’ (see Section 6.1 Settings in ‘OPERATION MODE’ Window (Option 1 of

‘SETPOINTS’ Menu (F1))).

- ‘REMOTE CAPACITY CONTROL’ is enabled (see Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of

‘SETUP’ Menu (F6))).

- Liquid recovery sequence is in progress in the compressor.

‘MVL%/MVH% BY COMM’

Select either ‘DISABLE’ or ‘ENABLE’ to make valid or invalid the function that allows using the two values (each stored in the

relevant two communication-writable registers) as ‘MVL%’ (capacity lower limit) and ‘MVH%’ (capacity upper limit),

respectively.

Regulator MV

Set%-n

Set%-(n+1)

Set%-(n-1)

0.0

MVL%

SEC-(n-1) SEC-n SEC-(n+1) SEC-(n+2)Time

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8.1.3 Settings in ‘VFD COMPRESSOR CONTROL’ window (Option 2 of ‘CONTROLLER’ Menu (F2))

To achieve satisfactory speed control of the variable frequency drive (VFD) motor for proper compressor capacity control, you

should make necessary selections/entries in the ‘VFD COMPRESSOR CONTROL’ window according to the instructions in this

section.

Settings in ‘VFD COMPRESSOR (MONITOR)’ sub-window For ‘OPERATION’, select an appropriate speed control method from the following options:

‘MANUAL’ The speed increases or decreases as you select ‘MANUAL PLUS’ or ‘MANUAL MINUS’ using front panel

keys.

‘AUTO’ CP4 automatically determines an appropriate compressor speed according to the pressure or

temperature of the control target.

‘REMOTE DIGITAL’ Not select able for this control.

‘REMOTE ANALOG’ The value of the relevant analog input is used as the speed value. (Option settings are required (see

Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))).)

‘COMM’ The value stored in the relevant communication-writable register is used as the speed value.

Settings in ‘VFD COMPRESSOR (SETPOINTS)’ sub-window As to the limiting functions to prevent overloading, the same method of setting as with the ‘CAPACITY CONTROL’ window

applies, except that the value set for ‘FORCE UNLOAD’ is used when a “forced decrease” condition occurs depending on the

‘UNLOAD’ set value. The manipulating value ‘PID OUT (MV) %’ of the speed controller starts decreasing from the time when the

“forced decrease” condition is reached by the value set for ‘FORCE UNLOAD’ every second. This means that the larger the set

value, the shorter the time taken for reducing the manipulating value of the speed controller.

The value set for ‘VFD START DELAY’ is used as the allowance period for confirming the transfer of control from the slide valve

position control to the speed control after the unloader slide valve has reached the ‘MVH%’ position. On the other hand, the value

set for ‘VFD STOP DELAY’ is used when transferring the capacity control back to the slide valve position control from the speed

control after reach to ‘MVL%’ of the manipulating value of the speed controller ‘PID OUT (MV) %’ .

As to the settings for ‘FORCE FULL LOAD’ and ‘CAPACITY RAMP CONTROL’, the same explanation as with the ‘CAPACITY

CONTROL’ window (Option 1 of ‘CAPACITY CONTROL’ menu (F2)) applies.

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LOW HIGH ZONE-1

Analog output

PID OUT(MV)%

100% Path followed when increasing the speed

Path followed when decreasing the speed

100%

LOW HIGHZONE-2

LOW HIGHZONE-3

0% 0%

HIGHZONE-1

LOW

HIGHZONE-2

LOW

HIGHZONE-3

LOW

Settings for ‘OUTPUT LIMIT’ sub-window CP4 uses the ‘LOW’ and ‘HIGH’ values you set for the output prohibition zones ‘ZONE-1’ to ‘ZONE-3’ for the purpose of limiting

the speed output zones.

The speed output zone limiting function works so as to make the analog output corresponding to the ‘VFD COMPRESSOR

CONTROL PID OUT’ output change following the paths shown below.

If the ‘LOW’ and ‘HIGH’ values are different in the same zone, a step-like path results. If they are the same, a linear path results.

(This function is defaulted as “disabled”.)

8.1.4 Settings in ‘VFD SETUP’ Window (SHIFT 3 of ‘CONTROLLER’ Menu (F2))

This window allows you to set the scaling used for the display of the speed control outputs.

For the ‘COMPRESSOR VFD CONTROL’ item, select ‘REVOLUTION’ (‘rpm’) or ‘FREQUENCY’ (‘Hz’) to select the speed

scaling or the frequency scaling, respectively.

Under ‘MV0% - 100%’, set the speed or frequency values that correspond to the 0 % and 100 % speed control outputs (MV =

manipulating value).

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8.1.5 Settings in ‘CONDENSER CONTROL’ Window (Option 0 of ‘CONTROLLER’ Menu (F2))

When an optional digital input/output board (at DO 25 (Y18) – DO 30 (Y1D)) and an optional analog output board (when “disable”

is not selected for ‘CONDENSER VFD CONTROL’ (see Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of

‘SETUP’ Menu (F6)))) are installed, CP4 makes the number and speed controls on the condenser fans or pumps using the

discharge pressure as the control target and display the states on the screen of this sub-window. (However, this function does

not work unless one of the following factory options is enabled: ‘CONDENSER VFD CONTROL’ (VFD ONLY, VFD + 2 STEPS,

VFD + 3 STEPS, or VFD + 5 STEPS), ‘CONDENSER 3 STEPS CONTROL’, and ‘CONDENSER 6 STEPS CONTROL’.)

This control works when you make selections for the three items in the ‘OPTION SETUP 1/2’ window (Option 4 of ‘SETUP’ menu

(F6)) as follows (see Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6))):

- Select ‘USE’ for the ‘CONDENSER CONTROL’ item to enable this control.

- Select ‘LOCAL’ or ‘SYSTEM DISCHARGE PRESSURE’ for the ‘CONDENSER CONTROL TARGET’ item as the control

target.

- Select ‘ON/OFF SINGLE SET’ or ‘ON/OFF MULTI SET’ for the ‘CONDENSER CONTROL METHOD’ item as the control

method. (When ‘ON/OFF SINGLE SET’ is selected, the start/stop control is made using one set of start and start values to

control the number of operating condenser fans or pumps. Selection of ‘ON/OFF MULTI SET’ allows using different start/stop

values for individual fans or pumps. If ‘VFD ONLY’ is selected as the factory option, the number control of operating fans or

pumps is not implemented, so ‘ON/OFF MULTI SET’ is selected invariably.)

The following examples show the ‘CONDENSER CONTROL’ window displays appearing under different conditions.

• When ‘ON/OFF SINGLE SET’ is selected for ‘CONDENSER CONTROL METHOD’ with factory-set option “VFD + 5 STEPS”

enabled

‘VFD LAG/VFD LEAD’ Select VFD LAG (last ON) or LEAD (first ON) for DO 25:Y18 channel. Different control set value can

also be used for LAG and LEAD.

‘START’ Set pressure for increasing the number of units

‘STOP’ Set pressure for decreasing the number of units

‘CYCLE TIME’ Set cycle for checking whether to increase or decrease the number of units

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• When ‘ON/OFF MULTI SET’ is selected for ‘CONDENSER CONTROL METHOD’ with factory-set option “VFD + 5 STEPS”

enabled

‘SET POINT SELECT’ Select ‘SET POINT #1’ or ‘SET POINT #2’ when using a pair of two different set points (one pair

associated to #1 and the other associated to #2) by switching between them.

‘START #1’ to ‘START #6’ Set pressure for each of digital outputs DO 25 (Y18) to DO 30 (Y1D)

‘STOP’ Set pressure for each of digital outputs DO 25 (Y18) to DO 30 (Y1D)

NOTE:

Depending on the enabled factory option, the ‘START’ and ‘STOP’ set pressures displayed are different as follows:

Factory option ‘START’ and ‘STOP’ set pressures displayed

VFD ONLY #1

VFD + 2 STEPS #1 to #3

VFD + 3 STEPS #1 to #4

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• When ‘ON/OFF SINGLE SET’ is selected for ‘CONDENSER CONTROL METHOD’ with factory option “CONDENSER 3

STEPS CONTROL” or “CONDENSER 6STEPS CONTROL” enabled

‘START’ Set pressure for increasing the number of units

‘STOP’ Set pressure for decreasing the number of units

‘CYCLE TIME’ Cycle for checking whether to increase or decrease the number of units

• When ‘ON/OFF MULTI SET’ is selected for ‘CONDENSER CONTROL METHOD’ with factory-set option “VFD 6 STEPS

CONTROL” enabled

‘START #1’ to ‘START #6’ Start pressure for each of digital outputs DO 25 (Y18) to DO 30 (Y1D)

‘STOP’ Stop pressure for each of digital outputs DO 25 (Y18) to DO 30 (Y1D)

NOTE:

When factory option “VFD 3 STEPS CONTROL” ‘START’ is enabled, ‘START’ and ‘STOP’ set pressures are displayed for the #1

to #3 settings.

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8.2 Communications

8.2.1 System Configuration

CP4 of the standard specification has one RS-485 communication port.

Using this communication port, CP4 can make serial communications with a remote communication device.

Serial communication is possible among a maximum of 32 devices including the remote device, which are connected with a bus

of up to 150 meters in total length.

Conforming to the EIA 485 standard, the communication system uses a 4-wire, half-duplex system.

The system is formed of one master station and multiple slave stations to make up a “master-slave” arrangement. Unlike the

optional automatic staging control (AUTO STAGE) system, it is impossible for CP4 to become the master for serial

communications among other CP4s. A remote communication device (such as a computer, programmable logic controller (PLC)

network, or MYPRO-NPIV) is always required to implement the communications network functions.

Up to 32 devices

Slave Slave Slave Master

No. 1 No. 2 No. 3 No. 32

RS-485 6-core, 3-paired cable

Up to 150 m long

Through serial communications, the remote communication device (master station) can read various data of the individual CP4,

including analog measurements, settings, calculated values (virtual analog inputs), and the status of each digital input/output and

alarm. It is also possible for the master station to give the connected CP4s various commands including commands to change

settings and those to start/stop the compressors under control of the slave stations.

The system supports both MODBUS Protocol RTU Mode and MODBUS Protocol ASCII Mode.

8.2.2 Remote Communication Device and Communication Protocols

When the remote communications device sends a “data write” or “data read” command, the CP4 with the address specified in the

command sends an answer. This constitutes one session of communication. (Any CP4 does not voluntarily initiate transmission.)

Flow of data on communications line

Transmission from remote device

Transmission from CP4 Time

Answer delay time

(1) A command is sent from remote device to CP4.

(2) CP4 receives command and, if the command is addressed to the CP4, evaluates its content before sending

back an answer.

The arrangement between the command and answer used in (1) and (2) above is called “protocol”. Among multiple

communications protocols, CP4 supports the two of them: MODBUS ASCII protocol and MODBUS RTU protocol.

As both the protocols are standard protocols in industry, communications can easily be implemented without originally

programming yourself if MODBUS-compatible SCADA Software and a PLC communication unit are used.

(1) Write/read

command

(2) Answer

CP4

(Terminator)

Master station

(Remote communication

device with terminator)

CP4 CP4

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8.2.3 Connecting Communication Terminating Resistors

The specifications of the RS-485 standard which the CP4’s communication port (COM1) complies with require that the

communication ports of the devices located at the physical ends be provided with termination resistors (these ports are called

“termination ports”).

The CPU board in each CP4 has a built-in termination resistor. To connect or disconnect the termination resistor, termination

switches SW3 for the COM1 port is used. Turn the switch ON to connect the termination resistor, or turn it OFF to disconnect it.

Master-Slave System by 2-Wire Connections

In the above example of a 2-wire system, either of the termination resistor connection switches 1 and 2 of the

Slave 2 station should be turned ON.

Be sure to connect the termination resistors by tuning ON their switches. This is necessary only for the termination ports. Without connecting termination resistors correctly for the necessary RS-485 ports, normal communications between the network devices is not guaranteed. When setting the switch, move it until it clicks.

Termination resistor

110Ω

CP4’s RS-485 port

(Slave 2)

CP4’s RS-485 port

(Slave 1)

Remote device’s port

(Master)

SDA

SDB

RDA

RDB

SG

FG

Termination resistor connection SW1 ON

RA 110Ω

RB

Termination resistor connection SW2 OFF

SA 110Ω

SB

SG

FG Shielded 6-core, 3-pair cable

Termination resistor connection SW1 OFF

RA110Ω

RB

Termination resistor connection SW2 OFF

SA110Ω

SB

SG

FG Shielded 6-core, 3-pair cable

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8.2.4 MODBUS Protocol

MODBUS protocol is a standard communications protocol in industry.

With MODBUS protocol, two transmission modes are usable: RTU mode (BINARY system) and ASCII mode (ASCII system).

The table below lists the differences between these modes.

Item RTU mode ASCII mode

Data bit 8 bits (BINARY) 7 bits (ASCII)

Statement start mark Unnecessary : (3Ah)

Statement end mark Unnecessary CRLF (0Dh, 0Ah)

Statement length *1 N 2N + 1

Data time interval *2 24-bit time *3 or less 1 second or less

Error check code CRC-16 (cyclic redundancy check) LRC (longitudinal redundancy check)

(“h” indicates a hexadecimal number.)

NOTE:

*1 Statement length in RTU mode is assumed here as “N”.

*2 If individual sets of data that constitute a statement are separated each other longer than the indicated time

during transmission, the receiver device interprets it as a halfway interruption of the transmission and ignores

the statement. A communication error may be detected in such a case.

*3 The bit time indicates the time taken to send one bit of data at the specified transfer rate.

MODBUS protocol defines various function codes. CP4 supports the function codes shown in the following table.

Function code Function

Number of device points that

can be handled in one

communication session

01h Reads coil status information. 80 points

03h Reads content of holding register. 80 points

05h Changes status of single coil. 1 point

06h Changes content of single holding

register. 1 point

08h Loopback test - - -

0Fh Changes status of multiple coils 2 points

10h Changes the content of multiple holding

registers. 7 points

NOTE: CP4 handles bit information as a coil.

“Number” should be specified to designate each set of data under MODBUS protocol. “Number” includes a reference number,

specified number, and start number. The following explains these numbers:

The reference number is used to specify a coil or holding register when data of slave devices is referenced from the master

device that supports MODBUS protocol. Use 00001 to 09999 to specify coils, and use 40001 to 49999 to specify holding

registers.

The specified number is used to specify data in command statements under the MODBUS protocol. Use 0001 to 9999 for both

coils and hold registers.

The specified number is used to specify data in actual command statements. The specified number is also called the “start

number” in the sense that it indicates the data from which writing or reading is to be started.

Each number is specified in hexadecimal notation in command statements.

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Calculation of designation number (start number) from reference number

(Coil) Reference number (00001) - 00001 = Specified number (0000)

(Holding register) Reference number (40001) - 40001 = Specified number (0000)

For the specified numbers and reference numbers of individual devices, refer to the Device List in Chapter 12.

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Chapter 9 Maintenance (‘LOGS’ Menu (F4))

9.1 Display in ‘TRENO LOG’ Window (Option 1 of ‘LOGS’ Menu (F4))

In this window, you can check the numerical data of the past 1,440 input/output (I/O) events (trend log) that were stored in

memory at the cycle you specify in the ‘SET TIME’ window (Option 2 of ‘ADJUSTMENT’ menu (F5); see Section 5.2 Settings in

‘SET TIME’ Windows (Option 2 of ‘ADJUSTMENT’ Menu (F5))).

The trend log covers the past 1,440 I/O events including the following items:

1/4: Analog input measurements: 64 items (AI1 to AI64)

2/4: Internally calculated values: 16 items (AI65 to AI80)

3/4: PID controller set points and manipulation values (MV): 16 items each for set point (SV) and MV (PID1 to PID16)

4/4: digital I/O: 16 values or 32 items (DIO00 to DIO0F or DIO1F)

(If 1,440 events (from the oldest No. 0000 to the latest No. 1439) are expired, the oldest value is overwritten by the next old value

sequentially.)

You can set any logging cycle from 0 to 21,600 seconds (6 hours). (For the method, see Section 5.2 Settings in ‘SET TIME’

Windows (Option 2 of ‘ADJUSTMENT’ Menu (F5)))

Log data for the I/O events of 8 consecutive numbers can be checked for 10 input/output (I/O) items at a time. Use an appropriate

one of the following key operations to change the display:

: Display starts from the event of the smaller (older) log number by one.

SHIFT + : Display starts from the event of the smaller (older) log number by 10.

: Display starts from the event of the larger (newer) log number by one.

SHIFT + : Display starts from the event of the larger (newer) log number by 10.

: Display shows the leading event of the I/O number decreased by one. (The display shifts in the “4/4-to-1/4”

direction (see above).)

SHIFT + : Display shows the leading event of the I/O number decreased by eight. (The display shifts in the 4/4-to-1/4

direction (see above).)

: Display shows the leading event of the I/O number increased by one. (The display shifts in the 1/4-to-4/4

direction (see above).)

SHIFT + : Display shows the leading event of the I/O number increased by eight. (The display shifts in the 1/4-to-4/4

direction (see above).)

Log No.

I/O number (abbreviated)

Old

New

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9.2 Display in ‘TREND GRAPH’ Window (SHIFT 1 of ‘LOGS’ Menu (F4))

This window shows the data of the past 1,440 input/output (I/O) events (trend log) that were stored in memory at the cycle you

specify in the ‘SET TIME’ window (Option 2 of ‘ADJUSTMENT’ menu (F5); see Section 5.2 Settings in ‘SET TIME’ Windows

(Option 2 of ‘ADJUSTMENT’ Menu (F5))) in the form of a graph.

To use this window, you should have assigned the desired I/O items (up to 16 items) to each of the two pages available for this

window. On the desired graph page, you can visually check the operation of the compressor unit in details by scrolling the screen

and moving the cursor while concurrently utilizing the numerical log data for the desired date and hour.

The trend log covers the past 1,440 I/O events including the following items:

1/4: Analog input measurements: 64 items (AI1 to AI64)

2/4: Internally calculated values: 16 items (AI65 to AI80)

3/4: PID controller set points and manipulating values (MV): 16 items each for set point (SV) and MV (PID1 to PID16)

4/4: Digital inputs/outputs: 16 items or 32 items (DIO00 to DIO0F or DIO1F)

(If 1,440 events (from the oldest No. 0000 to the latest No. 1439) are expired, the oldest value is overwritten by the next old value

sequentially.)

You can set any logging cycle from 0 to 21,600 seconds (6 hours). (For the method, see Section 5.2 Settings in ‘SET TIME’

Windows (Option 2 of ‘ADJUSTMENT’ Menu (F5)).) For the method of assigning I/O items to each display page, see Section 9.3

Settings in ‘GRAPH ASSIGNMENT’ Window (SHIFT2 of ‘LOGS’ Menu (F4)).

Log data for the I/O events of 16 assigned numbers can be displayed for 480 I/O items at a time. Use an appropriate one of the

following key operations to change the display:

To change the page

TAB: Changes the display page.

To scroll (The screen circulates. When log No. 1439 (latest) is displayed at places other than the rightmost position, its right side

log number is No. 0000 (oldest).)

ALT + : Display starts from an event of the smaller (older) log number by one (horizontally scrolls by one dot).

key : Display starts from an event of the smaller (older) log number by 60 (horizontally scrolls by 60 dots).

SHIFT + : Display starts from an event of the smaller (older) log number by 480 (horizontally scrolls by one screen).

ALT + : Display starts from an event of the larger (newer) log number by one (horizontally scrolls by one dot).

key: Display starts from an event of the larger (newer) log number by 60 (horizontally scrolls by 60 dots).

SHIFT + : Display starts from an event of the larger (newer) log number by 480 (horizontally scrolls by one screen).

I/O number and abbreviation

Date/time of cursor position

Cursor

Data at cursor position

Display page number

0%

100%

ON OFF

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To move the cursor (The cursor moves only within the current screen.)

ALT + : Cursor moves to an event of the smaller (older) log number by one (moves to the left by one dot).

: Cursor moves to an event of the smaller (older) log number by 60 (moves to the left by 60 dots).

SHIFT + : Cursor moves to the event of the leftmost log number in the screen.

ALT + : Cursor moves to an event of the larger (newer) log number by one (moves to the right by one dot).

Cursor moves to an event of the larger (newer) log number by 60 (moves to the right by 60 dots).

SHIFT + : Cursor moves to the event of rightmost log number within the screen.

To stop and restart graph updating

SAVE: Temporarily stops graph update. (Log data themselves are updated continuously.)

ENTER: Resumes the update that has been stopped temporarily.

9.3 Settings in ‘GRAPH ASSIGNMENT’ Window (SHIFT2 of ‘LOGS’ Menu (F4))

Use this window to assign the input and output items to each of the graph pages displayed in the ‘TREND GRAPH’ window (see

Section 9.2 Display in ‘TREND GRAPH’ Window (‘LOGS’ Menu (F4))).

In the ‘PAGE SELECT’ field, select either ‘P.1/2’ or ‘P.2/2’ to determine the page to which the input/output items selected in the

following are to be assigned.

Select the input/output items to be assigned to numbers 1 to 16 on each page from the following:

1/4: Actual measurements of analog inputs: 64 items (AI1 to AI64)

2/4: Internally calculated (virtual) values: 16 items (AI65 to AI80)

3/4: PID controller set points and manipulating values (MV): 16 items each for SV (solenoid valve) set point and MV (PID1 to

PID16)

4/4: Digital input/output: 16 items or 32 items (DIO00 to DIO0F or DIO1F)

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9.4 Displays in ‘ALARM LOG’ Window (Option 2 of ‘LOGS’ Menu (F4))

This window displays the record of the dates and times of issuance of the past 36 alarms, their names, and input/output

conditions around the times of their issuance (alarm log) in the form of numerical data.

Both ALARM and FAILURE are logged.

Of the 36 alarms displayed here, the oldest is numbered as “No. 00” and the latest is numbered as “No. 35”. If 37th alarm is

logged, the alarm at the No. 00 place will be overwritten by the alarm that was previously at the No. 01 place. This occurs every

time a new alarm is logged.

Whether the alarm has been cleared or is currently active is shown by different colors.

EMERGENCY STOP An alarm that was issued in the past and has not been cleared

EMERGENCY STOP An alarm that was issued in the past and has been cleared

NONE No alarm is logged for the number.

Up to 12 logged alarms can be displayed at a time. The display can be changed by key operations as follows:

: Displays alarms starting with a one of the smaller (older) log number by one.

SHIFT + : Displays alarms starting with a one of the smaller (older) log number by 12.

: Displays alarms starting with a one of the larger (newer) log number by one.

SHIFT + : Displays alarms starting with the one of the larger (newer) log number by 12.

If you press the ENTER key, the numerical data showing the input/output conditions around the time of issuance of the alarm

(which is displayed on the bottom line in reverse video) is displayed.

To check the input/output conditions around the time of the issuance of a specific alarm, first press the or key to make the

alarm name be displayed in reverse video on the bottom line, and then press the ENTER key.

The number of items of which the input/output conditions around the time of issuance of alarms is the same as for the ‘TREND

LOG’ window (see Section 9.1) for 1/4 to 4/4 as shown below.

1/4: Actual measurements of analog inputs: 64 items (AI1 to AI64)

2/4: Internally calculated values (virtual values): 16 items (AI65 to AI80)

3/4: PID controller set points and maneuvering values (MV): 16 items each for SV (solenoid valve) set point and MV (PID1 to

PID16)

4/4: Digital inputs/outputs: 16 items or 32 items (DIO00 to DIO0F or DIO1F)

Log No.

Time of occurrence and alarm name

Old

New

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The ‘+0 SEC’ line in reverse video indicates the time of issuance of each alarm. The input/output conditions are indicated as

numeral data both for the point 9 seconds before the alarm time and for every second over the 5-second period after that time.

Alarm log data that can be displayed at a time are those for the inputs/outputs of 12 consecutive numbers. The display can be

changed by key operations as follows:

: The first I/O number is decreased by one. (The display shifts in the 4/4-to-1/4 direction in the above.)

SHIFT + : The first I/O number is decreased by 12. (The display shifts in the 4/4-to-1/4 direction in the above.)

: The first I/O number is increased by one. (The display shifts in the 1/4-to-4/4 direction in the above.)

SHIFT + : The first I/O number is increased by 12. (The display shifts in the 1/4-to-4/4 direction in the above.)

To return to the previous window, press the ENTER key.

Log No.: Alarm nameI/O number. (abbreviation)

Old

New

Time of alarm issuance

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9.5 Display in ‘EVENT LOG’ Window (Option 3 of ‘LOGS’ Menu (F4))

This window displays the past 255 operation control events and digital input/output change events (event log).

This enables you to track the operations of the compressor and what types of control were made in the past.

The event log covers 256 past events such as operation of the CLEAR ALARM key and the dates/times of changes in switch

input/output.

Every time a new event occurs when 256 events (from the oldest No. 0000 to the latest No. 0255) have been expired, the newly

occurring event causes the oldest No. 000 event to be overwritten by the previously No.0001 event.

Log No.

Old

New

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9.6 Display in ‘DEVICE COUNTER MONITOR’ Window (Option 4 of ‘LOGS’ Menu (F4))

This window displays the accumulated operation hours of the compressor and the operation counts of the YOSAKU expansion

valves.

These data help determine the replacement time and overhaul time of each device.

(To make changes to display in this window, see Section 9.7 Resetting Made in ‘DEVICE COUNTER SET’ Window (Option 5 of

‘LOGS’ Menu (F4) ).)

Items in ‘DEVICE COUNTER MONITOR’ Window

Item Description

COMPRESSOR START/STOP Displays the number of times the compressor was started (from the non-operating state).

COMPRESSOR RUN TIME Displays the operating hours of the compressor.

CHILLER YOSAKU Displays the number of times the chiller YOSAKU expansion valve was operated. (Option)

ECONOMIZER/INTERCOOLER YOSAKU Displays the number of times the economizer/intercooler YOSAKU expansion valve was operated. (Option)

LIQUID INJECTION YOSAKU-1 Displays the number of times the liquid injection YOSAKU-1 expansion valvewas operated. (Option)

LIQUID INJECTION YOSAKU-2 Displays the number of times the liquid injection YOSAKU-2 expansion valve was operated. (Option)

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9.7 Resetting Made in ‘DEVICE COUNTER SET’ Window (Option 5 of ‘LOGS’ Menu (F4) )

This window allows you to clear the record of the accumulated operating hours of the compressor and the operation counts of

YOSAKU expansion valves.

Resetting the records to 0 is necessary after replacement or overhaul of devices.

The LEVEL-2 password (see Section 5.3 Settings in ‘PASSWORD’ Window (Option 3 of ‘ADJUSTMENT’ Menu (F5))) must be

entered to open this window.

The setting items are the same as those described in Section 9.6 Display in ‘DEVICE COUNTER MONITOR’ Window (Option 4

of ‘LOGS’ Menu (F4)).

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Chapter 10 Analysis (‘DIAGNOSTIC’ Menu (F7))

10.1 Display in ‘SHOW SYSTEM SETUP’ Window (Option 1 of ‘DIAGNOSTIC’ Menu (F7))

In this window, you can check the current settings in the ‘SYSTEM SETUP’ window (no change is possible to the displayed data).

See Section 4.1 Setting in ‘SYSTEM SETUP’ Window (Option 1 of ‘SETUP’ Menu (F6)) for the details of the settings themselves.

10.2 Display in ‘SHOW ANALOG INPUT SCALINGT’ Window (Option 2 of ‘DIAGNOSTIC’ Menu (F7))

In this window, you can check the current settings in the ‘ANALOG INPUT SCALING’ window (no change is possible to the

displayed data). See Section 4.2 Settings in ‘ANALOG INPUT SCALING’ Window (Option 2 of ‘SETUP’ Menu (F6)) for the details

of the settings themselves.

In this window, you can also check all current analog input values.

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10.3 Display in ‘SHOW OPTION ANALOG INPUT’ Window (Option 3 of ‘DIAGNOSTIC’ Menu (F7))

In this window, you can check the current settings in the ‘OPTION ANALOG INPUT’ window (no change is possible to the display

in this window). See Section 4.3 Settings in ‘OPTION ANALOG INPUT’ Window (Option 3 of ‘SETUP’ Menu (F6)) for the details

of the settings themselves.

10.4 Display in ‘SHOW DIGITAL I/O STATUS’ Window (Option 4 of ‘DIAGNOSTIC’ Menu (F7))

In this window, you can check the current status of digital inputs and outputs (no change is possible to the display in this window).

White characters against a blue background indicate digital outputs in the OFF state; blue characters against a white background

indicate those in the ON state.

Gray characters against a blue background indicate digital inputs in the OFF state; blue characters against a gray background

indicate those in the ON state.

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10.5 Display in ‘SHOW OPTION SETUP 1/2’ Window (Option 5 of ‘DIAGNOSTIC’ Menu (F7))

In this window, you can check the current settings in the ‘OPTION SETUP 1/2’ window (no change is possible to the displayed

data). See Section 4.4 Settings in ‘OPTION SETUP 1/2’ Window (Option 4 of ‘SETUP’ Menu (F6)) for the details of the settings

themselves.

10.6 Display in ‘SHOW OPTION SETUP 2/2’ Window (Option 6 of ‘DIAGNOSTIC’ Menu (F7))

In this window, you can check the current settings in the ‘OPTION SETUP 2/2’ window (no change is possible to the displayed

data). See Section 4.5 Setting in ‘OPTION SETUP 2/2’ Window (Option 5 of ‘SETUP’ Menu (F6)) for the details of the settings

themselves.

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10.7 Display in ‘SHOW PROGRAM VERSION’ Window (Option 7 of ‘DIAGNOSTIC’ Menu (F7))

In this window, you can check the current program version (no change is possible to the displayed data).

10.8 Display in ‘READ REGISTER’ Window (Option 8 of ‘DIAGNOSTIC’ Menu (F7))

In this window, you can check the current values in the CP4’s internal registers.

Although no change to these values is possible, you can switch them between decimal and hexadecimal notations.

Operation in this window:

Press the TAB key to advance the page by one.

Press both ALT and TAB keys at the same time to reverse the page by one.

Press both SHIFT and TAB keys at the same time to advance the page by five.

Press the ALT, SHIFT and TAB keys at the same time to reverse the page by five.

The display switches between decimal and hexadecimal notations each time you press the DELETE key.

DECIMAL/HEXADECIMAL display

Explanation of screen operation

Current page/total pages

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10.9 Display in ‘READ BIT’ Window (Option 9 of ‘DIAGNOSTIC’ Menu (F7))

In this window, you can check the states of the bit devices (digital input/output devices and internal relays) in CP4 (no change is

possible to the displayed data).

“0” indicates OFF and “1” indicates ON in each bit place.

Operation in this window:

Press the TAB key to advance the page by one.

Press both ALT and TAB keys at the same time to reverse the page by one.

10.10 Display in ‘READ TIMER/COUNTER’ Window (Option 0 in ‘DIAGNOSTIC’ Menu (F7))

In this window, you can check the current values and ON/OFF states of the CP4’s internal timers and counters. Although no

change is possible to the displayed data in this window, you can switch them between decimal and hexadecimal notations.

Operation in this window:

Press the TAB key to advance the page by one.

Press both ALT and TAB keys at the same time to reverse the page by one.

The display is switched between decimal and hexadecimal notations each time the DELETE key is pressed.

Explanation of screen operation

Current page/total pages

DECIMAL/HEXADECIMAL display

Explanation of screen operation

Current page/total pages

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Chapter 11 Troubleshooting

This chapter contains several conditions that may suggest failures or other problems with CP4 and the actions we recommend

you to take when these conditions occur.

(1) Nothing is displayed on the front panel screen.

→ • CP4 has the function of automatically turning off the backlight to prevent LCD from burning and increase its life.

By default, the backlight is automatically turned off if no operation is performed on the front panel for 10 minutes.

Press any key on the front panel to turn on the backlight again.

• Check that the flat cable from the LI board is connected to J3 on the PR01 board.

• Check that 12 V DC power is supplied to J3 on the LI board (namely, that the fuse is not blown).

(2) Display remains dark (backlight is not lit)

→ • CP4 has the function of automatically turning off the backlight to prevent LCD from burning and increase its life.

By default, the backlight is automatically turned off if no operation is performed on the front panel for 10 minutes.

Press any key on the front panel to turn on the backlight again.

• Check that the backlight power is supplied from J4 on the LI board (namely, that the fuse is not blown).

• Check whether the backlight’s life (30,000 to 50,000 hours) has expired.

(3) The CPU light (an LED regularly blinking to indicate normal state) does not blink.

→ • Check that the UV-EPROM is installed in the correct direction and position.

• Check that 5 V DC power is supplied to J1 on the PR01 board (namely, that the fuse is not blown).

• Check the wiring to the circuit breaker and noise filter has no defects and the power voltage is correct.

(4) The displayed actual measurements of the pressure sensors differ from the actual pressure values (pressure gauge

readings etc.)

→ • Check that the pressure sensor and its wiring have no defects.

• Check that the scaling for displaying the measurement is set correctly.

(The scaling is set in the ‘ANALOG INPUT SCALING’ window (Option 2 of ‘SETUP’ menu (F6).)

• If the displayed measurements noticeably deviate from the actual values, you can enter an appropriate offset

value to make the displayed values close to the actual pressure values.

(5) The displayed actual measurements of the temperature sensors differ from the actual temperature values (thermometer

readings etc.)

→ • Check that the temperature sensors and their wiring have no defects.

• Check that the scaling for displaying the measurements is set correctly.

(The scaling is set in the ‘ANALOG INPUT SCALING’ Window (Option 2 of ‘SETUP’ Menu (F6).)

• If the displayed measurements noticeably deviate from the actual values, you can enter an appropriate offset

value to make the displayed values closer to the actual temperature values.

(6) The displayed actual measurements of the current sensor differ from the actual current values.

→ • Check that the jumper pins of the CT sensor are in the correct (removed) state.

• Check that the CT sensor winding is correct in number of turns (twice).

• Check that the scaling for displaying the measurement is set correctly.

(The scaling is set in the ‘ANALOG INPUT SCALING’ Window (Option 2 of ‘SETUP’ Menu (F6).)

• If the displayed measurements noticeably deviate from the actual values, you can enter an appropriate offset

value to make the displayed values closer to the actual current values.

(Use the ‘ANALOG INPUT ADJUSTMENT’ window (Option 4 of the ‘ADJUSTMENT’ menu (F5)).)

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(7) Measurements respond to changes too slowly or too fast

→ • To make the response faster, decrease the ‘FILTER COEFFICIENT’ value. (Use the ‘ANALOG INPUT

ADJUSTMENT’ window (Option 4 of the ‘ADJUSTMENT’ menu (F5)).)

NOTE:

Making the response time too short increases effects of noise.

• To make the response slower, increase the ‘FILTER COEFFICIENT’ value. (Use the ‘ANALOG INPUT

ADJUSTMENT’ window (Option 4 of the ‘ADJUSTMENT’ menu (F5)).)

NOTE:

Making the response time too long results in too slow reactions.

(8) Settings cannot be changed.

→ • Entry of a password of the required level is needed to change settings. Make sure you have entered the required

password correctly.

• Some items of setting have limitations. Enter only values within the permitted range.

• To complete a change to any setting, you have to press the SAVE key to store entries in memory. Pressing the

ENTER key alone does not complete the setting.

(9) The compressor does not run.

→ • Check the operation control mode you have selected in the ‘OPERATION MODE’ Window (Option 1 of the

‘SETPOINTS’ menu (F1)). The way to give operation commands to the compressor varies depending on the

selected operation control mode.

• The compressor does not start running until the operation start delay time elapses after the compressor operation

conditions (operation command etc.) are satisfied.

• Check that the compressor start command has turned ON at DO-01(Y00).

• Check that ‘YES’ is selected for ‘D/O TEST OPERATION’ in the ‘OPERATION MODE’ window (Option 1 of

‘SETPOINTS’ menu (F1)).

• If you make a selection to enable an item that requires installation of an optional extension board in the ‘SYSTEM

SETUP’ (Option 1), ‘OPTION SETUP 1/2’ (Option 4), or‘ OPTION SETUP 1/2’ (Option 4) window of the ‘SETUP’

menu (F6) without actually installing that board, CP4 issues, for the sake of safety, an EMERGENCY STOP

FAILURE alarm that cannot be cancelled with the CLEAR ALARM key and disables operation of the compressor.

In this case do either of the following:

- Install the optional extension board.

- Disable the item that requires installation of the optional extension board.

• The compressor has been stopped by pressing the STOP key.

If the compressor has been stopped by pressing the STOP key, different action should be taken according to the

operation control mode selected at that time to recover operation of the compressor.

- When the STOP key has been pressed while the operation command is ON with a mode other than the

‘AUTO STAGE’ selected for the ‘OPERATION’ item in the ‘OPERATION MODE’ window (Option 1 of

‘SETPOINTS’ menu (F1)), the operation control mode automatically changes to ‘LOCAL’. In this case, you

must reselect the desired operation control mode for the ‘OPERATION’ item and then turn ON the operation

command.

- When the STOP key has been pressed with ‘AUTO STAGE’ selected for ‘OPERATION’ and ‘ENABLE’

selected for the ‘CONTROL’ item, ‘ENABLE’ automatically changes to ‘DISABLE’. To resume the automatic

staging control (AUTO STAGE), you must reselect ‘ENABLE’ for the ‘CONTROL’ item in the ‘AUTO STAGE’

window (Option 7 of ‘SETPOINTS’ menu (F1)) and then turn ON the operation command.

• The CPU is reset by such action as turning power ON while ‘BATTERY ALARM’ is displayed on the top of the

“Status Display Screen”.

If a run-down memory backup battery is detected when the CPU is reset during power-up operation or the like,

CP4 performs “special booting” for safety’s sake, which prevents the compressor from operating.

See Section 2.2.2 Replacement of Memory Backup Battery on CPU Board to replace the battery. In the case of

battery replacement, you may need to initialize all settings.

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(10) Capacity control does not take place.

→ • ‘MANUAL’ is selected for ‘OPERATION’ of the capacity controller (or ‘WARNING!’ is displayed at the top of the

screen).

• Selection made for ‘OPERATION’ of the capacity controller is not ‘AUTO’ but any of the following:

‘MANUAL’ (capacity “increase”/“decrease” commands are given through key operations on front panel);

‘REMOTE DIGITAL’ (capacity “increase”/“decrease” commands are given by digital inputs from an external

device); ‘REMOTE ANALOG’ (capacity “increase”/“decrease” commands are given by external analog inputs);

‘COMM’ (capacity is determined according to commands from remote master station through communications)

• The capacity control limiter function is working.

While the limiter function is active, ‘LIMIT’ or ‘UNLOAD’ is displayed in white characters for each of the limiter

operation indications ‘MA’, ‘DP’, ‘SP’, and ‘IP’ in the ‘CAPACITY CONTROL’ window on the Main Status Screen.

(While the function is not working, these indications are displayed in gray.)

• Settings in the ‘SLIDE VALVE SETUP’ window are incorrect.

If the settings made in the ‘SLIDE VALVE SETUP’ window (Option 1 of ‘ADJUSTMENT’ Menu (F5)) are incorrect,

the unloader slide valve position cannot be detected correctly.

See Section 5.1 Settings in ‘SLIDE VALVE SETUP’ Window (Option 1 of ‘ADJUSTMENT’ Menu (F5)) to make

settings correctly.

(11) The compressor fails to stop.

→ • Check the mode set for ‘OPERATION’ in the ‘OPERATION MODE’ window (Option 1 of ‘SETPOINTS’ menu (F1)).

The compressor stopping method varies depending on the selected operation control mode.

• Check that the compressor operation command sent through communications from the remote device is not ON.

(12) “BATTERY ALARM” is displayed at the top of the “status display” screen.

→ • The memory backup battery is low.

See Section 2.2.2 Replacement of Memory Backup Battery on CPU Board to replace the battery.

Even if this alarm is not displayed, replace the battery every three years.

If a run-down memory backup battery is detected when the CPU is reset during power-up operation or the like,

CP4 performs “special booting” for safety’s sake, which prevents the compressor from operating.

(If a power failure occurs while this alarm is displayed, the settings in memory may not be backed up.)

(13) D/O TEST OPERATION cannot be enabled.

→ • Check that ‘YES’ is selected for ‘D/O TEST OPERATION’ in the ‘OPERATION MODE’ window (Option 1 of

‘SETPOINTS’ menu (F1)).

• To make ‘YES’ selectable for ‘D/O TEST OPERATION’, check the following in the ‘OPERATION MODE’ window:

‘OPERATION MODE’ - ‘LOCAL’

‘AUTO START/STOP’ - ‘NO’

Operation confirmation input (MSRB) at DI-12 (X0B) - OFF

(14) ‘OPERATION’ changes to ‘LOCAL’ unintentionally.

→ • STOP key has been pressed.

If the STOP key is pressed when the operation mode is other than ‘AUTO STAGE’, the operation mode changes

to the ‘LOCAL’ mode automatically.

In this case, reselect the desired mode for the ‘OPERATION’ item in the ‘OPERATION MODE’ window (Option 1

of ‘SETPOINTS’ menu (F1)).

• ‘Change to LOCAL MODE’ is selected for the ‘OPERATION MODE ON FAILURE’ item in the ‘SYSTEM SETUP’

window (Option 1 of ‘SETUP’ menu (F6)).

If “FAILURE” (critical alarm) occurs, CP4 automatically switches the operation mode to ‘LOCAL’.

• ‘Change to LOCAL STOP’ is selected for the ‘OPERATION MODE RESTORE ON POWER UP’ item in the

‘SYSTEM SETUP’ window (Option 1 of ‘SETUP’ menu (F6)).

When the CPU is reset during power-up operation or by other causes, CP4 automatically put itself in a stopped

state in the ‘LOCAL’ mode.

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(15) Even when emergency stop input at DI11 (X0A) is ON, pressing the CLEAR ALARM key cannot clear EMERGENCY STOP

FAILURE alarm.

→ • An item which requires installing an optional extension board is enabled in the ‘OPTION SETUP 1/2’ or ‘OPTION

SETUP 2/2’ Window (Option 4 or 5 in ‘SETUP’ Menu (F6)) without actually installing the board.

Depending on the setting item, CP4 may, for safety’s sake, issue an EMERGENCY STOP FAILURE alarm to

disable operation.

In this case, take either of the following actions.

Install the optional extension board.

Disable the item that requires installing an optional extension board.

(16) In the ‘SLIDE VALVE SETUP’ window (Option 1 of ‘ADJUSTMENT’ menu (F5)), display does not advance and entry for

adjusting the unloader slide valve position cannot be completed.

→ • The requirement for the large-small relationship of the analog inputs (showing unloader slide valve positions) are

not satisfied for the correction processing.

- No signal change occurs even when the unloader slide valve moves unless the switches for selecting the

signal source for slide valve position detection (potentiometers, 4 to 20 mA DC, or 1 to 5 V DC) on the CP4’s

CPU board and analog input board are not correctly set. In this case, the switches must be set correctly

according to Section 2.4.2 Input Type Selection for Channels 15 and 16 of Analog Input Boards.

- The 0 %-position analog input becomes larger than the 100 %-position analog input (the inputs reverse) if the

connections of terminals 1 and 3 are reversed on the potentiometer for detecting the unloader slide valve

position or the potentiometer is installed at a wrong angle.

In this case, the potentiometer terminals must be reconnected correctly and the installation angle of the

potentiometer must be corrected.

- The difference between the 0 %-position and 100 %-position analog inputs may become extremely small if

the potentiometer for detecting the unloader slide valve position is installed improperly or at a wrong angle, or

if it is connected to the analog input terminals improperly.

In this case, replace the potentiometer if it is defective, correct its installation and correct potentiometer’s

connection to the analog input terminals.

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Chapter 12 Specifications

Absolute Maximum Rating

Power supply voltage 85 to 264 VAC

Working temperature 0 to 55 ºC

Storage temperature -10 to 70 ºC

Ambient humidity 85 % RH or less (no condensation is permitted)

Ambient vibration 1.0G in X-, Y-, and Z-axes

Endurance to noise

Power line Noise voltage: 1,500 V, noise width: 100 ns 1µs for 5 minutes

I/O line Noise voltage: 1,000 V, noise width: 100 ns 1µs for 5 minutes

Communication Line Noise voltage: 500 V, noise width: 50 ns for 5 minutes

Withstand voltage 1,000 VAC for 1 minute (between power terminal and connection terminal)

500 VAC for 1 minute (between input/output terminal and connection terminal)

Insulation resistance 500 VDC 20 MΩ or more (between power terminal and connection terminal)

500 VDC 20 MΩ or more (between input/output terminal and connection terminal)

If voltages exceeding the absolute maximum rating are applied, the equipment may suffer permanent damage.

If the equipment is left under the absolute maximum rating conditions for a long time, its reliability may be deteriorated.

Recommended Operating Conditions

Power supply voltage 100/200 VAC

Frequency 50/60 Hz

Working temperature 5 to 50 ºC

Ambient humidity 70 % RH or less (no condensation is tolerated)

Ambient atmosphere Free from corrosive gas and heavy dust

Inputs/Outputs

Input sensor

4 to 20 mA DC (input impedance: 250 Ω)

or, 1 to 5 VDC (input impedance: 100 kΩ)

(Switching by a switch is possible)

Standard: 16 points

Maximum: 32 points Analog inputs

Potentiometer inputs

(analog/digital at

channels 15 and 16) 1 kΩ potentiometer input Maximum: 2 points

Display unit: MPa *2

Display unit: kgf/cm2 *2

Display unit: bar *2 Pressure *1

Display unit: PSI *2

Display unit: ºC *2

Display unit: ºF *2 Temperature *1

Display unit: K *2

Current Display unit: A *2

Measurement

range

Capacity Display unit: % 0 to 100%

Measurement accuracy ±0.5 % / full-scale (sensor errors not included)

Sensor power supply 24 VDC (supplied from external 24 VDC power supply to analog input board)

Switch output Mechanical relay (load 250 V and 5 A AC, or 30 V and 5 A DC) or, solid state relay (load 100 to 240 VAC, 1.2 A)

Standard: 10 points Maximum: 24 points

Contacts

Switch input No-voltage contact connection (internally supplied 12 V at Max. 25 mA DC)

Standard: 6 points Maximum: 8 points

Sampling frequency 250 msec

(Option) analog output 4 to 20mA DC (at load resistance of 500 Ω or less) 4 points

*1 Display units can be selected in the ‘SYSTEM SETUP’ window (Option 1 of ‘SETUP’ menu (F6)).

*2 Ranges can freely scaled in the ‘ANALOG INPUT SCALING’ window (Option 3 of ‘SETUP’ menu (F6)).

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Communications

COM0 Small round 8-pin connector (signal level conforming to RS-232C.) Interface

COM1 to COM3 Conforms to RS-485 (COM2 and COM3 are optional ports.)

COM0 Half-duplex Communication

system COM1 to COM3 4-wire half-duplex (2-wire system is also usable for communications.)

Synchronization method Asynchronous communication method

Communication speed (bit/sec)

300, 600, 1200, 2400, 4800, 9600, 19200, 38400, 57600, or 115200 bps

(The total bit rates of all communication ports must be less than 192,000

bps.)

Start bit Fixed to 1 bit

Character bit 7 or 8 bits (COM0 is fixed to 8 bits.)

Parity bit N (none), O (odd), or E (even) (COM0 is fixed to N.) Character format

Stop bit 1 or 2 bits (COM0 is fixed to 1 bit)

Parity check: Yes (odd/even) or No (COM0 is fixed to No.)

CRC-16: Fixed to Yes (in only RTU mode of MODBUS protocol) Signal transmission error detection

LRC: Fixed to Yes (in only ASCII mode of MODBUS protocol)

Transmission distance Up to 150 m in total

Communication protocol (Communication code)

(COM0 only) 1k X-Modem protocol (BINARY code) MODBUS protocol RTU mode (BINARY code)

MODBUS protocol ASCII mode (ASCII code)

Display, Keys, and Switches

10.4” liquid crystal display Resolution: 640 x 480 pixels

Number of colors: 256 Display method

Service life of LCD backlight: 30,000 to 50,000 hours (depending on the ambient temperature)

Keys

F1 to F7 keys ••• Display function menus. ESC key ••• Closes a menu window. SHIFT key ••• Used in combination with another key (not used independently). ALT key ••• Used in combination with another key (not used independently). DELETE key ••• Deletes data for setting corrections. Arrow keys ••• Used to move from item to item. TAB key ••• Used to move from an item in one window to an item in another. ENTER key ••• Confirming data entered in an item. SAVE key ••• Saves data in internal memory. Numeral keys ••• Used to select an item or enter a number. START key ••• Starts compressor operation. STOP key ••• Stops compressor operation. CLEAR ALARM key ••• Clears an alarm.

DIP switch (SW1 on CPU

board) Currently not used

Others

Protective component

Between contact output electrodes

Circuit protector: Thermal tripping system, rated current 1 A

Storage of set points Backed up by battery (CR2032). (Recommended battery replacement

interval: 3 years)

Power consumption 270VA Max. (Max. 0.25 A @200 V AC × 3 + Max. 0.60 A @200 V AC × 1)

CP4 panel 420mm (H) × 380mm (W) × 100mm (D)

A/I board (REF-CX100-AI01)

66mm (H) × 200mm (W) × 35mm (D)

A/I board (REF-CX100-AI11)

66mm (H) × 200mm (W) × 35mm (D)

Outside dimensions

DI/O board (REF-MCS200-OIA0)

107mm (H) × 348mm (W) × 35mm (D)

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Others (continued)

CP4 panel Approx. 5.3 kg

A/I board (REF-CX100-AI01)

Approx. 0.2 kg

A/I board (REF-CX100-AI11)

Approx. 0.2 kg Weight

DI/O board (REF-MCS200-OIA0)

Approx. 0.2 kg

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Device List

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About MODBUS Protocol of CPIV

Status of CPIV can be monitored by MODBUS (ASCII or RTU) reading protocol.

Also control of CPIV can be changed by MODBUS (ASCII or RTU) writing protocol.

CPIV has one RS-485 compatible, Half-Duplex Four-wire serial communication port with MODBUS protocol. (Optional plus two

ports)

It is named as COM1. (Optional ports are named as COM2 and COM3.)

The setting of each communication port can be input on F5: ADJUSTMENT>8.COMMUNICATION SETUP(LEVEL-1 Password

required)

Name Selection Note COMMUNICATION STOP or RUN Control of Communication. The following can be input when it is

“STOP”. ADDRSS Zero to 99 Communication address (ADDRESS zero stops communication.) RATE 300 to 115200 bps Communication speed FORMAT C7/8,PN/E/O,S1/2 Character format C(haracter Bit), P(arity Bit), S(top Bit) PROTOCOL MODBUS ASCII or RTU Communication protocol RESPONSE Zero to 100 X 10 msec Response time of each communication. 100 means one second

delay.

CPⅣ has two kinds of devices on MODBUS protocol, one is “Holding Registers” and another is “Coils”.

Holding Registers number 40001 to 42200

Number Description Attribute Note 40001 to 40256 for Sequence Control Read Only 40257 to 40272 Control by Communication Read Write 40273 to 40308 DI/O Status Read Only 40309 to 40320 Calculated Data Read Only 40321 to 40400 A/I Read Only 40401 to 40656 PID Controllers Read Only 40657 to 40912 PID Controllers Read Only <-Except following eight registers 40667 to 40668 Capacity MVL%/MVH% Set Read Write Suction Pressure 40683 to 40684 Capacity MVL%/MVH% Set Read Write Chiller LB Temperature 40827 to 40828 VFD Compressor

MVL%/MVH% Set Read Write Suction Pressure

40843 to 40844 VFD Compressor MVL%/MVH% Set

Read Write Chiller LB Temperature

40913 to 42000 Setup Settings Read Only <-Except following 12 registers 41001 Compressor Operation

Mode Set Read Write F1:1.OPERATION MODE>OPERATION MODE

41002 Auto Start/Stop Enable Read Write F1:1.OPERATION MODE>AUTO START/STOP 41262 Capacity Control Mode Set Read Write F2:1.CAPACITY

CONTROL>MONITOR>OPERATION 41295 VFD Compressor Capacity

Mode Set Read Write F2:2.VFD COMPRESSOR

CONTROL>MONITOR>OPERATION 41401 MVL%/MVH% Write Enable Read Write F2:1.CAPACITY CONTROL>MVL%/MVH% BY

COMM or F2:2.VFD COMPRESOOR CONTROL>MVL%/MVH%

BY COMM 41972 WEEK Set Read Write F5:2.SET TIME>WEEK 41973 MONTH Set Read Write F5:2.SET TIME>MONTH 41974 DAY Set Read Write F5:2.SET TIME>DAY 41975 YEAR Set Read Write F5:2.SET TIME>YEAAR 41976 HOUR Set Read Write F5:2.SET TIME>HOUR 41977 MINUTE Set Read Write F5:2.SET TIME>MINUTE 41978 SECOND Set Read Write F5:2.SET TIME>SECOND 42001 to 42100 for Status Monitor Read Only 42101 to 42200 for AUTO STAGE

Calculation Read Only

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Holding Registers number 40001 to 42200 can be read using MODBUS Function Code 03h (Read Holding Register).

“Read Write” Holding Registers can be written using MODBUS Function Code 06h (Preset Single Register) or 10h (Preset

Multiple Registers).

Coil number 00001 to 02624

Number Description Attribute Note 00001 to 00128 Real DI/O Read Only 00129 to 00256 Pseudo D/O Read Only ALARM 00257 to 00384 Pseudo D/O Read Only FAILURE 00385 to 00448 Pseudo D/I Read Only MODE 00449 to 00512 Pseudo D/I Read Only CONFIGURATION 00513 to 00576 Control by Communication Read Write 00577 to 01600 Pseudo Relay Read Only Control & Monitor 01601 to 02624 Latched Pseudo Relay Read Only Control

Coils number 00001 to 02624 can be read using MODBUS Function Code 01h (Read Coil Status).

Coils number 00513 to 00576 can be written using MODBUS Function Code 05h (Force Single Coil) or 0Fh (Force Multiple

Coils).

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Holding Registers number 40001 to 42560 can be read using MODBUS Function Code 03h (Read Holding Register).

“Read Write” Holding Registers can be written using MODBUS Function Code 06h (Preset Single Register) or 10h (Preset

Multiple Registers).

Holding Registers number 40001 to 40128 (Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40001 Read Only D0000 None -32768 to 32767 for Sequence Control Unlatched 40002 Read Only D0001 None -32768 to 32767 for Sequence Control Unlatched 40003 Read Only D0002 None -32768 to 32767 for Sequence Control Unlatched 40004 Read Only D0003 None -32768 to 32767 for Sequence Control Unlatched 40005 Read Only D0004 None -32768 to 32767 for Sequence Control Unlatched 40006 Read Only D0005 None -32768 to 32767 for Sequence Control Unlatched 40007 Read Only D0006 None -32768 to 32767 for Sequence Control Unlatched 40008 Read Only D0007 None -32768 to 32767 for Sequence Control Unlatched 40009 Read Only D0008 None -32768 to 32767 for Sequence Control Unlatched 40010 Read Only D0009 None -32768 to 32767 for Sequence Control Unlatched 40011 Read Only D0010 None -32768 to 32767 for Sequence Control Unlatched 40012 Read Only D0011 None -32768 to 32767 for Sequence Control Unlatched 40013 Read Only D0012 None -32768 to 32767 for Sequence Control Unlatched 40014 Read Only D0013 None -32768 to 32767 for Sequence Control Unlatched 40015 Read Only D0014 None -32768 to 32767 for Sequence Control Unlatched 40016 Read Only D0015 None -32768 to 32767 for Sequence Control Unlatched 40017 Read Only D0016 None -32768 to 32767 for Sequence Control Unlatched 40018 Read Only D0017 None -32768 to 32767 for Sequence Control Unlatched 40019 Read Only D0018 None -32768 to 32767 for Sequence Control Unlatched 40020 Read Only D0019 None -32768 to 32767 for Sequence Control Unlatched 40021 Read Only D0020 None -32768 to 32767 for Sequence Control Unlatched 40022 Read Only D0021 None -32768 to 32767 for Sequence Control Unlatched 40023 Read Only D0022 None -32768 to 32767 for Sequence Control Unlatched 40024 Read Only D0023 None -32768 to 32767 for Sequence Control Unlatched 40025 Read Only D0024 None -32768 to 32767 for Sequence Control Unlatched 40026 Read Only D0025 None -32768 to 32767 for Sequence Control Unlatched 40027 Read Only D0026 None -32768 to 32767 for Sequence Control Unlatched 40028 Read Only D0027 None -32768 to 32767 for Sequence Control Unlatched 40029 Read Only D0028 None -32768 to 32767 for Sequence Control Unlatched 40030 Read Only D0029 None -32768 to 32767 for Sequence Control Unlatched 40031 Read Only D0030 None -32768 to 32767 for Sequence Control Unlatched 40032 Read Only D0031 None -32768 to 32767 for Sequence Control Unlatched 40033 Read Only D0032 None -32768 to 32767 for Sequence Control Unlatched 40034 Read Only D0033 None -32768 to 32767 for Sequence Control Unlatched 40035 Read Only D0034 None -32768 to 32767 for Sequence Control Unlatched 40036 Read Only D0035 None -32768 to 32767 for Sequence Control Unlatched 40037 Read Only D0036 None -32768 to 32767 for Sequence Control Unlatched 40038 Read Only D0037 None -32768 to 32767 for Sequence Control Unlatched 40039 Read Only D0038 None -32768 to 32767 for Sequence Control Unlatched 40040 Read Only D0039 None -32768 to 32767 for Sequence Control Unlatched 40041 Read Only D0040 None -32768 to 32767 for Sequence Control Unlatched 40042 Read Only D0041 None -32768 to 32767 for Sequence Control Unlatched 40043 Read Only D0042 None -32768 to 32767 for Sequence Control Unlatched 40044 Read Only D0043 None -32768 to 32767 for Sequence Control Unlatched 40045 Read Only D0044 None -32768 to 32767 for Sequence Control Unlatched 40046 Read Only D0045 None -32768 to 32767 for Sequence Control Unlatched 40047 Read Only D0046 None -32768 to 32767 for Sequence Control Unlatched 40048 Read Only D0047 None -32768 to 32767 for Sequence Control Unlatched 40049 Read Only D0048 None -32768 to 32767 for Sequence Control Unlatched 40050 Read Only D0049 None -32768 to 32767 for Sequence Control Unlatched 40051 Read Only D0050 None -32768 to 32767 for Sequence Control Unlatched 40052 Read Only D0051 None -32768 to 32767 for Sequence Control Unlatched 40053 Read Only D0052 None -32768 to 32767 for Sequence Control Unlatched 40054 Read Only D0053 None -32768 to 32767 for Sequence Control Unlatched 40055 Read Only D0054 None -32768 to 32767 for Sequence Control Unlatched 40056 Read Only D0055 None -32768 to 32767 for Sequence Control Unlatched 40057 Read Only D0056 None -32768 to 32767 for Sequence Control Unlatched 40058 Read Only D0057 None -32768 to 32767 for Sequence Control Unlatched 40059 Read Only D0058 None -32768 to 32767 for Sequence Control Unlatched 40060 Read Only D0059 None -32768 to 32767 for Sequence Control Unlatched 40061 Read Only D0060 None -32768 to 32767 for Sequence Control Unlatched 40062 Read Only D0061 None -32768 to 32767 for Sequence Control Unlatched 40063 Read Only D0062 None -32768 to 32767 for Sequence Control Unlatched 40064 Read Only D0063 None -32768 to 32767 for Sequence Control Unlatched 40065 Read Only D0064 None -32768 to 32767 for Sequence Control Unlatched 40066 Read Only D0065 None -32768 to 32767 for Sequence Control Unlatched 40067 Read Only D0066 None -32768 to 32767 for Sequence Control Unlatched 40068 Read Only D0067 None -32768 to 32767 for Sequence Control Unlatched 40069 Read Only D0068 None -32768 to 32767 for Sequence Control Unlatched 40070 Read Only D0069 None -32768 to 32767 for Sequence Control Unlatched 40071 Read Only D0070 None -32768 to 32767 for Sequence Control Unlatched 40072 Read Only D0071 None -32768 to 32767 for Sequence Control Unlatched 40073 Read Only D0072 None -32768 to 32767 for Sequence Control Unlatched

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(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40074 Read Only D0073 None -32768 to 32767 for Sequence Control Unlatched 40075 Read Only D0074 None -32768 to 32767 for Sequence Control Unlatched 40076 Read Only D0075 None -32768 to 32767 for Sequence Control Unlatched 40077 Read Only D0076 None -32768 to 32767 for Sequence Control Unlatched 40078 Read Only D0077 None -32768 to 32767 for Sequence Control Unlatched 40079 Read Only D0078 None -32768 to 32767 for Sequence Control Unlatched 40080 Read Only D0079 None -32768 to 32767 for Sequence Control Unlatched 40081 Read Only D0080 None -32768 to 32767 for Sequence Control Unlatched 40082 Read Only D0081 None -32768 to 32767 for Sequence Control Unlatched 40083 Read Only D0082 None -32768 to 32767 for Sequence Control Unlatched 40084 Read Only D0083 None -32768 to 32767 for Sequence Control Unlatched 40085 Read Only D0084 None -32768 to 32767 for Sequence Control Unlatched 40086 Read Only D0085 None -32768 to 32767 for Sequence Control Unlatched 40087 Read Only D0086 None -32768 to 32767 for Sequence Control Unlatched 40088 Read Only D0087 None -32768 to 32767 for Sequence Control Unlatched 40089 Read Only D0088 None -32768 to 32767 for Sequence Control Unlatched 40090 Read Only D0089 None -32768 to 32767 for Sequence Control Unlatched 40091 Read Only D0090 None -32768 to 32767 for Sequence Control Unlatched 40092 Read Only D0091 None -32768 to 32767 for Sequence Control Unlatched 40093 Read Only D0092 None -32768 to 32767 for Sequence Control Unlatched 40094 Read Only D0093 None -32768 to 32767 for Sequence Control Unlatched 40095 Read Only D0094 None -32768 to 32767 for Sequence Control Unlatched 40096 Read Only D0095 None -32768 to 32767 for Sequence Control Unlatched 40097 Read Only D0096 None -32768 to 32767 for Sequence Control Unlatched 40098 Read Only D0097 None -32768 to 32767 for Sequence Control Unlatched 40099 Read Only D0098 None -32768 to 32767 for Sequence Control Unlatched 40100 Read Only D0099 None -32768 to 32767 for Sequence Control Unlatched 40101 Read Only D0100 None -32768 to 32767 for Sequence Control Unlatched 40102 Read Only D0101 None -32768 to 32767 for Sequence Control Unlatched 40103 Read Only D0102 None -32768 to 32767 for Sequence Control Unlatched 40104 Read Only D0103 None -32768 to 32767 for Sequence Control Unlatched 40105 Read Only D0104 None -32768 to 32767 for Sequence Control Unlatched 40106 Read Only D0105 None -32768 to 32767 for Sequence Control Unlatched 40107 Read Only D0106 None -32768 to 32767 for Sequence Control Unlatched 40108 Read Only D0107 None -32768 to 32767 for Sequence Control Unlatched 40109 Read Only D0108 None -32768 to 32767 for Sequence Control Unlatched 40110 Read Only D0109 None -32768 to 32767 for Sequence Control Unlatched 40111 Read Only D0110 None -32768 to 32767 for Sequence Control Unlatched 40112 Read Only D0111 None -32768 to 32767 for Sequence Control Unlatched 40113 Read Only D0112 None -32768 to 32767 for Sequence Control Unlatched 40114 Read Only D0113 None -32768 to 32767 for Sequence Control Unlatched 40115 Read Only D0114 None -32768 to 32767 for Sequence Control Unlatched 40116 Read Only D0115 None -32768 to 32767 for Sequence Control Unlatched 40117 Read Only D0116 None -32768 to 32767 for Sequence Control Unlatched 40118 Read Only D0117 None -32768 to 32767 for Sequence Control Unlatched 40119 Read Only D0118 None -32768 to 32767 for Sequence Control Unlatched 40120 Read Only D0119 None -32768 to 32767 for Sequence Control Unlatched 40121 Read Only D0120 None -32768 to 32767 for Sequence Control Unlatched 40122 Read Only D0121 None -32768 to 32767 for Sequence Control Unlatched 40123 Read Only D0122 None -32768 to 32767 for Sequence Control Unlatched 40124 Read Only D0123 None -32768 to 32767 for Sequence Control Unlatched 40125 Read Only D0124 None -32768 to 32767 for Sequence Control Unlatched 40126 Read Only D0125 None -32768 to 32767 for Sequence Control Unlatched 40127 Read Only D0126 None -32768 to 32767 for Sequence Control Unlatched 40128 Read Only D0127 None -32768 to 32767 for Sequence Control Unlatched

QT108300

- 141 -

Holding Registers number 40129 to 40256 (Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40129 Read Only D0128 Current CUT-IN Set Point

Range Low to High: 0 to 4095

for Sequence Control Latched Set Point displayed on STATUS screen

40130 Read Only D0129 Current PRESSURE CONTROL Set Point

Range Low to High: 0 to 4095

for Sequence Control Latched Set Point displayed on STATUS screen

40131 Read Only D0130 Current TEMPERATURE CONTROL Set Point

Range Low to High: 0 to 4095

for Sequence Control Latched Set Point displayed on STATUS screen

40132 Read Only D0131 Current CUT-OUT Set Point

Range Low to High: 0 to 4095

for Sequence Control Latched Set Point displayed on STATUS screen

40133 Read Only D0132 None -32768 to 32767 for Sequence Control Latched 40134 Read Only D0133 None -32768 to 32767 for Sequence Control Latched 40135 Read Only D0134 None -32768 to 32767 for Sequence Control Latched 40136 Read Only D0135 None -32768 to 32767 for Sequence Control Latched 40137 Read Only D0136 None -32768 to 32767 for Sequence Control Latched 40138 Read Only D0137 None -32768 to 32767 for Sequence Control Latched 40139 Read Only D0138 None -32768 to 32767 for Sequence Control Latched 40140 Read Only D0139 None -32768 to 32767 for Sequence Control Latched 40141 Read Only D0140 None -32768 to 32767 for Sequence Control Latched 40142 Read Only D0141 None -32768 to 32767 for Sequence Control Latched 40143 Read Only D0142 None -32768 to 32767 for Sequence Control Latched 40144 Read Only D0143 None -32768 to 32767 for Sequence Control Latched 40145 Read Only D0144 None -32768 to 32767 for Sequence Control Latched 40146 Read Only D0145 None -32768 to 32767 for Sequence Control Latched 40147 Read Only D0146 None -32768 to 32767 for Sequence Control Latched 40148 Read Only D0147 None -32768 to 32767 for Sequence Control Latched 40149 Read Only D0148 None -32768 to 32767 for Sequence Control Latched 40150 Read Only D0149 None -32768 to 32767 for Sequence Control Latched 40151 Read Only D0150 None -32768 to 32767 for Sequence Control Latched 40152 Read Only D0151 None -32768 to 32767 for Sequence Control Latched 40153 Read Only D0152 None -32768 to 32767 for Sequence Control Latched 40154 Read Only D0153 None -32768 to 32767 for Sequence Control Latched 40155 Read Only D0154 None -32768 to 32767 for Sequence Control Latched 40156 Read Only D0155 None -32768 to 32767 for Sequence Control Latched 40157 Read Only D0156 None -32768 to 32767 for Sequence Control Latched 40158 Read Only D0157 None -32768 to 32767 for Sequence Control Latched 40159 Read Only D0158 None -32768 to 32767 for Sequence Control Latched 40160 Read Only D0159 None -32768 to 32767 for Sequence Control Latched 40161 Read Only D0160 None -32768 to 32767 for Sequence Control Latched 40162 Read Only D0161 None -32768 to 32767 for Sequence Control Latched 40163 Read Only D0162 None -32768 to 32767 for Sequence Control Latched 40164 Read Only D0163 None -32768 to 32767 for Sequence Control Latched 40165 Read Only D0164 None -32768 to 32767 for Sequence Control Latched 40166 Read Only D0165 None -32768 to 32767 for Sequence Control Latched 40167 Read Only D0166 None -32768 to 32767 for Sequence Control Latched 40168 Read Only D0167 None -32768 to 32767 for Sequence Control Latched 40169 Read Only D0168 None -32768 to 32767 for Sequence Control Latched 40170 Read Only D0169 None -32768 to 32767 for Sequence Control Latched 40171 Read Only D0170 None -32768 to 32767 for Sequence Control Latched 40172 Read Only D0171 None -32768 to 32767 for Sequence Control Latched 40173 Read Only D0172 None -32768 to 32767 for Sequence Control Latched 40174 Read Only D0173 None -32768 to 32767 for Sequence Control Latched 40175 Read Only D0174 None -32768 to 32767 for Sequence Control Latched 40176 Read Only D0175 None -32768 to 32767 for Sequence Control Latched 40177 Read Only D0176 None -32768 to 32767 for Sequence Control Latched 40178 Read Only D0177 None -32768 to 32767 for Sequence Control Latched 40179 Read Only D0178 None -32768 to 32767 for Sequence Control Latched 40180 Read Only D0179 None -32768 to 32767 for Sequence Control Latched 40181 Read Only D0180 None -32768 to 32767 for Sequence Control Latched 40182 Read Only D0181 None -32768 to 32767 for Sequence Control Latched 40183 Read Only D0182 None -32768 to 32767 for Sequence Control Latched 40184 Read Only D0183 None -32768 to 32767 for Sequence Control Latched 40185 Read Only D0184 None -32768 to 32767 for Sequence Control Latched 40186 Read Only D0185 None -32768 to 32767 for Sequence Control Latched 40187 Read Only D0186 None -32768 to 32767 for Sequence Control Latched 40188 Read Only D0187 None -32768 to 32767 for Sequence Control Latched 40189 Read Only D0188 None -32768 to 32767 for Sequence Control Latched 40190 Read Only D0189 None -32768 to 32767 for Sequence Control Latched 40191 Read Only D0190 None -32768 to 32767 for Sequence Control Latched 40192 Read Only D0191 None -32768 to 32767 for Sequence Control Latched 40193 Read Only D0192 None -32768 to 32767 for Sequence Control Latched 40194 Read Only D0193 None -32768 to 32767 for Sequence Control Latched 40195 Read Only D0194 None -32768 to 32767 for Sequence Control Latched 40196 Read Only D0195 None -32768 to 32767 for Sequence Control Latched 40197 Read Only D0196 None -32768 to 32767 for Sequence Control Latched 40198 Read Only D0197 None -32768 to 32767 for Sequence Control Latched 40199 Read Only D0198 None -32768 to 32767 for Sequence Control Latched 40200 Read Only D0199 None -32768 to 32767 for Sequence Control Latched

QT108300

- 142 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40201 Read Only D0200 None -32768 to 32767 for Sequence Control Latched 40202 Read Only D0201 None -32768 to 32767 for Sequence Control Latched 40203 Read Only D0202 None -32768 to 32767 for Sequence Control Latched 40204 Read Only D0203 None -32768 to 32767 for Sequence Control Latched 40205 Read Only D0204 None -32768 to 32767 for Sequence Control Latched 40206 Read Only D0205 None -32768 to 32767 for Sequence Control Latched 40207 Read Only D0206 None -32768 to 32767 for Sequence Control Latched 40208 Read Only D0207 None -32768 to 32767 for Sequence Control Latched 40209 Read Only D0208 None -32768 to 32767 for Sequence Control Latched 40210 Read Only D0209 None -32768 to 32767 for Sequence Control Latched 40211 Read Only D0210 None -32768 to 32767 for Sequence Control Latched 40212 Read Only D0211 None -32768 to 32767 for Sequence Control Latched 40213 Read Only D0212 None -32768 to 32767 for Sequence Control Latched 40214 Read Only D0213 None -32768 to 32767 for Sequence Control Latched 40215 Read Only D0214 None -32768 to 32767 for Sequence Control Latched 40216 Read Only D0215 None -32768 to 32767 for Sequence Control Latched 40217 Read Only D0216 None -32768 to 32767 for Sequence Control Latched 40218 Read Only D0217 None -32768 to 32767 for Sequence Control Latched 40219 Read Only D0218 None -32768 to 32767 for Sequence Control Latched 40220 Read Only D0219 None -32768 to 32767 for Sequence Control Latched 40221 Read Only D0220 None -32768 to 32767 for Sequence Control Latched 40222 Read Only D0221 None -32768 to 32767 for Sequence Control Latched 40223 Read Only D0222 None -32768 to 32767 for Sequence Control Latched 40224 Read Only D0223 None -32768 to 32767 for Sequence Control Latched 40225 Read Only D0224 None -32768 to 32767 for Sequence Control Latched 40226 Read Only D0225 None -32768 to 32767 for Sequence Control Latched 40227 Read Only D0226 None -32768 to 32767 for Sequence Control Latched 40228 Read Only D0227 None -32768 to 32767 for Sequence Control Latched 40229 Read Only D0228 None -32768 to 32767 for Sequence Control Latched 40230 Read Only D0229 None -32768 to 32767 for Sequence Control Latched 40231 Read Only D0230 None -32768 to 32767 for Sequence Control Latched 40232 Read Only D0231 None -32768 to 32767 for Sequence Control Latched 40233 Read Only D0232 None -32768 to 32767 for Sequence Control Latched 40234 Read Only D0233 None -32768 to 32767 for Sequence Control Latched 40235 Read Only D0234 None -32768 to 32767 for Sequence Control Latched 40236 Read Only D0235 None -32768 to 32767 for Sequence Control Latched 40237 Read Only D0236 None -32768 to 32767 for Sequence Control Latched 40238 Read Only D0237 None -32768 to 32767 for Sequence Control Latched 40239 Read Only D0238 None -32768 to 32767 for Sequence Control Latched 40240 Read Only D0239 None -32768 to 32767 for Sequence Control Latched 40241 Read Only D0240 None -32768 to 32767 for Sequence Control Latched 40242 Read Only D0241 None -32768 to 32767 for Sequence Control Latched 40243 Read Only D0242 None -32768 to 32767 for Sequence Control Latched 40244 Read Only D0243 None -32768 to 32767 for Sequence Control Latched 40245 Read Only D0244 None -32768 to 32767 for Sequence Control Latched 40246 Read Only D0245 None -32768 to 32767 for Sequence Control Latched 40247 Read Only D0246 None -32768 to 32767 for Sequence Control Latched 40248 Read Only D0247 None -32768 to 32767 for Sequence Control Latched 40249 Read Only D0248 None -32768 to 32767 for Sequence Control Latched 40250 Read Only D0249 Week 0 (SUN.) to Six (SAT.) for Sequence Control Latched Real Time Clock

displayed on screen

40251 Read Only D0250 Month 1 to 12 for Sequence Control Latched Real Time Clock displayed on screen

40252 Read Only D0251 Day 1 to 31 for Sequence Control Latched Real Time Clock displayed on screen

40253 Read Only D0252 Year A.D. Four digits. for Sequence Control Latched Real Time Clock displayed on screen

40254 Read Only D0253 Hour 0 to 23 for Sequence Control Latched Real Time Clock displayed on screen

40255 Read Only D0254 Minute 0 to 59 for Sequence Control Latched Real Time Clock displayed on screen

40256 Read Only D0255 Second 0 to 59 for Sequence Control Latched Real Time Clock displayed on screen

QT108300

- 143 -

Holding Registers number 40257 to 40384 (Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

The data written to Holding Registers number 40257 to 40261 should be industrial unit X 10~n. (“^” means power and “n” is the

number of decimal place that is displayed on screen.)

If the target data is displayed “12.345”, “n” is three, so the written data should be 1000 times.

The data of Internal Word Device D0256 to D0260 are converted “Range Low” to 0 and “Range High” to 4095.

The relation of data read from Holding Registers number 40321 to 40400 between Internal Word Device D0320 to D0399 are

similar as above.

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40257 Read Write D0256 CUT IN Set Point (Pressure(n=3) or Temperature(n=1))

Industrial Unit X 10^n Control Required F1:4.SCHEDULER>CUT IN/OUT:COMM Written result can be confirmed F1:3.SET POINTS>SET POINTS>COMM

40258 Read Write D0257 CUT OUT Set Point (Pressure(n=3) or Temperature(n=1))

Industrial Unit X 10^n Control Required F1:4.SCHEDULER>CUT IN/OUT:COMM Written result can be confirmed F1:3.SET POINTS>SET POINTS>COMM

40259 Read Write D0258 (Low Stage) Capacity Control Pressure Set Point(n=3)

Industrial Unit X 10^n Control Required F1:4.SCHEDULER>CONTROL TARGET:COMM Written result can be confirmed F1:3.SET POINTS>SET POINTS>COMM

40260 Read Write D0259 (Low Stage) Capacity Control Temperature Set Point(n=1)

Industrial Unit X 10^n Control Required F1:4.SCHEDULER>CONTROL TARGET:COMM Written result can be confirmed F1:3.SET POINTS>SET POINTS>COMM

40261 Read Write D0260 Capacity Set Point(n=1)

Industrial Unit X 10^n 0 to 1000

Control Required F2:1.CAPACITY CONTROL>OPERATION:COMM or F2:2.VFD COMPRESSOR>OPERATION:COMM. Or write 4 to Holding Register number 41262 or 41295(VFD Compressor).

40262 Read Write D0261 LEAD LIST 1 ADDRESS

0 to 99 Control for Master of AUTO STAGE Control Required F1:7.AUTO STAGE>AUTOSTAGE>LEAD LISTING:COMM

40263 Read Write D0262 LEAD LIST 2 ADDRESS

0 to 99 Control for Master of AUTO STAGE Control Required F1:7.AUTO STAGE>AUTOSTAGE>LEAD LISTING:COMM

40264 Read Write D0263 LEAD LIST 3 ADDRESS

0 to 99 Control for Master of AUTO STAGE Control Required F1:7.AUTO STAGE>AUTOSTAGE>LEAD LISTING:COMM

QT108300

- 144 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40265 Read Write D0264 LEAD LIST 4 ADDRESS

0 to 99 Control for Master of AUTO STAGE Control Required F1:7.AUTO STAGE>AUTOSTAGE>LEAD LISTING:COMM

40266 Read Write D0265 LEAD LIST 5 ADDRESS

0 to 99 Control for Master of AUTO STAGE Control Required F1:7.AUTO STAGE>AUTOSTAGE>LEAD LISTING:COMM

40267 Read Write D0266 LEAD LIST 6 ADDRESS

0 to 99 Control for Master of AUTO STAGE Control Required F1:7.AUTO STAGE>AUTOSTAGE>LEAD LISTING:COMM

40268 Read Write D0267 LEAD LIST 7 ADDRESS

0 to 99 Control for Master of AUTO STAGE Control Required F1:7.AUTO STAGE>AUTOSTAGE>LEAD LISTING:COMM

40269 Read Write D0268 LEAD LIST 8 ADDRESS

0 to 99 Control for Master of AUTO STAGE Control Required F1:7.AUTO STAGE>AUTOSTAGE>LEAD LISTING:COMM

40270 Read Write D0269 Undefined -32768 to 32767 Control 40271 Read Write D0270 Undefined -32768 to 32767 Control 40272 Read Write D0271 Undefined -32768 to 32767 Control 40273 Read Only D0272 MSB:b15:X/Y000

Fh…LSB:b0:X/Y0000h

-32768 to 32767 Monitor Real DI/O

40274 Read Only D0273 MSB:b15:X/Y001Fh…LSB:b0:X/Y0010h

-32768 to 32767 Monitor Real DI/O

40275 Read Only D0274 MSB:b15:X/Y002Fh…LSB:b0:X/Y0020h

-32768 to 32767 Monitor Real DI/O

40276 Read Only D0275 MSB:b15:X/Y003Fh…LSB:b0:X/Y0030h

-32768 to 32767 Monitor Real DI/O

40277 Read Only D0276 MSB:b15:X/Y004Fh…LSB:b0:X/Y0040h

-32768 to 32767 Monitor Real DI/O

40278 Read Only D0277 MSB:b15:X/Y005Fh…LSB:b0:X/Y0050h

-32768 to 32767 Monitor Real DI/O

40279 Read Only D0278 MSB:b15:X/Y006Fh…LSB:b0:X/Y0060h

-32768 to 32767 Monitor Real DI/O

40280 Read Only D0279 MSB:b15:X/Y007Fh…LSB:b0:X/Y0070h

-32768 to 32767 Monitor Real DI/O

40281 Read Only D0280 MSB:b15:Y008Fh…LSB:b0:Y0080h

-32768 to 32767 Monitor Pseudo D/O

ALARM

40282 Read Only D0281 MSB:b15:Y009Fh…LSB:b0:Y0090h

-32768 to 32767 Monitor Pseudo D/O

Refer Coils number 00129 to 00256

40283 Read Only D0282 MSB:b15:Y00AFh…LSB:b0:Y00A0h

-32768 to 32767 Monitor Pseudo D/O

40284 Read Only D0283 MSB:b15:Y00BFh…LSB:b0:Y00B0h

-32768 to 32767 Monitor Pseudo D/O

40285 Read Only D0284 MSB:b15:Y00CFh…LSB:b0:Y00C0h

-32768 to 32767 Monitor Pseudo D/O

40286 Read Only D0285 MSB:b15:Y00DFh…LSB:b0:Y00D0h

-32768 to 32767 Monitor Pseudo D/O

40287 Read Only D0286 MSB:b15:Y00EFh…LSB:b0:Y00E0h

-32768 to 32767 Monitor Pseudo D/O

40288 Read Only D0287 MSB:b15:Y00FFh…LSB:b0:Y00F0h

-32768 to 32767 Monitor Pseudo D/O

40289 Read Only D0288 MSB:b15:Y010Fh…LSB:b0:Y0100h

-32768 to 32767 Monitor Pseudo D/O

FAILURE

QT108300

- 145 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40290 Read Only D0289 MSB:b15:Y011Fh…LSB:b0:Y0110h

-32768 to 32767 Monitor Pseudo D/O

Refer Coils number 00257 to 00384

40291 Read Only D0290 MSB:b15:Y012Fh…LSB:b0:Y0120h

-32768 to 32767 Monitor Pseudo D/O

40292 Read Only D0291 MSB:b15:Y013Fh…LSB:b0:Y0130h

-32768 to 32767 Monitor Pseudo D/O

40293 Read Only D0292 MSB:b15:Y014Fh…LSB:b0:Y0140h

-32768 to 32767 Monitor Pseudo D/O

40294 Read Only D0293 MSB:b15:Y015Fh…LSB:b0:Y0150h

-32768 to 32767 Monitor Pseudo D/O

40295 Read Only D0294 MSB:b15:Y016Fh…LSB:b0:Y0160h

-32768 to 32767 Monitor Pseudo D/O

40296 Read Only D0295 MSB:b15:Y017Fh…LSB:b0:Y0170h

-32768 to 32767 Monitor Pseudo D/O

40297 Read Only D0296 MSB:b15:X00CFh…LSB:b0:X00C0h

-32768 to 32767 Monitor Pseudo D/I MODE

40298 Read Only D0297 MSB:b15:X00DFh…LSB:b0:X00D0h

-32768 to 32767 Monitor Pseudo D/I Refer Coils number 00385 to 448

40299 Read Only D0298 MSB:b15:X00EFh…LSB:b0:X00E0h

-32768 to 32767 Monitor Pseudo D/I

40300 Read Only D0299 MSB:b15:X00FFh…LSB:b0:X00F0h

-32768 to 32767 Monitor Pseudo D/I

40301 Read Only D0300 MSB:b15:X010Fh…LSB:b0:X0100h

-32768 to 32767 Monitor Pseudo D/I CONFIGURATION

40302 Read Only D0301 MSB:b15:X011Fh…LSB:b0:X0110h

-32768 to 32767 Monitor Pseudo D/I Refer Coils number 00449 to 512

40303 Read Only D0302 MSB:b15:X012Fh…LSB:b0:X0120h

-32768 to 32767 Monitor Pseudo D/I

40304 Read Only D0303 MSB:b15:X013Fh…LSB:b0:X0130h

-32768 to 32767 Monitor Pseudo D/I

40305 Read Only D0304 MSB:b15:X014Fh…LSB:b0:X0140h

-32768 to 32767 Monitor Pseudo D/I COMMUNICATION

40306 Read Only D0305 MSB:b15:X015Fh…LSB:b0:X0150h

-32768 to 32767 Monitor Pseudo D/I Refer Coils number 00513 to 576

40307 Read Only D0306 MSB:b15:X016Fh…LSB:b0:X0160h

-32768 to 32767 Monitor Pseudo D/I

40308 Read Only D0307 MSB:b15:X017Fh…LSB:b0:X0170h

-32768 to 32767 Monitor Pseudo D/I

40309 Read Only D0308 Undefined -32768 to 32767 Monitor Calculated 40310 Read Only D0309 Undefined -32768 to 32767 Monitor Calculated 40311 Read Only D0310 Undefined -32768 to 32767 Monitor Calculated 40312 Read Only D0311 Undefined -32768 to 32767 Monitor Calculated 40313 Read Only D0312 Undefined -32768 to 32767 Monitor Calculated 40314 Read Only D0313 Undefined -32768 to 32767 Monitor Calculated 40315 Read Only D0314 Undefined -32768 to 32767 Monitor Calculated 40316 Read Only D0315 Undefined -32768 to 32767 Monitor Calculated 40317 Read Only D0316 Undefined -32768 to 32767 Monitor Calculated 40318 Read Only D0317 Undefined -32768 to 32767 Monitor Calculated 40319 Read Only D0318 RUN TIME (Low

Word) Hour Monitor Calculated RUN TIME =

65536 X (40320) + (40319) HOURS

40320 Read Only D0319 RUN TIME (High Word)

X 65536 Hours Monitor Calculated

40321 Read Only D0320 Suction Pressure(n=3)

Industrial Unit X 10^n Real AI 1/64 SP

40322 Read Only D0321 Discharge Pressure(n=2)

Industrial Unit X 10^n Real AI 2/64 DP

40323 Read Only D0322 Oil Supply Pressure(n=2)

Industrial Unit X 10^n Real AI 3/64 OP

40324 Read Only D0323 After Filter Pressure(n=2)

Industrial Unit X 10^n Real AI 4/64 AFP

40325 Read Only D0324 Suction Temperature(n=1)

Industrial Unit X 10^n Real AI 5/64 ST

40326 Read Only D0325 Discharge Temperature(n=1)

Industrial Unit X 10^n Real AI 6/64 DT

40327 Read Only D0326 Oil Supply Temperature(n=1)

Industrial Unit X 10^n Real AI 7/64 OT

40328 Read Only D0327 PLATFORM: US, Oil Separator Temperature(n=1)

Industrial Unit X 10^n Real AI 8/64 OS

PLATFORM: EU, After Fine Filter Pressure(n=2)

AFFP

PLATFORM:AS,OPTION ANALOG INPUT1 to 4

OPT1 to OPT4

PLATFORM: AS, Undefined

N.C.

QT108300

- 146 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40329 Read Only D0328 Intermediate Pressure(n=2)

Industrial Unit X 10^n Real AI 9/64 IP

OPTION ANALOG INPUT1 to 4

OPT1 to OPT4

Undefined N.C. 40330 Read Only D0329 Intermediate

Temperature(n=1)Industrial Unit X 10^n Real AI 10/64 IT

OPTION ANALOG INPUT1 to 4

OPT1 to OPT4

Undefined N.C. 40331 Read Only D0330 System Discharge

Pressure(n=2) Industrial Unit X 10^n Real AI 11/64 SDP

OPTION ANALOG INPUT1 to 4

OPT1 to OPT4

Undefined N.C. 40332 Read Only D0331 Compressor

Motor Electric Current(n=0 to 1)

Industrial Unit X 10^n Real AI 12/64 MA

40333 Read Only D0332 Chiller Entering Brine Temperature(n=1)

Industrial Unit X 10^n Real AI 13/64 EBT

OPTION ANALOG INPUT1 to 4

OPT1 to OPT4

Undefined N.C. 40334 Read Only D0333 Chiller Leaving

Brine Temperature(n=1)

Industrial Unit X 10^n Real AI 14/64 LBT

OPTION ANALOG INPUT1 to 4

OPT1 to OPT4

Undefined N.C. 40335 Read Only D0334 (Low Stage) Slide

Valve Position(n=1)

Industrial Unit X 10^n Real AI 15/64 LSV (on VFD COMPRESSOR, capacity is number 40394.)

40336 Read Only D0335 High Stage Slide Valve Position(n=1)

Industrial Unit X 10^n Real AI 16/64 HSV

Vi Port Slide Valve Position(n=1)

PSV

System Suction Pressure(n=3)

SSP

OPTION ANALOG INPUT1 to 4

OPT1 to OPT4

Undefined N.C. 40337 Read Only D0336 Chiller Suction

Pressure1(n=3) Industrial Unit X 10^n Real AI 17/64 SP1

Undefined N.C. 40338 Read Only D0337 Chiller Gas

Temperature1(n=1)

Industrial Unit X 10^n Real AI 18/64 GT1

Undefined N.C. 40339 Read Only D0338 System Suction

Pressure(n=3) Industrial Unit X 10^n Real AI 19/64 SSP

Undefined N.C. 40340 Read Only D0339 Remote Analog

Capacity Input Industrial Unit X 10^n Real AI 20/64 RLD

Undefined N.C. 40341 Read Only D0340 OPTION

ANALOG INPUT1 to 4

Industrial Unit X 10^n Real AI 21/64 OPT1 to OPT4

Undefined N.C. 40342 Read Only D0341 OPTION

ANALOG INPUT1 to 4

Industrial Unit X 10^n Real AI 22/64 OPT1 to OPT4

Undefined N.C. 40343 Read Only D0342 OPTION

ANALOG INPUT1 to 4

Industrial Unit X 10^n Real AI 23/64 OPT1 to OPT4

Undefined N.C. 40344 Read Only D0343 OPTION

ANALOG INPUT1 to 4

Industrial Unit X 10^n Real AI 24/64 OPT1 to OPT4

Undefined N.C. 40345 Read Only D0344 Chiller Suction

Pressure1(n=3) Industrial Unit X 10^n Real AI 25/64 SP2

Undefined N.C.

QT108300

- 147 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40346 Read Only D0345 Chiller Gas Temperature1(n=1)

Industrial Unit X 10^n Real AI 26/64 GT2

Undefined N.C. 40347 Read Only D0346 Undefined Industrial Unit X 10^n Real AI 27/64 40348 Read Only D0347 Undefined Industrial Unit X 10^n Real AI 28/64 40349 Read Only D0348 Undefined Industrial Unit X 10^n Real AI 29/64 40350 Read Only D0349 Undefined Industrial Unit X 10^n Real AI 30/64 40351 Read Only D0350 Undefined Industrial Unit X 10^n Real AI 31/64 40352 Read Only D0351 Undefined Industrial Unit X 10^n Real AI 32/64 40353 Read Only D0352 Undefined Industrial Unit X 10^n Real AI 33/64 40354 Read Only D0353 Undefined Industrial Unit X 10^n Real AI 34/64 40355 Read Only D0354 Undefined Industrial Unit X 10^n Real AI 35/64 40356 Read Only D0355 Undefined Industrial Unit X 10^n Real AI 36/64 40357 Read Only D0356 Undefined Industrial Unit X 10^n Real AI 37/64 40358 Read Only D0357 Undefined Industrial Unit X 10^n Real AI 38/64 40359 Read Only D0358 Undefined Industrial Unit X 10^n Real AI 39/64 40360 Read Only D0359 Undefined Industrial Unit X 10^n Real AI 40/64 40361 Read Only D0360 Undefined Industrial Unit X 10^n Real AI 41/64 40362 Read Only D0361 Undefined Industrial Unit X 10^n Real AI 42/64 40363 Read Only D0362 Undefined Industrial Unit X 10^n Real AI 43/64 40364 Read Only D0363 Undefined Industrial Unit X 10^n Real AI 44/64 40365 Read Only D0364 Undefined Industrial Unit X 10^n Real AI 45/64 40366 Read Only D0365 Undefined Industrial Unit X 10^n Real AI 46/64 40367 Read Only D0366 Undefined Industrial Unit X 10^n Real AI 47/64 40368 Read Only D0367 Undefined Industrial Unit X 10^n Real AI 48/64 40369 Read Only D0368 Undefined Industrial Unit X 10^n Real AI 49/64 40370 Read Only D0369 Undefined Industrial Unit X 10^n Real AI 50/64 40371 Read Only D0370 Undefined Industrial Unit X 10^n Real AI 51/64 40372 Read Only D0371 Undefined Industrial Unit X 10^n Real AI 52/64 40373 Read Only D0372 Undefined Industrial Unit X 10^n Real AI 53/64 40374 Read Only D0373 Undefined Industrial Unit X 10^n Real AI 54/64 40375 Read Only D0374 Undefined Industrial Unit X 10^n Real AI 55/64 40376 Read Only D0375 Undefined Industrial Unit X 10^n Real AI 56/64 40377 Read Only D0376 Undefined Industrial Unit X 10^n Real AI 57/64 40378 Read Only D0377 Undefined Industrial Unit X 10^n Real AI 58/64 40379 Read Only D0378 Undefined Industrial Unit X 10^n Real AI 59/64 40380 Read Only D0379 Undefined Industrial Unit X 10^n Real AI 60/64 40381 Read Only D0380 Undefined Industrial Unit X 10^n Real AI 61/64 40382 Read Only D0381 Undefined Industrial Unit X 10^n Real AI 62/64 40383 Read Only D0382 Undefined Industrial Unit X 10^n Real AI 63/64 40384 Read Only D0383 Undefined Industrial Unit X 10^n Real AI 64/64

QT108300

- 148 -

Holding Registers number 40385 to 40512 (Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40385 Read Only D0384 Oil Differential Pressure(DP - OP) (n=2)

Industrial Unit X 10^n Pseudo AI 1/16 ⊿OP

40386 Read Only D0385 Filter Differential Pressure(DP - AFP) (n=2)

Industrial Unit X 10^n Pseudo AI 2/16 ⊿FP

40387 Read Only D0386 Differential Pressure (n=2) Single(AFP - SP),Compound(AFP - IP)

Industrial Unit X 10^n Pseudo AI 3/16 ⊿P

40388 Read Only D0387 Suction Superheat(n=1)

Industrial Unit X 10^n Pseudo AI 4/16 SSH

40389 Read Only D0388 Intermediate Superheat(n=1)

Industrial Unit X 10^n Pseudo AI 5/16 ISH

40390 Read Only D0389 Discharge Superheat(n=1)

Industrial Unit X 10^n Pseudo AI 6/16 DSH

40391 Read Only D0390 Ratio: DP÷SP(n=2)

Industrial Unit X 10^n Pseudo AI 7/16 D/S

40392 Read Only D0391 Calculated Vi(n=2)

Industrial Unit X 10^n Pseudo AI 8/16 Vi

40393 Read Only D0392 Current Vi 2.63/3.65/5.80, 2.50/3.50/5.00(n=2)

Industrial Unit X 10^n Pseudo AI 9/16 CRVi

40394 Read Only D0393 Capacity/VFD Output(n=1)

Industrial Unit X 10^n Pseudo AI 10/16 CAP

40395 Read Only D0394 (Low Stage)Slide Valve Percent(n=1)

Industrial Unit X 10^n Pseudo AI 11/16 SVP

40396 Read Only D0395 AUTO STAGE Target-Pressure(n=3)

Industrial Unit X 10^n Pseudo AI 12/16 F1:7.AUTO STAGE>CONTROL SET POINT

40397 Read Only D0396 Oil Differential Pressure2(OP2-DP)(n=2)

Industrial Unit X 10^n Pseudo AI 13/16 ⊿OP2

40398 Read Only D0397 Suction Superheat2(n=1)

Industrial Unit X 10^n Pseudo AI 14/16 SH2

40399 Read Only D0398 Fine Filter Differential Pressure(DP - AFFP) (n=2)

Industrial Unit X 10^n Pseudo AI 15/16 ⊿FFP

40400 Read Only D0399 AUTO STAGE Target-Temperature(n=1)

Industrial Unit X 10^n Pseudo AI 16/16 F1:7.AUTO STAGE>CONTROL SET POINT

40401 Read Only D0400 PV: Process Value/SP(n=3)

Industrial Unit X 10^n Capacity Control PID 1/16

40402 Read Only D0401 SV: Set Value(n=3)

Industrial Unit X 10^n Suction Pressure Read Area

40403 Read Only D0402 Reserved 40404 Read Only D0403 MV:PID

OUT%(n=1) 0 to 1000

40405 Read Only D0404 PROPORTIONAL BAND%(n=1)

10 to 2000

40406 Read Only D0405 INTEGRAL TIME Sec(n=0)

0 to 1800

40407 Read Only D0406 DERIVATIVE TIME Sec(n=0)

0 to 600

40408 Read Only D0407 MANUAL RESET%(n=1)

0 to 1000

40409 Read Only D0408 Reserved 40410 Read Only D0409 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40411 Read Only D0410 MVL%(n=1) 0 to MVH% 40412 Read Only D0411 MVH%(n=1) MVL% to 1000 40413 Read Only D0412 Slow Open

Sec(n=0) -600 to 600

40414 Read Only D0413 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40415 Read Only D0414 Reserved 40416 Read Only D0415 Reserved 40417 Read Only D0416 PV: Process

Value/SP(n=3) Industrial Unit X 10^n Capacity Control PID 2/16

40418 Read Only D0417 SV: Set Value(n=3)

Industrial Unit X 10^n Chiller LB Temperature Read Area

40419 Read Only D0418 Reserved 40420 Read Only D0419 MV:PID

OUT%(n=1) 0 to 1000

40421 Read Only D0420 PROPORTIONAL BAND%(n=1)

10 to 2000

QT108300

- 149 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40422 Read Only D0421 INTEGRAL TIME Sec(n=0)

0 to 1800

40423 Read Only D0422 DERIVATIVE TIME Sec(n=0)

0 to 600

40424 Read Only D0423 MANUAL RESET%(n=1)

0 to 1000

40425 Read Only D0424 Reserved 40426 Read Only D0425 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40427 Read Only D0426 MVL%(n=1) 0 to MVH% 40428 Read Only D0427 MVH%(n=1) MVL% to 1000 40429 Read Only D0428 Slow Open

Sec(n=0) -600 to 600

40430 Read Only D0429 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40431 Read Only D0430 Reserved 40432 Read Only D0431 Reserved 40433 Read Only D0432 PV: Process

Value/SP(n=3) Industrial Unit X 10^n Suction Superheat PID 3/16

40434 Read Only D0433 SV: Set Value(n=3)

Industrial Unit X 10^n Limitation by Read Area

40435 Read Only D0434 Reserved Suction Pressure 40436 Read Only D0435 MV:PID

OUT%(n=1) 0 to 1000

40437 Read Only D0436 PROPORTIONAL BAND%(n=1)

10 to 2000

40438 Read Only D0437 INTEGRAL TIME Sec(n=0)

0 to 1800

40439 Read Only D0438 DERIVATIVE TIME Sec(n=0)

0 to 600

40440 Read Only D0439 MANUAL RESET%(n=1)

0 to 1000

40441 Read Only D0440 Reserved 40442 Read Only D0441 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40443 Read Only D0442 MVL%(n=1) 0 to MVH% 40444 Read Only D0443 MVH%(n=1) MVL% to 1000 40445 Read Only D0444 Slow Open

Sec(n=0) -600 to 600

40446 Read Only D0445 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40447 Read Only D0446 Reserved 40448 Read Only D0447 Reserved 40449 Read Only D0448 PV: Process

Value/SP(n=3) Industrial Unit X 10^n Suction Superheat PID 3/16

40450 Read Only D0449 SV: Set Value(n=3)

Industrial Unit X 10^n Limitation by Read Area

40451 Read Only D0450 Reserved Chiller LB Temperature 40452 Read Only D0451 MV:PID

OUT%(n=1) 0 to 1000

40453 Read Only D0452 PROPORTIONAL BAND%(n=1)

10 to 2000

40454 Read Only D0453 INTEGRAL TIME Sec(n=0)

0 to 1800

40455 Read Only D0454 DERIVATIVE TIME Sec(n=0)

0 to 600

40456 Read Only D0455 MANUAL RESET%(n=1)

0 to 1000

40457 Read Only D0456 Reserved 40458 Read Only D0457 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40459 Read Only D0458 MVL%(n=1) 0 to MVH% 40460 Read Only D0459 MVH%(n=1) MVL% to 1000 40461 Read Only D0460 Slow Open

Sec(n=0) -600 to 600

40462 Read Only D0461 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40463 Read Only D0462 Reserved 40464 Read Only D0463 Reserved 40465 Read Only D0464 PV: Process

Value/SP(n=3) Industrial Unit X 10^n Suction Superheat PID 5/16

40466 Read Only D0465 SV: Set Value(n=3)

Industrial Unit X 10^n Limitation by Read Area

40467 Read Only D0466 Reserved Chiller LB Temperature 40468 Read Only D0467 MV:PID

OUT%(n=1) 0 to 1000

40469 Read Only D0468 PROPORTIONAL BAND%(n=1)

10 to 2000

40470 Read Only D0469 INTEGRAL TIME Sec(n=0)

0 to 1800

40471 Read Only D0470 DERIVATIVE TIME Sec(n=0)

0 to 600

QT108300

- 150 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40472 Read Only D0471 MANUAL RESET%(n=1)

0 to 1000

40473 Read Only D0472 Reserved 40474 Read Only D0473 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40475 Read Only D0474 MVL%(n=1) 0 to MVH% 40476 Read Only D0475 MVH%(n=1) MVL% to 1000 40477 Read Only D0476 Slow Open

Sec(n=0) -600 to 600

40478 Read Only D0477 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40479 Read Only D0478 Reserved 40480 Read Only D0479 Reserved 40481 Read Only D0480 PV: Process

Value/SP(n=2) Industrial Unit X 10^n Intercooler Control PID 6/16

40482 Read Only D0481 SV: Set Value(n=2)

Industrial Unit X 10^n Intermediate Superheat Read Area

40483 Read Only D0482 Reserved 40484 Read Only D0483 MV:PID

OUT%(n=1) 0 to 1000

40485 Read Only D0484 PROPORTIONAL BAND%(n=1)

10 to 2000

40486 Read Only D0485 INTEGRAL TIME Sec(n=0)

0 to 1800

40487 Read Only D0486 DERIVATIVE TIME Sec(n=0)

0 to 600

40488 Read Only D0487 MANUAL RESET%(n=1)

0 to 1000

40489 Read Only D0488 Reserved 40490 Read Only D0489 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40491 Read Only D0490 MVL%(n=1) 0 to MVH% 40492 Read Only D0491 MVH%(n=1) MVL% to 1000 40493 Read Only D0492 Slow Open

Sec(n=0) -600 to 600

40494 Read Only D0493 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40495 Read Only D0494 Reserved 40496 Read Only D0495 Reserved 40497 Read Only D0496 PV: Process

Value/DT(n=1) or DSH(n=1)

Industrial Unit X 10^n Liquid Injection YOSAKU PID 7/16

40498 Read Only D0497 SV: Set Value(n=1)

Industrial Unit X 10^n Discharge Temperature Read Area

40499 Read Only D0498 Reserved or 40500 Read Only D0499 MV:PID

OUT%(n=1) 0 to 1000 Discharge Superheat

40501 Read Only D0500 PROPORTIONAL BAND%(n=1)

10 to 2000

40502 Read Only D0501 INTEGRAL TIME Sec(n=0)

0 to 1800

40503 Read Only D0502 DERIVATIVE TIME Sec(n=0)

0 to 600

40504 Read Only D0503 MANAUL RESET%(n=1)

0 to 1000

40505 Read Only D0504 Reserved 40506 Read Only D0505 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40507 Read Only D0506 MVL%(n=1) 0 to MVH% 40508 Read Only D0507 MVH%(n=1) MVL% to 1000 40509 Read Only D0508 Slow Open

Sec(n=0) -600 to 600

40510 Read Only D0509 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40511 Read Only D0510 Reserved 40512 Read Only D0511 Reserved

QT108300

- 151 -

Holding Registers number 40513 to 40640 (Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40513 Read Only D0512 PV: Process Value/SP(n=1)

Industrial Unit X 10^n Chiller Flow Control PID 8/16

40514 Read Only D0513 SV: Set Value(n=1)

Industrial Unit X 10^n Chiller LB Temperature Read Area

40515 Read Only D0514 Reserved 40516 Read Only D0515 MV:PID

OUT%(n=1) 0 to 1000

40517 Read Only D0516 PROPORTIONAL BAND%(n=1)

10 to 2000

40518 Read Only D0517 INTEGRAL TIME Sec(n=0)

0 to 1800

40519 Read Only D0518 DERIVATIVE TIME Sec(n=0)

0 to 600

40520 Read Only D0519 MANUAL RESET%(n=1)

0 to 1000

40521 Read Only D0520 Reserved 40522 Read Only D0521 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40523 Read Only D0522 MVL%(n=1) 0 to MVH% 40524 Read Only D0523 MVH%(n=1) MVL% to 1000 40525 Read Only D0524 Slow Open

Sec(n=0) -600 to 600

40526 Read Only D0525 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40527 Read Only D0526 Reserved 40528 Read Only D0527 Reserved 40529 Read Only D0528 PV: Process

Value/DP(n=2) Industrial Unit X 10^n VFD Condenser Fan Control PID 9/16

40530 Read Only D0529 SV: Set Value(n=2)

Industrial Unit X 10^n Discharge Pressure Read Area

40531 Read Only D0530 Reserved 40532 Read Only D0531 MV:PID

OUT%(n=1) 0 to 1000

40533 Read Only D0532 PROPORTIONAL BAND%(n=1)

10 to 2000

40534 Read Only D0533 INTEGRAL TIME Sec(n=0)

0 to 1800

40535 Read Only D0534 DERIVATIVE TIME Sec(n=0)

0 to 600

40536 Read Only D0535 MANUAL RESET%(n=1)

0 to 1000

40537 Read Only D0536 Reserved 40538 Read Only D0537 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40539 Read Only D0538 MVL%(n=1) 0 to MVH% 40540 Read Only D0539 MVH%(n=1) MVL% to 1000 40541 Read Only D0540 Slow Open

Sec(n=0) -600 to 600

40542 Read Only D0541 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40543 Read Only D0542 Reserved 40544 Read Only D0543 Reserved 40545 Read Only D0544 PV: Process

Value/IP(n=2) Industrial Unit X 10^n High Stage Capacity Control PID10/16

40546 Read Only D0545 SV: Set Value(n=2)

Industrial Unit X 10^n Intermediate Pressure Read Area

40547 Read Only D0546 Reserved 40548 Read Only D0547 MV:PID

OUT%(n=1) 0 to 1000

40549 Read Only D0548 PROPORTIONAL BAND%(n=1)

10 to 2000

40550 Read Only D0549 INTEGRAL TIME Sec(n=0)

0 to 1800

40551 Read Only D0550 DERIVATIVE TIME Sec(n=0)

0 to 600

40552 Read Only D0551 MANAUL RESET%(n=1)

0 to 1000

40553 Read Only D0552 Reserved 40554 Read Only D0553 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40555 Read Only D0554 MVL%(n=1) 0 to MVH% 40556 Read Only D0555 MVH%(n=1) MVL% to 1000 40557 Read Only D0556 Slow Open

Sec(n=0) -600 to 600

40558 Read Only D0557 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40559 Read Only D0558 Reserved 40560 Read Only D0559 Reserved 40561 Read Only D0560 PV: Process

Value/SP(n=3) Industrial Unit X 10^n VFD Capacity Control PID11/16

QT108300

- 152 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40562 Read Only D0561 SV: Set Value(n=3)

Industrial Unit X 10^n Suction Pressure Read Area

40563 Read Only D0562 Reserved 40564 Read Only D0563 MV:PID

OUT%(n=1) 0 to 1000

40565 Read Only D0564 PROPORTIONAL BAND%(n=1)

10 to 2000

40566 Read Only D0565 INTEGRAL TIME Sec(n=0)

0 to 1800

40567 Read Only D0566 DERIVATIVE TIME Sec(n=0)

0 to 600

40568 Read Only D0567 MANUAL RESET%(n=1)

0 to 1000

40569 Read Only D0568 Reserved 40570 Read Only D0569 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40571 Read Only D0570 MVL%(n=1) 0 to MVH% 40572 Read Only D0571 MVH%(n=1) MVL% to 1000 40573 Read Only D0572 Slow Open

Sec(n=0) -600 to 600

40574 Read Only D0573 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40575 Read Only D0574 Reserved 40576 Read Only D0575 Reserved 40577 Read Only D0576 PV: Process

Value/LBT(n=1) Industrial Unit X 10^n VFD Capacity Control PID12/16

40578 Read Only D0577 SV: Set Value(n=1)

Industrial Unit X 10^n Chller LB Temperature Read Area

40579 Read Only D0578 Reserved 40580 Read Only D0579 MV:PID

OUT%(n=1) 0 to 1000

40581 Read Only D0580 PROPORTIONAL BAND%(n=1)

10 to 2000

40582 Read Only D0581 INTEGRAL TIME Sec(n=0)

0 to 1800

40583 Read Only D0582 DERIVATIVE TIME Sec(n=0)

0 to 600

40584 Read Only D0583 MANUAL RESET%(n=1)

0 to 1000

40585 Read Only D0584 Reserved 40586 Read Only D0585 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40587 Read Only D0586 MVL%(n=1) 0 to MVH% 40588 Read Only D0587 MVH%(n=1) MVL% to 1000 40589 Read Only D0588 Slow Open

Sec(n=0) -600 to 600

40590 Read Only D0589 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40591 Read Only D0590 Reserved 40592 Read Only D0591 Reserved 40593 Read Only D0592 PV: Process

Value/SH2(n=1) Industrial Unit X 10^n Suction Superheat2 PID13/16

40594 Read Only D0593 SV: Set Value(n=1)

Industrial Unit X 10^n Read Area

40595 Read Only D0594 Reserved 40596 Read Only D0595 MV:PID

OUT%(n=1) 0 to 1000

40597 Read Only D0596 PROPORTIONAL BAND%(n=1)

10 to 2000

40598 Read Only D0597 INTEGRAL TIME Sec(n=0)

0 to 1800

40599 Read Only D0598 DERIVATIVE TIME Sec(n=0)

0 to 600

40600 Read Only D0599 MANUAL RESET%(n=1)

0 to 1000

40601 Read Only D0600 Reserved 40602 Read Only D0601 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40603 Read Only D0602 MVL%(n=1) 0 to MVH% 40604 Read Only D0603 MVH%(n=1) MVL% to 1000 40605 Read Only D0604 Slow Open

Sec(n=0) -600 to 600

40606 Read Only D0605 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40607 Read Only D0606 Reserved 40608 Read Only D0607 Reserved 40609 Read Only D0608 PV: Process

Value/SP2(n=3) Industrial Unit X 10^n Suction Superheat2 PID14/16

40610 Read Only D0609 SV: Set Value(n=3)

Industrial Unit X 10^n Limitation by Read Area

40611 Read Only D0610 Reserved Suction Pressure2

QT108300

- 153 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40612 Read Only D0611 MV:PID OUT%(n=1)

0 to 1000

40613 Read Only D0612 PROPORTIONAL BAND%(n=1)

10 to 2000

40614 Read Only D0613 INTEGRAL TIME Sec(n=0)

0 to 1800

40615 Read Only D0614 DERIVATIVE TIME Sec(n=0)

0 to 600

40616 Read Only D0615 MANUAL RESET%(n=1)

0 to 1000

40617 Read Only D0616 Reserved 40618 Read Only D0617 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40619 Read Only D0618 MVL%(n=1) 0 to MVH% 40620 Read Only D0619 MVH%(n=1) MVL% to 1000 40621 Read Only D0620 Slow Open

Sec(n=0) -600 to 600

40622 Read Only D0621 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40623 Read Only D0622 Reserved 40624 Read Only D0623 Reserved 40625 Read Only D0624 PV: Process

Value/LVL%(n=1)Industrial Unit X 10^n Level Control PID15/16

40626 Read Only D0625 SV: Set Value%(n=1)

Industrial Unit X 10^n Chiller Liquid Level Read Area

40627 Read Only D0626 Reserved 40628 Read Only D0627 MV:PID

OUT%(n=1) 0 to 1000

40629 Read Only D0628 PROPORTIONAL BAND%(n=1)

10 to 2000

40630 Read Only D0629 INTEGRAL TIME Sec(n=0)

0 to 1800

40631 Read Only D0630 DERIVATIVE TIME Sec(n=0)

0 to 600

40632 Read Only D0631 MANUAL RESET%(n=1)

0 to 1000

40633 Read Only D0632 Reserved 40634 Read Only D0633 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40635 Read Only D0634 MVL%(n=1) 0 to MVH% 40636 Read Only D0635 MVH%(n=1) MVL% to 1000 40637 Read Only D0636 Slow Open

Sec(n=0) -600 to 600

40638 Read Only D0637 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40639 Read Only D0638 Reserved 40640 Read Only D0639 Reserved

QT108300

- 154 -

Holding Registers number 40641 to 40768 (Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40641 Read Only D0640 PV: Process Value/undefined

Industrial Unit X 10^n Undefined PID16/16

40642 Read Only D0641 SV: Set Value(n=?)

Industrial Unit X 10^n Read Area

40643 Read Only D0642 Reserved 40644 Read Only D0643 MV:PID

OUT%(n=1) 0 to 1000

40645 Read Only D0644 PROPORTIONAL BAND%(n=1)

10 to 2000

40646 Read Only D0645 INTEGRAL TIME Sec(n=0)

0 to 1800

40647 Read Only D0646 DERIVATIVE TIME Sec(n=0)

0 to 600

40648 Read Only D0647 MANUAL RESET%(n=1)

0 to 1000

40649 Read Only D0648 Reserved 40650 Read Only D0649 ⊿MV

LIMIT%/Sec(n=1)1 to 1000

40651 Read Only D0650 MVL%(n=1) 0 to MVH% 40652 Read Only D0651 MVH%(n=1) MVL% to 1000 40653 Read Only D0652 Slow Open

Sec(n=0) -600 to 600

40654 Read Only D0653 DEAD BAND/SP(n=3)

Industrial Unit X 10^n

40655 Read Only D0654 Reserved 40656 Read Only D0655 Reserved 40657 Read Only D0656 Reserved Capacity Control PID 1/16 40658 Read Only D0657 Reserved Suction Pressure Write Area 40659 Read Only D0658 Reserved 40660 Read Only D0659 Reserved 40661 Read Only D0660 Reserved 40662 Read Only D0661 Reserved 40663 Read Only D0662 Reserved 40664 Read Only D0663 Reserved 40665 Read Only D0664 Reserved 40666 Read Only D0665 Reserved 40667 Read Write D0666 MVL%(n=1) 0 to MVH% X 10 Required

F2:1.CAPACITY CONTROL>MVL%/MVH% BY COMM:ENABLE

40668 Read Write D0667 MVH%(n=1) MVL% X 10 to 1000 Required F2:1.CAPACITY CONTROL>MVL%/MVH% BY COMM:ENABLE

40669 Read Only D0668 Reserved 40670 Read Only D0669 Reserved 40671 Read Only D0670 Reserved 40672 Read Only D0671 Reserved 40673 Read Only D0672 Reserved Capacity Control PID 2/16 40674 Read Only D0673 Reserved Chiller LB Temperature Write Area 40675 Read Only D0674 Reserved 40676 Read Only D0675 Reserved 40677 Read Only D0676 Reserved 40678 Read Only D0677 Reserved 40679 Read Only D0678 Reserved 40680 Read Only D0679 Reserved 40681 Read Only D0680 Reserved 40682 Read Only D0681 Reserved 40683 Read Write D0682 MVL%(n=1) 0 to MVH% X 10 Required

F2:1.CAPACITY CONTROL>MVL%/MVH% BY COMM:ENABLE

40684 Read Write D0683 MVH%(n=1) MVL% X 10 to 1000 Required F2:1.CAPACITY CONTROL>MVL%/MVH% BY COMM:ENABLE

40685 Read Only D0684 Reserved 40686 Read Only D0685 Reserved 40687 Read Only D0686 Reserved 40688 Read Only D0687 Reserved 40689 Read Only D0688 Reserved Suction Superheat PID 3/16 40690 Read Only D0689 Reserved Limitation by Write Area 40691 Read Only D0690 Reserved Suction Pressure 40692 Read Only D0691 Reserved 40693 Read Only D0692 Reserved 40694 Read Only D0693 Reserved

QT108300

- 155 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40695 Read Only D0694 Reserved 40696 Read Only D0695 Reserved 40697 Read Only D0696 Reserved 40698 Read Only D0697 Reserved 40699 Read Only D0698 Reserved 40700 Read Only D0699 Reserved 40701 Read Only D0700 Reserved 40702 Read Only D0701 Reserved 40703 Read Only D0702 Reserved 40704 Read Only D0703 Reserved 40705 Read Only D0704 Reserved Suction Superheat PID 3/16 40706 Read Only D0705 Reserved Limitation by Write Area 40707 Read Only D0706 Reserved Chiller LB Temperature 40708 Read Only D0707 Reserved 40709 Read Only D0708 Reserved 40710 Read Only D0709 Reserved 40711 Read Only D0710 Reserved 40712 Read Only D0711 Reserved 40713 Read Only D0712 Reserved 40714 Read Only D0713 Reserved 40715 Read Only D0714 Reserved 40716 Read Only D0715 Reserved 40717 Read Only D0716 Reserved 40718 Read Only D0717 Reserved 40719 Read Only D0718 Reserved 40720 Read Only D0719 Reserved 40721 Read Only D0720 Reserved Suction Superheat PID 5/16 40722 Read Only D0721 Reserved Limitation by Write Area 40723 Read Only D0722 Reserved Chiller LB Temperature 40724 Read Only D0723 Reserved 40725 Read Only D0724 Reserved 40726 Read Only D0725 Reserved 40727 Read Only D0726 Reserved 40728 Read Only D0727 Reserved 40729 Read Only D0728 Reserved 40730 Read Only D0729 Reserved 40731 Read Only D0730 Reserved 40732 Read Only D0731 Reserved 40733 Read Only D0732 Reserved 40734 Read Only D0733 Reserved 40735 Read Only D0734 Reserved 40736 Read Only D0735 Reserved 40737 Read Only D0736 Reserved Intercooler Control PID 6/16 40738 Read Only D0737 Reserved Intermediate Superheat Write Area 40739 Read Only D0738 Reserved 40740 Read Only D0739 Reserved 40741 Read Only D0740 Reserved 40742 Read Only D0741 Reserved 40743 Read Only D0742 Reserved 40744 Read Only D0743 Reserved 40745 Read Only D0744 Reserved 40746 Read Only D0745 Reserved 40747 Read Only D0746 Reserved 40748 Read Only D0747 Reserved 40749 Read Only D0748 Reserved 40750 Read Only D0749 Reserved 40751 Read Only D0750 Reserved 40752 Read Only D0751 Reserved 40753 Read Only D0752 Reserved Liquid Injection YOSAKU PID 7/16 40754 Read Only D0753 Reserved Discharge Temperature Write Area 40755 Read Only D0754 Reserved or 40756 Read Only D0755 Reserved Discharge Superheat 40757 Read Only D0756 Reserved 40758 Read Only D0757 Reserved 40759 Read Only D0758 Reserved 40760 Read Only D0759 Reserved 40761 Read Only D0760 Reserved 40762 Read Only D0761 Reserved 40763 Read Only D0762 Reserved 40764 Read Only D0763 Reserved 40765 Read Only D0764 Reserved 40766 Read Only D0765 Reserved 40767 Read Only D0766 Reserved 40768 Read Only D0767 Reserved

QT108300

- 156 -

Holding Registers number 40769 to 40896 (Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40769 Read Only D0768 Reserved Chiller Flow Control PID 8/16 40770 Read Only D0769 Reserved Chiller LB Temperature Write Area 40771 Read Only D0770 Reserved 40772 Read Only D0771 Reserved 40773 Read Only D0772 Reserved 40774 Read Only D0773 Reserved 40775 Read Only D0774 Reserved 40776 Read Only D0775 Reserved 40777 Read Only D0776 Reserved 40778 Read Only D0777 Reserved 40779 Read Only D0778 Reserved 40780 Read Only D0779 Reserved 40781 Read Only D0780 Reserved 40782 Read Only D0781 Reserved 40783 Read Only D0782 Reserved 40784 Read Only D0783 Reserved 40785 Read Only D0784 Reserved VFD Condenser Fan Control PID 9/16 40786 Read Only D0785 Reserved Discharge Pressure Write Area 40787 Read Only D0786 Reserved 40788 Read Only D0787 Reserved 40789 Read Only D0788 Reserved 40790 Read Only D0789 Reserved 40791 Read Only D0790 Reserved 40792 Read Only D0791 Reserved 40793 Read Only D0792 Reserved 40794 Read Only D0793 Reserved 40795 Read Only D0794 Reserved 40796 Read Only D0795 Reserved 40797 Read Only D0796 Reserved 40798 Read Only D0797 Reserved 40799 Read Only D0798 Reserved 40800 Read Only D0799 Reserved 40801 Read Only D0800 Reserved High Stage Capacity Control PID10/16 40802 Read Only D0801 Reserved Intermediate Pressure Write Area 40803 Read Only D0802 Reserved 40804 Read Only D0803 Reserved 40805 Read Only D0804 Reserved 40806 Read Only D0805 Reserved 40807 Read Only D0806 Reserved 40808 Read Only D0807 Reserved 40809 Read Only D0808 Reserved 40810 Read Only D0809 Reserved 40811 Read Only D0810 Reserved 40812 Read Only D0811 Reserved 40813 Read Only D0812 Reserved 40814 Read Only D0813 Reserved 40815 Read Only D0814 Reserved 40816 Read Only D0815 Reserved 40817 Read Only D0816 Reserved VFD Capacity Control PID11/16 40818 Read Only D0817 Reserved Suction Pressure Write Area 40819 Read Only D0818 Reserved 40820 Read Only D0819 Reserved 40821 Read Only D0820 Reserved 40822 Read Only D0821 Reserved 40823 Read Only D0822 Reserved 40824 Read Only D0823 Reserved 40825 Read Only D0824 Reserved 40826 Read Only D0825 Reserved 40827 Read Write D0826 MVL%(n=1) 0 to MVH% X 10 Required

F2:2.VFD COMPRESSOR>MVL%/MVH% BY COMM:ENABLE

40828 Read Write D0827 MVH%(n=1) MVL% X 10 to 1000 Required F2:2.VFD COMPRESSOR>MVL%/MVH% BY COMM:ENABLE

40829 Read Only D0828 Reserved 40830 Read Only D0829 Reserved 40831 Read Only D0830 Reserved 40832 Read Only D0831 Reserved 40833 Read Only D0832 Reserved VFD Capacity Control PID12/16 40834 Read Only D0833 Reserved Chiller LB Temperature Write Area 40835 Read Only D0834 Reserved 40836 Read Only D0835 Reserved 40837 Read Only D0836 Reserved 40838 Read Only D0837 Reserved

QT108300

- 157 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

40839 Read Only D0838 Reserved 40840 Read Only D0839 Reserved 40841 Read Only D0840 Reserved 40842 Read Only D0841 Reserved 40843 Read Write D0842 MVL%(n=1) 0 to MVH% X 10 Required

F2:2.VFD COMPRESSOR>MVL%/MVH% BY COMM:ENABLE

40844 Read Write D0843 MVH%(n=1) MVL% X 10 to 1000 Required F2:2.VFD COMPRESSOR>MVL%/MVH% BY COMM:ENABLE

40845 Read Only D0844 Reserved 40846 Read Only D0845 Reserved 40847 Read Only D0846 Reserved 40848 Read Only D0847 Reserved 40849 Read Only D0848 Reserved Suction Superheat2 PID13/16 40850 Read Only D0849 Reserved Write Area 40851 Read Only D0850 Reserved 40852 Read Only D0851 Reserved 40853 Read Only D0852 Reserved 40854 Read Only D0853 Reserved 40855 Read Only D0854 Reserved 40856 Read Only D0855 Reserved 40857 Read Only D0856 Reserved 40858 Read Only D0857 Reserved 40859 Read Only D0858 Reserved 40860 Read Only D0859 Reserved 40861 Read Only D0860 Reserved 40862 Read Only D0861 Reserved 40863 Read Only D0862 Reserved 40864 Read Only D0863 Reserved 40865 Read Only D0864 Reserved Suction Superheat2 PID14/16 40866 Read Only D0865 Reserved Limitation by Write Area 40867 Read Only D0866 Reserved Suction Pressure2 40868 Read Only D0867 Reserved 40869 Read Only D0868 Reserved 40870 Read Only D0869 Reserved 40871 Read Only D0870 Reserved 40872 Read Only D0871 Reserved 40873 Read Only D0872 Reserved 40874 Read Only D0873 Reserved 40875 Read Only D0874 Reserved 40876 Read Only D0875 Reserved 40877 Read Only D0876 Reserved 40878 Read Only D0877 Reserved 40879 Read Only D0878 Reserved 40880 Read Only D0879 Reserved 40881 Read Only D0880 Reserved Level Control PID15/16 40882 Read Only D0881 Reserved Chiller Liquid Level Write Area 40883 Read Only D0882 Reserved 40884 Read Only D0883 Reserved 40885 Read Only D0884 Reserved 40886 Read Only D0885 Reserved 40887 Read Only D0886 Reserved 40888 Read Only D0887 Reserved 40889 Read Only D0888 Reserved 40890 Read Only D0889 Reserved 40891 Read Only D0890 Reserved 40892 Read Only D0891 Reserved 40893 Read Only D0892 Reserved 40894 Read Only D0893 Reserved 40895 Read Only D0894 Reserved 40896 Read Only D0895 Reserved

QT108300

- 158 -

Holding Registers number 40897 to 40960 (Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

40897 Read Only D0896 Reserved Undefined PID16/16 40898 Read Only D0897 Reserved Write Area 40899 Read Only D0898 Reserved 40900 Read Only D0899 Reserved 40901 Read Only D0900 Reserved 40902 Read Only D0901 Reserved 40903 Read Only D0902 Reserved 40904 Read Only D0903 Reserved 40905 Read Only D0904 Reserved 40906 Read Only D0905 Reserved 40907 Read Only D0906 Reserved 40908 Read Only D0907 Reserved 40909 Read Only D0908 Reserved 40910 Read Only D0909 Reserved 40911 Read Only D0910 Reserved 40912 Read Only D0911 Reserved 40913 Read Only D0912 REMOTE

CAPACITY DIGITAL CONTROL OPTION

(0):DISABLE,1:ENABLE Settings

40914 Read Only D0913 OPTION ANALOG INPUT

(0):DISABLE,1:ENABLE

40915 Read Only D0914 CONDENSER VFD CONTROL OPTION

(0):DISABLE ,1:VFD ONLY ,2:VFD + 2STEPS ,3:VFD + 3STEPS ,4:VFD + 5STEPS

40916 Read Only D0915 CONDENSER 3-STEP CONTROL OPTION

(0):DISABLE,1:ENABLE

40917 Read Only D0916 CONDENSER 6-STEP CONTROL OPTION

(0):DISABLE,1:ENABLE

40918 Read Only D0917 CHILLER CONTROL OPTION

(0):DISABLE,1:ENABLE

40919 Read Only D0918 AUTO-STAGEING OPTION

(0):DISABLE,1:ENABLE

40920 Read Only D0919 COMMUNICATIONS OPTION

(0):DISABLE,1:ENABLE

40921 Read Only D0920 VFD COMPRESSOR OPTION

(0):DISABLE,1:ENABLE

40922 Read Only D0921 HIGH STAGE CAPACITY CONTROL OPTION

(0):DISABLE,1:ENABLE

40923 Read Only D0922 AUTO-Vi CONTROL OPTION

(0):DISABLE,1:ENABLE

40924 Read Only D0923 LIQUID INJECTION OIL COOLING CONTROL OPTION

(0):DISABLE,1:ENABLE

40925 Read Only D0924 TIME PROPORTIONAL CONTROL for NO SLIDE POT. OPTION

(0):DISABLE,1:ENABLE

40926 Read Only D0925 HOT GAS BYPASS CONTROL OPTION

(0):DISABLE,1:ENABLE

40927 Read Only D0926 STARTING BYPASS CONTROL OPTION

(0):DISABLE,1:ENABLE

40928 Read Only D0927 ECONOMIZER/INTER COOLER EXPANSION VALVE CONTROL OPTION

(0):DISABLE,1:ENABLE

40929 Read Only D0928 COMPRESSOR OIL SEAL CONTROL OPTION

(0):DISABLE,1:ENABLE

QT108300

- 159 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

40930 Read Only D0929 400 SERIES COMPRESSOR CONTROL OPTION

(0):DISABLE,1:ENABLE

40931 Read Only D0930 LEVEL CONTROL SETUP

(0):DISABLE,1:ENABLE

40932 Read Only D0931 Reserved -32768 to 32767 40933 Read Only D0932 Reserved -32768 to 32767 40934 Read Only D0933 Reserved -32768 to 32767 40935 Read Only D0934 Reserved -32768 to 32767 40936 Read Only D0935 Reserved -32768 to 32767 40937 Read Only D0936 Reserved -32768 to 32767 40938 Read Only D0937 Reserved -32768 to 32767 40939 Read Only D0938 Reserved -32768 to 32767 40940 Read Only D0939 Reserved -32768 to 32767 40941 Read Only D0940 REMOTE

CAPACITY CONTROL SETUP

(0):None ,1:DIGITAL ,2:ANALOG

40942 Read Only D0941 CONDENSER CONTROL SETUP

(0):NOT USE,1:USE

40943 Read Only D0942 CONDENSER CONTROL/CONTROL TARGET

(0):LOACAL DISCHARGE PRESSURE ,1:SYSTEM DISCHARGE PRESSURE

40944 Read Only D0943 CONDENSER CONTROL/CONTROL METHOD

(0):ON-OFF SINGLE SET,1:ON-OFF MULTI SET

40945 Read Only D0944 CHILLER CONTROL SETUP

(0):NOT USE,1:USE

40946 Read Only D0945 CHILLER CONTROL/LIQUID SUPPLY SV

(0):1SV,1:2SV,2:3SV

40947 Read Only D0946 CHILLER CONTROL/EXPANSION VALVE

0:None/THERMAL EXPANSION ,1:YOSAKU 1-VALVE ,2:YOSAKU 2-VALVES ,3:YOSAKU 3-VALVES ,(4):1-MOTORIZED CONTROL VALVE ,5:2-MOTORIZED CONTROL VALVE

40948 Read Only D0947 CHILLER CONTROL/CHILLER GAS TEMP. SENOR

(0):NO,1:YES

40949 Read Only D0948 CHILLER CONTROL/CHILLER ENTERING TEMP. SENSOR

(0):NO,1:YES

40950 Read Only D0949 CHILLER CONTROL/CHILLER LEAVING TEMP. SENSOR

(0):NO,1:YES

40951 Read Only D0950 CHILLER CONTROL/CHILLER LEAVING TEMP. CONTROL

(0):NOT USE,1:USE

40952 Read Only D0951 CHILLER CONTROL/CHILLER PUMP MODE

0:CONTINUOUS ,(1):AUTO START/STOP

40953 Read Only D0952 AUTO STAGER SETUP>STAGED COMPRESSORS

(0) to 8UNITS

40954 Read Only D0953 EXPANSION VALVE CONTROL

(0):SH ONLY,1SH W/ SP LIMIT,2SH W/ LB LIMIT,3:SH W/ SP & LB LIMIT

40955 Read Only D0954 VFD COMPRESSOR SETUP

(0):NOT USE,1:USE

40956 Read Only D0955 HIGH STAGE CAPACITY CONTROL SETUP

(0):NOT USE,1:USE

QT108300

- 160 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

40957 Read Only D0956 AUTO-Vi CONTROL SETUP

(0):NOT USE ,1:USE DO10,11,12,16,17(UD-V) ,2:USE DO19,1A,1B,1C,1D(UD-V) .3.USE(J1)

40958 Read Only D0957 LIQUID INJECTION OIL COOLING CONTROL SETUP

(0):NOT USE,1:USE

40959 Read Only D0958 LIQUID INJECTION OIL COOLING CONTROL/INJECTION VALVES

0:None/THERMAL EXPANSION ,(1):YOSAKU 1-VALVE ,2:YOSAKU 2-VALVES ,3:MOTORIZED CONTROL VALVE

40960 Read Only D0959 LIQUID INJECTION OIL COOLING CONTROL/CONTROL TARGET

(0):DISCHARGE TEMPERATURE 1:DISCHARGE SUPERHAET

QT108300

- 161 -

Holding Registers number 40961 to 41024 (Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

40961 Read Only D0960 LEVEL CONTROL SETUP

(0):NOT USE,1:USE

40962 Read Only D0961 HOT GAS BYPASS CONTROL SETUP

(0):NOT USE,1:USE

40963 Read Only D0962 STARTING BYPASS CONTROL SETUP

(0):NOT USE,1:USE

40964 Read Only D0963 ECONOMIZER/INTER COOLER EXPANSION VALVE CONTROL SETUP

(0):NOT USE,1:USE

40965 Read Only D0964 ECONOMIZER/INTER COOLER EXPANSION VALVE CONTROL/EXPANSION VALVES

0:None/THERMAL EXPANSION ,(1):YOSAKU ,2:MOTORIZED CONTROL VALVE

40966 Read Only D0965 COMPRESSOR OIL SEAL CONTROL SETUP

(0):NOT USE,1:USE

40967 Read Only D0966 CONTROL TARGET(CUT-IN/OUT) SETUP

(0):LOACAL SUCTION PRESSURE ,1:SYSTEM SUCTION PRESSURE ,2:CHILLER ENTERING TEMPERATURE ,3:CHILLER LEAVING TEMPERATURE

40968 Read Only D0967 CONTROL TARGET(CAPACITY CONTROL) SETUP

(0):LOACAL SUCTION PRESSURE ,1:SYSTEM SUCTION PRESSURE ,2:CHILLER LEAVING TEMPERATURE ,3:COMBINED LB/LOCAL SP ,4:COMBINED LB/SYSTEM SP ,5:DISCHARGE PRESSURE

40969 Read Only D0968 CHILLER CONTROL/CHILLER GAS PRESS. SENOR

(0):NO,1:YES

40970 Read Only D0969 OPTION SETUP VFD OUTPUT LIMIT

(0):NOT USE,1:USE

40971 Read Only D0970 ECONOMIZER INTERCOOLER LIQUID SUPPLY CONTROL

0:LSV&SP,(1):HSV&IP

40972 Read Only D0971 Reserved -32768 to 32767 40973 Read Only D0972 Reserved -32768 to 32767 40974 Read Only D0973 Reserved -32768 to 32767 40975 Read Only D0974 Reserved -32768 to 32767 40976 Read Only D0975 Reserved -32768 to 32767 40977 Read Only D0976 Reserved -32768 to 32767 40978 Read Only D0977 Reserved -32768 to 32767 40979 Read Only D0978 Reserved -32768 to 32767 40980 Read Only D0979 Reserved -32768 to 32767 40981 Read Only D0980 I/O PLATFORM (0):NORTH

AMERICA,1:EUROPE,2:ASIA

40982 Read Only D0981 APPLICATION TYPE(Reserved)

-32768 to 32767

QT108300

- 162 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

40983 Read Only D0982 COMPRESSOR (0):SINGLE ,1:ECONOMIZER W/O SENSOR ,2:ECONOMIZER W/ SENSOR ,3:COMPOUND-1(1610 & 1612) ,4:COMPOUND-2(2016 & HIGHER) ,5:SINGLE UD-V(VARIABLE Vi) ,6:400 SERIES .7:SINGLE J ,8.SINGLE J ECONOMIZER W/O SENSOR ,9.SINGLE J ECONOMIZER W/ SENSOR .10:FM160 ,11.FM160 ECONOMIZER W/O SENSOR ,12.FM160 ECONOMIZER W/ SENSOR

40984 Read Only D0983 OIL FEED TYPE (0):FULL LUBE ,1:PRE LUB,2:PARTIAL LUBE

40985 Read Only D0984 OPERATION MODE ON FAILURE

0:CHANGE TO LOCAL MODE (1):KEEP CURRENT MODE

40986 Read Only D0985 OPERATION MODE RESTORE ON POWER UP

0:CHANGE TO LOCAL MODE (1):KEEP CURRENT MODE

40987 Read Only D0986 ALARM RESET (0):AUTO RESET ,1:KEYPAD

40988 Read Only D0987 ALARM OUTPUT 0:NO,(1):YES 40989 Read Only D0988 OIL PUMP 0:W/O OIL PUMP

,(1):W/ 1-OIL PUMP ,2:W/ 2-OIL PUMPS

40990 Read Only D0989 OIL PUMP LAEAD/LAG

(0):LEAD Y01/LAG Y14,1:LEAD Y14/LAG Y01

40991 Read Only D0990 ALARM/FAILURE OUTPUT TYPE

(0):NORMAL OPEN,1:NORMAL CLOSE

40992 Read Only D0991 OIL SEPARATOR TEMP. SENSOR

0:NO,(1):YES

40993 Read Only D0992 AFTER FINE FILTER PRESS. SENSOR

(0):NO,1:YES

40994 Read Only D0993 Reserved -32768 to 32767 40995 Read Only D0994 Reserved -32768 to 32767 40996 Read Only D0995 Reserved -32768 to 32767 40997 Read Only D0996 Reserved -32768 to 32767 40998 Read Only D0997 DFP

CALCULATION (0):DP-AFP,1:BFP-OP,2:DP-OP

40999 Read Only D0998 LOAD INDICATOR LOCATION

(0):OBVERSE,1:REVERSE

41000 Read Only D0999 OPERATION MODE>D/O TEST OPERATION

(0):NO,1:YES

41001 Read Write D1000 OPERATION MODE>OPERATION

(0):LOCAL ,1:REMOTE ,2:COMM ,3AUTO STAGE

41002 Read Write D1001 OPERATION MODE>COMPRESSOR AUTO START/STOP

0:NO,(1):YES

41003 Read Only D1002 SET POINTS>SYSTEM START>SYSTEM START DELAY

0 to 600(10)Sec X 10

41004 Read Only D1003 SET POINTS>MISCELLANEOUS>CUT-IN DELAY

0 to 600(10)Sec X 10

QT108300

- 163 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41005 Read Only D1004 SET POINTS>MISCELLANEOUS>CUT-OUT DELAY

0 to 600(10)Sec X 10

41006 Read Only D1005 SET POINTS>MISCELLANEOUS>CUT-OUT LSV%

0 to 100%(0):0 to 4095

41007 Read Only D1006 SET POINTS>MISCELLANEOUS>OIL P. START DELAY

0 to 600(10)Sec X 10

41008 Read Only D1007 SET POINTS>MISCELLANEOUS>COMP. START DELAY

0 to 600(10)Sec X 10

41009 Read Only D1008 SET POINTS>MISCELLANEOUS>COMP. RE-START DELAY

0 to 600(10)Sec X 10

41010 Read Only D1009 SET POINTS>MISCELLANEOUS>OIL FEED OFF DELAY

0 to 600(10)Sec X 10

41011 Read Only D1010 SET POINTS>PUMP OUT>CAPACITY 0% STOP

0:NO,(1):YES

41012 Read Only D1011 SET POINTS>PUMP OUT>MINIMUM DELAY

0 to 600(10)Sec X 10

41013 Read Only D1012 SET POINTS>PUMP OUT>MAXIMUM DELAY

0 to 600(30)Sec X 10

41014 Read Only D1013 SET POINTS>PUMP OUT>PUMP OUT PRESS.

Range Low to High:0 to 4095

41015 Read Only D1014 SET POINTS>PUMP OUT>PUMP OUT LSV%

0.0 to 100.0(100.0)%:0 to 4095

41016 Read Only D1015 SET POINTS>PUMP OUT>STOP LSV%

0.0 to 100.0(0.0)%:0 to 4095

41017 Read Write D1016 SET POINTS>SCHEDULER>CUT IN/CUT OUT

(0):SETPOINT #1 ,1:SETPOINT #2 ,2:SETPOINT #3 ,3:SETPOINT #4 ,4:SCHEDULER ,5:COMM

41018 Read Write D1017 SET POINTS>SCHEDULER>CONTROL TARGET

(0):SETPOINT #1 ,1:SETPOINT #2 ,2:SETPOINT #3 ,3:SETPOINT #4 ,4:SCHEDULER ,5:COMM

41019 Read Only D1018 SCHEDULED CUT-IN SET POINT

Range Low to High: 0 to 4095

41020 Read Only D1019 SCHEDULED PRESSURE CONTROL SET POINT

Range Low to High: 0 to 4095

41021 Read Only D1020 SCHEDULED TEMPERATURE CONTROL SET POINT

Range Low to High :0 to 4095

41022 Read Only D1021 SCHEDULED CUT-OUT SET POINT

Range Low to High: 0 to 4095

41023 Read Only D1022 CUT-IN SET POINT #1

Range Low to High: 0 to 4095

41024 Read Only D1023 PRESSURE CONTROL SET POINT #1

Range Low to High: 0 to 4095

QT108300

- 164 -

Holding Registers number 41025 to 41152(Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41025 Read Only D1024 TEMPERATURE CONTROL SET POINT #1

Range Low to High: 0 to 4095

41026 Read Only D1025 CUT-OUT SET POINT #1

Range Low to High: 0 to 4095

41027 Read Only D1026 CUT-IN SET POINT #2

Range Low to High: 0 to 4095

41028 Read Only D1027 PRESSURE CONTROL SET POINT #2

Range Low to High: 0 to 4095

41029 Read Only D1028 TEMPERATURE CONTROL SET POINT #2

Range Low to High :0 to 4095

41030 Read Only D1029 CUT-OUT SET POINT #2

Range Low to High: 0 to 4095

41031 Read Only D1030 CUT-IN SET POINT #3

Range Low to High: 0 to 4095

41032 Read Only D1031 PRESSURE CONTROL SET POINT #3

Range Low to High: 0 to 4095

41033 Read Only D1032 TEMPERATURE CONTROL SET POINT #3

Range Low to High: 0 to 4095

41034 Read Only D1033 CUT-OUT SET POINT #3

Range Low to High: 0 to 4095

41035 Read Only D1034 CUT-IN SET POINT #4

Range Low to High: 0 to 4095

41036 Read Only D1035 PRESSURE CONTROL SET POINT #4

Range Low to High: 0 to 4095

41037 Read Only D1036 TEMPERATURE CONTROL SET POINT #4

Range Low to High: 0 to 4095

41038 Read Only D1037 CUT-OUT SET POINT #4

Range Low to High: 0 to 4095

41039 Read Only D1038 SCHEDULER>ASSIGN DAYS>SUNDAY

#1 to #4(#1):0 to 3

41040 Read Only D1039 SCHEDULER>ASSIGN DAYS>MONDAY

#1 to #4(#1):0 to 3

41041 Read Only D1040 SCHEDULER>ASSIGN DAYS>TUESDAY

#1 to #4(#1):0 to 3

41042 Read Only D1041 SCHEDULER>ASSIGN DAYS>WEDNESDAY

#1 to #4(#1):0 to 3

41043 Read Only D1042 SCHEDULER>ASSIGN DAYS>THURSDAY

#1 to #4(#1):0 to 3

41044 Read Only D1043 SCHEDULER>ASSIGN DAYS>FRIDAY

#1 to #4(#1):0 to 3

41045 Read Only D1044 SCHEDULER>ASSIGN DAYS>SATURDAY

#1 to #4(#1):0 to 3

41046 Read Only D1045 SCHEDULER>SCHEDULER

(0):DISABLE,1:ENABLE

41047 Read Only D1046 SCHEDULER>SCHEDULE #1(1/8)>SET #

#1 to #4(#1):0 to 3

41048 Read Only D1047 SCHEDULER>SCHEDULE #1(1/8)>START>HOUR

0 to 23 Hour:(0)

41049 Read Only D1048 SCHEDULER>SCHEDULE #1(1/8)>START>MINUTE

(0) to 59 Min

41050 Read Only D1049 SCHEDULER>SCHEDULE #1(2/8)>SET #

#1 to #4(#1):0 to 3

41051 Read Only D1050 SCHEDULER>SCHEDULE #1(2/8)>START>HOUR

0 to 23 Hour:(3)

QT108300

- 165 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41052 Read Only D1051 SCHEDULER>SCHEDULE #1(2/8)>START>MINUTE

(0) to 59 Min

41053 Read Only D1052 SCHEDULER>SCHEDULE #1(3/8)>SET #

#1 to #4(#1):0 to 3

41054 Read Only D1053 SCHEDULER>SCHEDULE #1(3/8)>START>HOUR

0 to 23 Hour:(6)

41055 Read Only D1054 SCHEDULER>SCHEDULE #1(3/8)>START>MINUTE

(0) to 59 Min

41056 Read Only D1055 SCHEDULER>SCHEDULE #1(4/8)>SET #

#1 to #4(#1):0 to 3

41057 Read Only D1056 SCHEDULER>SCHEDULE #1(4/8)>START>HOUR

0 to 23 Hour:(9)

41058 Read Only D1057 SCHEDULER>SCHEDULE #1(4/8)>START>MINUTE

(0) to 59 Min

41059 Read Only D1058 SCHEDULER>SCHEDULE #1(5/8)>SET #

#1 to #4(#1):0 to 3

41060 Read Only D1059 SCHEDULER>SCHEDULE #1(5/8)>START>HOUR

0 to 23 Hour:(12)

41061 Read Only D1060 SCHEDULER>SCHEDULE #1(5/8)>START>MINUTE

(0) to 59 Min

41062 Read Only D1061 SCHEDULER>SCHEDULE #1(6/8)>SET #

#1 to #4(#1):0 to 3

41063 Read Only D1062 SCHEDULER>SCHEDULE #1(6/8)>START>HOUR

0 to 23 Hour:(15)

41064 Read Only D1063 SCHEDULER>SCHEDULE #1(6/8)>START>MINUTE

(0) to 59 Min

41065 Read Only D1064 SCHEDULER>SCHEDULE #1(7/8)>SET #

#1 to #4(#1):0 to 3

41066 Read Only D1065 SCHEDULER>SCHEDULE #1(7/8)>START>HOUR

0 to 23 Hour: (18)

41067 Read Only D1066 SCHEDULER>SCHEDULE #1(7/8)>START>MINUTE

(0) to 59 Min

41068 Read Only D1067 SCHEDULER>SCHEDULE #1(8/8)>SET #

#1 to #4(#1):0 to 3

41069 Read Only D1068 SCHEDULER>SCHEDULE #1(8/8)>START>HOUR

0 to 23 Hour: (21)

41070 Read Only D1069 SCHEDULER>SCHEDULE #1(8/8)>START>MINUTE

(0) to 59 Min

41071 Read Only D1070 SCHEDULER>SCHEDULE #2(1/8)>SET #

#1 to #4(#1):0 to 3

41072 Read Only D1071 SCHEDULER>SCHEDULE #2(1/8)>START>HOUR

0 to 23 Hour:(0)

41073 Read Only D1072 SCHEDULER>SCHEDULE #2(1/8)>START>MINUTE

(0) to 59 Min

41074 Read Only D1073 SCHEDULER>SCHEDULE #2(2/8)>SET #

#1 to #4(#1):0 to 3

QT108300

- 166 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41075 Read Only D1074 SCHEDULER>SCHEDULE #2(2/8)>START>HOUR

0 to 23 Hour:(3)

41076 Read Only D1075 SCHEDULER>SCHEDULE #2(2/8)>START>MINUTE

(0) to 59 Min

41077 Read Only D1076 SCHEDULER>SCHEDULE #2(3/8)>SET #

#1 to #4(#1):0 to 3

41078 Read Only D1077 SCHEDULER>SCHEDULE #2(3/8)>START>HOUR

0 to 23 Hour:(6)

41079 Read Only D1078 SCHEDULER>SCHEDULE #2(3/8)>START>MINUTE

(0) to 59 Min

41080 Read Only D1079 SCHEDULER>SCHEDULE #2(4/8)>SET #

#1 to #4(#1):0 to 3

41081 Read Only D1080 SCHEDULER>SCHEDULE #2(4/8)>START>HOUR

0 to 23 Hour:(9)

41082 Read Only D1081 SCHEDULER>SCHEDULE #2(4/8)>START>MINUTE

(0) to 59 Min

41083 Read Only D1082 SCHEDULER>SCHEDULE #2(5/8)>SET #

#1 to #4(#1):0 to 3

41084 Read Only D1083 SCHEDULER>SCHEDULE #2(5/8)>START>HOUR

0 to 23 Hour:(12)

41085 Read Only D1084 SCHEDULER>SCHEDULE #2(5/8)>START>MINUTE

(0) to 59Min

41086 Read Only D1085 SCHEDULER>SCHEDULE #2(6/8)>SET #

#1 to #4(#1):0 to 3

41087 Read Only D1086 SCHEDULER>SCHEDULE #2(6/8)>START>HOUR

0 to 23 Hour:(15)

41088 Read Only D1087 SCHEDULER>SCHEDULE #2(6/8)>START>MINUTE

(0) to 59Min

41089 Read Only D1088 SCHEDULER>SCHEDULE #2(7/8)>SET #

#1 to #4(#1):0 to 3

41090 Read Only D1089 SCHEDULER>SCHEDULE #2(7/8)>START>HOUR

0 to 23 Hour:(18)

41091 Read Only D1090 SCHEDULER>SCHEDULE #2(7/8)>START>MINUTE

(0) to 59 Min

41092 Read Only D1091 SCHEDULER>SCHEDULE #2(8/8)>SET #

#1 to #4(#1):0 to 3

41093 Read Only D1092 SCHEDULER>SCHEDULE #2(8/8)>START>HOUR

0 to 23 Hour:(21)

41094 Read Only D1093 SCHEDULER>SCHEDULE #2(8/8)>START>MINUTE

(0) to 59 Min

41095 Read Only D1094 SCHEDULER>SCHEDULE #3(1/8)>SET #

#1 to #4(#1):0 to 3

41096 Read Only D1095 SCHEDULER>SCHEDULE #3(1/8)>START>HOUR

0 to 23 Hour:(0)

41097 Read Only D1096 SCHEDULER>SCHEDULE #3(1/8)>START>MINUTE

(0) to 59 Min

QT108300

- 167 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41098 Read Only D1097 SCHEDULER>SCHEDULE #3(2/8)>SET #

#1 to #4(#1):0 to 3

41099 Read Only D1098 SCHEDULER>SCHEDULE #3(2/8)>START>HOUR

0 to 23 Hour:(3)

41100 Read Only D1099 SCHEDULER>SCHEDULE #3(2/8)>START>MINUTE

(0) to 59Min

41101 Read Only D1100 SCHEDULER>SCHEDULE #3(3/8)>SET #

#1 to #4(#1):0 to 3

41102 Read Only D1101 SCHEDULER>SCHEDULE #3(3/8)>START>HOUR

0 to 23 Hour:(6)

41103 Read Only D1102 SCHEDULER>SCHEDULE #3(3/8)>START>MINUTE

(0) to 59 Min

41104 Read Only D1103 SCHEDULER>SCHEDULE #3(4/8)>SET #

#1 to #4(#1):0 to 3

41105 Read Only D1104 SCHEDULER>SCHEDULE #3(4/8)>START>HOUR

0 to 23 Hour:(9)

41106 Read Only D1105 SCHEDULER>SCHEDULE #3(4/8)>START>MINUTE

(0) to 59 Min

41107 Read Only D1106 SCHEDULER>SCHEDULE #3(5/8)>SET #

#1 to #4(#1):0 to 3

41108 Read Only D1107 SCHEDULER>SCHEDULE #3(5/8)>START>HOUR

0 to 23 Hour:(12)

41109 Read Only D1108 SCHEDULER>SCHEDULE #3(5/8)>START>MINUTE

(0) to 59 Min

41110 Read Only D1109 SCHEDULER>SCHEDULE #3(6/8)>SET #

#1 to #4(#1):0 to 3

41111 Read Only D1110 SCHEDULER>SCHEDULE #3(6/8)>START>HOUR

0 to 23 Hour:(15)

41112 Read Only D1111 SCHEDULER>SCHEDULE #3(6/8)>START>MINUTE

(0) to 59 Min

41113 Read Only D1112 SCHEDULER>SCHEDULE #3(7/8)>SET #

#1 to #4(#1):0 to 3

41114 Read Only D1113 SCHEDULER>SCHEDULE #3(7/8)>START>HOUR

0 to 23 Hour:(18)

41115 Read Only D1114 SCHEDULER>SCHEDULE #3(7/8)>START>MINUTE

(0) to 59 Min

41116 Read Only D1115 SCHEDULER>SCHEDULE #3(8/8)>SET #

#1 to #4(#1):0 to 3

41117 Read Only D1116 SCHEDULER>SCHEDULE #3(8/8)>START>HOUR

0 to 23 Hour:(21)

41118 Read Only D1117 SCHEDULER>SCHEDULE #3(8/8)>START>MINUTE

(0) to 59 Min

41119 Read Only D1118 SCHEDULER>SCHEDULE #4(1/8)>SET #

#1 to #4(#1):0 to 3

41120 Read Only D1119 SCHEDULER>SCHEDULE #4(1/8)>START>HOUR

0 to 23 Hour:(0)

QT108300

- 168 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41121 Read Only D1120 SCHEDULER>SCHEDULE #4(1/8)>START>MINUTE

(0) to 59 Min

41122 Read Only D1121 SCHEDULER>SCHEDULE #4(2/8)>SET #

#1 to #4(#1):0 to 3

41123 Read Only D1122 SCHEDULER>SCHEDULE #4(2/8)>START>HOUR

0 to 23 Hour:(3)

41124 Read Only D1123 SCHEDULER>SCHEDULE #4(2/8)>START>MINUTE

(0) to 59 Min

41125 Read Only D1124 SCHEDULER>SCHEDULE #4(3/8)>SET #

#1 to #4(#1):0 to 3

41126 Read Only D1125 SCHEDULER>SCHEDULE #4(3/8)>START>HOUR

0 to 23 Hour:(6)

41127 Read Only D1126 SCHEDULER>SCHEDULE #4(3/8)>START>MINUTE

(0) to 59 Min

41128 Read Only D1127 SCHEDULER>SCHEDULE #4(4/8)>SET #

#1 to #4(#1):0 to 3

41129 Read Only D1128 SCHEDULER>SCHEDULE #4(4/8)>START>HOUR

0 to 23 Hour:(9)

41130 Read Only D1129 SCHEDULER>SCHEDULE #4(4/8)>START>MINUTE

(0) to 59 Min

41131 Read Only D1130 SCHEDULER>SCHEDULE #4(5/8)>SET #

#1 to #4(#1):0 to 3

41132 Read Only D1131 SCHEDULER>SCHEDULE #4(5/8)>START>HOUR

0 to 23 Hour:(12)

41133 Read Only D1132 SCHEDULER>SCHEDULE #4(5/8)>START>MINUTE

(0) to 59 Min

41134 Read Only D1133 SCHEDULER>SCHEDULE #4(6/8)>SET #

#1 to #4(#1):0 to 3

41135 Read Only D1134 SCHEDULER>SCHEDULE #4(6/8)>START>HOUR

0 to 23 Hour:(15)

41136 Read Only D1135 SCHEDULER>SCHEDULE #4(6/8)>START>MINUTE

(0) to 59 Min

41137 Read Only D1136 SCHEDULER>SCHEDULE #4(7/8)>SET #

#1 to #4(#1):0 to 3

41138 Read Only D1137 SCHEDULER>SCHEDULE #4(7/8)>START>HOUR

0 to 23 Hour:(18)

41139 Read Only D1138 SCHEDULER>SCHEDULE #4(7/8)>START>MINUTE

(0) to 59 Min

41140 Read Only D1139 SCHEDULER>SCHEDULE #4(8/8)>SET #

#1 to #4(#1):0 to 3

41141 Read Only D1140 SCHEDULER>SCHEDULE #4(8/8)>START>HOUR

0 to 23 Hour:(21)

41142 Read Only D1141 SCHEDULER>SCHEDULE #4(8/8)>START>MINUTE

(0) to 59 Min

41143 Read Only D1142 SCHEDULER>SCHEDULE #1(1/8)>SET #

#1 to #4(#1):0 to 3

QT108300

- 169 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41144 Read Only D1143 SCHEDULER>SCHEDULE #5(1/8)>START>HOUR

0 to 23 Hour:(0)

41145 Read Only D1144 SCHEDULER>SCHEDULE #5(1/8)>START>MINUTE

(0) to 59 Min

41146 Read Only D1145 SCHEDULER>SCHEDULE #5(2/8)>SET #

#1 to #4(#1):0 to 3

41147 Read Only D1146 SCHEDULER>SCHEDULE #5(2/8)>START>HOUR

0 to 23 Hour:(3)

41148 Read Only D1147 SCHEDULER>SCHEDULE #5(2/8)>START>MINUTE

(0) to 59 Min

41149 Read Only D1148 SCHEDULER>SCHEDULE #5(3/8)>SET #

#1 to #4(#1):0 to 3

41150 Read Only D1149 SCHEDULER>SCHEDULE #5(3/8)>START>HOUR

0 to 23 Hour:(6)

41151 Read Only D1150 SCHEDULER>SCHEDULE #5(3/8)>START>MINUTE

(0) to 59 Min

41152 Read Only D1151 SCHEDULER>SCHEDULE #5(4/8)>SET #

#1 to #4(#1):0 to 3

QT108300

- 170 -

Holding Registers number 41453 to 41280(Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41153 Read Only D1152 SCHEDULER>SCHEDULE #5(4/8)>START>HOUR

0 to 23 Hour:(9)

41154 Read Only D1153 SCHEDULER>SCHEDULE #5(4/8)>START>MINUTE

(0) to 59 Min

41155 Read Only D1154 SCHEDULER>SCHEDULE #5(5/8)>SET #

#1 to #4(#1):0 to 3

41156 Read Only D1155 SCHEDULER>SCHEDULE #5(5/8)>START>HOUR

0 to 23 Hour:(12)

41157 Read Only D1156 SCHEDULER>SCHEDULE #5(5/8)>START>MINUTE

(0) to 59 Min

41158 Read Only D1157 SCHEDULER>SCHEDULE #5(6/8)>SET #

#1 to #4(#1):0 to 3

41159 Read Only D1158 SCHEDULER>SCHEDULE #5(6/8)>START>HOUR

0 to 23 Hour:(15)

41160 Read Only D1159 SCHEDULER>SCHEDULE #5(6/8)>START>MINUTE

(0) to 59 Min

41161 Read Only D1160 SCHEDULER>SCHEDULE #5(7/8)>SET #

#1 to #4(#1):0 to 3

41162 Read Only D1161 SCHEDULER>SCHEDULE #5(7/8)>START>HOUR

0 to 23 Hour:(18)

41163 Read Only D1162 SCHEDULER>SCHEDULE #5(7/8)>START>MINUTE

(0) to 59 Min

41164 Read Only D1163 SCHEDULER>SCHEDULE #5(8/8)>SET #

#1 to #4(#1):0 to 3

41165 Read Only D1164 SCHEDULER>SCHEDULE #5(8/8)>START>HOUR

0 to 23 Hour:(21)

41166 Read Only D1165 SCHEDULER>SCHEDULE #5(8/8)>START>MINUTE

(0) to 59 Min

41167 Read Only D1166 SCHEDULER>SCHEDULE #6(1/8)>SET #

#1 to #4(#1):0 to 3

41168 Read Only D1167 SCHEDULER>SCHEDULE #6(1/8)>START>HOUR

0 to 23 Hour:(0)

41169 Read Only D1168 SCHEDULER>SCHEDULE #6(1/8)>START>MINUTE

(0) to 59 Min

41170 Read Only D1169 SCHEDULER>SCHEDULE #6(2/8)>SET #

#1 to #4(#1):0 to 3

41171 Read Only D1170 SCHEDULER>SCHEDULE #6(2/8)>START>HOUR

0 to 23 Hour:(3)

41172 Read Only D1171 SCHEDULER>SCHEDULE #6(2/8)>START>MINUTE

(0) to 59 Min

41173 Read Only D1172 SCHEDULER>SCHEDULE #6(3/8)>SET #

#1 to #4(#1):0 to 3

41174 Read Only D1173 SCHEDULER>SCHEDULE #6(3/8)>START>HOUR

0 to 23 Hour:(6)

QT108300

- 171 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41175 Read Only D1174 SCHEDULER>SCHEDULE #6(3/8)>START>MINUTE

(0) to 59 Min

41176 Read Only D1175 SCHEDULER>SCHEDULE #6(4/8)>SET #

#1 to #4(#1):0 to 3

41177 Read Only D1176 SCHEDULER>SCHEDULE #6(4/8)>START>HOUR

0 to 23 Hour:(9)

41178 Read Only D1177 SCHEDULER>SCHEDULE #6(4/8)>START>MINUTE

(0) to 59 Min

41179 Read Only D1178 SCHEDULER>SCHEDULE #6(5/8)>SET #

#1 to #4(#1):0 to 3

41180 Read Only D1179 SCHEDULER>SCHEDULE #6(5/8)>START>HOUR

0 to 23 Hour:(12)

41181 Read Only D1180 SCHEDULER>SCHEDULE #6(5/8)>START>MINUTE

(0) to 59 Min

41182 Read Only D1181 SCHEDULER>SCHEDULE #6(6/8)>SET #

#1 to #4(#1):0 to 3

41183 Read Only D1182 SCHEDULER>SCHEDULE #6(6/8)>START>HOUR

0 to 23 Hour:(15)

41184 Read Only D1183 SCHEDULER>SCHEDULE #6(6/8)>START>MINUTE

(0) to 59 Min

41185 Read Only D1184 SCHEDULER>SCHEDULE #6(7/8)>SET #

#1 to #4(#1):0 to 3

41186 Read Only D1185 SCHEDULER>SCHEDULE #6(7/8)>START>HOUR

0 to 23 Hour:(18)

41187 Read Only D1186 SCHEDULER>SCHEDULE #6(7/8)>START>MINUTE

(0) to 59 Min

41188 Read Only D1187 SCHEDULER>SCHEDULE #6(8/8)>SET #

#1 to #4(#1):0 to 3

41189 Read Only D1188 SCHEDULER>SCHEDULE #6(8/8)>START>HOUR

0 to 23 Hour:(21)

41190 Read Only D1189 SCHEDULER>SCHEDULE #6(8/8)>START>MINUTE

(0) to 59 Min

41191 Read Only D1190 SCHEDULER>SCHEDULE #7(1/8)>SET #

#1 to #4(#1):0 to 3

41192 Read Only D1191 SCHEDULER>SCHEDULE #7(1/8)>START>HOUR

0 to 23 Hour:(0)

41193 Read Only D1192 SCHEDULER>SCHEDULE #7(1/8)>START>MINUTE

(0) to 59 Min

41194 Read Only D1193 SCHEDULER>SCHEDULE #7(2/8)>SET #

#1 to #4(#1):0 to 3

41195 Read Only D1194 SCHEDULER>SCHEDULE #7(2/8)>START>HOUR

0 to 23 Hour:(3)

41196 Read Only D1195 SCHEDULER>SCHEDULE #7(2/8)>START>MINUTE

(0) to 59 Min

41197 Read Only D1196 SCHEDULER>SCHEDULE #7(3/8)>SET #

#1 to #4(#1):0 to 3

QT108300

- 172 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41198 Read Only D1197 SCHEDULER>SCHEDULE #7(3/8)>START>HOUR

0 to 23 Hour:(6)

41199 Read Only D1198 SCHEDULER>SCHEDULE #7(3/8)>START>MINUTE

(0) to 59 Min

41200 Read Only D1199 SCHEDULER>SCHEDULE #7(4/8)>SET #

#1 to #4(#1):0 to 3

41201 Read Only D1200 SCHEDULER>SCHEDULE #7(4/8)>START>HOUR

0 to 23 Hour:(9)

41202 Read Only D1201 SCHEDULER>SCHEDULE #7(4/8)>START>MINUTE

(0) to 59 Min

41203 Read Only D1202 SCHEDULER>SCHEDULE #7(5/8)>SET #

#1 to #4(#1):0 to 3

41204 Read Only D1203 SCHEDULER>SCHEDULE #7(5/8)>START>HOUR

0 to 23 Hour:(12)

41205 Read Only D1204 SCHEDULER>SCHEDULE #7(5/8)>START>MINUTE

(0) to 59 Min

41206 Read Only D1205 SCHEDULER>SCHEDULE #7(6/8)>SET #

#1 to #4(#1):0 to 3

41207 Read Only D1206 SCHEDULER>SCHEDULE #7(6/8)>START>HOUR

0 to 23 Hour:(15)

41208 Read Only D1207 SCHEDULER>SCHEDULE #7(6/8)>START>MINUTE

(0) to 59 Min

41209 Read Only D1208 SCHEDULER>SCHEDULE #7(7/8)>SET #

#1 to #4(#1):0 to 3

41210 Read Only D1209 SCHEDULER>SCHEDULE #7(7/8)>START>HOUR

0 to 23 Hour:(18)

41211 Read Only D1210 SCHEDULER>SCHEDULE #7(7/8)>START>MINUTE

(0) to 59 Min

41212 Read Only D1211 SCHEDULER>SCHEDULE #7(8/8)>SET #

#1 to #4(#1):0 to 3

41213 Read Only D1212 SCHEDULER>SCHEDULE #7(8/8)>START>HOUR

0 to 23 Hour:(21)

41214 Read Only D1213 SCHEDULER>SCHEDULE #7(8/8)>START>MINUTE

(0) to 59 Min

41215 Read Only D1214 OTHER SETPOINTS>ANTI CYCLE>ANTI-CYCLE TIME

0 to 54(5)Min X 600

41216 Read Only D1215 OTHER SETPOINTS>ANTI CYCLE>INTERVAL TIME

0 to 54(15)Min X 600

41217 Read Only D1216 OTHER SETPOINTS>ECONOMIZER INTER COOLER SV>SV ON LSV%

0.0 to 100.0(50.0)%:0 to 4095

41218 Read Only D1217 OTHER SETPOINTS>ECONOMIZER INTER COOLER SV>SV OFF LSV%

0.0 to 100.0(40.0)%:0 to 4095

QT108300

- 173 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41219 Read Only D1218 OTHER SETPOINTS>ECONOMIZER INTER COOLER SV>SV ON SP

Range Low to High: 0 to 4095

41220 Read Only D1219 OTHER SETPOINTS>ECONOMIZER INTER COOLER SV>SV OFF SP

Range Low to High: 0 to 4095

41221 Read Only D1220 OTHER SETPOINTS>SEAL PROTECTION>INTERVAL

(0)DISABLE,1ENABLE

41222 Read Only D1221 OTHER SETPOINTS>SEAL PROTECTION>AUTO ONLY/ALL

0:ALL,(1):AUTO ONLY

41223 Read Only D1222 OTHER SETPOINTS>OIL SEAL CONTROL>START PERIOD

0 to 999(100)時間 X 1

41224 Read Only D1223 OTHER SETPOINTS>OIL SEAL CONTROL>OIL PUMP RUN

0 to 54(1)Min X 600

41225 Read Only D1224 OTHER SETPOINTS>OIL SEAL CONTROL>COMP. STOP

(0)DISABLE,1ENABLE

41226 Read Only D1225 OTHER SETPOINTS>OIL SEAL CONTROL>OIL PUMP DELAY

0 to 600(10)Sec X 10

41227 Read Only D1226 OIL RETURN SV>SV ON DELAY

0 to 600(10)Sec X 10

41228 Read Only D1227 OTHER SETPOINTS>OIL HEATER>HEATER ON OS

Range Low to High: 0 to 4095

41229 Read Only D1228 OTHER SETPOINTS>OIL HEATER>HEATER OFF OS

Range Low to High: 0 to 4095

41230 Read Only D1229 OTHER SETPOINTS>STARTING BYPASS SV>SV OFF DELAY

0 to 600(10)Sec X 10

41231 Read Only D1230 OTHER SETPOINTS>HOT GAS BYPASS SV>SV ON LSV%

0.0 to 100.0(50.0)%:0 to 4095

41232 Read Only D1231 OTHER SETPOINTS>HOT GAS BYPASS SV>SV OFF LSV%

0.0 to 100.0(50.0)%:0 to 4095

41233 Read Only D1232 OTHER SETPOINTS>HOT GAS BYPASS SV>SV ON DELAY

0 to 600(10)Sec X 10

41234 Read Only D1233 OTHER SETPOINTS>HOT GAS BYPASS SV>SV ON SP

Range Low to High: 0 to 4095

41235 Read Only D1234 OTHER SETPOINTS>HOT GAS BYPASS SV>SV ON DELAY

0 to 600(10)Sec X 10

41236 Read Only D1235 AUTO-Vi CONTROL>SETPOINTS>INITIAL Vi

(0):2.63,1:3.65,2:5.80

QT108300

- 174 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41237 Read Only D1236 AUTO-Vi CONTROL>SETPOINTS>SAMPLE DELAY

1 to 3240(30)Sec X 10

41238 Read Only D1237 AUTO-Vi CONTROL>SETPOINTS>SAMPLE QUANTITY

1 to 99(5)

41239 Read Only D1238 Reserved -32768 to 32767 41240 Read Only D1239 AUTO-Vi

CONTROL>SETPOINTS>MOVE DELAY

30 to 3240(30)Sec X 10

41241 Read Only D1240 Reserved -32768 to 32767 41242 Read Only D1241 Reserved -32768 to 32767 41243 Read Only D1242 AUTO

STAGER>ADDRESS

(0) to 99

41244 Read Only D1243 AUTO STAGER>CONTROL

(0):DISABLE,1:ENABLE

41245 Read Only D1244 AUTO STAGER>LISTING

(0):MANUAL,1:AUTO (VFD LAG),2:AUTO (VFD LEAD)

41246 Read Only D1245 AUTO STAGER>LEAD LIST #1

(0) to 99

41247 Read Only D1246 AUTO STAGER>LEAD LIST #2

(0) to 99

41248 Read Only D1247 AUTO STAGER>LEAD LIST #3

(0) to 99

41249 Read Only D1248 AUTO STAGER>LEAD LIST #4

(0) to 99

41250 Read Only D1249 AUTO STAGER>LEAD LIST #5

(0) to 99

41251 Read Only D1250 AUTO STAGER>LEAD LIST #6

(0) to 99

41252 Read Only D1251 AUTO STAGER>LEAD LIST #7

(0) to 99

41253 Read Only D1252 AUTO STAGER>LEAD LIST #8

(0) to 99

41254 Read Only D1253 AUTO STAGER>CUT-IN SETPOINT

Range Low to High: 0 to 4095

41255 Read Only D1254 AUTO STAGER>CUT-IN DELAY

0 to 600(10)Sec X 10

41256 Read Only D1255 AUTO STAGER>CONTROL SETPOINT

Range Low to High: 0 to 4095

41257 Read Only D1256 AUTO STAGER>CUT-OUT SETPOINT

Range Low to High: 0 to 4095

41258 Read Only D1257 AUTO STAGER>CUT-OUT DELAY

0 to 600(10)Sec X 10

41259 Read Only D1258 AUTO STAGER>SV START NEXT

Range Low to High: 0 to 4095

41260 Read Only D1259 AUTO STAGER>SV HOLD PREVIOUS

Range Low to High: 0 to 4095

41261 Read Only D1260 AUTO STAGER>SV STOP TRIM

Range Low to High: 0 to 4095

41262 Read Write D1261 CAPACITY CONTROL>MONITOR>OPERATION

(0):MANUAL ,1:AUTO ,2:REMOTE DIGITAL ,3:REMOTE ANALOG ,4:COMM

41263 Read Only D1262 CAPACITY CONTROL>SETPOINTS>CONTROL START DELAY

0 to 600(10)Sec X 10

QT108300

- 175 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41264 Read Only D1263 CAPACITY CONTROL>SETPOINTS>FORCE FULL LOAD

0.0 to 100.0(2.0)%/SEC:0 to 4095

41265 Read Only D1264 CAPACITY CONTROL(VFD)>SETPOINTS>FORCE FULL LOAD #2

0.0 to 100.0(2.0)%/SEC:0 to 4095

41266 Read Only D1265 CAPACITY CONTROL>SETPOINTS>RAMP CONTROL>REMOTE MVH

0.0 to 100.0(100.0)%:0 to 4095

41267 Read Only D1266 CAPACITY CONTROL(VFD)>SETPOINTS>VFD START DELAY

0 to 600(10)Sec X 10

41268 Read Only D1267 CAPACITY CONTROL(VFD)>SETPOINTS>VFD STOP DELAY

0 to 600(10)Sec X 10

41269 Read Only D1268 EXPANSION VALVE (SH) CONTROL>2ND LIQUID SUPPLY OFF MV%

0.0 to 100.0(40.0)%:0 to 4095

41270 Read Only D1269 EXPANSION VALVE (SH) CONTROL>2ND LIQUID SUPPLY ON MV%

0.0 to 100.0(50.0)%:0 to 4095

41271 Read Only D1270 EXPANSION VALVE (SH) CONTROL>3RD LIQUID SUPPLY OFF MV%

0.0 to 100.0(80.0)%:0 to 4095

41272 Read Only D1271 EXPANSION VALVE (SH) CONTROL>3RD LIQUID SUPPLY ON MV%

0.0 to 100.0(90.0)%:0 to 4095

41273 Read Only D1272 LIQUID INJECTION OIL COOLING CONTROL>2ND YOSAKU START MV%

0.0 to 100.0(50.0)%:0 to 4095

41274 Read Only D1273 LIQUID INJECTION OIL COOLING CONTROL>2ND YOSAKU STOP MV%

0.0 to 100.0(40.0)%:0 to 4095

41275 Read Only D1274 LIQUID INJECTION OIL COOLING CONTROL>CONTROL START OT

Range Low to High:0 to 4095

41276 Read Only D1275 LIQUID INJECTION OIL COOLING CONTROL>CONTROL STOP OT

Range Low to High:0 to 4095

41277 Read Only D1276 CHILLER LEAVING TEMPERATURE CONTROL>100% CAPACITY ON MV%

Range Low to High:0 to 4095

41278 Read Only D1277 CHILLER LEAVING TEMPERATURE CONTROL>100% CAPACITY OFF MV%

Range Low to High:0 to 4095

41279 Read Only D1278 CONDENSER CONTROL (SINGLE SET)>START

Range Low to High:0 to 4095

41280 Read Only D1279 CONDENSER CONTROL (SINGLE SET)>STOP

Range Low to High:0 to 4095

QT108300

- 176 -

Holding Registers number 41281 to 41408(Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41281 Read Only D1280 CONDENSER CONTROL (SINGLE SET)>CYCLE TIME

0 to 600(10)Sec X 10

41282 Read Only D1281 CONDENSER CONTROL (MULTI SET)>START #1

Range Low to High: 0 to 4095

41283 Read Only D1282 CONDENSER CONTROL (MULTI SET)>STOP #1

Range Low to High: 0 to 4095

41284 Read Only D1283 CONDENSER CONTROL (MULTI SET)>START #2

Range Low to High: 0 to 4095

41285 Read Only D1284 CONDENSER CONTROL (MULTI SET)>STOP #2

Range Low to High: 0 to 4095

41286 Read Only D1285 CONDENSER CONTROL (MULTI SET)>START #3

Range Low to High: 0 to 4095

41287 Read Only D1286 CONDENSER CONTROL (MULTI SET)>STOP #3

Range Low to High: 0 to 4095

41288 Read Only D1287 CONDENSER CONTROL (MULTI SET)>START #4

Range Low to High: 0 to 4095

41289 Read Only D1288 CONDENSER CONTROL (MULTI SET)>STOP #4

Range Low to High: 0 to 4095

41290 Read Only D1289 CONDENSER CONTROL (MULTI SET)>START #5

Range Low to High: 0 to 4095

41291 Read Only D1290 CONDENSER CONTROL (MULTI SET)>STOP #5

Range Low to High:0 to 4095

41292 Read Only D1291 CONDENSER CONTROL (MULTI SET)>START #6

Range Low to High: 0 to 4095

41293 Read Only D1292 CONDENSER CONTROL (MULTI SET)>STOP #6

Range Low to High: 0 to 4095

41294 Read Only D1293 VFD COMPRESSOR FORCE UNLOAD %/SEC

0.0 to 100.0(2.0)%/SEC:0 to 4095

41295 Read Write D1294 VFD COMPRESSOR CONTROL>MONITOR>OPERATION

(0):MANUAL ,1:AUTO ,2:REMOTE DIGITAL ,3:REMOTE ANALOG ,4:COMM

41296 Read Only D1295 HIGH STAGE CAPACITY CONTROL>MONITOR>OPERATION

(0):MANUAL,1:AUTO

41297 Read Only D1296 CONDENSER CONTROL>RUN MINIMUM

0 to 1

41298 Read Only D1297 CONDENSER VFD CONTROL MODE

(0):#1 LAG,1:#1 LEAD

41299 Read Only D1298 AUTO STAGE>CUT IN/OUT

(0):PRESSURE,1:TEMPERATURE

41300 Read Only D1299 AUTO STAGE>CONTROL

(0):PRESSURE,1:TEMPERATURE

41301 Read Only D1300 ALARM>LOW SP Range Low to High:0 to 4095

QT108300

- 177 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41302 Read Only D1301 ALARM>LOW SP>ALARM DELAY

0 to 600(10)Sec X 10

41303 Read Only D1302 ALARM>LOW SSH>CANCEL

Range Low to High:0 to 4095

41304 Read Only D1303 ALARM>HIGH DP

Range Low to High:0 to 4095

41305 Read Only D1304 ALARM>LOW OP Range Low to High:0 to 4095

41306 Read Only D1305 ALARM>HIGH OF

Range Low to High:0 to 4095

41307 Read Only D1306 ALARM>HIGH OF>ALARM DELAY

0 to 600(10)Sec X 10

41308 Read Only D1307 ALARM>HIGH MA

Range Low to High:0 to 4095

41309 Read Only D1308 ALARM>HIGH DT Range Low to High:0 to 4095

41310 Read Only D1309 ALARM>HIGH OT

Range Low to High:0 to 4095

41311 Read Only D1310 ALARM>LOW SSH

Range Low to High:0 to 4095

41312 Read Only D1311 ALARM>RE-START/TIMEOUT

0 to 600(10)Sec X 10

41313 Read Only D1312 ALARM>HIGH IP Range Low to High:0 to 4095

41314 Read Only D1313 ALARM>LOW ⊿P

Range Low to High:0 to 4095

41315 Read Only D1314 ALARM>LOW SH2>CANCEL

Range Low to High:0 to 4095

41316 Read Only D1315 ALARM>LOW ISH

Range Low to High:0 to 4095

41317 Read Only D1316 ALARM>LOW EB Range Low to High:0 to 4095

41318 Read Only D1317 ALARM>LOW LB Range Low to High:0 to 4095

41319 Read Only D1318 ALARM>LOW OS Range Low to High:0 to 4095

41320 Read Only D1319 ALARM>LOW OP2

Range Low to High:0 to 4095

41321 Read Only D1320 ALARM>LOW SSH2

Range Low to High:0 to 4095

41322 Read Only D1321 ALARM>HIGH FF Range Low to High:0 to 4095

41323 Read Only D1322 ALARM>HIGH FF>DELAY

0 to 600(600)Sec X 10

41324 Read Only D1323 ALARM>LOW DSH

Range Low to High:0 to 4095

41325 Read Only D1324 ALARM>LOW DSH>DELAY

0 to 300(30)Sec X 10

41326 Read Only D1325 ALARM>LOW DSH>MASK

0 to 54(30)Min X 600

41327 Read Only D1326 ALARM>HIGH SP Range Low to High:0 to 4095

41328 Read Only D1327 ALARM>HIGH SP>DELAY

0 to 300(30)Sec X 10

41329 Read Only D1328 ALARM>HIGH ST Range Low to High:0 to 4095

41330 Read Only D1329 ALARM>LOW OP(PRE LUBE)

Range Low to High:0 to 4095

41331 Read Only D1330 FAILURE>LOW SP

Range Low to High:0 to 4095

41332 Read Only D1331 FAILURE>LOW SP>ALARM DELAY

1 to 300(30)Sec X 10

41333 Read Only D1332 FAILURE>LOW SP>MASK TIME

0 to 54(1)Min X 600

41334 Read Only D1333 FAILURE>HIGH DP

Range Low to High:0 to 4095

41335 Read Only D1334 FAILURE>LOW OP

Range Low to High:0 to 4095

41336 Read Only D1335 FAILURE>HIGH OF

Range Low to High:0 to 4095

41337 Read Only D1336 FAILURE>LOW SH2>DELAY

0 to 600(30)Sec X 10

41338 Read Only D1337 FAILURE>HIGH MA

Range Low to High:0 to 4095

41339 Read Only D1338 FAILURE>HIGH DT

Range Low to High:0 to 4095

41340 Read Only D1339 FAILURE>HIGH OT

Range Low to High:0 to 4095

41341 Read Only D1340 FAILURE>LOW SSH

Range Low to High:0 to 4095

QT108300

- 178 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41342 Read Only D1341 FAILURE>LOW SSH>DELAY

0 to 600(30)Sec X 10

41343 Read Only D1342 FAILURE>HIGH IP

Range Low to High:0 to 4095

41344 Read Only D1343 FAILURE>LOW ⊿P

Range Low to High:0 to 4095

41345 Read Only D1344 FAILURE>LOW ⊿P>MASK TIME

1 to 600(600)Sec X 10

41346 Read Only D1345 ALARM>HIGH ST>MASK

0 to 54(10)Min X 600

41347 Read Only D1346 ALARM>HIGH ST>DELAY

1 to 300(60)Sec X 10

41348 Read Only D1347 FAILURE>LOW LB

Range Low to High:0 to 4095

41349 Read Only D1348 Reserved -32768 to 32767 41350 Read Only D1349 Reserved -32768 to 32767 41351 Read Only D1350 FAILURE>LOW

SH2 Range Low to High:0 to 4095

41352 Read Only D1351 FAILURE>HIGH FF

Range Low to High:0 to 4095

41353 Read Only D1352 Reserved -32768 to 32767 41354 Read Only D1353 ALARM>LOW

LEVEL Range Low to High:0 to 4095

41355 Read Only D1354 ALARM>LOW LEVEL>DELAY

0 to 300(30)Sec X 10

41356 Read Only D1355 ALARM>LOW LEVEL>MASK

0 to 54(10)Min X 600

41357 Read Only D1356 FAILURE>HIGH SP

Range Low to High:0 to 4095

41358 Read Only D1357 FAILURE>HIGH SP>DELAY

0 to 300(60)Sec X 10

41359 Read Only D1358 FAILURE>HIGH ST

Range Low to High:0 to 4095

41360 Read Only D1359 FAILURE>LOW OP(PRE LUBE)

Range Low to High:0 to 4095

41361 Read Only D1360 OEM LIMITS>LOW SP

Range Low to High:0 to 4095

41362 Read Only D1361 OEM LIMITS>HIGH DP

Range Low to High:0 to 4095

41363 Read Only D1362 OEM LIMITS>LOW OP

Range Low to High:0 to 4095

41364 Read Only D1363 OEM LIMITS>HIGH OF

Range Low to High:0 to 4095

41365 Read Only D1364 OEM LIMITS>HIGH MA

Range Low to High:0 to 4095

41366 Read Only D1365 OEM LIMITS>HIGH DT

Range Low to High:0 to 4095

41367 Read Only D1366 OEM LIMITS>HIGH OT

Range Low to High:0 to 4095

41368 Read Only D1367 OEM LIMITS>LOW SSH

Range Low to High:0 to 4095

41369 Read Only D1368 OEM LIMITS>HIGH IP

Range Low to High:0 to 4095

41370 Read Only D1369 OEM LIMITS>LOW ⊿P

Range Low to High:0 to 4095

41371 Read Only D1370 OEM LIMITS>LOW ISH

Range Low to High:0 to 4095

41372 Read Only D1371 OEM LIMITS>LOW EB

Range Low to High:0 to 4095

41373 Read Only D1372 OEM LIMITS>LOW LB

Range Low to High:0 to 4095

41374 Read Only D1373 OEM LIMITS>LOW OS

Range Low to High:0 to 4095

41375 Read Only D1374 OEM LIMITS>LOW OP2

Range Low to High:0 to 4095

41376 Read Only D1375 OEM LIMITS>LOW SSH2

Range Low to High:0 to 4095

41377 Read Only D1376 Reserved -32768 to 32767 41378 Read Only D1377 Reserved -32768 to 32767 41379 Read Only D1378 Reserved -32768 to 32767 41380 Read Only D1379 Reserved -32768 to 32767 41381 Read Only D1380 Reserved -32768 to 32767 41382 Read Only D1381 OEM

LIMITS>HIGH FFRange Low to High:0 to 4095

41383 Read Only D1382 Reserved -32768 to 32767 41384 Read Only D1383 OEM

LIMITS>LOW DSH

Range Low to High:0 to 4095

41385 Read Only D1384 Reserved -32768 to 32767 41386 Read Only D1385 Reserved -32768 to 32767

QT108300

- 179 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41387 Read Only D1386 OEM LIMITS>HIGH SP

Range Low to High:0 to 4095

41388 Read Only D1387 OEM LIMITS>LOW LEVEL

Range Low to High:0 to 4095

41389 Read Only D1388 OEM LIMITS>HIGH ST

Range Low to High:0 to 4095

41390 Read Only D1389 OEM LIMITS>LOW OP(PRE LUBE)

Range Low to High:0 to 4095

41391 Read Only D1390 AUXILIARY INPUT TIMER>COMP. MSRB(Starting)

1 to 60(60)Sec X 10

41392 Read Only D1391 AUXILIARY INPUT TIMER>COMP. MSRB(Running)

1 to 60(2)Sec X 10

41393 Read Only D1392 AUXILIARY INPUT TIMER>COMP. MSRB(Stopped)

1 to 60(60)Sec X 10

41394 Read Only D1393 AUXILIARY INPUT TIMER>INTERLOCK-1

1 to 180(20)Sec X 10

41395 Read Only D1394 AUXILIARY INPUT TIMER>INTERLOCK-2

1 to 180(20)Sec X 10

41396 Read Only D1395 AUXILIARY INPUT TIMER>INTERLOCK-3

1 to 180(20)Sec X 10

41397 Read Only D1396 263,250 LポートVi X 100 41398 Read Only D1397 365,350 MポートVi X 100 41399 Read Only D1398 580,500 HポートVi X 100 41400 Read Only D1399 Mポート100%位置:0 to

4095

41401 Read Write D1400 CAPACITY CONTROL>MVL%/MVH% BY COMM

(0):DISABLE,1:ENABLE

VFD COMPRESOOR CONTROL>MVL%/MVH% BY COMM

41402 Read Only D1401 RANGE OVER>PRESSURE SENSOR MASK TIME

0 to 3240(180)Sec X 10

41403 Read Only D1402 RANGE OVER>TEMPERATURE SENSOR MASK TIME

0 to 3240(600)Sec X 10

41404 Read Only D1403 RANGE OVER>SUCTION PRESSURE OVER DELAY

0 to 3240(10)Sec X 10

41405 Read Only D1404 RANGE OVER>DISCHARGE PRESSURE UNDER DELAY

0 to 3240(10)Sec X 10

41406 Read Only D1405 RANGE OVER>OIL SUPPLY PRESSURE OVER DELAY

0 to 3240(10)Sec X 10

41407 Read Only D1406 RANGE OVER>AFTER FILTER PRESSURE OVER DELAY

0 to 3240(10)Sec X 10

41408 Read Only D1407 RANGE OVER>SUCTION TEMPERATURE OVER DELAY

0 to 3240(15)Sec X 10

QT108300

- 180 -

Holding Registers number 41409 to 41536(Internal Word (16Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41409 Read Only D1408 RANGE OVER>SUCTION TEMPERATURE UNDER DELAY

0 to 3240(15)Sec X 10

41410 Read Only D1409 RANGE OVER>DISCHARGE TEMPERATURE UNDER DELAY

0 to 3240(15)Sec X 10

41411 Read Only D1410 RANGE OVER>OIL SUPPLY TEMPERATURE UNDER DELAY

0 to 3240(10)Sec X 10

41412 Read Only D1411 RANGE OVER>INTERMEDIATE PRESSURE UNDER DELAY

0 to 3240(10)Sec X 10

41413 Read Only D1412 RANGE OVER>INTERMEDIATE TEMPERATURE OVER DELAY

0 to 3240(15)Sec X 10

41414 Read Only D1413 RANGE OVER>INTERMEDIATE TEMPERATURE UNDER DELAY

0 to 3240(15)Sec X 10

41415 Read Only D1414 RANGE OVER>COMPRESSOR MOTOR CURRENT UNDER DELAY

0 to 3240(30)Sec X 10

41416 Read Only D1415 RANGE OVER>LEAVING BRINE TEMPERATURE OVER DELAY

0 to 3240(15)Sec X 10

41417 Read Only D1416 RANGE OVER>LOW STAGE SLIDE VALVE POSITION OVER DELAY

0 to 3240(60)Sec X 10

41418 Read Only D1417 RANGE OVER>LOW STAGE SLIDE VALVE POSITION UNDER DELAY

0 to 3240(60)Sec X 10

41419 Read Only D1418 RANGE OVER>HIGH STAGE SLIDE VALVE POSITION OVER DELAY

0 to 3240(60)Sec X 10

41420 Read Only D1419 RANGE OVER>HIGH STAGE SLIDE VALVE POSITION UNDER DELAY

0 to 3240(60)Sec X 10

41421 Read Only D1420 RANGE OVER>CHILLER GAS TEMPERATURE OVER DELAY

0 to 3240(15)Sec X 10

41422 Read Only D1421 RANGE OVER>CHILLER GAS TEMPERATURE UNDER DELAY

0 to 3240(15)Sec X 10

41423 Read Only D1422 RANGE OVER>SUCTOPN PRESSURE1 OVER DELAY

0 to 3240(10)Sec X 10

41424 Read Only D1423 RANGE OVER>SUCTOPN PRESSURE1 UNDER DELAY

0 to 3240(10)Sec X 10

41425 Read Only D1424 Reserved -32768 to 32767

QT108300

- 181 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41426 Read Only D1425 Reserved -32768 to 32767 41427 Read Only D1426 Reserved -32768 to 32767 41428 Read Only D1427 Reserved -32768 to 32767 41429 Read Only D1428 Reserved -32768 to 32767 41430 Read Only D1429 Reserved -32768 to 32767 41431 Read Only D1430 LAG OIL P.

START ⊿OP Range Low to High:0 to 4095

41432 Read Only D1431 LAG OIL P. STOP DELAY

10 to 600(60)Sec X 10

41433 Read Only D1432 VFD OUT LIMIT ZONE1 LOW

0.0 to 100.0(0.0)%:0 to 4095

41434 Read Only D1433 VFD OUT LIMIT ZONE1 HIGH

0.0 to 100.0(0.0)%:0 to 4095

41435 Read Only D1434 VFD OUT LIMIT ZONE2 LOW

0.0 to 100.0(0.0)%:0 to 4095

41436 Read Only D1435 VFD OUT LIMIT ZONE2 HIGH

0.0 to 100.0(0.0)%:0 to 4095

41437 Read Only D1436 VFD OUT LIMIT ZONE3 LOW

0.0 to 100.0(0.0)%:0 to 4095

41438 Read Only D1437 VFD OUT LIMIT ZONE3 HIGH

0.0 to 100.0(0.0)%:0 to 4095

41439 Read Only D1438 VFD OUT LIMIT DEAD BAND

0.0 to 100.0(0.5)%:0 to 4095

41440 Read Only D1439 Reserved -32768 to 32767 41441 Read Only D1440 Reserved -32768 to 32767 41442 Read Only D1441 Reserved -32768 to 32767 41443 Read Only D1442 Reserved -32768 to 32767 41444 Read Only D1443 Reserved -32768 to 32767 41445 Read Only D1444 Reserved -32768 to 32767 41446 Read Only D1445 Reserved -32768 to 32767 41447 Read Only D1446 Reserved -32768 to 32767 41448 Read Only D1447 Reserved -32768 to 32767 41449 Read Only D1448 Reserved -32768 to 32767 41450 Read Only D1449 Reserved -32768 to 32767 41451 Read Only D1450 Reserved -32768 to 32767 41452 Read Only D1451 Reserved -32768 to 32767 41453 Read Only D1452 Reserved -32768 to 32767 41454 Read Only D1453 Reserved -32768 to 32767 41455 Read Only D1454 Reserved -32768 to 32767 41456 Read Only D1455 Reserved -32768 to 32767 41457 Read Only D1456 Reserved -32768 to 32767 41458 Read Only D1457 Reserved -32768 to 32767 41459 Read Only D1458 Reserved -32768 to 32767 41460 Read Only D1459 Reserved -32768 to 32767 41461 Read Only D1460 Reserved -32768 to 32767 41462 Read Only D1461 Reserved -32768 to 32767 41463 Read Only D1462 Reserved -32768 to 32767 41464 Read Only D1463 Reserved -32768 to 32767 41465 Read Only D1464 Reserved -32768 to 32767 41466 Read Only D1465 Reserved -32768 to 32767 41467 Read Only D1466 Reserved -32768 to 32767 41468 Read Only D1467 Reserved -32768 to 32767 41469 Read Only D1468 Reserved -32768 to 32767 41470 Read Only D1469 AUTO

STAGE>APPROACH ⊿T

Range Low to High:0 to 4095

41471 Read Only D1470 CONDENSER CONTROL (SINGLE SET)>START

Range Low to High:0 to 4095

41472 Read Only D1471 CONDENSER CONTROL (SINGLE SET)>STOP

Range Low to High:0 to 4095

41473 Read Only D1472 CONDENSER CONTROL (SINGLE SET)>CYCLE TIME

0 to 600(10)Sec X 10

41474 Read Only D1473 CONDENSER CONTROL (MULTI SET)>START #1

Range Low to High:0 to 4095

41475 Read Only D1474 CONDENSER CONTROL (MULTI SET)>STOP #1

Range Low to High:0 to 4095

41476 Read Only D1475 CONDENSER CONTROL (MULTI SET)>START #2

Range Low to High:0 to 4095

QT108300

- 182 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41477 Read Only D1476 CONDENSER CONTROL (MULTI SET)>STOP #2

Range Low to High:0 to 4095

41478 Read Only D1477 CONDENSER CONTROL (MULTI SET)>START #3

Range Low to High:0 to 4095

41479 Read Only D1478 CONDENSER CONTROL (MULTI SET)>STOP #3

Range Low to High:0 to 4095

41480 Read Only D1479 CONDENSER CONTROL (MULTI SET)>START #4

Range Low to High:0 to 4095

41481 Read Only D1480 CONDENSER CONTROL (MULTI SET)>STOP #4

Range Low to High:0 to 4095

41482 Read Only D1481 CONDENSER CONTROL (MULTI SET)>START #5

Range Low to High:0 to 4095

41483 Read Only D1482 CONDENSER CONTROL (MULTI SET)>STOP #5

Range Low to High:0 to 4095

41484 Read Only D1483 CONDENSER CONTROL (MULTI SET)>START #6

Range Low to High:0 to 4095

41485 Read Only D1484 CONDENSER CONTROL (MULTI SET)>STOP #6

Range Low to High:0 to 4095

41486 Read Write D1485 OPERATION MODE>ALARM/FAILURE

(0):SET POINT#1,1:SET POINT#2

41487 Read Only D1486 OPTION ANALOG INPUT>OPT1>ALARM

(0):NOT USE,1:LOW ALARM,2:HIGH ALARM

41488 Read Only D1487 OPTION ANALOG INPUT>OPT2>ALARM

(0):NOT USE,1:LOW ALARM,2:HIGH ALARM

41489 Read Only D1488 OPTION ANALOG INPUT>OPT3>ALARM

(0):NOT USE,1:LOW ALARM,2:HIGH ALARM

41490 Read Only D1489 OPTION ANALOG INPUT>OPT4>ALARM

(0):NOT USE,1:LOW ALARM,2:HIGH ALARM

41491 Read Only D1490 Reserved -32768 to 32767 41492 Read Only D1491 Reserved -32768 to 32767 41493 Read Only D1492 Reserved -32768 to 32767 41494 Read Only D1493 Reserved -32768 to 32767 41495 Read Only D1494 OPTION

ANALOG INPUT>OPT1>FAILURE

(0):NOT USE,1:LOW FAILURE,2:HIGH FAILURE

41496 Read Only D1495 OPTION ANALOG INPUT>OPT2>FAILURE

(0):NOT USE,1:LOW FAILURE,2:HIGH FAILURE

41497 Read Only D1496 OPTION ANALOG INPUT>OPT3>FAILURE

(0):NOT USE,1:LOW FAILURE,2:HIGH FAILURE

41498 Read Only D1497 OPTION ANALOG INPUT>OPT4>FAILURE

(0):NOT USE,1:LOW FAILURE,2:HIGH FAILURE

41499 Read Only D1498 Reserved -32768 to 32767 41500 Read Only D1499 Reserved -32768 to 32767 41501 Read Only D1500 Reserved -32768 to 32767 41502 Read Only D1501 Reserved -32768 to 32767 41503 Read Only D1502 ALARM>OPT1

ALARM Range Low to High:0 to 4095

41504 Read Only D1503 ALARM>OPT2 ALARM

Range Low to High:0 to 4095

41505 Read Only D1504 ALARM>OPT3 ALARM

Range Low to High:0 to 4095

QT108300

- 183 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41506 Read Only D1505 ALARM>OPT4 ALARM

Range Low to High:0 to 4095

41507 Read Only D1506 Reserved -32768 to 32767 41508 Read Only D1507 Reserved -32768 to 32767 41509 Read Only D1508 Reserved -32768 to 32767 41510 Read Only D1509 Reserved -32768 to 32767 41511 Read Only D1510 FAILURE>OPT1

FAILURE Range Low to High:0 to 4095

41512 Read Only D1511 FAILURE>OPT2 FAILURE

Range Low to High:0 to 4095

41513 Read Only D1512 FAILURE>OPT3 FAILURE

Range Low to High:0 to 4095

41514 Read Only D1513 FAILURE>OPT4 FAILURE

Range Low to High:0 to 4095

41515 Read Only D1514 Reserved -32768 to 32767 41516 Read Only D1515 Reserved -32768 to 32767 41517 Read Only D1516 Reserved -32768 to 32767 41518 Read Only D1517 Reserved -32768 to 32767 41519 Read Only D1518 ALARM>OPT1

ALARM>MASK 0 to 54(0)Min X 600

41520 Read Only D1519 ALARM>OPT2 ALARM>MASK

0 to 54(0)Min X 600

41521 Read Only D1520 ALARM>OPT3 ALARM>MASK

0 to 54(0)Min X 600

41522 Read Only D1521 ALARM>OPT4 ALARM>MASK

0 to 54(0)Min X 600

41523 Read Only D1522 Reserved -32768 to 32767 41524 Read Only D1523 Reserved -32768 to 32767 41525 Read Only D1524 Reserved -32768 to 32767 41526 Read Only D1525 Reserved -32768 to 32767 41527 Read Only D1526 ALARM>OPT1

ALARM>DELAY 0 to 600(0)Sec X 10

41528 Read Only D1527 ALARM>OPT2 ALARM>DELAY

0 to 600(0)Sec X 10

41529 Read Only D1528 ALARM>OPT3 ALARM>DELAY

0 to 600(0)Sec X 10

41530 Read Only D1529 ALARM>OPT4 ALARM>DELAY

0 to 600(0)Sec X 10

41531 Read Only D1530 Reserved -32768 to 32767 41532 Read Only D1531 Reserved -32768 to 32767 41533 Read Only D1532 Reserved -32768 to 32767 41534 Read Only D1533 Reserved -32768 to 32767 41535 Read Only D1534 FAILURE>OPT1

FAILURE>DELAY0 to 600(0)Sec X 10

41536 Read Only D1535 FAILURE>OPT2 FAILURE>DELAY

0 to 600(0)Sec X 10

QT108300

- 184 -

Holding Registers number 41537 to 41664(Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41537 Read Only D1536 FAILURE>OPT3 FAILURE>DELAY

0 to 600(0)Sec X 10

41538 Read Only D1537 FAILURE>OPT4 FAILURE>DELAY

0 to 600(0)Sec X 10

41539 Read Only D1538 Reserved -32768 to 32767 41540 Read Only D1539 Reserved -32768 to 32767 41541 Read Only D1540 Reserved -32768 to 32767 41542 Read Only D1541 Reserved -32768 to 32767 41543 Read Only D1542 Reserved -32768 to 32767 41544 Read Only D1543 Reserved -32768 to 32767 41545 Read Only D1544 Reserved -32768 to 32767 41546 Read Only D1545 Reserved -32768 to 32767 41547 Read Only D1546 Reserved -32768 to 32767 41548 Read Only D1547 Reserved -32768 to 32767 41549 Read Only D1548 Reserved -32768 to 32767 41550 Read Only D1549 Reserved -32768 to 32767 41551 Read Only D1550 Reserved -32768 to 32767 41552 Read Only D1551 Reserved -32768 to 32767 41553 Read Only D1552 Reserved -32768 to 32767 41554 Read Only D1553 Reserved -32768 to 32767 41555 Read Only D1554 Reserved -32768 to 32767 41556 Read Only D1555 Reserved -32768 to 32767 41557 Read Only D1556 Reserved -32768 to 32767 41558 Read Only D1557 Reserved -32768 to 32767 41559 Read Only D1558 Reserved -32768 to 32767 41560 Read Only D1559 Reserved -32768 to 32767 41561 Read Only D1560 Reserved -32768 to 32767 41562 Read Only D1561 Reserved -32768 to 32767 41563 Read Only D1562 Reserved -32768 to 32767 41564 Read Only D1563 Reserved -32768 to 32767 41565 Read Only D1564 Reserved -32768 to 32767 41566 Read Only D1565 Reserved -32768 to 32767 41567 Read Only D1566 Reserved -32768 to 32767 41568 Read Only D1567 Reserved -32768 to 32767 41569 Read Only D1568 Reserved -32768 to 32767 41570 Read Only D1569 Reserved -32768 to 32767 41571 Read Only D1570 Reserved -32768 to 32767 41572 Read Only D1571 Reserved -32768 to 32767 41573 Read Only D1572 Reserved -32768 to 32767 41574 Read Only D1573 Reserved -32768 to 32767 41575 Read Only D1574 Reserved -32768 to 32767 41576 Read Only D1575 Reserved -32768 to 32767 41577 Read Only D1576 Reserved -32768 to 32767 41578 Read Only D1577 Reserved -32768 to 32767 41579 Read Only D1578 Reserved -32768 to 32767 41580 Read Only D1579 Reserved -32768 to 32767 41581 Read Only D1580 Reserved -32768 to 32767 41582 Read Only D1581 Reserved -32768 to 32767 41583 Read Only D1582 Reserved -32768 to 32767 41584 Read Only D1583 Reserved -32768 to 32767 41585 Read Only D1584 Reserved -32768 to 32767 41586 Read Only D1585 Reserved -32768 to 32767 41587 Read Only D1586 Reserved -32768 to 32767 41588 Read Only D1587 Reserved -32768 to 32767 41589 Read Only D1588 Reserved -32768 to 32767 41590 Read Only D1589 Reserved -32768 to 32767 41591 Read Only D1590 Reserved -32768 to 32767 41592 Read Only D1591 Reserved -32768 to 32767 41593 Read Only D1592 Reserved -32768 to 32767 41594 Read Only D1593 Reserved -32768 to 32767 41595 Read Only D1594 Reserved -32768 to 32767 41596 Read Only D1595 Reserved -32768 to 32767 41597 Read Only D1596 Reserved -32768 to 32767 41598 Read Only D1597 Reserved -32768 to 32767 41599 Read Only D1598 Reserved -32768 to 32767 41600 Read Only D1599 Reserved -32768 to 32767 41601 Read Only D1600 ALARM>LOW SP

#2 Range Low to High:0 to 4095

41602 Read Only D1601 FAILURE>LOW SP #2

Range Low to High:0 to 4095

41603 Read Only D1602 ALARM>LOW SP #2>DELAY

1 to 300(30)Sec X 10

41604 Read Only D1603 FAILURE>LOW SP #2>DELAY

1 to 300(30)Sec X 10

41605 Read Only D1604 ALARM>LOW SP #2>MASK

0 to 54(1)Min X 600

41606 Read Only D1605 ALARM>HIGH SP #2

Range Low to High:0 to 4095

QT108300

- 185 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41607 Read Only D1606 FAILURE>HIGH SP #2

Range Low to High:0 to 4095

41608 Read Only D1607 ALARM>HIGH SP #2>DELAY

0 to 300(30)Sec X 10

41609 Read Only D1608 FAILURE>HIGH SP #2>DELAY

0 to 300(60)Sec X 10

41610 Read Only D1609 ALARM>HIGH DP #2

Range Low to High:0 to 4095

41611 Read Only D1610 FAILURE>HIGH DP #2

Range Low to High:0 to 4095

41612 Read Only D1611 ALARM>LOW OP #2

Range Low to High:0 to 4095

41613 Read Only D1612 FAILURE>LOW OP #2

Range Low to High:0 to 4095

41614 Read Only D1613 ALARM>LOW OP #2(PRE LUBE)

Range Low to High:0 to 4095

41615 Read Only D1614 FAILURE>LOW OP #2(PRE LUBE)

Range Low to High:0 to 4095

41616 Read Only D1615 ALARM>HIGH OF #2

Range Low to High:0 to 4095

41617 Read Only D1616 FAILURE>HIGH OF #2

Range Low to High:0 to 4095

41618 Read Only D1617 ALARM>HIGH OF #2>DELAY

0 to 600(600)Sec X 10

41619 Read Only D1618 ALARM>HIGH MA #2

Range Low to High:0 to 4095

41620 Read Only D1619 FAILURE>HIGH MA #2

Range Low to High:0 to 4095

41621 Read Only D1620 ALARM>HIGH DT #2

Range Low to High:0 to 4095

41622 Read Only D1621 FAILURE HIGH DT #2

Range Low to High:0 to 4095

41623 Read Only D1622 ALARM>HIGH OT #2

Range Low to High:0 to 4095

41624 Read Only D1623 FAILURE>HIGH OT #2

Range Low to High:0 to 4095

41625 Read Only D1624 ALARM>LOW DSH #2

Range Low to High:0 to 4095

41626 Read Only D1625 ALARM>LOW DSH #2>DELAY

0 to 300(30)Sec X 10

41627 Read Only D1626 ALARM>LOW DSH #2>MASK

0 to 54(30)Min X 600

41628 Read Only D1627 ALARM>LOW SSH #2

Range Low to High:0 to 4095

41629 Read Only D1628 FAILURE>LOW SSH #2

Range Low to High:0 to 4095

41630 Read Only D1629 ALARM>LOW SSH #2>CANCEL

Range Low to High:0 to 4095

41631 Read Only D1630 ALARM>LOW SSH #2>DELAY

0 to 600(30)Sec X 10

41632 Read Only D1631 ALARM>LOW SH2 #2

Range Low to High:0 to 4095

41633 Read Only D1632 FAILURE>LOW SH2 #2

Range Low to High:0 to 4095

41634 Read Only D1633 FAILUER>LOW SH2 #2>CANCEL

Range Low to High:0 to 4095

41635 Read Only D1634 ALARM>LOW SH2 #2>DELAY

0 to 600(30)Sec X 10

41636 Read Only D1635 ALARM>RE-START/TIMEOUT #2

0 to 300(30)Sec X 10

41637 Read Only D1636 ALARM>LOW OP2 #2

Range Low to High:0 to 4095

41638 Read Only D1637 ALARM>HIGH IP #2

Range Low to High:0 to 4095

41639 Read Only D1638 FAILURE>HIGH IP #2

Range Low to High:0 to 4095

41640 Read Only D1639 ALARM>LOW ⊿P #2

Range Low to High:0 to 4095

41641 Read Only D1640 FAILURE>LOW ⊿P #2

Range Low to High:0 to 4095

41642 Read Only D1641 ALARM>LOW ⊿P #2>MASK

1 to 600(600)Sec X 10

41643 Read Only D1642 ALARM>LOW ISH #2

Range Low to High:0 to 4095

41644 Read Only D1643 ALARM>LOW EB #2

Range Low to High:0 to 4095

41645 Read Only D1644 ALARM>LOW LB #2

Range Low to High:0 to 4095

41646 Read Only D1645 FAILURE>LOW LB #2

Range Low to High:0 to 4095

41647 Read Only D1646 ALARM>LOW OS #2

Range Low to High:0 to 4095

QT108300

- 186 -

(continued)

Register Number

Attribute Internal Word

Device Name

Range (Figure in ( ) is default

value.) Category

Sub Category

Note

41648 Read Only D1647 ALARM>HIGH FF #2

Range Low to High:0 to 4095

41649 Read Only D1648 FAILURE HIGH FF #2

Range Low to High:0 to 4095

41650 Read Only D1649 ALARM>HIGH FF #2>DELAY

0 to 600(600)Sec X 10

41651 Read Only D1650 ALARM>HIGH ST #2

Range Low to High:0 to 4095

41652 Read Only D1651 FAILURE>HIGH ST #2

Range Low to High:0 to 4095

41653 Read Only D1652 ALARM>HIGH ST #2>DELAY

1 to 300(60)Sec X 10

41654 Read Only D1653 ALARM>HIGH ST #2>MASK

0 to 54(10)Min X 600

41655 Read Only D1654 ALARM>LOW LEVEL #2

Range Low to High:0 to 4095

41656 Read Only D1655 FAILURE>LOW LEVEL #2

Range Low to High:0 to 4095

41657 Read Only D1656 ALARM>LOW LEVEL #2>DELAY

0 to 300(30)Sec X 10

41658 Read Only D1657 ALARM>LOW LEVEL #2>MASK

0 to 54(10)Min X 600

41659 Read Only D1658 Reserved -32768 to 32767 41660 Read Only D1659 Reserved -32768 to 32767 41661 Read Only D1660 Reserved -32768 to 32767 41662 Read Only D1661 Reserved -32768 to 32767 41663 Read Only D1662 Reserved -32768 to 32767 41664 Read Only D1663 Reserved -32768 to 32767

QT108300

- 187 -

Holding Registers number 41665 to 41792 (Internal Word (16Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

41665 Read Only D1664 Reserved -32768 to 32767 41666 Read Only D1665 Reserved -32768 to 32767 41667 Read Only D1666 Reserved -32768 to 32767 41668 Read Only D1667 Reserved -32768 to 32767 41669 Read Only D1668 Reserved -32768 to 32767 41670 Read Only D1669 Reserved -32768 to 32767 41671 Read Only D1670 Reserved -32768 to 32767 41672 Read Only D1671 Reserved -32768 to 32767 41673 Read Only D1672 Reserved -32768 to 32767 41674 Read Only D1673 Reserved -32768 to 32767 41675 Read Only D1674 Reserved -32768 to 32767 41676 Read Only D1675 Reserved -32768 to 32767 41677 Read Only D1676 Reserved -32768 to 32767 41678 Read Only D1677 Reserved -32768 to 32767 41679 Read Only D1678 Reserved -32768 to 32767 41680 Read Only D1679 Reserved -32768 to 32767 41681 Read Only D1680 Reserved -32768 to 32767 41682 Read Only D1681 Reserved -32768 to 32767 41683 Read Only D1682 Reserved -32768 to 32767 41684 Read Only D1683 Reserved -32768 to 32767 41685 Read Only D1684 Reserved -32768 to 32767 41686 Read Only D1685 Reserved -32768 to 32767 41687 Read Only D1686 Reserved -32768 to 32767 41688 Read Only D1687 Reserved -32768 to 32767 41689 Read Only D1688 Reserved -32768 to 32767 41690 Read Only D1689 Reserved -32768 to 32767 41691 Read Only D1690 Reserved -32768 to 32767 41692 Read Only D1691 Reserved -32768 to 32767 41693 Read Only D1692 Reserved -32768 to 32767 41694 Read Only D1693 Reserved -32768 to 32767 41695 Read Only D1694 Reserved -32768 to 32767 41696 Read Only D1695 Reserved -32768 to 32767 41697 Read Only D1696 Reserved -32768 to 32767 41698 Read Only D1697 Reserved -32768 to 32767 41699 Read Only D1698 Reserved -32768 to 32767 41700 Read Only D1699 Reserved -32768 to 32767 41701 Read Only D1700 Reserved -32768 to 32767 41702 Read Only D1701 Reserved -32768 to 32767 41703 Read Only D1702 Reserved -32768 to 32767 41704 Read Only D1703 Reserved -32768 to 32767 41705 Read Only D1704 Reserved -32768 to 32767 41706 Read Only D1705 Reserved -32768 to 32767 41707 Read Only D1706 Reserved -32768 to 32767 41708 Read Only D1707 Reserved -32768 to 32767 41709 Read Only D1708 Reserved -32768 to 32767 41710 Read Only D1709 Reserved -32768 to 32767 41711 Read Only D1710 Reserved -32768 to 32767 41712 Read Only D1711 Reserved -32768 to 32767 41713 Read Only D1712 Reserved -32768 to 32767 41714 Read Only D1713 Reserved -32768 to 32767 41715 Read Only D1714 Reserved -32768 to 32767 41716 Read Only D1715 Reserved -32768 to 32767 41717 Read Only D1716 Reserved -32768 to 32767 41718 Read Only D1717 Reserved -32768 to 32767 41719 Read Only D1718 Reserved -32768 to 32767 41720 Read Only D1719 Reserved -32768 to 32767 41721 Read Only D1720 Reserved -32768 to 32767 41722 Read Only D1721 Reserved -32768 to 32767 41723 Read Only D1722 Reserved -32768 to 32767 41724 Read Only D1723 Reserved -32768 to 32767 41725 Read Only D1724 Reserved -32768 to 32767 41726 Read Only D1725 Reserved -32768 to 32767 41727 Read Only D1726 Reserved -32768 to 32767 41728 Read Only D1727 Reserved -32768 to 32767 41729 Read Only D1728 Reserved -32768 to 32767 41730 Read Only D1729 Reserved -32768 to 32767 41731 Read Only D1730 Reserved -32768 to 32767 41732 Read Only D1731 Reserved -32768 to 32767 41733 Read Only D1732 Reserved -32768 to 32767 41734 Read Only D1733 Reserved -32768 to 32767 41735 Read Only D1734 Reserved -32768 to 32767 41736 Read Only D1735 Reserved -32768 to 32767 41737 Read Only D1736 Reserved -32768 to 32767 41738 Read Only D1737 Reserved -32768 to 32767 41739 Read Only D1738 Reserved -32768 to 32767 41740 Read Only D1739 Reserved -32768 to 32767 41741 Read Only D1740 Reserved -32768 to 32767

QT108300

- 188 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

41742 Read Only D1741 Reserved -32768 to 32767 41743 Read Only D1742 Reserved -32768 to 32767 41744 Read Only D1743 Reserved -32768 to 32767 41745 Read Only D1744 Reserved -32768 to 32767 41746 Read Only D1745 Reserved -32768 to 32767 41747 Read Only D1746 Reserved -32768 to 32767 41748 Read Only D1747 Reserved -32768 to 32767 41749 Read Only D1748 Reserved -32768 to 32767 41750 Read Only D1749 Reserved -32768 to 32767 41751 Read Only D1750 Reserved -32768 to 32767 41752 Read Only D1751 Reserved -32768 to 32767 41753 Read Only D1752 Reserved -32768 to 32767 41754 Read Only D1753 Reserved -32768 to 32767 41755 Read Only D1754 Reserved -32768 to 32767 41756 Read Only D1755 Reserved -32768 to 32767 41757 Read Only D1756 Reserved -32768 to 32767 41758 Read Only D1757 Reserved -32768 to 32767 41759 Read Only D1758 Reserved -32768 to 32767 41760 Read Only D1759 Reserved -32768 to 32767 41761 Read Only D1760 Reserved -32768 to 32767 41762 Read Only D1761 Reserved -32768 to 32767 41763 Read Only D1762 Reserved -32768 to 32767 41764 Read Only D1763 Reserved -32768 to 32767 41765 Read Only D1764 Reserved -32768 to 32767 41766 Read Only D1765 Reserved -32768 to 32767 41767 Read Only D1766 Reserved -32768 to 32767 41768 Read Only D1767 Reserved -32768 to 32767 41769 Read Only D1768 Reserved -32768 to 32767 41770 Read Only D1769 Reserved -32768 to 32767 41771 Read Only D1770 Reserved -32768 to 32767 41772 Read Only D1771 Reserved -32768 to 32767 41773 Read Only D1772 Reserved -32768 to 32767 41774 Read Only D1773 Reserved -32768 to 32767 41775 Read Only D1774 Reserved -32768 to 32767 41776 Read Only D1775 Reserved -32768 to 32767 41777 Read Only D1776 Reserved -32768 to 32767 41778 Read Only D1777 Reserved -32768 to 32767 41779 Read Only D1778 Reserved -32768 to 32767 41780 Read Only D1779 Reserved -32768 to 32767 41781 Read Only D1780 Reserved -32768 to 32767 41782 Read Only D1781 Reserved -32768 to 32767 41783 Read Only D1782 Reserved -32768 to 32767 41784 Read Only D1783 Reserved -32768 to 32767 41785 Read Only D1784 Reserved -32768 to 32767 41786 Read Only D1785 Reserved -32768 to 32767 41787 Read Only D1786 Reserved -32768 to 32767 41788 Read Only D1787 Reserved -32768 to 32767 41789 Read Only D1788 Reserved -32768 to 32767 41790 Read Only D1789 Reserved -32768 to 32767 41791 Read Only D1790 Reserved -32768 to 32767 41792 Read Only D1791 Reserved -32768 to 32767

QT108300

- 189 -

Holding Registers number 41793 to 41920 (Internal Word (16Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

41793 Read Only D1792 Reserved -32768 to 32767 41794 Read Only D1793 Reserved -32768 to 32767 41795 Read Only D1794 Reserved -32768 to 32767 41796 Read Only D1795 Reserved -32768 to 32767 41797 Read Only D1796 Reserved -32768 to 32767 41798 Read Only D1797 Reserved -32768 to 32767 41799 Read Only D1798 Reserved -32768 to 32767 41800 Read Only D1799 Reserved -32768 to 32767 41801 Read Only D1800 Reserved -32768 to 32767 41802 Read Only D1801 Reserved -32768 to 32767 41803 Read Only D1802 Reserved -32768 to 32767 41804 Read Only D1803 Reserved -32768 to 32767 41805 Read Only D1804 Reserved -32768 to 32767 41806 Read Only D1805 Reserved -32768 to 32767 41807 Read Only D1806 Reserved -32768 to 32767 41808 Read Only D1807 Reserved -32768 to 32767 41809 Read Only D1808 Reserved -32768 to 32767 41810 Read Only D1809 Reserved -32768 to 32767 41811 Read Only D1810 Reserved -32768 to 32767 41812 Read Only D1811 Reserved -32768 to 32767 41813 Read Only D1812 Reserved -32768 to 32767 41814 Read Only D1813 Reserved -32768 to 32767 41815 Read Only D1814 Reserved -32768 to 32767 41816 Read Only D1815 Reserved -32768 to 32767 41817 Read Only D1816 Reserved -32768 to 32767 41818 Read Only D1817 Reserved -32768 to 32767 41819 Read Only D1818 Reserved -32768 to 32767 41820 Read Only D1819 Reserved -32768 to 32767 41821 Read Only D1820 Reserved -32768 to 32767 41822 Read Only D1821 Reserved -32768 to 32767 41823 Read Only D1822 Reserved -32768 to 32767 41824 Read Only D1823 Reserved -32768 to 32767 41825 Read Only D1824 Reserved -32768 to 32767 41826 Read Only D1825 Reserved -32768 to 32767 41827 Read Only D1826 Reserved -32768 to 32767 41828 Read Only D1827 Reserved -32768 to 32767 41829 Read Only D1828 Reserved -32768 to 32767 41830 Read Only D1829 Reserved -32768 to 32767 41831 Read Only D1830 Reserved -32768 to 32767 41832 Read Only D1831 Reserved -32768 to 32767 41833 Read Only D1832 Reserved -32768 to 32767 41834 Read Only D1833 Reserved -32768 to 32767 41835 Read Only D1834 Reserved -32768 to 32767 41836 Read Only D1835 Reserved -32768 to 32767 41837 Read Only D1836 Reserved -32768 to 32767 41838 Read Only D1837 Reserved -32768 to 32767 41839 Read Only D1838 Reserved -32768 to 32767 41840 Read Only D1839 Reserved -32768 to 32767 41841 Read Only D1840 Reserved -32768 to 32767 41842 Read Only D1841 Reserved -32768 to 32767 41843 Read Only D1842 Reserved -32768 to 32767 41844 Read Only D1843 Reserved -32768 to 32767 41845 Read Only D1844 Reserved -32768 to 32767 41846 Read Only D1845 Reserved -32768 to 32767 41847 Read Only D1846 Reserved -32768 to 32767 41848 Read Only D1847 Reserved -32768 to 32767 41849 Read Only D1848 Reserved -32768 to 32767 41850 Read Only D1849 Reserved -32768 to 32767 41851 Read Only D1850 Reserved -32768 to 32767 41852 Read Only D1851 Reserved -32768 to 32767 41853 Read Only D1852 Reserved -32768 to 32767 41854 Read Only D1853 Reserved -32768 to 32767 41855 Read Only D1854 Reserved -32768 to 32767 41856 Read Only D1855 Reserved -32768 to 32767 41857 Read Only D1856 Reserved -32768 to 32767 41858 Read Only D1857 Reserved -32768 to 32767 41859 Read Only D1858 Reserved -32768 to 32767 41860 Read Only D1859 Reserved -32768 to 32767 41861 Read Only D1860 Reserved -32768 to 32767 41862 Read Only D1861 Reserved -32768 to 32767 41863 Read Only D1862 Reserved -32768 to 32767 41864 Read Only D1863 Reserved -32768 to 32767 41865 Read Only D1864 Reserved -32768 to 32767 41866 Read Only D1865 Reserved -32768 to 32767 41867 Read Only D1866 Reserved -32768 to 32767 41868 Read Only D1867 Reserved -32768 to 32767 41869 Read Only D1868 Reserved -32768 to 32767 41870 Read Only D1869 Reserved -32768 to 32767

QT108300

- 190 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

41871 Read Only D1870 Reserved -32768 to 32767 41872 Read Only D1871 Reserved -32768 to 32767 41873 Read Only D1872 Reserved -32768 to 32767 41874 Read Only D1873 Reserved -32768 to 32767 41875 Read Only D1874 Reserved -32768 to 32767 41876 Read Only D1875 Reserved -32768 to 32767 41877 Read Only D1876 Reserved -32768 to 32767 41878 Read Only D1877 Reserved -32768 to 32767 41879 Read Only D1878 Reserved -32768 to 32767 41880 Read Only D1879 Reserved -32768 to 32767 41881 Read Only D1880 Reserved -32768 to 32767 41882 Read Only D1881 Reserved -32768 to 32767 41883 Read Only D1882 Reserved -32768 to 32767 41884 Read Only D1883 Reserved -32768 to 32767 41885 Read Only D1884 Reserved -32768 to 32767 41886 Read Only D1885 Reserved -32768 to 32767 41887 Read Only D1886 Reserved -32768 to 32767 41888 Read Only D1887 Reserved -32768 to 32767 41889 Read Only D1888 Reserved -32768 to 32767 41890 Read Only D1889 Reserved -32768 to 32767 41891 Read Only D1890 Reserved -32768 to 32767 41892 Read Only D1891 Reserved -32768 to 32767 41893 Read Only D1892 Reserved -32768 to 32767 41894 Read Only D1893 Reserved -32768 to 32767 41895 Read Only D1894 Reserved -32768 to 32767 41896 Read Only D1895 Reserved -32768 to 32767 41897 Read Only D1896 Reserved -32768 to 32767 41898 Read Only D1897 Reserved -32768 to 32767 41899 Read Only D1898 Reserved -32768 to 32767 41900 Read Only D1899 Reserved -32768 to 32767 41901 Read Only D1900 Reserved -32768 to 32767 41902 Read Only D1901 Vi Ratio LM(n=2) Industrial Unit X 10^n 41903 Read Only D1902 Vi Ratio MH(n=2) Industrial Unit X 10^n 41904 Read Only D1903 Reserved -32768 to 32767 41905 Read Only D1904 Reserved -32768 to 32767 41906 Read Only D1905 Reserved -32768 to 32767 41907 Read Only D1906 Reserved -32768 to 32767 41908 Read Only D1907 Reserved -32768 to 32767 41909 Read Only D1908 Reserved -32768 to 32767 41910 Read Only D1909 Reserved -32768 to 32767 41911 Read Only D1910 Reserved -32768 to 32767 41912 Read Only D1911 Reserved -32768 to 32767 41913 Read Only D1912 Reserved -32768 to 32767 41914 Read Only D1913 Reserved -32768 to 32767 41915 Read Only D1914 Reserved -32768 to 32767 41916 Read Only D1915 Reserved -32768 to 32767 41917 Read Only D1916 Reserved -32768 to 32767 41918 Read Only D1917 Reserved -32768 to 32767 41919 Read Only D1918 Reserved -32768 to 32767 41920 Read Only D1919 Reserved -32768 to 32767

QT108300

- 191 -

Holding Registers number 41921 to 42048(Internal Word (16Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

41921 Read Only D1920 Reserved -32768 to 32767 41922 Read Only D1921 Reserved -32768 to 32767 41923 Read Only D1922 Reserved -32768 to 32767 41924 Read Only D1923 Reserved as

Buffer of Set Value

-32768 to 32767

41925 Read Only D1924 Reserved as Buffer of Set Value

-32768 to 32767

41926 Read Only D1925 Reserved as Buffer of Set Value

-32768 to 32767

41927 Read Only D1926 Reserved as Buffer of Set Value

-32768 to 32767

41928 Read Only D1927 Reserved as Buffer of Set Value

-32768 to 32767

41929 Read Only D1928 Reserved as Buffer of Set Value

-32768 to 32767

41930 Read Only D1929 Reserved as Buffer of Set Value

-32768 to 32767

41931 Read Only D1930 Reserved as Buffer of Set Value

-32768 to 32767

41932 Read Only D1931 Reserved as Buffer of Set Value

-32768 to 32767

41933 Read Only D1932 Reserved as Buffer of Set Value

-32768 to 32767

41934 Read Only D1933 Reserved as Buffer of Set Value

-32768 to 32767

41935 Read Only D1934 Reserved as Buffer of Set Value

-32768 to 32767

41936 Read Only D1935 Reserved as Buffer of Set Value

-32768 to 32767

41937 Read Only D1936 Reserved as Buffer of Set Value

-32768 to 32767

41938 Read Only D1937 Reserved as Buffer of Set Value

-32768 to 32767

41939 Read Only D1938 Reserved as Buffer of Set Value

-32768 to 32767

41940 Read Only D1939 Reserved as Buffer of Set Value

-32768 to 32767

41941 Read Only D1940 Reserved as Buffer of Set Value

-32768 to 32767

41942 Read Only D1941 Reserved as Buffer of Set Value

-32768 to 32767

41943 Read Only D1942 Reserved as Buffer of Set Value

-32768 to 32767

41944 Read Only D1943 Reserved as Buffer of Set Value

-32768 to 32767

41945 Read Only D1944 Reserved as Buffer of Set Value

-32768 to 32767

41946 Read Only D1945 Reserved as Buffer of Set Value

-32768 to 32767

41947 Read Only D1946 Reserved as Buffer of Set Value

-32768 to 32767

41948 Read Only D1947 Reserved as Buffer of Set Value

-32768 to 32767

41949 Read Only D1948 Reserved as Buffer of Set Value

-32768 to 32767

QT108300

- 192 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

41950 Read Only D1949 Reserved as Buffer of Set Value

-32768 to 32767

41951 Read Only D1950 Reserved as Buffer of Set Value

-32768 to 32767

41952 Read Only D1951 Reserved as Buffer of Set Value

-32768 to 32767

41953 Read Only D1952 Reserved as Buffer of Set Value

-32768 to 32767

41954 Read Only D1953 Reserved as Buffer of Set Value

-32768 to 32767

41955 Read Only D1954 Reserved as Buffer of Set Value

-32768 to 32767

41956 Read Only D1955 Reserved as Buffer of Set Value

-32768 to 32767

41957 Read Only D1956 Reserved as Buffer of Set Value

-32768 to 32767

41958 Read Only D1957 Reserved as Buffer of Set Value

-32768 to 32767

41959 Read Only D1958 Reserved as Buffer of Set Value

-32768 to 32767

41960 Read Only D1959 Reserved as Buffer of Set Value

-32768 to 32767

41961 Read Only D1960 Reserved as Buffer of Set Value

-32768 to 32767

41962 Read Only D1961 Reserved as Buffer of Set Value

-32768 to 32767

41963 Read Only D1962 Reserved as Buffer of Set Value

-32768 to 32767

41964 Read Only D1963 Reserved as Buffer of Set Value

-32768 to 32767

41965 Read Only D1964 Reserved as Buffer of Set Value

-32768 to 32767

41966 Read Only D1965 Reserved as Buffer of Set Value

-32768 to 32767

41967 Read Only D1966 Reserved as Buffer of Set Value

-32768 to 32767

41968 Read Only D1967 Reserved as Buffer of Set Value

-32768 to 32767

41969 Read Only D1968 Reserved as Buffer of Set Value

-32768 to 32767

41970 Read Only D1969 Reserved as Buffer of Set Value

-32768 to 32767

41971 Read Only D1970 Reserved as Buffer of Set Value

-32768 to 32767

41972 Read Write D1971 WEEK Set 0(SUN.) to 6(SAT.) 41973 Read Write D1972 MONTH Set 1 to 12 41974 Read Write D1973 DAY Set 1 to 31 41975 Read Write D1974 YEAR Set A.D. 4 Digits(2000 to

2099)

41976 Read Write D1975 HOUR Set 0 to 23 41977 Read Write D1976 MINUTE Set 0 to 59 41978 Read Write D1977 SECOND Set 0 to 59 41979 Read Only D1978 Process Value AI

channel Number 0 to 79 or -1 PID 1/16

41980 Read Only D1979 Process Value AI channel Number

0 to 79 or -1 PID 2/16

41981 Read Only D1980 Process Value AI channel Number

0 to 79 or -1 PID 3/16

41982 Read Only D1981 Process Value AI channel Number

0 to 79 or -1 PID 4/16

41983 Read Only D1982 Process Value AI channel Number

0 to 79 or -1 PID 5/16

QT108300

- 193 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

41984 Read Only D1983 Process Value AI channel Number

0 to 79 or -1 PID 6/16

41985 Read Only D1984 Process Value AI channel Number

0 to 79 or -1 PID 7/16

41986 Read Only D1985 Process Value AI channel Number

0 to 79 or -1 PID 8/16

41987 Read Only D1986 Process Value AI channel Number

0 to 79 or -1 PID 9/16

41988 Read Only D1987 Process Value AI channel Number

0 to 79 or -1 PID10/16

41989 Read Only D1988 Process Value AI channel Number

0 to 79 or -1 PID11/16

41990 Read Only D1989 Process Value AI channel Number

0 to 79 or -1 PID12/16

41991 Read Only D1990 Process Value AI channel Number

0 to 79 or -1 PID13/16

41992 Read Only D1991 Process Value AI channel Number

0 to 79 or -1 PID14/16

41993 Read Only D1992 Process Value AI channel Number

0 to 79 or -1 PID15/16

41994 Read Only D1993 Process Value AI channel Number

0 to 79 or -1 PID16/16

41995 Read Only D1994 PRESSURE INDICATION

0:MPa(Absolute) ,1:MPa(Gauge) ,2:kgf/cm2(Absolute) ,3:kgf/cm2(Gauge) ,4:Bar(Absolute) ,5:Bar(Gauge) ,6:PSI(Absoluter) ,(7):PSI(Gauge)

41996 Read Only D1995 TEMPERATURE INDICATION

0:KELVIN ,1:CELSIUS ,(2):FAHRENHEIT

41997 Read Only D1996 REFRIGERANT 0:R22 ,1:R23 ,2:R134a ,3:R404a ,4:R407 ,5:R410 ,6:R502 ,7:R507 ,(8):R717(NH3) ,9:R290(PROPANE) ,10:R744(CO2) ,11:USER DEFINED

41998 Read Only D1997 Reserved as APPLICATION TYPE

Always 0

41999 Read Only D1998 LANGUAGE (0):ENGLISH ,1:FRENCH ,2:GERMAN ,3:PORTUGUESE ,4:RUSSIAN ,5:SPANISH

42000 Read Only D1999 CONTROL PLATFORM

(0):NORTH AMERICA ,1:EUROPE ,2:ASIA 3:FACTORY

42001 Read Only D2000 COMPRESSOR START/STOP(Low Word)

Number STATUS Monitor START/STOP = (42001) + 65536 X (42002)

42002 Read Only D2001 COMPRESSOR START/STOP(High Word)

X 65536 Numbers STATUS Monitor

42003 Read Only D2002 RUN(Low Word) Second STATUS Monitor RUN = (42003) + 65536 X (42004)

42004 Read Only D2003 RUN(High Word) X 65536 Seconds STATUS Monitor 42005 Read Only D2004 STOP(Low Word) Second STATUS Monitor STOP = (42005) +

65536 X (42006) 42006 Read Only D2005 STOP(High Word) X 65536 Seconds STATUS Monitor 42007 Read Only D2006 TODAY(Low

Word) Second STATUS Monitor TODAY = (42007)

+ 65536 X (42008)42008 Read Only D2007 TODAY(High

Word) X 65536 Seconds STATUS Monitor

42009 Read Only D2008 RUN TIME(Low Word)

Hour STATUS Monitor RUN TIME = (42009) + 65536 X (42010)

42010 Read Only D2009 RUN TIME(High Word)

X 65536 Hours STATUS Monitor

42011 Read Only D2010 TOTAL RUN(Low Word)

Hour STATUS Monitor TOTAL RUN = (42011) + 65536 X (42012)

QT108300

- 194 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

42012 Read Only D2011 TOTAL RUN(High Word)

X 65536 Hours STATUS Monitor

42013 Read Only D2012 ALARM Status (0):NO ALARM-NO FAILURE ,1:ALARM-NO FAILURE2:NO ALARM-FAILURE,3:ALARM-FAILURE

STATUS Monitor

42014 Read Only D2013 D/O TEST MODE 0:NO,(1):YES STATUS Monitor 42015 Read Only D2014 COMPRESSOR

OPERATION MODE

(0):LOCAL-OFF ,1:LOCAL-ON ,2:REMOTE-OFF ,3REMOTE-ON ,4:COMM-OFF ,5:COMM-ON ,6:AUTO STAGE-OFF ,7:AUTO STAGE-ON

STATUS Monitor

42016 Read Only D2015 COMPRESSOR AUTO START/STOP

0:NO,(1):YES STATUS Monitor

42017 Read Only D2016 COMPRESSOR STATUS

(0):STOP ,1:ANTI CYCLE ,2:AUTO STOP ,3:CUT IN ,4:SYSTEM START 5:OIL PUMP START ,6:PRE START ,7:START ,8:RUN ,9:CUT OUT 10:PUMP OUT

STATUS Monitor

42018 Read Only D2017 Delay Timers to Time Up.

Seconds STATUS Monitor

42019 Read Only D2018 Current CUT IN Set Point(n=3 or 1)

Industrial Unit×10^n STATUS Monitor

42020 Read Only D2019 Current CUT OUT Set Point(n=3 or 1)

Industrial Unit×10^n STATUS Monitor

42021 Read Only D2020 Current SCHEDULE #

1 to 7 STATUS Monitor

42022 Read Only D2021 Current SET POINT #

1 to 4 STATUS Monitor

42023 Read Only D2022 Current(Low Stage)Slide Valve Pressure Set Point

Industrial Unit×10^n STATUS Monitor

42024 Read Only D2023 Current(Low Stage)Slide Valve Temperature Set Point

Industrial Unit×10^n STATUS Monitor

42025 Read Only D2024 (Low Stage)Slide Valve Controller PID OUT(MV)%

0 to 1000 STATUS Monitor

42026 Read Only D2025 (Low Stage)Positi1r Status

(0):LOAD-OFF/UNLOAD-OFF 1:LOAD-ON/UNLOAD-OFF ,2:LOAD-OFF/UNLOAD-ON

STATUS Monitor

42027 Read Only D2026 HIGH MA Limiter Status

(0):LIMIT-OFF/UNLOAD-OFF 1:LIMIT-ON/UNLOAD-OFF 2:LIMIT-OFF/UNLOAD-ON

STATUS Monitor

42028 Read Only D2027 HIGH DP Limiter Status

(0):LIMIT-OFF/UNLOAD-OFF 1:LIMIT-ON/UNLOAD-OFF 2:LIMIT-OFF/UNLOAD-ON

STATUS Monitor

42029 Read Only D2028 LOW SP Limiter Status

(0):LIMIT-OFF/UNLOAD-OFF 1:LIMIT-ON/UNLOAD-OFF 2:LIMIT-OFF/UNLOAD-ON

STATUS Monitor

42030 Read Only D2029 HIGH IP Limiter Status

(0):LIMIT-OFF/UNLOAD-OFF 1:LIMIT-ON/UNLOAD-OFF 2:LIMIT-OFF/UNLOAD-ON

STATUS Monitor

42031 Read Only D2030 High Stage Slide Valve Controller Set Point(n=2)

Industrial Unit×10^n STATUS Monitor

QT108300

- 195 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

42032 Read Only D2031 High Stage Slide Valve Controller PID OUT(MV)%

0 to 1000 STATUS Monitor

42033 Read Only D2032 High Stage Positi1r Status

(0):LOAD-OFF/UNLOAD-OFF 1:LOAD-ON/UNLOAD-OFF ,2:LOAD-OFF/UNLOAD-ON

STATUS Monitor

42034 Read Only D2033 COMM-1 Status (0):OFF-NEUTRAL ,1:ACTIVE-NEUTRAL ,2:OFF-ERROR ,3:ACTIVE-ERROR

STATUS Monitor

42035 Read Only D2034 COMM-2 Status (0):OFF-NEUTRAL ,1:ACTIVE-NEUTRAL ,2:OFF-ERROR ,3:ACTIVE-ERROR

STATUS Monitor

42036 Read Only D2035 COMM-3 Status (0):OFF-NEUTRAL ,1:ACTIVE-NEUTRAL ,2:OFF-ERROR ,3:ACTIVE-ERROR

STATUS Monitor

42037 Read Only D2036 COMM-0 Status (0):OFF-NEUTRAL ,1:ACTIVE-NEUTRAL ,2:OFF-ERROR ,3:ACTIVE-ERROR

STATUS Monitor

42038 Read Only D2037 VFD COMPRESSOR Revolution

RPM STATUS Monitor

42039 Read Only D2038 VFD CONDENSER Revolution

RPM STATUS Monitor

42040 Read Only D2039 Undefined STATUS Monitor 42041 Read Only D2040 Undefined STATUS Monitor 42042 Read Only D2041 Undefined STATUS Monitor 42043 Read Only D2042 Undefined STATUS Monitor 42044 Read Only D2043 Undefined STATUS Monitor 42045 Read Only D2044 Undefined STATUS Monitor 42046 Read Only D2045 Undefined STATUS Monitor 42047 Read Only D2046 Undefined STATUS Monitor 42048 Read Only D2047 Undefined STATUS Monitor

QT108300

- 196 -

Holding Registers number 42049 to 42176(Internal Word (16 Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

42049 Read Only D2048 Undefined STATUS Monitor 42050 Read Only D2049 Undefined STATUS Monitor 42051 Read Only D2050 OPTION

ANALOG INPUT1(n=0 to 3)

Industrial Unit X 10^n STATUS Monitor

42052 Read Only D2051 OPTION ANALOG INPUT2(n=0 to 3)

Industrial Unit X 10^n STATUS Monitor

42053 Read Only D2052 OPTION ANALOG INPUT3(n=0 to 3)

Industrial Unit X 10^n STATUS Monitor

42054 Read Only D2053 OPTION ANALOG INPUT4(n=0 to 3)

Industrial Unit X 10^n STATUS Monitor

42055 Read Only D2054 Undefined STATUS Monitor 42056 Read Only D2055 Undefined STATUS Monitor 42057 Read Only D2056 Undefined STATUS Monitor 42058 Read Only D2057 Undefined STATUS Monitor 42059 Read Only D2058 Undefined STATUS Monitor 42060 Read Only D2059 Undefined STATUS Monitor 42061 Read Only D2060 Undefined STATUS Monitor 42062 Read Only D2061 Undefined STATUS Monitor 42063 Read Only D2062 Undefined STATUS Monitor 42064 Read Only D2063 Undefined STATUS Monitor 42065 Read Only D2064 Undefined STATUS Monitor 42066 Read Only D2065 Undefined STATUS Monitor 42067 Read Only D2066 Undefined STATUS Monitor 42068 Read Only D2067 Undefined STATUS Monitor 42069 Read Only D2068 Undefined STATUS Monitor 42070 Read Only D2069 Undefined STATUS Monitor 42071 Read Only D2070 Undefined STATUS Monitor 42072 Read Only D2071 Undefined STATUS Monitor 42073 Read Only D2072 Undefined STATUS Monitor 42074 Read Only D2073 Undefined STATUS Monitor 42075 Read Only D2074 Undefined STATUS Monitor 42076 Read Only D2075 Undefined STATUS Monitor 42077 Read Only D2076 Undefined STATUS Monitor 42078 Read Only D2077 Undefined STATUS Monitor 42079 Read Only D2078 Undefined STATUS Monitor 42080 Read Only D2079 Undefined STATUS Monitor 42081 Read Only D2080 Undefined STATUS Monitor 42082 Read Only D2081 Undefined STATUS Monitor 42083 Read Only D2082 Undefined STATUS Monitor 42084 Read Only D2083 Undefined STATUS Monitor 42085 Read Only D2084 Undefined STATUS Monitor 42086 Read Only D2085 Undefined STATUS Monitor 42087 Read Only D2086 Undefined STATUS Monitor 42088 Read Only D2087 Undefined STATUS Monitor 42089 Read Only D2088 Undefined STATUS Monitor 42090 Read Only D2089 Undefined STATUS Monitor 42091 Read Only D2090 Undefined STATUS Monitor 42092 Read Only D2091 Undefined STATUS Monitor 42093 Read Only D2092 Undefined STATUS Monitor 42094 Read Only D2093 Undefined STATUS Monitor 42095 Read Only D2094 Undefined STATUS Monitor 42096 Read Only D2095 Undefined STATUS Monitor 42097 Read Only D2096 Undefined STATUS Monitor 42098 Read Only D2097 Undefined STATUS Monitor 42099 Read Only D2098 Undefined STATUS Monitor 42100 Read Only D2099 Undefined STATUS Monitor 42101 Read Only D2100 Reserved for AUTO STAGE calculation 42102 Read Only D2101 Reserved for AUTO STAGE calculation 42103 Read Only D2102 Reserved for AUTO STAGE calculation 42104 Read Only D2103 Reserved for AUTO STAGE calculation 42105 Read Only D2104 Reserved for AUTO STAGE calculation 42106 Read Only D2105 Reserved for AUTO STAGE calculation 42107 Read Only D2106 Reserved for AUTO STAGE calculation 42108 Read Only D2107 Reserved for AUTO STAGE calculation 42109 Read Only D2108 Reserved for AUTO STAGE calculation 42110 Read Only D2109 Reserved for AUTO STAGE calculation 42111 Read Only D2110 Reserved for AUTO STAGE calculation 42112 Read Only D2111 Reserved for AUTO STAGE calculation 42113 Read Only D2112 Reserved for AUTO STAGE calculation 42114 Read Only D2113 Reserved for AUTO STAGE calculation 42115 Read Only D2114 Reserved for AUTO STAGE calculation 42116 Read Only D2115 Reserved for AUTO STAGE calculation 42117 Read Only D2116 Reserved for AUTO STAGE calculation 42118 Read Only D2117 Reserved for AUTO STAGE calculation

QT108300

- 197 -

(continued)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

42119 Read Only D2118 Reserved for AUTO STAGE calculation 42120 Read Only D2119 Reserved for AUTO STAGE calculation 42121 Read Only D2120 Reserved for AUTO STAGE calculation 42122 Read Only D2121 Reserved for AUTO STAGE calculation 42123 Read Only D2122 Reserved for AUTO STAGE calculation 42124 Read Only D2123 Reserved for AUTO STAGE calculation 42125 Read Only D2124 Reserved for AUTO STAGE calculation 42126 Read Only D2125 Reserved for AUTO STAGE calculation 42127 Read Only D2126 Reserved for AUTO STAGE calculation 42128 Read Only D2127 Reserved for AUTO STAGE calculation 42129 Read Only D2128 Reserved for AUTO STAGE calculation 42130 Read Only D2129 Reserved for AUTO STAGE calculation 42131 Read Only D2130 Reserved for AUTO STAGE calculation 42132 Read Only D2131 Reserved for AUTO STAGE calculation 42133 Read Only D2132 Reserved for AUTO STAGE calculation 42134 Read Only D2133 Reserved for AUTO STAGE calculation 42135 Read Only D2134 Reserved for AUTO STAGE calculation 42136 Read Only D2135 Reserved for AUTO STAGE calculation 42137 Read Only D2136 Reserved for AUTO STAGE calculation 42138 Read Only D2137 Reserved for AUTO STAGE calculation 42139 Read Only D2138 Reserved for AUTO STAGE calculation 42140 Read Only D2139 Reserved for AUTO STAGE calculation 42141 Read Only D2140 Reserved for AUTO STAGE calculation 42142 Read Only D2141 Reserved for AUTO STAGE calculation 42143 Read Only D2142 Reserved for AUTO STAGE calculation 42144 Read Only D2143 Reserved for AUTO STAGE calculation 42145 Read Only D2144 Reserved for AUTO STAGE calculation 42146 Read Only D2145 Reserved for AUTO STAGE calculation 42147 Read Only D2146 Reserved for AUTO STAGE calculation 42148 Read Only D2147 Reserved for AUTO STAGE calculation 42149 Read Only D2148 Reserved for AUTO STAGE calculation 42150 Read Only D2149 Reserved for AUTO STAGE calculation 42151 Read Only D2150 Reserved for AUTO STAGE calculation 42152 Read Only D2151 Reserved for AUTO STAGE calculation 42153 Read Only D2152 Reserved for AUTO STAGE calculation 42154 Read Only D2153 Reserved for AUTO STAGE calculation 42155 Read Only D2154 Reserved for AUTO STAGE calculation 42156 Read Only D2155 Reserved for AUTO STAGE calculation 42157 Read Only D2156 Reserved for AUTO STAGE calculation 42158 Read Only D2157 Reserved for AUTO STAGE calculation 42159 Read Only D2158 Reserved for AUTO STAGE calculation 42160 Read Only D2159 Reserved for AUTO STAGE calculation 42161 Read Only D2160 Reserved for AUTO STAGE calculation 42162 Read Only D2161 Reserved for AUTO STAGE calculation 42163 Read Only D2162 Reserved for AUTO STAGE calculation 42164 Read Only D2163 Reserved for AUTO STAGE calculation 42165 Read Only D2164 Reserved for AUTO STAGE calculation 42166 Read Only D2165 Reserved for AUTO STAGE calculation 42167 Read Only D2166 Reserved for AUTO STAGE calculation 42168 Read Only D2167 Reserved for AUTO STAGE calculation 42169 Read Only D2168 Reserved for AUTO STAGE calculation 42170 Read Only D2169 Reserved for AUTO STAGE calculation 42171 Read Only D2170 Reserved for AUTO STAGE calculation 42172 Read Only D2171 Reserved for AUTO STAGE calculation 42173 Read Only D2172 Reserved for AUTO STAGE calculation 42174 Read Only D2173 Reserved for AUTO STAGE calculation 42175 Read Only D2174 Reserved for AUTO STAGE calculation 42176 Read Only D2175 Reserved for AUTO STAGE calculation

QT108300

- 198 -

Holding Registers number 42177 to 42200 (Internal Word (16Bits) Device can be monitored on F7: DIAGNOSTIC>8.READ

REGISTER.)

Register Number

Attribute Internal Word

Device Name Range Category

Sub Category

Note

42177 Read Only D2176 Reserved for AUTO STAGE calculation 42178 Read Only D2177 Reserved for AUTO STAGE calculation 42179 Read Only D2178 Reserved for AUTO STAGE calculation 42180 Read Only D2179 Reserved for AUTO STAGE calculation 42181 Read Only D2180 Reserved for AUTO STAGE calculation 42182 Read Only D2181 Reserved for AUTO STAGE calculation 42183 Read Only D2182 Reserved for AUTO STAGE calculation 42184 Read Only D2183 Reserved for AUTO STAGE calculation 42185 Read Only D2184 Reserved for AUTO STAGE calculation 42186 Read Only D2185 Reserved for AUTO STAGE calculation 42187 Read Only D2186 Reserved for AUTO STAGE calculation 42188 Read Only D2187 Reserved for AUTO STAGE calculation 42189 Read Only D2188 Reserved for AUTO STAGE calculation 42190 Read Only D2189 Reserved for AUTO STAGE calculation 42191 Read Only D2190 Reserved for AUTO STAGE calculation 42192 Read Only D2191 Reserved for AUTO STAGE calculation 42193 Read Only D2192 Reserved for AUTO STAGE calculation 42194 Read Only D2193 Reserved for AUTO STAGE calculation 42195 Read Only D2194 Reserved for AUTO STAGE calculation 42196 Read Only D2195 Reserved for AUTO STAGE calculation 42197 Read Only D2196 Reserved for AUTO STAGE calculation 42198 Read Only D2197 Reserved for AUTO STAGE calculation 42199 Read Only D2198 Reserved for AUTO STAGE calculation 42200 Read Only D2199 Reserved for AUTO STAGE calculation

QT108300

- 199 -

Coils number 00001 to 02624 can be read using MODBUS Function Code 01h (Read Coil Status).

Coils number 00513 to 00576 can be written using MODBUS Function Code 05h (Force Single Coil) or 0Fh (Force Multiple

Coils).

Coils number 00001 to 00128(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00001 Read Only Y0000h Compressor Start Real DI/O 00002 Read Only Y0001h Oil Pump Start Real DI/O 00003 Read Only Y0002h Low Stage Load SV Real DI/O 00004 Read Only Y0003h Low Stage Unload SV Real DI/O

Liquid Injection Supply SV 00005 Read Only Y0004h High Stage Load SV

Real DI/O

Liquid Injection YOSAKU SV 00006 Read Only Y0005h High Stage Unload SV

Real DI/O

Oil Heater Chiller Supply SV1of3(!NORTH AMERICA)

00007 Read Only Y0006h

J Economizer/Intercooler supply SV

Real DI/O

Economizer/Intercooler Supply SV

00008 Read Only Y0007h

J Vi Increase SV

Real DI/O

Oil Feed SV Oil Drain SV J Vi Decrease SV

00009 Read Only Y0008h

FM160 Oil Return SV

Real DI/O

00010 Read Only Y0009h Alarm/Failure Real DI/O 00011 Read Only X000Ah Emergency Stop Input Real DI/O 00012 Read Only X000Bh Compressor Motor Starter Read

Back Real DI/O

00013 Read Only X000Ch Interlock-1 Real DI/O 00014 Read Only X000Dh Interlock-2(Cooling Water Flow

SW) Real DI/O

Interlock-3(Process Flow SW) 00015 Read Only X000Eh J or FM160 Oil Level SW

Real DI/O

00016 Read Only X000Fh Remote Start/Stop Input Real DI/O Chiller Supply SV1of3 00017 Read Only Y0010h UD-V M Drain SV

Real DI/O

Chiller YOSAKU SV1of3 00018 Read Only Y0011h UD-V M Plug SV

Real DI/O

Chiller Pump Start 00019 Read Only Y0012h UD-V Bypass SV

Real DI/O

Starting Bypass SV 00020 Read Only Y0013h Hot Gas Bypass SV

Real DI/O

Economizer/Intercooler YOSAKU SV

00021 Read Only Y0014h

Oil Pump #2 Start

Real DI/O

00022 Read Only Y0015h Alarm Real DI/O

Chiller Supply SV2of3 00023 Read Only Y0016h UD-V LH Increase SV

Real DI/O

Chiller YOSAKU SV2of3 00024 Read Only Y0017h UD-V LH Decrease SV

Real DI/O

Condenser Out1of6 00025 Read Only Y0018h Auxiliary Start

Real DI/O

Condenser Out2of6 00026 Read Only Y0019h UD-V M Drain SV

Real DI/O

Condenser Out3of6 00027 Read Only Y001Ah UD-V M Plug SV

Real DI/O

Condenser Out4of6 UD-V Bypass SV

00028 Read Only Y001Bh

Liquid Injection YOSAKU SV #2

Real DI/O

Condenser Out5of6 UD-V LH Increase SV

00029 Read Only Y001Ch

Chiller Supply SV3of 3

Real DI/O

Condenser Out6of6 UD-V LH Decrease SV

00030 Read Only Y001Dh

Chiller YOSAKU SV3of 3

Real DI/O

00031 Read Only X001Eh Remote Load Input Real DI/O 00032 Read Only X001Fh Remote Unload Input Real DI/O 00033 Read Only Undefined Real DI/O 00034 Read Only Undefined Real DI/O 00035 Read Only Undefined Real DI/O 00036 Read Only Undefined Real DI/O 00037 Read Only Undefined Real DI/O 00038 Read Only Undefined Real DI/O 00039 Read Only Undefined Real DI/O 00040 Read Only Undefined Real DI/O 00041 Read Only Undefined Real DI/O 00042 Read Only Undefined Real DI/O 00043 Read Only Undefined Real DI/O 00044 Read Only Undefined Real DI/O 00045 Read Only Undefined Real DI/O

QT108300

- 200 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00046 Read Only Undefined Real DI/O 00047 Read Only Undefined Real DI/O 00048 Read Only Undefined Real DI/O 00049 Read Only Undefined Real DI/O 00050 Read Only Undefined Real DI/O 00051 Read Only Undefined Real DI/O 00052 Read Only Undefined Real DI/O 00053 Read Only Undefined Real DI/O 00054 Read Only Undefined Real DI/O 00055 Read Only Undefined Real DI/O 00056 Read Only Undefined Real DI/O 00057 Read Only Undefined Real DI/O 00058 Read Only Undefined Real DI/O 00059 Read Only Undefined Real DI/O 00060 Read Only Undefined Real DI/O 00061 Read Only Undefined Real DI/O 00062 Read Only Undefined Real DI/O 00063 Read Only Undefined Real DI/O 00064 Read Only Undefined Real DI/O 00065 Read Only Undefined Real DI/O 00066 Read Only Undefined Real DI/O 00067 Read Only Undefined Real DI/O 00068 Read Only Undefined Real DI/O 00069 Read Only Undefined Real DI/O 00070 Read Only Undefined Real DI/O 00071 Read Only Undefined Real DI/O 00072 Read Only Undefined Real DI/O 00073 Read Only Undefined Real DI/O 00074 Read Only Undefined Real DI/O 00075 Read Only Undefined Real DI/O 00076 Read Only Undefined Real DI/O 00077 Read Only Undefined Real DI/O 00078 Read Only Undefined Real DI/O 00079 Read Only Undefined Real DI/O 00080 Read Only Undefined Real DI/O 00081 Read Only Undefined Real DI/O 00082 Read Only Undefined Real DI/O 00083 Read Only Undefined Real DI/O 00084 Read Only Undefined Real DI/O 00085 Read Only Undefined Real DI/O 00086 Read Only Undefined Real DI/O 00087 Read Only Undefined Real DI/O 00088 Read Only Undefined Real DI/O 00089 Read Only Undefined Real DI/O 00090 Read Only Undefined Real DI/O 00091 Read Only Undefined Real DI/O 00092 Read Only Undefined Real DI/O 00093 Read Only Undefined Real DI/O 00094 Read Only Undefined Real DI/O 00095 Read Only Undefined Real DI/O 00096 Read Only Undefined Real DI/O 00097 Read Only Undefined Real DI/O 00098 Read Only Undefined Real DI/O 00099 Read Only Undefined Real DI/O 00100 Read Only Undefined Real DI/O 00101 Read Only Undefined Real DI/O 00102 Read Only Undefined Real DI/O 00103 Read Only Undefined Real DI/O 00104 Read Only Undefined Real DI/O 00105 Read Only Undefined Real DI/O 00106 Read Only Undefined Real DI/O 00107 Read Only Undefined Real DI/O 00108 Read Only Undefined Real DI/O 00109 Read Only Undefined Real DI/O 00110 Read Only Undefined Real DI/O 00111 Read Only Undefined Real DI/O 00112 Read Only Undefined Real DI/O 00113 Read Only Undefined Real DI/O 00114 Read Only Undefined Real DI/O 00115 Read Only Undefined Real DI/O 00116 Read Only Undefined Real DI/O 00117 Read Only Undefined Real DI/O 00118 Read Only Undefined Real DI/O 00119 Read Only Undefined Real DI/O 00120 Read Only Undefined Real DI/O 00121 Read Only Undefined Real DI/O 00122 Read Only Undefined Real DI/O 00123 Read Only Undefined Real DI/O 00124 Read Only Undefined Real DI/O 00125 Read Only Undefined Real DI/O 00126 Read Only Undefined Real DI/O 00127 Read Only Undefined Real DI/O 00128 Read Only Undefined Real DI/O

QT108300

- 201 -

Coils number 00129 to 00256(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00129 Read Only Y0080h Undefined Pseudo D/O ALARM 1/128 00130 Read Only Y0081h ⊿OP LOW Pseudo D/O ALARM 2/128 00131 Read Only Y0082h ⊿P LOW Pseudo D/O ALARM 3/128 00132 Read Only Y0083h DISCHAGE PRESSURE HIGH Pseudo D/O ALARM 4/128 00133 Read Only Y0084h DISCHAGE TEMPERATURE

HIGH Pseudo D/O ALARM 5/128

00134 Read Only Y0085h OIL TEMPERATURE HIGH Pseudo D/O ALARM 6/128 00135 Read Only Y0086h COMPRESSOR MOTOR

CURRENT HIGH Pseudo D/O ALARM 7/128

00136 Read Only Y0087h INTERMEDIATE PRESSURE HIGH

Pseudo D/O ALARM 8/128

00137 Read Only Y0088h SUCTION PRESSURE LOW Pseudo D/O ALARM 9/128 00138 Read Only Y0089h LEAVING BRINE

TEMPERATURE LOW Pseudo D/O ALARM 10/128

00139 Read Only Y008Ah CAPACITY NO DOWN Pseudo D/O ALARM 11/128 00140 Read Only Y008Bh SUCTION SUPERHEAT LOW Pseudo D/O ALARM 12/128 00141 Read Only Y008Ch OIL FILTER(⊿FP High) Pseudo D/O ALARM 13/128 00142 Read Only Y008Dh RE-START Pseudo D/O ALARM 14/128 00143 Read Only Y008Eh HIGH STAGE(No Down) Pseudo D/O ALARM 15/128 00144 Read Only Y008Fh INTERMEDIATE SUPERHEAT

LOW Pseudo D/O ALARM 16/128

00145 Read Only Y0090h ENTERING BRINETEMPERATURE LOW

Pseudo D/O ALARM 17/128

00146 Read Only Y0091h SEPARATOR OIL TEMPERATURE LOW

Pseudo D/O ALARM 18/128

00147 Read Only Y0092h ⊿OP2 LOW(for 400Series) Pseudo D/O ALARM 19/128 00148 Read Only Y0093h SUCTION SUPERHEAT2 LOW Pseudo D/O ALARM 20/128 00149 Read Only Y0094h AUTO VI SLIDE Pseudo D/O ALARM 21/128 00150 Read Only Y0095h FINE FILTER(⊿Fine Filter

Pressure High) Pseudo D/O ALARM 22/128

00151 Read Only Y0096h DISCHARGE SUPERHEAT LOW

Pseudo D/O ALARM 23/128

00152 Read Only Y0097h SUCTION PRESSURE HIGH Pseudo D/O ALARM 24/128 00153 Read Only Y0098h SUCTION TEMPERATURE

HIGH Pseudo D/O ALARM 25/128

00154 Read Only Y0099h CHILLER LIQUID LEVEL LOW Pseudo D/O ALARM 26/128 00155 Read Only Y009Ah Undefined Pseudo D/O ALARM 27/128 00156 Read Only Y009Bh Undefined Pseudo D/O ALARM 28/128 00157 Read Only Y009Ch Undefined Pseudo D/O ALARM 29/128 00158 Read Only Y009Dh Undefined Pseudo D/O ALARM 30/128 00159 Read Only Y009Eh Undefined Pseudo D/O ALARM 31/128 00160 Read Only Y009Fh Undefined Pseudo D/O ALARM 32/128 00161 Read Only Y00A0h AUTO STAGE NO

REQUEST(SLAVE Only) Pseudo D/O ALARM 33/128

00162 Read Only Y00A1h AUTO STAGE LIST1 NO RESPONSE(MASTER Only)

Pseudo D/O ALARM 34/128

00163 Read Only Y00A2h AUTO STAGE LIST2 NO RESPONSE(MASTER Only)

Pseudo D/O ALARM 35/128

00164 Read Only Y00A3h AUTO STAGE LIST3 NO RESPONSE(MASTER Only)

Pseudo D/O ALARM 36/128

00165 Read Only Y00A4h AUTO STAGE LIST4 NO RESPONSE(MASTER Only)

Pseudo D/O ALARM 37/128

00166 Read Only Y00A5h AUTO STAGE LIST5 NO RESPONSE(MASTER Only)

Pseudo D/O ALARM 38/128

00167 Read Only Y00A6h AUTO STAGE LIST6 NO RESPONSE(MASTER Only)

Pseudo D/O ALARM 39/128

00168 Read Only Y00A7h AUTO STAGE LIST7 NO RESPONSE(MASTER Only)

Pseudo D/O ALARM 40/128

00169 Read Only Y00A8h AUTO STAGE LIST8 NO RESPONSE(MASTER Only)

Pseudo D/O ALARM 41/128

00170 Read Only Y00A9h OPTION ANALOG INPUT1 LOW

Pseudo D/O ALARM 42/128

00171 Read Only Y00AAh OPTION ANALOG INPUT1 HIGH

Pseudo D/O ALARM 43/128

00172 Read Only Y00ABh OPTION ANALOG INPUT2 LOW

Pseudo D/O ALARM 44/128

00173 Read Only Y00ACh OPTION ANALOG INPUT2 HIGH

Pseudo D/O ALARM 45/128

00174 Read Only Y00ADh OPTION ANALOG INPUT3 LOW

Pseudo D/O ALARM 46/128

00175 Read Only Y00AEh OPTION ANALOG INPUT3 HIGH

Pseudo D/O ALARM 47/128

00176 Read Only Y00AFh OPTION ANALOG INPUT4 LOW

Pseudo D/O ALARM 48/128

00177 Read Only Y00B0h OPTION ANALOG INPUT4 HIGH

Pseudo D/O ALARM 49/128

00178 Read Only Y00B1h Undefined Pseudo D/O ALARM 50/128 00179 Read Only Y00B2h Undefined Pseudo D/O ALARM 51/128 00180 Read Only Y00B3h Undefined Pseudo D/O ALARM 52/128 00181 Read Only Y00B4h Undefined Pseudo D/O ALARM 53/128 00182 Read Only Y00B5h Undefined Pseudo D/O ALARM 54/128 00183 Read Only Y00B6h Undefined Pseudo D/O ALARM 55/128

QT108300

- 202 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00184 Read Only Y00B7h Undefined Pseudo D/O ALARM 56/128 00185 Read Only Y00B8h Undefined Pseudo D/O ALARM 57/128 00186 Read Only Y00B9h Undefined Pseudo D/O ALARM 58/128 00187 Read Only Y00BAh Undefined Pseudo D/O ALARM 59/128 00188 Read Only Y00BBh Undefined Pseudo D/O ALARM 60/128 00189 Read Only Y00BCh Undefined Pseudo D/O ALARM 61/128 00190 Read Only Y00BDh Undefined Pseudo D/O ALARM 62/128 00191 Read Only Y00BEh Undefined Pseudo D/O ALARM 63/128 00192 Read Only Y00BFh Undefined Pseudo D/O ALARM 64/128 00193 Read Only Y00C0h Undefined Pseudo D/O ALARM 65/128 00194 Read Only Y00C1h Undefined Pseudo D/O ALARM 66/128 00195 Read Only Y00C2h Undefined Pseudo D/O ALARM 67/128 00196 Read Only Y00C3h Undefined Pseudo D/O ALARM 68/128 00197 Read Only Y00C4h Undefined Pseudo D/O ALARM 69/128 00198 Read Only Y00C5h Undefined Pseudo D/O ALARM 70/128 00199 Read Only Y00C6h Undefined Pseudo D/O ALARM 71/128 00200 Read Only Y00C7h Undefined Pseudo D/O ALARM 72/128 00201 Read Only Y00C8h Undefined Pseudo D/O ALARM 73/128 00202 Read Only Y00C9h Undefined Pseudo D/O ALARM 74/128 00203 Read Only Y00CAh Undefined Pseudo D/O ALARM 75/128 00204 Read Only Y00CBh Undefined Pseudo D/O ALARM 76/128 00205 Read Only Y00CCh Undefined Pseudo D/O ALARM 77/128 00206 Read Only Y00CDh Undefined Pseudo D/O ALARM 78/128 00207 Read Only Y00CEh Undefined Pseudo D/O ALARM 79/128 00208 Read Only Y00CFh Undefined Pseudo D/O ALARM 80/128 00209 Read Only Y00D0h Undefined Pseudo D/O ALARM 81/128 00210 Read Only Y00D1h Undefined Pseudo D/O ALARM 82/128 00211 Read Only Y00D2h Undefined Pseudo D/O ALARM 83/128 00212 Read Only Y00D3h Undefined Pseudo D/O ALARM 84/128 00213 Read Only Y00D4h Undefined Pseudo D/O ALARM 85/128 00214 Read Only Y00D5h Undefined Pseudo D/O ALARM 86/128 00215 Read Only Y00D6h Undefined Pseudo D/O ALARM 87/128 00216 Read Only Y00D7h Undefined Pseudo D/O ALARM 88/128 00217 Read Only Y00D8h Undefined Pseudo D/O ALARM 89/128 00218 Read Only Y00D9h Undefined Pseudo D/O ALARM 90/128 00219 Read Only Y00DAh Undefined Pseudo D/O ALARM 91/128 00220 Read Only Y00DBh Undefined Pseudo D/O ALARM 92/128 00221 Read Only Y00DCh Undefined Pseudo D/O ALARM 93/128 00222 Read Only Y00DDh Undefined Pseudo D/O ALARM 94/128 00223 Read Only Y00DEh Undefined Pseudo D/O ALARM 95/128 00224 Read Only Y00DFh Undefined Pseudo D/O ALARM 96/128 00225 Read Only Y00E0h Undefined Pseudo D/O ALARM 97/128 00226 Read Only Y00E1h Undefined Pseudo D/O ALARM 98/128 00227 Read Only Y00E2h Undefined Pseudo D/O ALARM 99/128 00228 Read Only Y00E3h Undefined Pseudo D/O ALARM 100/128 00229 Read Only Y00E4h Undefined Pseudo D/O ALARM 101/128 00230 Read Only Y00E5h Undefined Pseudo D/O ALARM 102/128 00231 Read Only Y00E6h Undefined Pseudo D/O ALARM 103/128 00232 Read Only Y00E7h Undefined Pseudo D/O ALARM 104/128 00233 Read Only Y00E8h Undefined Pseudo D/O ALARM 105/128 00234 Read Only Y00E9h Undefined Pseudo D/O ALARM 106/128 00235 Read Only Y00EAh Undefined Pseudo D/O ALARM 107/128 00236 Read Only Y00EBh Undefined Pseudo D/O ALARM 108/128 00237 Read Only Y00ECh Undefined Pseudo D/O ALARM 109/128 00238 Read Only Y00EDh Undefined Pseudo D/O ALARM 110/128 00239 Read Only Y00EEh Undefined Pseudo D/O ALARM 111/128 00240 Read Only Y00EFh Undefined Pseudo D/O ALARM 112/128 00241 Read Only Y00F0h Undefined Pseudo D/O ALARM 113/128 00242 Read Only Y00F1h Undefined Pseudo D/O ALARM 114/128 00243 Read Only Y00F2h Undefined Pseudo D/O ALARM 115/128 00244 Read Only Y00F3h Undefined Pseudo D/O ALARM 116/128 00245 Read Only Y00F4h Undefined Pseudo D/O ALARM 117/128 00246 Read Only Y00F5h Undefined Pseudo D/O ALARM 118/128 00247 Read Only Y00F6h Undefined Pseudo D/O ALARM 119/128 00248 Read Only Y00F7h Undefined Pseudo D/O ALARM 120/128 00249 Read Only Y00F8h Undefined Pseudo D/O ALARM 121/128 00250 Read Only Y00F9h Undefined Pseudo D/O ALARM 122/128 00251 Read Only Y00FAh Undefined Pseudo D/O ALARM 123/128 00252 Read Only Y00FBh Undefined Pseudo D/O ALARM 124/128 00253 Read Only Y00FCh Undefined Pseudo D/O ALARM 125/128 00254 Read Only Y00FDh Undefined Pseudo D/O ALARM 126/128 00255 Read Only Y00FEh Undefined Pseudo D/O ALARM 127/128 00256 Read Only Y00FFh Undefined Pseudo D/O ALARM 128/128

QT108300

- 203 -

Coils number 00257 to 00384(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00257 Read Only Y0100h Start Fail Pseudo D/O FAILURE 1/128 00258 Read Only Y0101h ⊿OP LOW Pseudo D/O FAILURE 2/128 00259 Read Only Y0102h ⊿P LOW Pseudo D/O FAILURE 3/128 00260 Read Only Y0103h DISCHARGE PRESSURE

HIGH Pseudo D/O FAILURE 4/128

00261 Read Only Y0104h DISCHARGE TEMPERATURE HIGH

Pseudo D/O FAILURE 5/128

00262 Read Only Y0105h OIL TEMPERATURE HIGH Pseudo D/O FAILURE 6/128 00263 Read Only Y0106h COMPRESSOR MOTOR

ELECTRIC CURRENT HIGH Pseudo D/O FAILURE 7/128

00264 Read Only Y0107h OIL FILTER(⊿FP High) Pseudo D/O FAILURE 8/128 00265 Read Only Y0108h INTERLOCK-2 Pseudo D/O FAILURE 9/128 00266 Read Only Y0109h EMERGENCY STOP Pseudo D/O FAILURE 10/128 00267 Read Only Y010Ah OIL LEVEL LOW Pseudo D/O FAILURE 11/128 00268 Read Only Y010Bh FINE FILTER(⊿Fine Filter

Pressure High) Pseudo D/O FAILURE 12/128

00269 Read Only Y010Ch INTERMEDIATE PRESSURE HIGH

Pseudo D/O FAILURE 13/128

00270 Read Only Y010Dh INTERLOCK Pseudo D/O FAILURE 14/128 00271 Read Only Y010Eh LEAVING BRINE

TEMPERATURE LOW Pseudo D/O FAILURE 15/128

00272 Read Only Y010Fh INTERLOCK-3 Pseudo D/O FAILURE 16/128 00273 Read Only Y0110h SUCTION PRESSURE LOW Pseudo D/O FAILURE 17/128 00274 Read Only Y0111h SUCTION PRESSURE OVER

RANGE Pseudo D/O FAILURE 18/128

00275 Read Only Y0112h DISCHAGE PRESSURE UNDER RANGE

Pseudo D/O FAILURE 19/128

00276 Read Only Y0113h OIL SUPPLY PRESSURE OVER RANGE

Pseudo D/O FAILURE 20/128

00277 Read Only Y0114h AFTER FILTER PRESSURE OVER RANGE

Pseudo D/O FAILURE 21/128

00278 Read Only Y0115h SUCTION TEMPERATURE UNDER/OVER RANGE

Pseudo D/O FAILURE 22/128

00279 Read Only Y0116h DISCHARGE TEMPERATURE UNDER RANGE

Pseudo D/O FAILURE 23/128

00280 Read Only Y0117h OIL SUPPLY TEMPERATURE UNDER RANGE

Pseudo D/O FAILURE 24/128

00281 Read Only Y0118h INTERMEDIATE PRESSURE UNDER RANGE

Pseudo D/O FAILURE 25/128

00282 Read Only Y0119h INTERMEDIATE TEMPERATURE UNDER/OVER RANGE

Pseudo D/O FAILURE 26/128

00283 Read Only Y011Ah COMPRESSOR MOTOR CURRENT UNDER RANGE

Pseudo D/O FAILURE 27/128

00284 Read Only Y011Bh LEAVING BRINE TEMPERATURE OVER RANGE

Pseudo D/O FAILURE 28/128

00285 Read Only Y011Ch LOW SLIDE VALVE POSITION UNDER/OVER RANGE

Pseudo D/O FAILURE 29/128

00286 Read Only Y011Dh HIGH SLIDE VALVE POSITION UNDER/OVER RANGE

Pseudo D/O FAILURE 30/128

00287 Read Only Y011Eh CHILLER GAS TEMPERATURE1&2 UNDER/OVER RANGE

Pseudo D/O FAILURE 31/128

00288 Read Only Y011Fh SUCTION PRESSURE1&2 UNDER/OVER RANGE

Pseudo D/O FAILURE 32/128

00289 Read Only Y0120h Undefined Pseudo D/O FAILURE 33/128 00290 Read Only Y0121h SUCTION SUPERHEAT LOW Pseudo D/O FAILURE 34/128 00291 Read Only Y0122h SUCTION SUPERHEAT2 LOW Pseudo D/O FAILURE 35/128 00292 Read Only Y0123h SUCTION PRESSURE HIGH Pseudo D/O FAILURE 36/128 00293 Read Only Y0124h SUCTION TEMPERATURE

HIGH Pseudo D/O FAILURE 37/128

00294 Read Only Y0125h Undefined Pseudo D/O FAILURE 38/128 00295 Read Only Y0126h Undefined Pseudo D/O FAILURE 39/128 00296 Read Only Y0127h Undefined Pseudo D/O FAILURE 40/128 00297 Read Only Y0128h Undefined Pseudo D/O FAILURE 41/128 00298 Read Only Y0129h OPTION ANALOG INPUT1

LOW Pseudo D/O FAILURE 42/128

00299 Read Only Y012Ah OPTION ANALOG INPUT1 HIGH

Pseudo D/O FAILURE 43/128

00300 Read Only Y012Bh OPTION ANALOG INPUT2 LOW

Pseudo D/O FAILURE 44/128

00301 Read Only Y012Ch OPTION ANALOG INPUT2 HIGH

Pseudo D/O FAILURE 45/128

00302 Read Only Y012Dh OPTION ANALOG INPUT3 LOW

Pseudo D/O FAILURE 46/128

00303 Read Only Y012Eh OPTION ANALOG INPUT3 HIGH

Pseudo D/O FAILURE 47/128

00304 Read Only Y012Fh OPTION ANALOG INPUT4 LOW

Pseudo D/O FAILURE 48/128

00305 Read Only Y0130h OPTION ANALOG INPUT4 HIGH

Pseudo D/O FAILURE 49/128

QT108300

- 204 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00306 Read Only Y0131h Undefined Pseudo D/O FAILURE 50/128 00307 Read Only Y0132h Undefined Pseudo D/O FAILURE 51/128 00308 Read Only Y0133h Undefined Pseudo D/O FAILURE 52/128 00309 Read Only Y0134h Undefined Pseudo D/O FAILURE 53/128 00310 Read Only Y0135h Undefined Pseudo D/O FAILURE 54/128 00311 Read Only Y0136h Undefined Pseudo D/O FAILURE 55/128 00312 Read Only Y0137h Undefined Pseudo D/O FAILURE 56/128 00313 Read Only Y0138h Undefined Pseudo D/O FAILURE 57/128 00314 Read Only Y0139h Undefined Pseudo D/O FAILURE 58/128 00315 Read Only Y013Ah Undefined Pseudo D/O FAILURE 59/128 00316 Read Only Y013Bh Undefined Pseudo D/O FAILURE 60/128 00317 Read Only Y013Ch Undefined Pseudo D/O FAILURE 61/128 00318 Read Only Y013Dh Undefined Pseudo D/O FAILURE 62/128 00319 Read Only Y013Eh Undefined Pseudo D/O FAILURE 63/128 00320 Read Only Y013Fh Undefined Pseudo D/O FAILURE 64/128 00321 Read Only Y0140h Undefined Pseudo D/O FAILURE 65/128 00322 Read Only Y0141h Undefined Pseudo D/O FAILURE 66/128 00323 Read Only Y0142h Undefined Pseudo D/O FAILURE 67/128 00324 Read Only Y0143h Undefined Pseudo D/O FAILURE 68/128 00325 Read Only Y0144h Undefined Pseudo D/O FAILURE 69/128 00326 Read Only Y0145h Undefined Pseudo D/O FAILURE 70/128 00327 Read Only Y0146h Undefined Pseudo D/O FAILURE 71/128 00328 Read Only Y0147h Undefined Pseudo D/O FAILURE 72/128 00329 Read Only Y0148h Undefined Pseudo D/O FAILURE 73/128 00330 Read Only Y0149h Undefined Pseudo D/O FAILURE 74/128 00331 Read Only Y014Ah Undefined Pseudo D/O FAILURE 75/128 00332 Read Only Y014Bh Undefined Pseudo D/O FAILURE 76/128 00333 Read Only Y014Ch Undefined Pseudo D/O FAILURE 77/128 00334 Read Only Y014Dh Undefined Pseudo D/O FAILURE 78/128 00335 Read Only Y014Eh Undefined Pseudo D/O FAILURE 79/128 00336 Read Only Y014Fh Undefined Pseudo D/O FAILURE 80/128 00337 Read Only Y0150h Undefined Pseudo D/O FAILURE 81/128 00338 Read Only Y0151h Undefined Pseudo D/O FAILURE 82/128 00339 Read Only Y0152h Undefined Pseudo D/O FAILURE 83/128 00340 Read Only Y0153h Undefined Pseudo D/O FAILURE 84/128 00341 Read Only Y0154h Undefined Pseudo D/O FAILURE 85/128 00342 Read Only Y0155h Undefined Pseudo D/O FAILURE 86/128 00343 Read Only Y0156h Undefined Pseudo D/O FAILURE 87/128 00344 Read Only Y0157h Undefined Pseudo D/O FAILURE 88/128 00345 Read Only Y0158h Undefined Pseudo D/O FAILURE 89/128 00346 Read Only Y0159h Undefined Pseudo D/O FAILURE 90/128 00347 Read Only Y015Ah Undefined Pseudo D/O FAILURE 91/128 00348 Read Only Y015Bh Undefined Pseudo D/O FAILURE 92/128 00349 Read Only Y015Ch Undefined Pseudo D/O FAILURE 93/128 00350 Read Only Y015Dh Undefined Pseudo D/O FAILURE 94/128 00351 Read Only Y015Eh Undefined Pseudo D/O FAILURE 95/128 00352 Read Only Y015Fh Undefined Pseudo D/O FAILURE 96/128 00353 Read Only Y0160h Undefined Pseudo D/O FAILURE 97/128 00354 Read Only Y0161h Undefined Pseudo D/O FAILURE 98/128 00355 Read Only Y0162h Undefined Pseudo D/O FAILURE 99/128 00356 Read Only Y0163h Undefined Pseudo D/O FAILURE 100/128 00357 Read Only Y0164h Undefined Pseudo D/O FAILURE 101/128 00358 Read Only Y0165h Undefined Pseudo D/O FAILURE 102/128 00359 Read Only Y0166h Undefined Pseudo D/O FAILURE 103/128 00360 Read Only Y0167h Undefined Pseudo D/O FAILURE 104/128 00361 Read Only Y0168h Undefined Pseudo D/O FAILURE 105/128 00362 Read Only Y0169h Undefined Pseudo D/O FAILURE 106/128 00363 Read Only Y016Ah Undefined Pseudo D/O FAILURE 107/128 00364 Read Only Y016Bh Undefined Pseudo D/O FAILURE 108/128 00365 Read Only Y016Ch Undefined Pseudo D/O FAILURE 109/128 00366 Read Only Y016Dh Undefined Pseudo D/O FAILURE 110/128 00367 Read Only Y016Eh Undefined Pseudo D/O FAILURE 111/128 00368 Read Only Y016Fh Undefined Pseudo D/O FAILURE 112/128 00369 Read Only Y0170h Undefined Pseudo D/O FAILURE 113/128 00370 Read Only Y0171h Undefined Pseudo D/O FAILURE 114/128 00371 Read Only Y0172h Undefined Pseudo D/O FAILURE 115/128 00372 Read Only Y0173h Undefined Pseudo D/O FAILURE 116/128 00373 Read Only Y0174h Undefined Pseudo D/O FAILURE 117/128 00374 Read Only Y0175h Undefined Pseudo D/O FAILURE 118/128 00375 Read Only Y0176h Undefined Pseudo D/O FAILURE 119/128 00376 Read Only Y0177h Undefined Pseudo D/O FAILURE 120/128 00377 Read Only Y0178h Undefined Pseudo D/O FAILURE 121/128 00378 Read Only Y0179h Undefined Pseudo D/O FAILURE 122/128 00379 Read Only Y017Ah Undefined Pseudo D/O FAILURE 123/128 00380 Read Only Y017Bh Undefined Pseudo D/O FAILURE 124/128 00381 Read Only Y017Ch Undefined Pseudo D/O FAILURE 125/128 00382 Read Only Y017Dh Undefined Pseudo D/O FAILURE 126/128 00383 Read Only Y017Eh Undefined Pseudo D/O FAILURE 127/128 00384 Read Only Y017Fh Undefined Pseudo D/O FAILURE 128/128

QT108300

- 205 -

Coils number 00385 to 00512(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00385 Read Only X00C0h Undefined Pseudo D/I MODE 1/64 00386 Read Only X00C1h Undefined Pseudo D/I MODE 2/64 00387 Read Only X00C2h Undefined Pseudo D/I MODE 3/64 00388 Read Only X00C3h Undefined Pseudo D/I MODE 4/64 00389 Read Only X00C4h Undefined Pseudo D/I MODE 5/64 00390 Read Only X00C5h Undefined Pseudo D/I MODE 6/64 00391 Read Only X00C6h Undefined Pseudo D/I MODE 7/64 00392 Read Only X00C7h Undefined Pseudo D/I MODE 8/64 00393 Read Only X00C8h Undefined Pseudo D/I MODE 9/64 00394 Read Only X00C9h Undefined Pseudo D/I MODE 10/64 00395 Read Only X00CAh Undefined Pseudo D/I MODE 11/64 00396 Read Only X00CBh Undefined Pseudo D/I MODE 12/64 00397 Read Only X00CCh Undefined Pseudo D/I MODE 13/64 00398 Read Only X00CDh Undefined Pseudo D/I MODE 14/64 00399 Read Only X00CEh Undefined Pseudo D/I MODE 15/64 00400 Read Only X00CFh Undefined Pseudo D/I MODE 16/64 00401 Read Only X00D0h Undefined Pseudo D/I MODE 17/64 00402 Read Only X00D1h Undefined Pseudo D/I MODE 18/64 00403 Read Only X00D2h Undefined Pseudo D/I MODE 19/64 00404 Read Only X00D3h Undefined Pseudo D/I MODE 20/64 00405 Read Only X00D4h Undefined Pseudo D/I MODE 21/64 00406 Read Only X00D5h Undefined Pseudo D/I MODE 22/64 00407 Read Only X00D6h Undefined Pseudo D/I MODE 23/64 00408 Read Only X00D7h Undefined Pseudo D/I MODE 24/64 00409 Read Only X00D8h Undefined Pseudo D/I MODE 25/64 00410 Read Only X00D9h Undefined Pseudo D/I MODE 26/64 00411 Read Only X00DAh Undefined Pseudo D/I MODE 27/64 00412 Read Only X00DBh Undefined Pseudo D/I MODE 28/64 00413 Read Only X00DCh Undefined Pseudo D/I MODE 29/64 00414 Read Only X00DDh Undefined Pseudo D/I MODE 30/64 00415 Read Only X00DEh Undefined Pseudo D/I MODE 31/64 00416 Read Only X00DFh Undefined Pseudo D/I MODE 32/64 00417 Read Only X00E0h Undefined Pseudo D/I MODE 33/64 00418 Read Only X00E1h Undefined Pseudo D/I MODE 34/64 00419 Read Only X00E2h Undefined Pseudo D/I MODE 35/64 00420 Read Only X00E3h Undefined Pseudo D/I MODE 36/64 00421 Read Only X00E4h Undefined Pseudo D/I MODE 37/64 00422 Read Only X00E5h Undefined Pseudo D/I MODE 38/64 00423 Read Only X00E6h Undefined Pseudo D/I MODE 39/64 00424 Read Only X00E7h Undefined Pseudo D/I MODE 40/64 00425 Read Only X00E8h Undefined Pseudo D/I MODE 41/64 00426 Read Only X00E9h Undefined Pseudo D/I MODE 42/64 00427 Read Only X00EAh Undefined Pseudo D/I MODE 43/64 00428 Read Only X00EBh Undefined Pseudo D/I MODE 44/64 00429 Read Only X00ECh Undefined Pseudo D/I MODE 45/64 00430 Read Only X00EDh Undefined Pseudo D/I MODE 46/64 00431 Read Only X00EEh Undefined Pseudo D/I MODE 47/64 00432 Read Only X00EFh Undefined Pseudo D/I MODE 48/64 00433 Read Only X00F0h Undefined Pseudo D/I MODE 49/64 00434 Read Only X00F1h Undefined Pseudo D/I MODE 50/64 00435 Read Only X00F2h Undefined Pseudo D/I MODE 51/64 00436 Read Only X00F3h Undefined Pseudo D/I MODE 52/64 00437 Read Only X00F4h Undefined Pseudo D/I MODE 53/64 00438 Read Only X00F5h Undefined Pseudo D/I MODE 54/64 00439 Read Only X00F6h Undefined Pseudo D/I MODE 55/64 00440 Read Only X00F7h Undefined Pseudo D/I MODE 56/64 00441 Read Only X00F8h Undefined Pseudo D/I MODE 57/64 00442 Read Only X00F9h Undefined Pseudo D/I MODE 58/64 00443 Read Only X00FAh Undefined Pseudo D/I MODE 59/64 00444 Read Only X00FBh Undefined Pseudo D/I MODE 60/64 00445 Read Only X00FCh Undefined Pseudo D/I MODE 61/64 00446 Read Only X00FDh Undefined Pseudo D/I MODE 62/64 00447 Read Only X00FEh Undefined Pseudo D/I MODE 63/64 00448 Read Only X00FFh Undefined Pseudo D/I MODE 64/64 00449 Read Only X0100h Undefined Pseudo D/I CONFIGURATION

1/64

00450 Read Only X0101h Undefined Pseudo D/I CONFIGURATION 2/64

00451 Read Only X0102h Undefined Pseudo D/I CONFIGURATION 3/64

00452 Read Only X0103h Undefined Pseudo D/I CONFIGURATION 4/64

00453 Read Only X0104h Undefined Pseudo D/I CONFIGURATION 5/64

00454 Read Only X0105h Undefined Pseudo D/I CONFIGURATION 6/64

00455 Read Only X0106h Undefined Pseudo D/I CONFIGURATION 7/64

00456 Read Only X0107h Undefined Pseudo D/I CONFIGURATION 8/64

00457 Read Only X0108h Undefined Pseudo D/I CONFIGURATION 9/64

QT108300

- 206 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00458 Read Only X0109h Undefined Pseudo D/I CONFIGURATION 10/64

00459 Read Only X010Ah Undefined Pseudo D/I CONFIGURATION 11/64

00460 Read Only X010Bh Undefined Pseudo D/I CONFIGURATION 12/64

00461 Read Only X010Ch Undefined Pseudo D/I CONFIGURATION 13/64

00462 Read Only X010Dh Undefined Pseudo D/I CONFIGURATION 14/64

00463 Read Only X010Eh Undefined Pseudo D/I CONFIGURATION 15/64

00464 Read Only X010Fh Undefined Pseudo D/I CONFIGURATION 16/64

00465 Read Only X0110h Undefined Pseudo D/I CONFIGURATION 17/64

00466 Read Only X0111h Undefined Pseudo D/I CONFIGURATION 18/64

00467 Read Only X0112h Undefined Pseudo D/I CONFIGURATION 19/64

00468 Read Only X0113h Undefined Pseudo D/I CONFIGURATION 20/64

00469 Read Only X0114h Undefined Pseudo D/I CONFIGURATION 21/64

00470 Read Only X0115h Undefined Pseudo D/I CONFIGURATION 22/64

00471 Read Only X0116h Undefined Pseudo D/I CONFIGURATION 23/64

00472 Read Only X0117h Undefined Pseudo D/I CONFIGURATION 24/64

00473 Read Only X0118h Undefined Pseudo D/I CONFIGURATION 25/64

00474 Read Only X0119h Undefined Pseudo D/I CONFIGURATION 26/64

00475 Read Only X011Ah Undefined Pseudo D/I CONFIGURATION 27/64

00476 Read Only X011Bh Undefined Pseudo D/I CONFIGURATION 28/64

00477 Read Only X011Ch Undefined Pseudo D/I CONFIGURATION 29/64

00478 Read Only X011Dh Undefined Pseudo D/I CONFIGURATION 30/64

00479 Read Only X011Eh Undefined Pseudo D/I CONFIGURATION 31/64

00480 Read Only X011Fh Undefined Pseudo D/I CONFIGURATION 32/64

00481 Read Only X0120h Undefined Pseudo D/I CONFIGURATION 33/64

00482 Read Only X0121h Undefined Pseudo D/I CONFIGURATION 34/64

00483 Read Only X0122h Undefined Pseudo D/I CONFIGURATION 35/64

00484 Read Only X0123h Undefined Pseudo D/I CONFIGURATION 36/64

00485 Read Only X0124h Undefined Pseudo D/I CONFIGURATION 37/64

00486 Read Only X0125h Undefined Pseudo D/I CONFIGURATION 38/64

00487 Read Only X0126h Undefined Pseudo D/I CONFIGURATION 39/64

00488 Read Only X0127h Undefined Pseudo D/I CONFIGURATION 40/64

00489 Read Only X0128h Undefined Pseudo D/I CONFIGURATION 41/64

00490 Read Only X0129h Undefined Pseudo D/I CONFIGURATION 42/64

00491 Read Only X012Ah Undefined Pseudo D/I CONFIGURATION 43/64

00492 Read Only X012Bh Undefined Pseudo D/I CONFIGURATION 44/64

00493 Read Only X012Ch Undefined Pseudo D/I CONFIGURATION 45/64

00494 Read Only X012Dh Undefined Pseudo D/I CONFIGURATION 46/64

00495 Read Only X012Eh Undefined Pseudo D/I CONFIGURATION 47/64

00496 Read Only X012Fh Undefined Pseudo D/I CONFIGURATION 48/64

00497 Read Only X0130h Undefined Pseudo D/I CONFIGURATION 49/64

00498 Read Only X0131h Undefined Pseudo D/I CONFIGURATION 50/64

00499 Read Only X0132h Undefined Pseudo D/I CONFIGURATION 51/64

QT108300

- 207 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00500 Read Only X0133h Undefined Pseudo D/I CONFIGURATION 52/64

00501 Read Only X0134h Undefined Pseudo D/I CONFIGURATION 53/64

00502 Read Only X0135h Undefined Pseudo D/I CONFIGURATION 54/64

00503 Read Only X0136h Undefined Pseudo D/I CONFIGURATION 55/64

00504 Read Only X0137h Undefined Pseudo D/I CONFIGURATION 56/64

00505 Read Only X0138h Undefined Pseudo D/I CONFIGURATION 57/64

00506 Read Only X0139h Undefined Pseudo D/I CONFIGURATION 58/64

00507 Read Only X013Ah Undefined Pseudo D/I CONFIGURATION 59/64

00508 Read Only X013Bh Undefined Pseudo D/I CONFIGURATION 60/64

00509 Read Only X013Ch Undefined Pseudo D/I CONFIGURATION 61/64

00510 Read Only X013Dh Undefined Pseudo D/I CONFIGURATION 62/64

00511 Read Only X013Eh Undefined Pseudo D/I CONFIGURATION 63/64

00512 Read Only X013Fh Undefined Pseudo D/I CONFIGURATION 64/64

QT108300

- 208 -

Coils number 00513 to 00640(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00513 Read/Write X0140h Communication Compressor Start Input

Pseudo D/I COMMUNICATION 1/64

Required OPERATION MODE: COMM or Write 2 to Holding Register number 41001.

00514 Read/Write X0141h Communication Compressor Immediate Stop Input

Pseudo D/I COMMUNICATION 2/64

Forcibly Finishes PUMP OUT Process

00515 Read/Write X0142h Communication Compressor Full Load Input

Pseudo D/I COMMUNICATION 3/64

00516 Read/Write X0143h Communication Compressor Load Limit input

Pseudo D/I COMMUNICATION 4/64

Capacity MVH% is limited to "REMOTE MVH%" on F2:1.CAPACITY CONTROL or 2.VFD COMPRESSOR

00517 Read/Write X0144h Undefined Pseudo D/I COMMUNICATION 5/64

00518 Read/Write X0145h Communication Chiller LBT Controller 100% Input

Pseudo D/I COMMUNICATION 6/64

00519 Read/Write X0146h Undefined Pseudo D/I COMMUNICATION 7/64

00520 Read/Write X0147h Undefined Pseudo D/I COMMUNICATION 8/64

00521 Read/Write X0148h Undefined Pseudo D/I COMMUNICATION 9/64

00522 Read/Write X0149h Undefined Pseudo D/I COMMUNICATION 10/64

00523 Read/Write X014Ah Undefined Pseudo D/I COMMUNICATION 11/64

00524 Read/Write X014Bh Undefined Pseudo D/I COMMUNICATION 12/64

00525 Read/Write X014Ch Undefined Pseudo D/I COMMUNICATION 13/64

00526 Read/Write X014Dh Undefined Pseudo D/I COMMUNICATION 14/64

00527 Read/Write X014Eh Undefined Pseudo D/I COMMUNICATION 15/64

00528 Read/Write X014Fh Undefined Pseudo D/I COMMUNICATION 16/64

00529 Read/Write X0150h Undefined Pseudo D/I COMMUNICATION 17/64

00530 Read/Write X0151h Undefined Pseudo D/I COMMUNICATION 18/64

00531 Read/Write X0152h Undefined Pseudo D/I COMMUNICATION 19/64

00532 Read/Write X0153h Undefined Pseudo D/I COMMUNICATION 20/64

00533 Read/Write X0154h Undefined Pseudo D/I COMMUNICATION 21/64

00534 Read/Write X0155h Undefined Pseudo D/I COMMUNICATION 22/64

00535 Read/Write X0156h Undefined Pseudo D/I COMMUNICATION 23/64

00536 Read/Write X0157h Undefined Pseudo D/I COMMUNICATION 24/64

00537 Read/Write X0158h Undefined Pseudo D/I COMMUNICATION 25/64

00538 Read/Write X0159h Undefined Pseudo D/I COMMUNICATION 26/64

00539 Read/Write X015Ah Undefined Pseudo D/I COMMUNICATION 27/64

00540 Read/Write X015Bh Undefined Pseudo D/I COMMUNICATION 28/64

00541 Read/Write X015Ch Undefined Pseudo D/I COMMUNICATION 29/64

00542 Read/Write X015Dh Undefined Pseudo D/I COMMUNICATION 30/64

00543 Read/Write X015Eh Undefined Pseudo D/I COMMUNICATION 31/64

00544 Read/Write X015Fh Undefined Pseudo D/I COMMUNICATION 32/64

00545 Read/Write X0160h Undefined Pseudo D/I COMMUNICATION 33/64

00546 Read/Write X0161h Undefined Pseudo D/I COMMUNICATION 34/64

00547 Read/Write X0162h Undefined Pseudo D/I COMMUNICATION 35/64

00548 Read/Write X0163h Undefined Pseudo D/I COMMUNICATION 36/64

00549 Read/Write X0164h Undefined Pseudo D/I COMMUNICATION 37/64

00550 Read/Write X0165h Undefined Pseudo D/I COMMUNICATION 38/64

QT108300

- 209 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00551 Read/Write X0166h Undefined Pseudo D/I COMMUNICATION 39/64

00552 Read/Write X0167h Undefined Pseudo D/I COMMUNICATION 40/64

00553 Read/Write X0168h Undefined Pseudo D/I COMMUNICATION 41/64

00554 Read/Write X0169h Undefined Pseudo D/I COMMUNICATION 42/64

00555 Read/Write X016Ah Undefined Pseudo D/I COMMUNICATION 43/64

00556 Read/Write X016Bh Undefined Pseudo D/I COMMUNICATION 44/64

00557 Read/Write X016Ch Undefined Pseudo D/I COMMUNICATION 45/64

00558 Read/Write X016Dh Undefined Pseudo D/I COMMUNICATION 46/64

00559 Read/Write X016Eh Undefined Pseudo D/I COMMUNICATION 47/64

00560 Read/Write X016Fh Undefined Pseudo D/I COMMUNICATION 48/64

00561 Read/Write X0170h Undefined Pseudo D/I COMMUNICATION 49/64

00562 Read/Write X0171h Undefined Pseudo D/I COMMUNICATION 50/64

00563 Read/Write X0172h Undefined Pseudo D/I COMMUNICATION 51/64

00564 Read/Write X0173h Undefined Pseudo D/I COMMUNICATION 52/64

00565 Read/Write X0174h Undefined Pseudo D/I COMMUNICATION 53/64

00566 Read/Write X0175h Undefined Pseudo D/I COMMUNICATION 54/64

00567 Read/Write X0176h Undefined Pseudo D/I COMMUNICATION 55/64

00568 Read/Write X0177h Undefined Pseudo D/I COMMUNICATION 56/64

00569 Read/Write X0178h Undefined Pseudo D/I COMMUNICATION 57/64

00570 Read/Write X0179h Undefined Pseudo D/I COMMUNICATION 58/64

00571 Read/Write X017Ah Undefined Pseudo D/I COMMUNICATION 59/64

00572 Read/Write X017Bh Undefined Pseudo D/I COMMUNICATION 60/64

00573 Read/Write X017Ch Undefined Pseudo D/I COMMUNICATION 61/64

00574 Read/Write X017Dh Undefined Pseudo D/I COMMUNICATION 62/64

00575 Read/Write X017Eh Undefined Pseudo D/I COMMUNICATION 63/64

00576 Read/Write X017Fh Communication Clear Alarm input

Pseudo D/I COMMUNICATION 64/64

Effective Only in the moment of OFF to ON

00577 Read Only M0000 Pseudo Relay 00578 Read Only M0001 Pseudo Relay 00579 Read Only M0002 LOCAL/REMOTE/COMM ON Pseudo Relay 00580 Read Only M0003 Pseudo Relay 00581 Read Only M0004 Pseudo Relay 00582 Read Only M0005 Pseudo Relay 00583 Read Only M0006 Pseudo Relay 00584 Read Only M0007 Pseudo Relay 00585 Read Only M0008 PUMP OUT Pseudo Relay 00586 Read Only M0009 Pseudo Relay 00587 Read Only M0010 Pseudo Relay 00588 Read Only M0011 Pseudo Relay 00589 Read Only M0012 Pseudo Relay 00590 Read Only M0013 Pseudo Relay 00591 Read Only M0014 Pseudo Relay 00592 Read Only M0015 Pseudo Relay 00593 Read Only M0016 Pseudo Relay 00594 Read Only M0017 Pseudo Relay 00595 Read Only M0018 Pseudo Relay 00596 Read Only M0019 Pseudo Relay 00597 Read Only M0020 Pseudo Relay 00598 Read Only M0021 Pseudo Relay 00599 Read Only M0022 Pseudo Relay 00600 Read Only M0023 Pseudo Relay 00601 Read Only M0024 Pseudo Relay 00602 Read Only M0025 Pseudo Relay 00603 Read Only M0026 Pseudo Relay 00604 Read Only M0027 Pseudo Relay 00605 Read Only M0028 Pseudo Relay 00606 Read Only M0029 Pseudo Relay 00607 Read Only M0030 Pseudo Relay 00608 Read Only M0031 Pseudo Relay

QT108300

- 210 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00609 Read Only M0032 Pseudo Relay 00610 Read Only M0033 Pseudo Relay 00611 Read Only M0034 Pseudo Relay 00612 Read Only M0035 Pseudo Relay 00613 Read Only M0036 Pseudo Relay 00614 Read Only M0037 Pseudo Relay 00615 Read Only M0038 Pseudo Relay 00616 Read Only M0039 Pseudo Relay 00617 Read Only M0040 Pseudo Relay 00618 Read Only M0041 Pseudo Relay 00619 Read Only M0042 Pseudo Relay 00620 Read Only M0043 Pseudo Relay 00621 Read Only M0044 Pseudo Relay 00622 Read Only M0045 Pseudo Relay 00623 Read Only M0046 Pseudo Relay 00624 Read Only M0047 Pseudo Relay 00625 Read Only M0048 Pseudo Relay 00626 Read Only M0049 Pseudo Relay 00627 Read Only M0050 Pseudo Relay 00628 Read Only M0051 Pseudo Relay 00629 Read Only M0052 Pseudo Relay 00630 Read Only M0053 Pseudo Relay 00631 Read Only M0054 Pseudo Relay 00632 Read Only M0055 Pseudo Relay 00633 Read Only M0056 Pseudo Relay 00634 Read Only M0057 Pseudo Relay 00635 Read Only M0058 Pseudo Relay 00636 Read Only M0059 Pseudo Relay 00637 Read Only M0060 FAILURE Pseudo Relay 00638 Read Only M0061 Pseudo Relay 00639 Read Only M0062 Pseudo Relay 00640 Read Only M0063 H PORT SELECT Pseudo Relay

QT108300

- 211 -

Coils number 00641 to 00768(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00641 Read Only M0064 M PORT SELECT Pseudo Relay 00642 Read Only M0065 Pseudo Relay 00643 Read Only M0066 Pseudo Relay 00644 Read Only M0067 Pseudo Relay 00645 Read Only M0068 Pseudo Relay 00646 Read Only M0069 Pseudo Relay 00647 Read Only M0070 ALARM Pseudo Relay 00648 Read Only M0071 Pseudo Relay 00649 Read Only M0072 Pseudo Relay 00650 Read Only M0073 Pseudo Relay 00651 Read Only M0074 Pseudo Relay 00652 Read Only M0075 Pseudo Relay 00653 Read Only M0076 Pseudo Relay 00654 Read Only M0077 Pseudo Relay 00655 Read Only M0078 Pseudo Relay 00656 Read Only M0079 Pseudo Relay 00657 Read Only M0080 Pseudo Relay 00658 Read Only M0081 Pseudo Relay 00659 Read Only M0082 Pseudo Relay 00660 Read Only M0083 Pseudo Relay 00661 Read Only M0084 Pseudo Relay 00662 Read Only M0085 Pseudo Relay 00663 Read Only M0086 Pseudo Relay 00664 Read Only M0087 Pseudo Relay 00665 Read Only M0088 Pseudo Relay 00666 Read Only M0089 Pseudo Relay 00667 Read Only M0090 Pseudo Relay 00668 Read Only M0091 Pseudo Relay 00669 Read Only M0092 Pseudo Relay 00670 Read Only M0093 Pseudo Relay 00671 Read Only M0094 Pseudo Relay 00672 Read Only M0095 Pseudo Relay 00673 Read Only M0096 Pseudo Relay 00674 Read Only M0097 Pseudo Relay 00675 Read Only M0098 Pseudo Relay 00676 Read Only M0099 Pseudo Relay 00677 Read Only M0100 Pseudo Relay 00678 Read Only M0101 Pseudo Relay 00679 Read Only M0102 Pseudo Relay 00680 Read Only M0103 Pseudo Relay 00681 Read Only M0104 VFD COMPRESSOR

CONTROL Pseudo Relay

00682 Read Only M0105 Pseudo Relay 00683 Read Only M0106 Pseudo Relay 00684 Read Only M0107 Pseudo Relay 00685 Read Only M0108 Pseudo Relay 00686 Read Only M0109 Pseudo Relay 00687 Read Only M0110 Pseudo Relay 00688 Read Only M0111 Pseudo Relay 00689 Read Only M0112 Pseudo Relay 00690 Read Only M0113 Pseudo Relay 00691 Read Only M0114 Pseudo Relay 00692 Read Only M0115 Pseudo Relay 00693 Read Only M0116 Pseudo Relay 00694 Read Only M0117 Pseudo Relay 00695 Read Only M0118 Pseudo Relay 00696 Read Only M0119 Pseudo Relay 00697 Read Only M0120 Pseudo Relay 00698 Read Only M0121 Pseudo Relay 00699 Read Only M0122 SETUP H PORT SETTING Pseudo Relay 00700 Read Only M0123 SETUP M PORT SETTING Pseudo Relay 00701 Read Only M0124 SETUP L PORT SETTING Pseudo Relay 00702 Read Only M0125 Pseudo Relay 00703 Read Only M0126 Pseudo Relay 00704 Read Only M0127 Pseudo Relay 00705 Read Only M0128 Pseudo Relay 00706 Read Only M0129 Pseudo Relay 00707 Read Only M0130 Pseudo Relay 00708 Read Only M0131 Pseudo Relay 00709 Read Only M0132 Pseudo Relay 00710 Read Only M0133 Pseudo Relay 00711 Read Only M0134 Pseudo Relay 00712 Read Only M0135 Pseudo Relay 00713 Read Only M0136 Pseudo Relay 00714 Read Only M0137 Pseudo Relay 00715 Read Only M0138 Pseudo Relay 00716 Read Only M0139 Pseudo Relay 00717 Read Only M0140 Pseudo Relay 00718 Read Only M0141 Pseudo Relay 00719 Read Only M0142 Pseudo Relay 00720 Read Only M0143 Pseudo Relay

QT108300

- 212 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00721 Read Only M0144 Pseudo Relay 00722 Read Only M0145 Pseudo Relay 00723 Read Only M0146 Pseudo Relay 00724 Read Only M0147 Pseudo Relay 00725 Read Only M0148 Pseudo Relay 00726 Read Only M0149 Pseudo Relay 00727 Read Only M0150 Pseudo Relay 00728 Read Only M0151 Pseudo Relay 00729 Read Only M0152 Pseudo Relay 00730 Read Only M0153 Pseudo Relay 00731 Read Only M0154 Pseudo Relay 00732 Read Only M0155 Pseudo Relay 00733 Read Only M0156 Pseudo Relay 00734 Read Only M0157 Pseudo Relay 00735 Read Only M0158 Pseudo Relay 00736 Read Only M0159 Pseudo Relay 00737 Read Only M0160 Pseudo Relay 00738 Read Only M0161 Pseudo Relay 00739 Read Only M0162 Pseudo Relay 00740 Read Only M0163 Pseudo Relay 00741 Read Only M0164 Pseudo Relay 00742 Read Only M0165 Pseudo Relay 00743 Read Only M0166 Pseudo Relay 00744 Read Only M0167 Pseudo Relay 00745 Read Only M0168 Pseudo Relay 00746 Read Only M0169 Pseudo Relay 00747 Read Only M0170 Pseudo Relay 00748 Read Only M0171 Pseudo Relay 00749 Read Only M0172 Pseudo Relay 00750 Read Only M0173 Pseudo Relay 00751 Read Only M0174 Pseudo Relay 00752 Read Only M0175 Pseudo Relay 00753 Read Only M0176 Pseudo Relay 00754 Read Only M0177 Pseudo Relay 00755 Read Only M0178 Pseudo Relay 00756 Read Only M0179 Pseudo Relay 00757 Read Only M0180 Pseudo Relay 00758 Read Only M0181 Pseudo Relay 00759 Read Only M0182 Pseudo Relay 00760 Read Only M0183 Pseudo Relay 00761 Read Only M0184 Pseudo Relay 00762 Read Only M0185 Pseudo Relay 00763 Read Only M0186 Pseudo Relay 00764 Read Only M0187 Pseudo Relay 00765 Read Only M0188 Pseudo Relay 00766 Read Only M0189 Pseudo Relay 00767 Read Only M0190 Pseudo Relay 00768 Read Only M0191 Pseudo Relay

QT108300

- 213 -

Coils number 00769 to 00896(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00769 Read Only M0192 Reserved Pseudo Relay 00770 Read Only M0193 Reserved Pseudo Relay 00771 Read Only M0194 Reserved Pseudo Relay 00772 Read Only M0195 Reserved Pseudo Relay 00773 Read Only M0196 Reserved Pseudo Relay 00774 Read Only M0197 Reserved Pseudo Relay 00775 Read Only M0198 Reserved Pseudo Relay 00776 Read Only M0199 Reserved Pseudo Relay 00777 Read Only M0200 Reserved Pseudo Relay 00778 Read Only M0201 Reserved Pseudo Relay 00779 Read Only M0202 Reserved Pseudo Relay 00780 Read Only M0203 Reserved Pseudo Relay 00781 Read Only M0204 Reserved Pseudo Relay 00782 Read Only M0205 Reserved Pseudo Relay 00783 Read Only M0206 Reserved Pseudo Relay 00784 Read Only M0207 Reserved Pseudo Relay 00785 Read Only M0208 Reserved Pseudo Relay 00786 Read Only M0209 Reserved Pseudo Relay 00787 Read Only M0210 Reserved Pseudo Relay 00788 Read Only M0211 Reserved Pseudo Relay 00789 Read Only M0212 Reserved Pseudo Relay 00790 Read Only M0213 Reserved Pseudo Relay 00791 Read Only M0214 Reserved Pseudo Relay 00792 Read Only M0215 Reserved Pseudo Relay 00793 Read Only M0216 Reserved Pseudo Relay 00794 Read Only M0217 Reserved Pseudo Relay 00795 Read Only M0218 Reserved Pseudo Relay 00796 Read Only M0219 Reserved Pseudo Relay 00797 Read Only M0220 Reserved Pseudo Relay 00798 Read Only M0221 Reserved Pseudo Relay 00799 Read Only M0222 Reserved Pseudo Relay 00800 Read Only M0223 Reserved Pseudo Relay 00801 Read Only M0224 Reserved Pseudo Relay 00802 Read Only M0225 Reserved Pseudo Relay 00803 Read Only M0226 Reserved Pseudo Relay 00804 Read Only M0227 Reserved Pseudo Relay 00805 Read Only M0228 Reserved Pseudo Relay 00806 Read Only M0229 Reserved Pseudo Relay 00807 Read Only M0230 Reserved Pseudo Relay 00808 Read Only M0231 Reserved Pseudo Relay 00809 Read Only M0232 Reserved Pseudo Relay 00810 Read Only M0233 Reserved Pseudo Relay 00811 Read Only M0234 Reserved Pseudo Relay 00812 Read Only M0235 Reserved Pseudo Relay 00813 Read Only M0236 Reserved Pseudo Relay 00814 Read Only M0237 Reserved Pseudo Relay 00815 Read Only M0238 Reserved Pseudo Relay 00816 Read Only M0239 Reserved Pseudo Relay 00817 Read Only M0240 Reserved Pseudo Relay 00818 Read Only M0241 Reserved Pseudo Relay 00819 Read Only M0242 Reserved Pseudo Relay 00820 Read Only M0243 Reserved Pseudo Relay 00821 Read Only M0244 Reserved Pseudo Relay 00822 Read Only M0245 Reserved Pseudo Relay 00823 Read Only M0246 Reserved Pseudo Relay 00824 Read Only M0247 Reserved Pseudo Relay 00825 Read Only M0248 Reserved Pseudo Relay 00826 Read Only M0249 Reserved Pseudo Relay 00827 Read Only M0250 Reserved Pseudo Relay 00828 Read Only M0251 Reserved Pseudo Relay 00829 Read Only M0252 Reserved Pseudo Relay 00830 Read Only M0253 Reserved Pseudo Relay 00831 Read Only M0254 Reserved Pseudo Relay 00832 Read Only M0255 Reserved Pseudo Relay 00833 Read Only M0256 Reserved Pseudo Relay 00834 Read Only M0257 Reserved Pseudo Relay 00835 Read Only M0258 Reserved Pseudo Relay 00836 Read Only M0259 Reserved Pseudo Relay 00837 Read Only M0260 Reserved Pseudo Relay 00838 Read Only M0261 Reserved Pseudo Relay 00839 Read Only M0262 Reserved Pseudo Relay 00840 Read Only M0263 Reserved Pseudo Relay 00841 Read Only M0264 Reserved Pseudo Relay 00842 Read Only M0265 Reserved Pseudo Relay 00843 Read Only M0266 Reserved Pseudo Relay 00844 Read Only M0267 Reserved Pseudo Relay 00845 Read Only M0268 Reserved Pseudo Relay 00846 Read Only M0269 Reserved Pseudo Relay 00847 Read Only M0270 Reserved Pseudo Relay 00848 Read Only M0271 Reserved Pseudo Relay 00849 Read Only M0272 Reserved Pseudo Relay

QT108300

- 214 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00850 Read Only M0273 Reserved Pseudo Relay 00851 Read Only M0274 Reserved Pseudo Relay 00852 Read Only M0275 Reserved Pseudo Relay 00853 Read Only M0276 Reserved Pseudo Relay 00854 Read Only M0277 Reserved Pseudo Relay 00855 Read Only M0278 Reserved Pseudo Relay 00856 Read Only M0279 Reserved Pseudo Relay 00857 Read Only M0280 Reserved Pseudo Relay 00858 Read Only M0281 Reserved Pseudo Relay 00859 Read Only M0282 Reserved Pseudo Relay 00860 Read Only M0283 Reserved Pseudo Relay 00861 Read Only M0284 Reserved Pseudo Relay 00862 Read Only M0285 Reserved Pseudo Relay 00863 Read Only M0286 Reserved Pseudo Relay 00864 Read Only M0287 Reserved Pseudo Relay 00865 Read Only M0288 Reserved Pseudo Relay 00866 Read Only M0289 Reserved Pseudo Relay 00867 Read Only M0290 Reserved Pseudo Relay 00868 Read Only M0291 Reserved Pseudo Relay 00869 Read Only M0292 Reserved Pseudo Relay 00870 Read Only M0293 Reserved Pseudo Relay 00871 Read Only M0294 Reserved Pseudo Relay 00872 Read Only M0295 Reserved Pseudo Relay 00873 Read Only M0296 Reserved Pseudo Relay 00874 Read Only M0297 Reserved Pseudo Relay 00875 Read Only M0298 Reserved Pseudo Relay 00876 Read Only M0299 Reserved Pseudo Relay 00877 Read Only M0300 Reserved Pseudo Relay 00878 Read Only M0301 Reserved Pseudo Relay 00879 Read Only M0302 Reserved Pseudo Relay 00880 Read Only M0303 Reserved Pseudo Relay 00881 Read Only M0304 Reserved Pseudo Relay 00882 Read Only M0305 Reserved Pseudo Relay 00883 Read Only M0306 Reserved Pseudo Relay 00884 Read Only M0307 Reserved Pseudo Relay 00885 Read Only M0308 Reserved Pseudo Relay 00886 Read Only M0309 Reserved Pseudo Relay 00887 Read Only M0310 Reserved Pseudo Relay 00888 Read Only M0311 Reserved Pseudo Relay 00889 Read Only M0312 Reserved Pseudo Relay 00890 Read Only M0313 Reserved Pseudo Relay 00891 Read Only M0314 Reserved Pseudo Relay 00892 Read Only M0315 Reserved Pseudo Relay 00893 Read Only M0316 Reserved Pseudo Relay 00894 Read Only M0317 Reserved Pseudo Relay 00895 Read Only M0318 Reserved Pseudo Relay 00896 Read Only M0319 Reserved Pseudo Relay

QT108300

- 215 -

Coils number 00897 to 01024(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00897 Read Only M0320 Reserved Pseudo Relay 00898 Read Only M0321 Reserved Pseudo Relay 00899 Read Only M0322 Reserved Pseudo Relay 00900 Read Only M0323 Reserved Pseudo Relay 00901 Read Only M0324 Reserved Pseudo Relay 00902 Read Only M0325 Reserved Pseudo Relay 00903 Read Only M0326 Reserved Pseudo Relay 00904 Read Only M0327 Reserved Pseudo Relay 00905 Read Only M0328 Reserved Pseudo Relay 00906 Read Only M0329 Reserved Pseudo Relay 00907 Read Only M0330 Reserved Pseudo Relay 00908 Read Only M0331 Reserved Pseudo Relay 00909 Read Only M0332 Reserved Pseudo Relay 00910 Read Only M0333 Reserved Pseudo Relay 00911 Read Only M0334 Reserved Pseudo Relay 00912 Read Only M0335 Reserved Pseudo Relay 00913 Read Only M0336 Reserved Pseudo Relay 00914 Read Only M0337 Reserved Pseudo Relay 00915 Read Only M0338 Reserved Pseudo Relay 00916 Read Only M0339 Reserved Pseudo Relay 00917 Read Only M0340 Reserved Pseudo Relay 00918 Read Only M0341 Reserved Pseudo Relay 00919 Read Only M0342 Reserved Pseudo Relay 00920 Read Only M0343 Reserved Pseudo Relay 00921 Read Only M0344 Reserved Pseudo Relay 00922 Read Only M0345 Reserved Pseudo Relay 00923 Read Only M0346 Reserved Pseudo Relay 00924 Read Only M0347 Reserved Pseudo Relay 00925 Read Only M0348 Reserved Pseudo Relay 00926 Read Only M0349 Reserved Pseudo Relay 00927 Read Only M0350 Reserved Pseudo Relay 00928 Read Only M0351 Reserved Pseudo Relay 00929 Read Only M0352 Reserved Pseudo Relay 00930 Read Only M0353 Reserved Pseudo Relay 00931 Read Only M0354 Reserved Pseudo Relay 00932 Read Only M0355 Reserved Pseudo Relay 00933 Read Only M0356 Reserved Pseudo Relay 00934 Read Only M0357 Reserved Pseudo Relay 00935 Read Only M0358 Reserved Pseudo Relay 00936 Read Only M0359 Reserved Pseudo Relay 00937 Read Only M0360 Reserved Pseudo Relay 00938 Read Only M0361 Reserved Pseudo Relay 00939 Read Only M0362 Reserved Pseudo Relay 00940 Read Only M0363 Reserved Pseudo Relay 00941 Read Only M0364 Reserved Pseudo Relay 00942 Read Only M0365 Reserved Pseudo Relay 00943 Read Only M0366 Reserved Pseudo Relay 00944 Read Only M0367 Reserved Pseudo Relay 00945 Read Only M0368 Reserved Pseudo Relay 00946 Read Only M0369 Reserved Pseudo Relay 00947 Read Only M0370 Reserved Pseudo Relay 00948 Read Only M0371 Reserved Pseudo Relay 00949 Read Only M0372 Reserved Pseudo Relay 00950 Read Only M0373 Reserved Pseudo Relay 00951 Read Only M0374 Reserved Pseudo Relay 00952 Read Only M0375 Reserved Pseudo Relay 00953 Read Only M0376 Reserved Pseudo Relay 00954 Read Only M0377 Reserved Pseudo Relay 00955 Read Only M0378 Reserved Pseudo Relay 00956 Read Only M0379 Reserved Pseudo Relay 00957 Read Only M0380 Reserved Pseudo Relay 00958 Read Only M0381 Reserved Pseudo Relay 00959 Read Only M0382 Reserved Pseudo Relay 00960 Read Only M0383 Reserved Pseudo Relay 00961 Read Only M0384 Reserved Pseudo Relay 00962 Read Only M0385 Reserved Pseudo Relay 00963 Read Only M0386 Reserved Pseudo Relay 00964 Read Only M0387 Reserved Pseudo Relay 00965 Read Only M0388 Reserved Pseudo Relay 00966 Read Only M0389 Reserved Pseudo Relay 00967 Read Only M0390 Reserved Pseudo Relay 00968 Read Only M0391 Reserved Pseudo Relay 00969 Read Only M0392 Reserved Pseudo Relay 00970 Read Only M0393 Reserved Pseudo Relay 00971 Read Only M0394 Reserved Pseudo Relay 00972 Read Only M0395 Reserved Pseudo Relay 00973 Read Only M0396 Reserved Pseudo Relay 00974 Read Only M0397 Reserved Pseudo Relay 00975 Read Only M0398 Reserved Pseudo Relay 00976 Read Only M0399 Reserved Pseudo Relay 00977 Read Only M0400 Reserved Pseudo Relay

QT108300

- 216 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

00978 Read Only M0401 Reserved Pseudo Relay 00979 Read Only M0402 Reserved Pseudo Relay 00980 Read Only M0403 Reserved Pseudo Relay 00981 Read Only M0404 Reserved Pseudo Relay 00982 Read Only M0405 Reserved Pseudo Relay 00983 Read Only M0406 Reserved Pseudo Relay 00984 Read Only M0407 Reserved Pseudo Relay 00985 Read Only M0408 Reserved Pseudo Relay 00986 Read Only M0409 Reserved Pseudo Relay 00987 Read Only M0410 Reserved Pseudo Relay 00988 Read Only M0411 Reserved Pseudo Relay 00989 Read Only M0412 Reserved Pseudo Relay 00990 Read Only M0413 Reserved Pseudo Relay 00991 Read Only M0414 Reserved Pseudo Relay 00992 Read Only M0415 Reserved Pseudo Relay 00993 Read Only M0416 Reserved Pseudo Relay 00994 Read Only M0417 Reserved Pseudo Relay 00995 Read Only M0418 Reserved Pseudo Relay 00996 Read Only M0419 Reserved Pseudo Relay 00997 Read Only M0420 Reserved Pseudo Relay 00998 Read Only M0421 Reserved Pseudo Relay 00999 Read Only M0422 Reserved Pseudo Relay 01000 Read Only M0423 Reserved Pseudo Relay 01001 Read Only M0424 Reserved Pseudo Relay 01002 Read Only M0425 Reserved Pseudo Relay 01003 Read Only M0426 Reserved Pseudo Relay 01004 Read Only M0427 Reserved Pseudo Relay 01005 Read Only M0428 Reserved Pseudo Relay 01006 Read Only M0429 Reserved Pseudo Relay 01007 Read Only M0430 Reserved Pseudo Relay 01008 Read Only M0431 Reserved Pseudo Relay 01009 Read Only M0432 Reserved Pseudo Relay 01010 Read Only M0433 Reserved Pseudo Relay 01011 Read Only M0434 Reserved Pseudo Relay 01012 Read Only M0435 Reserved Pseudo Relay 01013 Read Only M0436 Reserved Pseudo Relay 01014 Read Only M0437 Reserved Pseudo Relay 01015 Read Only M0438 Reserved Pseudo Relay 01016 Read Only M0439 Reserved Pseudo Relay 01017 Read Only M0440 Reserved Pseudo Relay 01018 Read Only M0441 Reserved Pseudo Relay 01019 Read Only M0442 Reserved Pseudo Relay 01020 Read Only M0443 Reserved Pseudo Relay 01021 Read Only M0444 Reserved Pseudo Relay 01022 Read Only M0445 Reserved Pseudo Relay 01023 Read Only M0446 Reserved Pseudo Relay 01024 Read Only M0447 Reserved Pseudo Relay

QT108300

- 217 -

Coils number 01025 to 01152(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01025 Read Only M0448 Reserved Pseudo Relay 01026 Read Only M0449 Reserved Pseudo Relay 01027 Read Only M0450 Reserved Pseudo Relay 01028 Read Only M0451 Reserved Pseudo Relay 01029 Read Only M0452 Reserved Pseudo Relay 01030 Read Only M0453 Reserved Pseudo Relay 01031 Read Only M0454 Reserved Pseudo Relay 01032 Read Only M0455 Reserved Pseudo Relay 01033 Read Only M0456 Reserved Pseudo Relay 01034 Read Only M0457 Reserved Pseudo Relay 01035 Read Only M0458 Reserved Pseudo Relay 01036 Read Only M0459 Reserved Pseudo Relay 01037 Read Only M0460 Reserved Pseudo Relay 01038 Read Only M0461 Reserved Pseudo Relay 01039 Read Only M0462 Reserved Pseudo Relay 01040 Read Only M0463 Reserved Pseudo Relay 01041 Read Only M0464 Reserved Pseudo Relay 01042 Read Only M0465 Reserved Pseudo Relay 01043 Read Only M0466 Reserved Pseudo Relay 01044 Read Only M0467 Reserved Pseudo Relay 01045 Read Only M0468 Reserved Pseudo Relay 01046 Read Only M0469 Reserved Pseudo Relay 01047 Read Only M0470 Reserved Pseudo Relay 01048 Read Only M0471 Reserved Pseudo Relay 01049 Read Only M0472 Reserved Pseudo Relay 01050 Read Only M0473 Reserved Pseudo Relay 01051 Read Only M0474 Reserved Pseudo Relay 01052 Read Only M0475 Reserved Pseudo Relay 01053 Read Only M0476 Reserved Pseudo Relay 01054 Read Only M0477 Reserved Pseudo Relay 01055 Read Only M0478 Reserved Pseudo Relay 01056 Read Only M0479 Reserved Pseudo Relay 01057 Read Only M0480 Reserved Pseudo Relay 01058 Read Only M0481 Reserved Pseudo Relay 01059 Read Only M0482 Reserved Pseudo Relay 01060 Read Only M0483 Reserved Pseudo Relay 01061 Read Only M0484 Reserved Pseudo Relay 01062 Read Only M0485 Reserved Pseudo Relay 01063 Read Only M0486 Reserved Pseudo Relay 01064 Read Only M0487 Reserved Pseudo Relay 01065 Read Only M0488 Reserved Pseudo Relay 01066 Read Only M0489 Reserved Pseudo Relay 01067 Read Only M0490 Reserved Pseudo Relay 01068 Read Only M0491 Reserved Pseudo Relay 01069 Read Only M0492 Reserved Pseudo Relay 01070 Read Only M0493 Reserved Pseudo Relay 01071 Read Only M0494 Reserved Pseudo Relay 01072 Read Only M0495 Reserved Pseudo Relay 01073 Read Only M0496 Reserved Pseudo Relay 01074 Read Only M0497 Reserved Pseudo Relay 01075 Read Only M0498 Reserved Pseudo Relay 01076 Read Only M0499 Reserved Pseudo Relay 01077 Read Only M0500 Reserved Pseudo Relay 01078 Read Only M0501 Reserved Pseudo Relay 01079 Read Only M0502 Reserved Pseudo Relay 01080 Read Only M0503 Reserved Pseudo Relay 01081 Read Only M0504 Reserved Pseudo Relay 01082 Read Only M0505 Reserved Pseudo Relay 01083 Read Only M0506 Reserved Pseudo Relay 01084 Read Only M0507 Reserved Pseudo Relay 01085 Read Only M0508 Reserved Pseudo Relay 01086 Read Only M0509 Reserved Pseudo Relay 01087 Read Only M0510 Reserved Pseudo Relay 01088 Read Only M0511 Reserved Pseudo Relay 01089 Read Only M0512 Reserved Pseudo Relay 01090 Read Only M0513 Reserved Pseudo Relay 01091 Read Only M0514 Reserved Pseudo Relay 01092 Read Only M0515 Reserved Pseudo Relay 01093 Read Only M0516 Reserved Pseudo Relay 01094 Read Only M0517 Reserved Pseudo Relay 01095 Read Only M0518 Reserved Pseudo Relay 01096 Read Only M0519 Reserved Pseudo Relay 01097 Read Only M0520 Reserved Pseudo Relay 01098 Read Only M0521 Reserved Pseudo Relay 01099 Read Only M0522 Reserved Pseudo Relay 01100 Read Only M0523 Reserved Pseudo Relay 01101 Read Only M0524 Reserved Pseudo Relay 01102 Read Only M0525 Reserved Pseudo Relay 01103 Read Only M0526 Reserved Pseudo Relay 01104 Read Only M0527 Reserved Pseudo Relay 01105 Read Only M0528 Reserved Pseudo Relay

QT108300

- 218 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01106 Read Only M0529 Reserved Pseudo Relay 01107 Read Only M0530 Reserved Pseudo Relay 01108 Read Only M0531 Reserved Pseudo Relay 01109 Read Only M0532 Reserved Pseudo Relay 01110 Read Only M0533 Reserved Pseudo Relay 01111 Read Only M0534 Reserved Pseudo Relay 01112 Read Only M0535 Reserved Pseudo Relay 01113 Read Only M0536 Reserved Pseudo Relay 01114 Read Only M0537 Reserved Pseudo Relay 01115 Read Only M0538 Reserved Pseudo Relay 01116 Read Only M0539 Reserved Pseudo Relay 01117 Read Only M0540 Reserved Pseudo Relay 01118 Read Only M0541 Reserved Pseudo Relay 01119 Read Only M0542 Reserved Pseudo Relay 01120 Read Only M0543 Reserved Pseudo Relay 01121 Read Only M0544 Reserved Pseudo Relay 01122 Read Only M0545 Reserved Pseudo Relay 01123 Read Only M0546 Reserved Pseudo Relay 01124 Read Only M0547 Reserved Pseudo Relay 01125 Read Only M0548 Reserved Pseudo Relay 01126 Read Only M0549 Reserved Pseudo Relay 01127 Read Only M0550 Reserved Pseudo Relay 01128 Read Only M0551 Reserved Pseudo Relay 01129 Read Only M0552 Reserved Pseudo Relay 01130 Read Only M0553 Reserved Pseudo Relay 01131 Read Only M0554 Reserved Pseudo Relay 01132 Read Only M0555 Reserved Pseudo Relay 01133 Read Only M0556 Reserved Pseudo Relay 01134 Read Only M0557 Reserved Pseudo Relay 01135 Read Only M0558 Reserved Pseudo Relay 01136 Read Only M0559 Reserved Pseudo Relay 01137 Read Only M0560 Reserved Pseudo Relay 01138 Read Only M0561 Reserved Pseudo Relay 01139 Read Only M0562 Reserved Pseudo Relay 01140 Read Only M0563 Reserved Pseudo Relay 01141 Read Only M0564 Reserved Pseudo Relay 01142 Read Only M0565 Reserved Pseudo Relay 01143 Read Only M0566 Reserved Pseudo Relay 01144 Read Only M0567 Reserved Pseudo Relay 01145 Read Only M0568 Reserved Pseudo Relay 01146 Read Only M0569 Reserved Pseudo Relay 01147 Read Only M0570 Reserved Pseudo Relay 01148 Read Only M0571 Reserved Pseudo Relay 01149 Read Only M0572 Reserved Pseudo Relay 01150 Read Only M0573 Reserved Pseudo Relay 01151 Read Only M0574 Reserved Pseudo Relay 01152 Read Only M0575 Reserved Pseudo Relay

QT108300

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Coils number 01153 to 01280(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01153 Read Only M0576 Reserved Pseudo Relay 01154 Read Only M0577 Reserved Pseudo Relay 01155 Read Only M0578 Reserved Pseudo Relay 01156 Read Only M0579 Reserved Pseudo Relay 01157 Read Only M0580 Reserved Pseudo Relay 01158 Read Only M0581 Reserved Pseudo Relay 01159 Read Only M0582 Reserved Pseudo Relay 01160 Read Only M0583 Reserved Pseudo Relay 01161 Read Only M0584 Reserved Pseudo Relay 01162 Read Only M0585 Reserved Pseudo Relay 01163 Read Only M0586 Reserved Pseudo Relay 01164 Read Only M0587 Reserved Pseudo Relay 01165 Read Only M0588 Reserved Pseudo Relay 01166 Read Only M0589 Reserved Pseudo Relay 01167 Read Only M0590 Reserved Pseudo Relay 01168 Read Only M0591 Reserved Pseudo Relay 01169 Read Only M0592 Reserved Pseudo Relay 01170 Read Only M0593 Reserved Pseudo Relay 01171 Read Only M0594 Reserved Pseudo Relay 01172 Read Only M0595 Reserved Pseudo Relay 01173 Read Only M0596 Reserved Pseudo Relay 01174 Read Only M0597 Reserved Pseudo Relay 01175 Read Only M0598 Reserved Pseudo Relay 01176 Read Only M0599 Reserved Pseudo Relay 01177 Read Only M0600 Reserved Pseudo Relay 01178 Read Only M0601 Reserved Pseudo Relay 01179 Read Only M0602 Reserved Pseudo Relay 01180 Read Only M0603 Reserved Pseudo Relay 01181 Read Only M0604 Reserved Pseudo Relay 01182 Read Only M0605 Reserved Pseudo Relay 01183 Read Only M0606 Reserved Pseudo Relay 01184 Read Only M0607 Reserved Pseudo Relay 01185 Read Only M0608 Reserved Pseudo Relay 01186 Read Only M0609 Reserved Pseudo Relay 01187 Read Only M0610 Reserved Pseudo Relay 01188 Read Only M0611 Reserved Pseudo Relay 01189 Read Only M0612 Reserved Pseudo Relay 01190 Read Only M0613 Reserved Pseudo Relay 01191 Read Only M0614 Reserved Pseudo Relay 01192 Read Only M0615 Reserved Pseudo Relay 01193 Read Only M0616 Reserved Pseudo Relay 01194 Read Only M0617 Reserved Pseudo Relay 01195 Read Only M0618 Reserved Pseudo Relay 01196 Read Only M0619 Reserved Pseudo Relay 01197 Read Only M0620 Reserved Pseudo Relay 01198 Read Only M0621 Reserved Pseudo Relay 01199 Read Only M0622 Reserved Pseudo Relay 01200 Read Only M0623 Reserved Pseudo Relay 01201 Read Only M0624 Reserved Pseudo Relay 01202 Read Only M0625 Reserved Pseudo Relay 01203 Read Only M0626 Reserved Pseudo Relay 01204 Read Only M0627 Reserved Pseudo Relay 01205 Read Only M0628 Reserved Pseudo Relay 01206 Read Only M0629 Reserved Pseudo Relay 01207 Read Only M0630 Reserved Pseudo Relay 01208 Read Only M0631 Reserved Pseudo Relay 01209 Read Only M0632 Reserved Pseudo Relay 01210 Read Only M0633 Reserved Pseudo Relay 01211 Read Only M0634 Reserved Pseudo Relay 01212 Read Only M0635 Reserved Pseudo Relay 01213 Read Only M0636 Reserved Pseudo Relay 01214 Read Only M0637 Reserved Pseudo Relay 01215 Read Only M0638 Reserved Pseudo Relay 01216 Read Only M0639 Reserved Pseudo Relay 01217 Read Only M0640 Reserved Pseudo Relay 01218 Read Only M0641 Reserved Pseudo Relay 01219 Read Only M0642 Reserved Pseudo Relay 01220 Read Only M0643 Reserved Pseudo Relay 01221 Read Only M0644 Reserved Pseudo Relay 01222 Read Only M0645 Reserved Pseudo Relay 01223 Read Only M0646 Reserved Pseudo Relay 01224 Read Only M0647 Reserved Pseudo Relay 01225 Read Only M0648 Reserved Pseudo Relay 01226 Read Only M0649 Reserved Pseudo Relay 01227 Read Only M0650 Reserved Pseudo Relay 01228 Read Only M0651 Reserved Pseudo Relay 01229 Read Only M0652 Reserved Pseudo Relay 01230 Read Only M0653 Reserved Pseudo Relay 01231 Read Only M0654 Reserved Pseudo Relay 01232 Read Only M0655 Reserved Pseudo Relay 01233 Read Only M0656 Reserved Pseudo Relay

QT108300

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(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01234 Read Only M0657 Reserved Pseudo Relay 01235 Read Only M0658 Reserved Pseudo Relay 01236 Read Only M0659 Reserved Pseudo Relay 01237 Read Only M0660 Reserved Pseudo Relay 01238 Read Only M0661 Reserved Pseudo Relay 01239 Read Only M0662 Reserved Pseudo Relay 01240 Read Only M0663 Reserved Pseudo Relay 01241 Read Only M0664 Reserved Pseudo Relay 01242 Read Only M0665 Reserved Pseudo Relay 01243 Read Only M0666 Reserved Pseudo Relay 01244 Read Only M0667 Reserved Pseudo Relay 01245 Read Only M0668 Reserved Pseudo Relay 01246 Read Only M0669 Reserved Pseudo Relay 01247 Read Only M0670 Reserved Pseudo Relay 01248 Read Only M0671 Reserved Pseudo Relay 01249 Read Only M0672 Reserved Pseudo Relay 01250 Read Only M0673 Reserved Pseudo Relay 01251 Read Only M0674 Reserved Pseudo Relay 01252 Read Only M0675 Reserved Pseudo Relay 01253 Read Only M0676 Reserved Pseudo Relay 01254 Read Only M0677 Reserved Pseudo Relay 01255 Read Only M0678 Reserved Pseudo Relay 01256 Read Only M0679 Reserved Pseudo Relay 01257 Read Only M0680 Reserved Pseudo Relay 01258 Read Only M0681 Reserved Pseudo Relay 01259 Read Only M0682 Reserved Pseudo Relay 01260 Read Only M0683 Reserved Pseudo Relay 01261 Read Only M0684 Reserved Pseudo Relay 01262 Read Only M0685 Reserved Pseudo Relay 01263 Read Only M0686 Reserved Pseudo Relay 01264 Read Only M0687 Reserved Pseudo Relay 01265 Read Only M0688 Reserved Pseudo Relay 01266 Read Only M0689 Reserved Pseudo Relay 01267 Read Only M0690 Reserved Pseudo Relay 01268 Read Only M0691 Reserved Pseudo Relay 01269 Read Only M0692 Reserved Pseudo Relay 01270 Read Only M0693 Reserved Pseudo Relay 01271 Read Only M0694 Reserved Pseudo Relay 01272 Read Only M0695 Reserved Pseudo Relay 01273 Read Only M0696 Reserved Pseudo Relay 01274 Read Only M0697 Reserved Pseudo Relay 01275 Read Only M0698 Reserved Pseudo Relay 01276 Read Only M0699 Reserved Pseudo Relay 01277 Read Only M0700 Reserved Pseudo Relay 01278 Read Only M0701 Reserved Pseudo Relay 01279 Read Only M0702 Reserved Pseudo Relay 01280 Read Only M0703 Reserved Pseudo Relay

QT108300

- 221 -

Coils number 01281 to 01408(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01281 Read Only M0704 Reserved Pseudo Relay 01282 Read Only M0705 Reserved Pseudo Relay 01283 Read Only M0706 Reserved Pseudo Relay 01284 Read Only M0707 Reserved Pseudo Relay 01285 Read Only M0708 Reserved Pseudo Relay 01286 Read Only M0709 Reserved Pseudo Relay 01287 Read Only M0710 Reserved Pseudo Relay 01288 Read Only M0711 Reserved Pseudo Relay 01289 Read Only M0712 Reserved Pseudo Relay 01290 Read Only M0713 Reserved Pseudo Relay 01291 Read Only M0714 Reserved Pseudo Relay 01292 Read Only M0715 Reserved Pseudo Relay 01293 Read Only M0716 Reserved Pseudo Relay 01294 Read Only M0717 Reserved Pseudo Relay 01295 Read Only M0718 Reserved Pseudo Relay 01296 Read Only M0719 Reserved Pseudo Relay 01297 Read Only M0720 Reserved Pseudo Relay 01298 Read Only M0721 Reserved Pseudo Relay 01299 Read Only M0722 Reserved Pseudo Relay 01300 Read Only M0723 Reserved Pseudo Relay 01301 Read Only M0724 Reserved Pseudo Relay 01302 Read Only M0725 Reserved Pseudo Relay 01303 Read Only M0726 Reserved Pseudo Relay 01304 Read Only M0727 Reserved Pseudo Relay 01305 Read Only M0728 Reserved Pseudo Relay 01306 Read Only M0729 Reserved Pseudo Relay 01307 Read Only M0730 Reserved Pseudo Relay 01308 Read Only M0731 Reserved Pseudo Relay 01309 Read Only M0732 Reserved Pseudo Relay 01310 Read Only M0733 Reserved Pseudo Relay 01311 Read Only M0734 Reserved Pseudo Relay 01312 Read Only M0735 Reserved Pseudo Relay 01313 Read Only M0736 Reserved Pseudo Relay 01314 Read Only M0737 Reserved Pseudo Relay 01315 Read Only M0738 Reserved Pseudo Relay 01316 Read Only M0739 Reserved Pseudo Relay 01317 Read Only M0740 Reserved Pseudo Relay 01318 Read Only M0741 Reserved Pseudo Relay 01319 Read Only M0742 Reserved Pseudo Relay 01320 Read Only M0743 Reserved Pseudo Relay 01321 Read Only M0744 Reserved Pseudo Relay 01322 Read Only M0745 Reserved Pseudo Relay 01323 Read Only M0746 Reserved Pseudo Relay 01324 Read Only M0747 Reserved Pseudo Relay 01325 Read Only M0748 Reserved Pseudo Relay 01326 Read Only M0749 Reserved Pseudo Relay 01327 Read Only M0750 Reserved Pseudo Relay 01328 Read Only M0751 Reserved Pseudo Relay 01329 Read Only M0752 Reserved Pseudo Relay 01330 Read Only M0753 Reserved Pseudo Relay 01331 Read Only M0754 Reserved Pseudo Relay 01332 Read Only M0755 Reserved Pseudo Relay 01333 Read Only M0756 Reserved Pseudo Relay 01334 Read Only M0757 Reserved Pseudo Relay 01335 Read Only M0758 Reserved Pseudo Relay 01336 Read Only M0759 Reserved Pseudo Relay 01337 Read Only M0760 Reserved Pseudo Relay 01338 Read Only M0761 Reserved Pseudo Relay 01339 Read Only M0762 Reserved Pseudo Relay 01340 Read Only M0763 Reserved Pseudo Relay 01341 Read Only M0764 Reserved Pseudo Relay 01342 Read Only M0765 Reserved Pseudo Relay 01343 Read Only M0766 Reserved Pseudo Relay 01344 Read Only M0767 Reserved Pseudo Relay 01345 Read Only M0768 Reserved Pseudo Relay 01346 Read Only M0769 Reserved Pseudo Relay 01347 Read Only M0770 Reserved Pseudo Relay 01348 Read Only M0771 Reserved Pseudo Relay 01349 Read Only M0772 Reserved Pseudo Relay 01350 Read Only M0773 Reserved Pseudo Relay 01351 Read Only M0774 Reserved Pseudo Relay 01352 Read Only M0775 Reserved Pseudo Relay 01353 Read Only M0776 Reserved Pseudo Relay 01354 Read Only M0777 Reserved Pseudo Relay 01355 Read Only M0778 Reserved Pseudo Relay 01356 Read Only M0779 Reserved Pseudo Relay 01357 Read Only M0780 Reserved Pseudo Relay 01358 Read Only M0781 Reserved Pseudo Relay 01359 Read Only M0782 Reserved Pseudo Relay 01360 Read Only M0783 Reserved Pseudo Relay 01361 Read Only M0784 Reserved Pseudo Relay

QT108300

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(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01362 Read Only M0785 Reserved Pseudo Relay 01363 Read Only M0786 Reserved Pseudo Relay 01364 Read Only M0787 Reserved Pseudo Relay 01365 Read Only M0788 Reserved Pseudo Relay 01366 Read Only M0789 Reserved Pseudo Relay 01367 Read Only M0790 Reserved Pseudo Relay 01368 Read Only M0791 Reserved Pseudo Relay 01369 Read Only M0792 Reserved Pseudo Relay 01370 Read Only M0793 Reserved Pseudo Relay 01371 Read Only M0794 Reserved Pseudo Relay 01372 Read Only M0795 Reserved Pseudo Relay 01373 Read Only M0796 Reserved Pseudo Relay 01374 Read Only M0797 Reserved Pseudo Relay 01375 Read Only M0798 Reserved Pseudo Relay 01376 Read Only M0799 Reserved Pseudo Relay 01377 Read Only M0800 Reserved Pseudo Relay 01378 Read Only M0801 Reserved Pseudo Relay 01379 Read Only M0802 Reserved Pseudo Relay 01380 Read Only M0803 Reserved Pseudo Relay 01381 Read Only M0804 Reserved Pseudo Relay 01382 Read Only M0805 Reserved Pseudo Relay 01383 Read Only M0806 Reserved Pseudo Relay 01384 Read Only M0807 Reserved Pseudo Relay 01385 Read Only M0808 Reserved Pseudo Relay 01386 Read Only M0809 Reserved Pseudo Relay 01387 Read Only M0810 Reserved Pseudo Relay 01388 Read Only M0811 Reserved Pseudo Relay 01389 Read Only M0812 Reserved Pseudo Relay 01390 Read Only M0813 Reserved Pseudo Relay 01391 Read Only M0814 Reserved Pseudo Relay 01392 Read Only M0815 Reserved Pseudo Relay 01393 Read Only M0816 Reserved Pseudo Relay 01394 Read Only M0817 Reserved Pseudo Relay 01395 Read Only M0818 Reserved Pseudo Relay 01396 Read Only M0819 Reserved Pseudo Relay 01397 Read Only M0820 Reserved Pseudo Relay 01398 Read Only M0821 Reserved Pseudo Relay 01399 Read Only M0822 Reserved Pseudo Relay 01400 Read Only M0823 Reserved Pseudo Relay 01401 Read Only M0824 Reserved Pseudo Relay 01402 Read Only M0825 Reserved Pseudo Relay 01403 Read Only M0826 Reserved Pseudo Relay 01404 Read Only M0827 Reserved Pseudo Relay 01405 Read Only M0828 Reserved Pseudo Relay 01406 Read Only M0829 Reserved Pseudo Relay 01407 Read Only M0830 Reserved Pseudo Relay 01408 Read Only M0831 Reserved Pseudo Relay

QT108300

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Coils number 01409 to 01536(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01409 Read Only M0832 Reserved Pseudo Relay 01410 Read Only M0833 Reserved Pseudo Relay 01411 Read Only M0834 Reserved Pseudo Relay 01412 Read Only M0835 Reserved Pseudo Relay 01413 Read Only M0836 Reserved Pseudo Relay 01414 Read Only M0837 Reserved Pseudo Relay 01415 Read Only M0838 Reserved Pseudo Relay 01416 Read Only M0839 Reserved Pseudo Relay 01417 Read Only M0840 Reserved Pseudo Relay 01418 Read Only M0841 Reserved Pseudo Relay 01419 Read Only M0842 Reserved Pseudo Relay 01420 Read Only M0843 Reserved Pseudo Relay 01421 Read Only M0844 Reserved Pseudo Relay 01422 Read Only M0845 Reserved Pseudo Relay 01423 Read Only M0846 Reserved Pseudo Relay 01424 Read Only M0847 Reserved Pseudo Relay 01425 Read Only M0848 Reserved Pseudo Relay 01426 Read Only M0849 Reserved Pseudo Relay 01427 Read Only M0850 Reserved Pseudo Relay 01428 Read Only M0851 Reserved Pseudo Relay 01429 Read Only M0852 Reserved Pseudo Relay 01430 Read Only M0853 Reserved Pseudo Relay 01431 Read Only M0854 Reserved Pseudo Relay 01432 Read Only M0855 Reserved Pseudo Relay 01433 Read Only M0856 Reserved Pseudo Relay 01434 Read Only M0857 Reserved Pseudo Relay 01435 Read Only M0858 Reserved Pseudo Relay 01436 Read Only M0859 Reserved Pseudo Relay 01437 Read Only M0860 Reserved Pseudo Relay 01438 Read Only M0861 Reserved Pseudo Relay 01439 Read Only M0862 Reserved Pseudo Relay 01440 Read Only M0863 Reserved Pseudo Relay 01441 Read Only M0864 Reserved Pseudo Relay 01442 Read Only M0865 Reserved Pseudo Relay 01443 Read Only M0866 Reserved Pseudo Relay 01444 Read Only M0867 Reserved Pseudo Relay 01445 Read Only M0868 Reserved Pseudo Relay 01446 Read Only M0869 Reserved Pseudo Relay 01447 Read Only M0870 Reserved Pseudo Relay 01448 Read Only M0871 Reserved Pseudo Relay 01449 Read Only M0872 Reserved Pseudo Relay 01450 Read Only M0873 Reserved Pseudo Relay 01451 Read Only M0874 Reserved Pseudo Relay 01452 Read Only M0875 Reserved Pseudo Relay 01453 Read Only M0876 Reserved Pseudo Relay 01454 Read Only M0877 Reserved Pseudo Relay 01455 Read Only M0878 Reserved Pseudo Relay 01456 Read Only M0879 Reserved Pseudo Relay 01457 Read Only M0880 Reserved Pseudo Relay 01458 Read Only M0881 Reserved Pseudo Relay 01459 Read Only M0882 Reserved Pseudo Relay 01460 Read Only M0883 Reserved Pseudo Relay 01461 Read Only M0884 Reserved Pseudo Relay 01462 Read Only M0885 Reserved Pseudo Relay 01463 Read Only M0886 Reserved Pseudo Relay 01464 Read Only M0887 Reserved Pseudo Relay 01465 Read Only M0888 Reserved Pseudo Relay 01466 Read Only M0889 Reserved Pseudo Relay 01467 Read Only M0890 Reserved Pseudo Relay 01468 Read Only M0891 Reserved Pseudo Relay 01469 Read Only M0892 Reserved Pseudo Relay 01470 Read Only M0893 Reserved Pseudo Relay 01471 Read Only M0894 Reserved Pseudo Relay 01472 Read Only M0895 Reserved Pseudo Relay 01473 Read Only M0896 Reserved Pseudo Relay 01474 Read Only M0897 Reserved Pseudo Relay 01475 Read Only M0898 Reserved Pseudo Relay 01476 Read Only M0899 Reserved Pseudo Relay 01477 Read Only M0900 Reserved Pseudo Relay 01478 Read Only M0901 Reserved Pseudo Relay 01479 Read Only M0902 Reserved Pseudo Relay 01480 Read Only M0903 Reserved Pseudo Relay 01481 Read Only M0904 Reserved Pseudo Relay 01482 Read Only M0905 Reserved Pseudo Relay 01483 Read Only M0906 Reserved Pseudo Relay 01484 Read Only M0907 Reserved Pseudo Relay 01485 Read Only M0908 Reserved Pseudo Relay 01486 Read Only M0909 Reserved Pseudo Relay 01487 Read Only M0910 Reserved Pseudo Relay 01488 Read Only M0911 Reserved Pseudo Relay 01489 Read Only M0912 Reserved Pseudo Relay

QT108300

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(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01490 Read Only M0913 Reserved Pseudo Relay 01491 Read Only M0914 Reserved Pseudo Relay 01492 Read Only M0915 Reserved Pseudo Relay 01493 Read Only M0916 Reserved Pseudo Relay 01494 Read Only M0917 Reserved Pseudo Relay 01495 Read Only M0918 Reserved Pseudo Relay 01496 Read Only M0919 Reserved Pseudo Relay 01497 Read Only M0920 Reserved Pseudo Relay 01498 Read Only M0921 Reserved Pseudo Relay 01499 Read Only M0922 Reserved Pseudo Relay 01500 Read Only M0923 Reserved Pseudo Relay 01501 Read Only M0924 Reserved Pseudo Relay 01502 Read Only M0925 Reserved Pseudo Relay 01503 Read Only M0926 Reserved Pseudo Relay 01504 Read Only M0927 Reserved Pseudo Relay 01505 Read Only M0928 Reserved Pseudo Relay 01506 Read Only M0929 Reserved Pseudo Relay 01507 Read Only M0930 Reserved Pseudo Relay 01508 Read Only M0931 Reserved Pseudo Relay 01509 Read Only M0932 Reserved Pseudo Relay 01510 Read Only M0933 Reserved Pseudo Relay 01511 Read Only M0934 Reserved Pseudo Relay 01512 Read Only M0935 Reserved Pseudo Relay 01513 Read Only M0936 Reserved Pseudo Relay 01514 Read Only M0937 Reserved Pseudo Relay 01515 Read Only M0938 Reserved Pseudo Relay 01516 Read Only M0939 Reserved Pseudo Relay 01517 Read Only M0940 Reserved Pseudo Relay 01518 Read Only M0941 Reserved Pseudo Relay 01519 Read Only M0942 Reserved Pseudo Relay 01520 Read Only M0943 Reserved Pseudo Relay 01521 Read Only M0944 Reserved Pseudo Relay 01522 Read Only M0945 Reserved Pseudo Relay 01523 Read Only M0946 Reserved Pseudo Relay 01524 Read Only M0947 Reserved Pseudo Relay 01525 Read Only M0948 Reserved Pseudo Relay 01526 Read Only M0949 Reserved Pseudo Relay 01527 Read Only M0950 Reserved Pseudo Relay 01528 Read Only M0951 Reserved Pseudo Relay 01529 Read Only M0952 Reserved Pseudo Relay 01530 Read Only M0953 Reserved Pseudo Relay 01531 Read Only M0954 Reserved Pseudo Relay 01532 Read Only M0955 Reserved Pseudo Relay 01533 Read Only M0956 Reserved Pseudo Relay 01534 Read Only M0957 Reserved Pseudo Relay 01535 Read Only M0958 Reserved Pseudo Relay 01536 Read Only M0959 Reserved Pseudo Relay

QT108300

- 225 -

Coils number 01537 to 01664(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01537 Read Only M0960 Reserved Pseudo Relay 01538 Read Only M0961 Reserved Pseudo Relay 01539 Read Only M0962 Reserved Pseudo Relay 01540 Read Only M0963 Reserved Pseudo Relay 01541 Read Only M0964 Reserved Pseudo Relay 01542 Read Only M0965 Reserved Pseudo Relay 01543 Read Only M0966 Reserved Pseudo Relay 01544 Read Only M0967 Reserved Pseudo Relay 01545 Read Only M0968 Reserved Pseudo Relay 01546 Read Only M0969 Reserved Pseudo Relay 01547 Read Only M0970 Reserved Pseudo Relay 01548 Read Only M0971 Reserved Pseudo Relay 01549 Read Only M0972 Reserved Pseudo Relay 01550 Read Only M0973 Reserved Pseudo Relay 01551 Read Only M0974 Reserved Pseudo Relay 01552 Read Only M0975 Reserved Pseudo Relay 01553 Read Only M0976 Reserved Pseudo Relay 01554 Read Only M0977 Reserved Pseudo Relay 01555 Read Only M0978 Reserved Pseudo Relay 01556 Read Only M0979 Reserved Pseudo Relay 01557 Read Only M0980 Reserved Pseudo Relay 01558 Read Only M0981 Reserved Pseudo Relay 01559 Read Only M0982 Reserved Pseudo Relay 01560 Read Only M0983 Reserved Pseudo Relay 01561 Read Only M0984 Reserved Pseudo Relay 01562 Read Only M0985 Reserved Pseudo Relay 01563 Read Only M0986 Reserved Pseudo Relay 01564 Read Only M0987 Reserved Pseudo Relay 01565 Read Only M0988 Reserved Pseudo Relay 01566 Read Only M0989 Reserved Pseudo Relay 01567 Read Only M0990 Reserved Pseudo Relay 01568 Read Only M0991 Reserved Pseudo Relay 01569 Read Only M0992 Reserved Pseudo Relay 01570 Read Only M0993 Reserved Pseudo Relay 01571 Read Only M0994 Reserved Pseudo Relay 01572 Read Only M0995 Reserved Pseudo Relay 01573 Read Only M0996 Reserved Pseudo Relay 01574 Read Only M0997 Reserved Pseudo Relay 01575 Read Only M0998 Reserved Pseudo Relay 01576 Read Only M0999 Reserved Pseudo Relay 01577 Read Only M1000 Reserved Pseudo Relay 01578 Read Only M1001 Reserved Pseudo Relay 01579 Read Only M1002 Reserved Pseudo Relay 01580 Read Only M1003 Reserved Pseudo Relay 01581 Read Only M1004 Reserved Pseudo Relay 01582 Read Only M1005 Reserved Pseudo Relay 01583 Read Only M1006 Reserved Pseudo Relay 01584 Read Only M1007 Reserved Pseudo Relay 01585 Read Only M1008 Reserved Pseudo Relay 01586 Read Only M1009 Reserved Pseudo Relay 01587 Read Only M1010 Reserved Pseudo Relay 01588 Read Only M1011 Reserved Pseudo Relay 01589 Read Only M1012 Reserved Pseudo Relay 01590 Read Only M1013 Reserved Pseudo Relay 01591 Read Only M1014 Reserved Pseudo Relay 01592 Read Only M1015 Reserved Pseudo Relay 01593 Read Only M1016 Always ON Pseudo Relay 01594 Read Only M1017 Only The First Scan ON Pseudo Relay 01595 Read Only M1018 Zero Point Five Second Cycle

Clock Pseudo Relay

01596 Read Only M1019 One Second Cycle Clock Pseudo Relay 01597 Read Only M1020 Two Seconds Cycle Clock Pseudo Relay 01598 Read Only M1021 Date Change Pulse Pseudo Relay 01599 Read Only M1022 Reserved Pseudo Relay 01600 Read Only M1023 Reserved Pseudo Relay 01601 Read Only L1024 Reserved Pseudo Relay Latched 01602 Read Only L1025 Reserved Pseudo Relay Latched 01603 Read Only L1026 Reserved Pseudo Relay Latched 01604 Read Only L1027 Reserved Pseudo Relay Latched 01605 Read Only L1028 Reserved Pseudo Relay Latched 01606 Read Only L1029 Reserved Pseudo Relay Latched 01607 Read Only L1030 Reserved Pseudo Relay Latched 01608 Read Only L1031 Reserved Pseudo Relay Latched 01609 Read Only L1032 Reserved Pseudo Relay Latched 01610 Read Only L1033 Reserved Pseudo Relay Latched 01611 Read Only L1034 Reserved Pseudo Relay Latched 01612 Read Only L1035 Reserved Pseudo Relay Latched 01613 Read Only L1036 Reserved Pseudo Relay Latched 01614 Read Only L1037 Reserved Pseudo Relay Latched 01615 Read Only L1038 Reserved Pseudo Relay Latched 01616 Read Only L1039 Reserved Pseudo Relay Latched

QT108300

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(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01617 Read Only L1040 Reserved Pseudo Relay Latched 01618 Read Only L1041 Reserved Pseudo Relay Latched 01619 Read Only L1042 Reserved Pseudo Relay Latched 01620 Read Only L1043 Reserved Pseudo Relay Latched 01621 Read Only L1044 Reserved Pseudo Relay Latched 01622 Read Only L1045 Reserved Pseudo Relay Latched 01623 Read Only L1046 Reserved Pseudo Relay Latched 01624 Read Only L1047 Reserved Pseudo Relay Latched 01625 Read Only L1048 Reserved Pseudo Relay Latched 01626 Read Only L1049 Reserved Pseudo Relay Latched 01627 Read Only L1050 Reserved Pseudo Relay Latched 01628 Read Only L1051 Reserved Pseudo Relay Latched 01629 Read Only L1052 Reserved Pseudo Relay Latched 01630 Read Only L1053 Reserved Pseudo Relay Latched 01631 Read Only L1054 Reserved Pseudo Relay Latched 01632 Read Only L1055 Reserved Pseudo Relay Latched 01633 Read Only L1056 Reserved Pseudo Relay Latched 01634 Read Only L1057 Reserved Pseudo Relay Latched 01635 Read Only L1058 Reserved Pseudo Relay Latched 01636 Read Only L1059 Reserved Pseudo Relay Latched 01637 Read Only L1060 Reserved Pseudo Relay Latched 01638 Read Only L1061 Reserved Pseudo Relay Latched 01639 Read Only L1062 Reserved Pseudo Relay Latched 01640 Read Only L1063 Reserved Pseudo Relay Latched 01641 Read Only L1064 Reserved Pseudo Relay Latched 01642 Read Only L1065 Reserved Pseudo Relay Latched 01643 Read Only L1066 Reserved Pseudo Relay Latched 01644 Read Only L1067 Reserved Pseudo Relay Latched 01645 Read Only L1068 Reserved Pseudo Relay Latched 01646 Read Only L1069 Reserved Pseudo Relay Latched 01647 Read Only L1070 Reserved Pseudo Relay Latched 01648 Read Only L1071 Reserved Pseudo Relay Latched 01649 Read Only L1072 Reserved Pseudo Relay Latched 01650 Read Only L1073 Reserved Pseudo Relay Latched 01651 Read Only L1074 Reserved Pseudo Relay Latched 01652 Read Only L1075 Reserved Pseudo Relay Latched 01653 Read Only L1076 Reserved Pseudo Relay Latched 01654 Read Only L1077 Reserved Pseudo Relay Latched 01655 Read Only L1078 Reserved Pseudo Relay Latched 01656 Read Only L1079 Reserved Pseudo Relay Latched 01657 Read Only L1080 Reserved Pseudo Relay Latched 01658 Read Only L1081 Reserved Pseudo Relay Latched 01659 Read Only L1082 Reserved Pseudo Relay Latched 01660 Read Only L1083 Reserved Pseudo Relay Latched 01661 Read Only L1084 Reserved Pseudo Relay Latched 01662 Read Only L1085 Reserved Pseudo Relay Latched 01663 Read Only L1086 Reserved Pseudo Relay Latched 01664 Read Only L1087 Reserved Pseudo Relay Latched

QT108300

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Coils number 01665 to 01792(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01665 Read Only L1088 Reserved Pseudo Relay Latched 01666 Read Only L1089 Reserved Pseudo Relay Latched 01667 Read Only L1090 Reserved Pseudo Relay Latched 01668 Read Only L1091 Reserved Pseudo Relay Latched 01669 Read Only L1092 Reserved Pseudo Relay Latched 01670 Read Only L1093 Reserved Pseudo Relay Latched 01671 Read Only L1094 Reserved Pseudo Relay Latched 01672 Read Only L1095 Reserved Pseudo Relay Latched 01673 Read Only L1096 Reserved Pseudo Relay Latched 01674 Read Only L1097 Reserved Pseudo Relay Latched 01675 Read Only L1098 Reserved Pseudo Relay Latched 01676 Read Only L1099 Reserved Pseudo Relay Latched 01677 Read Only L1100 Reserved Pseudo Relay Latched 01678 Read Only L1101 Reserved Pseudo Relay Latched 01679 Read Only L1102 Reserved Pseudo Relay Latched 01680 Read Only L1103 Reserved Pseudo Relay Latched 01681 Read Only L1104 Reserved Pseudo Relay Latched 01682 Read Only L1105 Reserved Pseudo Relay Latched 01683 Read Only L1106 Reserved Pseudo Relay Latched 01684 Read Only L1107 Reserved Pseudo Relay Latched 01685 Read Only L1108 Reserved Pseudo Relay Latched 01686 Read Only L1109 Reserved Pseudo Relay Latched 01687 Read Only L1110 Reserved Pseudo Relay Latched 01688 Read Only L1111 Reserved Pseudo Relay Latched 01689 Read Only L1112 Reserved Pseudo Relay Latched 01690 Read Only L1113 Reserved Pseudo Relay Latched 01691 Read Only L1114 Reserved Pseudo Relay Latched 01692 Read Only L1115 Reserved Pseudo Relay Latched 01693 Read Only L1116 Reserved Pseudo Relay Latched 01694 Read Only L1117 Reserved Pseudo Relay Latched 01695 Read Only L1118 Reserved Pseudo Relay Latched 01696 Read Only L1119 Reserved Pseudo Relay Latched 01697 Read Only L1120 Reserved Pseudo Relay Latched 01698 Read Only L1121 Reserved Pseudo Relay Latched 01699 Read Only L1122 Reserved Pseudo Relay Latched 01700 Read Only L1123 Reserved Pseudo Relay Latched 01701 Read Only L1124 Reserved Pseudo Relay Latched 01702 Read Only L1125 Reserved Pseudo Relay Latched 01703 Read Only L1126 Reserved Pseudo Relay Latched 01704 Read Only L1127 Reserved Pseudo Relay Latched 01705 Read Only L1128 Reserved Pseudo Relay Latched 01706 Read Only L1129 Reserved Pseudo Relay Latched 01707 Read Only L1130 Reserved Pseudo Relay Latched 01708 Read Only L1131 Reserved Pseudo Relay Latched 01709 Read Only L1132 Reserved Pseudo Relay Latched 01710 Read Only L1133 Reserved Pseudo Relay Latched 01711 Read Only L1134 Reserved Pseudo Relay Latched 01712 Read Only L1135 Reserved Pseudo Relay Latched 01713 Read Only L1136 Reserved Pseudo Relay Latched 01714 Read Only L1137 Reserved Pseudo Relay Latched 01715 Read Only L1138 Reserved Pseudo Relay Latched 01716 Read Only L1139 Reserved Pseudo Relay Latched 01717 Read Only L1140 Reserved Pseudo Relay Latched 01718 Read Only L1141 Reserved Pseudo Relay Latched 01719 Read Only L1142 Reserved Pseudo Relay Latched 01720 Read Only L1143 Reserved Pseudo Relay Latched 01721 Read Only L1144 Reserved Pseudo Relay Latched 01722 Read Only L1145 Reserved Pseudo Relay Latched 01723 Read Only L1146 Reserved Pseudo Relay Latched 01724 Read Only L1147 Reserved Pseudo Relay Latched 01725 Read Only L1148 Reserved Pseudo Relay Latched 01726 Read Only L1149 Reserved Pseudo Relay Latched 01727 Read Only L1150 Reserved Pseudo Relay Latched 01728 Read Only L1151 Reserved Pseudo Relay Latched 01729 Read Only L1152 Reserved Pseudo Relay Latched 01730 Read Only L1153 Reserved Pseudo Relay Latched 01731 Read Only L1154 Reserved Pseudo Relay Latched 01732 Read Only L1155 Reserved Pseudo Relay Latched 01733 Read Only L1156 Reserved Pseudo Relay Latched 01734 Read Only L1157 Reserved Pseudo Relay Latched 01735 Read Only L1158 Reserved Pseudo Relay Latched 01736 Read Only L1159 Reserved Pseudo Relay Latched 01737 Read Only L1160 Reserved Pseudo Relay Latched 01738 Read Only L1161 Reserved Pseudo Relay Latched 01739 Read Only L1162 Reserved Pseudo Relay Latched 01740 Read Only L1163 Reserved Pseudo Relay Latched 01741 Read Only L1164 Reserved Pseudo Relay Latched 01742 Read Only L1165 Reserved Pseudo Relay Latched 01743 Read Only L1166 Reserved Pseudo Relay Latched 01744 Read Only L1167 Reserved Pseudo Relay Latched 01745 Read Only L1168 Reserved Pseudo Relay Latched

QT108300

- 228 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01746 Read Only L1169 Reserved Pseudo Relay Latched 01747 Read Only L1170 Reserved Pseudo Relay Latched 01748 Read Only L1171 Reserved Pseudo Relay Latched 01749 Read Only L1172 Reserved Pseudo Relay Latched 01750 Read Only L1173 Reserved Pseudo Relay Latched 01751 Read Only L1174 Reserved Pseudo Relay Latched 01752 Read Only L1175 Reserved Pseudo Relay Latched 01753 Read Only L1176 Reserved Pseudo Relay Latched 01754 Read Only L1177 Reserved Pseudo Relay Latched 01755 Read Only L1178 Reserved Pseudo Relay Latched 01756 Read Only L1179 Reserved Pseudo Relay Latched 01757 Read Only L1180 Reserved Pseudo Relay Latched 01758 Read Only L1181 Reserved Pseudo Relay Latched 01759 Read Only L1182 Reserved Pseudo Relay Latched 01760 Read Only L1183 Reserved Pseudo Relay Latched 01761 Read Only L1184 Reserved Pseudo Relay Latched 01762 Read Only L1185 Reserved Pseudo Relay Latched 01763 Read Only L1186 Reserved Pseudo Relay Latched 01764 Read Only L1187 Reserved Pseudo Relay Latched 01765 Read Only L1188 Reserved Pseudo Relay Latched 01766 Read Only L1189 Reserved Pseudo Relay Latched 01767 Read Only L1190 Reserved Pseudo Relay Latched 01768 Read Only L1191 Reserved Pseudo Relay Latched 01769 Read Only L1192 Reserved Pseudo Relay Latched 01770 Read Only L1193 Reserved Pseudo Relay Latched 01771 Read Only L1194 Reserved Pseudo Relay Latched 01772 Read Only L1195 Reserved Pseudo Relay Latched 01773 Read Only L1196 Reserved Pseudo Relay Latched 01774 Read Only L1197 Reserved Pseudo Relay Latched 01775 Read Only L1198 Reserved Pseudo Relay Latched 01776 Read Only L1199 Reserved Pseudo Relay Latched 01777 Read Only L1200 Reserved Pseudo Relay Latched 01778 Read Only L1201 Reserved Pseudo Relay Latched 01779 Read Only L1202 Reserved Pseudo Relay Latched 01780 Read Only L1203 Reserved Pseudo Relay Latched 01781 Read Only L1204 Reserved Pseudo Relay Latched 01782 Read Only L1205 Reserved Pseudo Relay Latched 01783 Read Only L1206 Reserved Pseudo Relay Latched 01784 Read Only L1207 Reserved Pseudo Relay Latched 01785 Read Only L1208 Reserved Pseudo Relay Latched 01786 Read Only L1209 Reserved Pseudo Relay Latched 01787 Read Only L1210 Reserved Pseudo Relay Latched 01788 Read Only L1211 Reserved Pseudo Relay Latched 01789 Read Only L1212 Reserved Pseudo Relay Latched 01790 Read Only L1213 Reserved Pseudo Relay Latched 01791 Read Only L1214 Reserved Pseudo Relay Latched 01792 Read Only L1215 Reserved Pseudo Relay Latched

QT108300

- 229 -

Coils number 01793 to 01920(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01793 Read Only L1216 Reserved Pseudo Relay Latched 01794 Read Only L1217 Reserved Pseudo Relay Latched 01795 Read Only L1218 Reserved Pseudo Relay Latched 01796 Read Only L1219 Reserved Pseudo Relay Latched 01797 Read Only L1220 Reserved Pseudo Relay Latched 01798 Read Only L1221 Reserved Pseudo Relay Latched 01799 Read Only L1222 Reserved Pseudo Relay Latched 01800 Read Only L1223 Reserved Pseudo Relay Latched 01801 Read Only L1224 Reserved Pseudo Relay Latched 01802 Read Only L1225 Reserved Pseudo Relay Latched 01803 Read Only L1226 Reserved Pseudo Relay Latched 01804 Read Only L1227 Reserved Pseudo Relay Latched 01805 Read Only L1228 Reserved Pseudo Relay Latched 01806 Read Only L1229 Reserved Pseudo Relay Latched 01807 Read Only L1230 Reserved Pseudo Relay Latched 01808 Read Only L1231 Reserved Pseudo Relay Latched 01809 Read Only L1232 Reserved Pseudo Relay Latched 01810 Read Only L1233 Reserved Pseudo Relay Latched 01811 Read Only L1234 Reserved Pseudo Relay Latched 01812 Read Only L1235 Reserved Pseudo Relay Latched 01813 Read Only L1236 Reserved Pseudo Relay Latched 01814 Read Only L1237 Reserved Pseudo Relay Latched 01815 Read Only L1238 Reserved Pseudo Relay Latched 01816 Read Only L1239 Reserved Pseudo Relay Latched 01817 Read Only L1240 Reserved Pseudo Relay Latched 01818 Read Only L1241 Reserved Pseudo Relay Latched 01819 Read Only L1242 Reserved Pseudo Relay Latched 01820 Read Only L1243 Reserved Pseudo Relay Latched 01821 Read Only L1244 Reserved Pseudo Relay Latched 01822 Read Only L1245 Reserved Pseudo Relay Latched 01823 Read Only L1246 Reserved Pseudo Relay Latched 01824 Read Only L1247 Reserved Pseudo Relay Latched 01825 Read Only L1248 Reserved Pseudo Relay Latched 01826 Read Only L1249 Reserved Pseudo Relay Latched 01827 Read Only L1250 Reserved Pseudo Relay Latched 01828 Read Only L1251 Reserved Pseudo Relay Latched 01829 Read Only L1252 Reserved Pseudo Relay Latched 01830 Read Only L1253 Reserved Pseudo Relay Latched 01831 Read Only L1254 Reserved Pseudo Relay Latched 01832 Read Only L1255 Reserved Pseudo Relay Latched 01833 Read Only L1256 Reserved Pseudo Relay Latched 01834 Read Only L1257 Reserved Pseudo Relay Latched 01835 Read Only L1258 Reserved Pseudo Relay Latched 01836 Read Only L1259 Reserved Pseudo Relay Latched 01837 Read Only L1260 Reserved Pseudo Relay Latched 01838 Read Only L1261 Reserved Pseudo Relay Latched 01839 Read Only L1262 Reserved Pseudo Relay Latched 01840 Read Only L1263 Reserved Pseudo Relay Latched 01841 Read Only L1264 Reserved Pseudo Relay Latched 01842 Read Only L1265 Reserved Pseudo Relay Latched 01843 Read Only L1266 Reserved Pseudo Relay Latched 01844 Read Only L1267 Reserved Pseudo Relay Latched 01845 Read Only L1268 Reserved Pseudo Relay Latched 01846 Read Only L1269 Reserved Pseudo Relay Latched 01847 Read Only L1270 Reserved Pseudo Relay Latched 01848 Read Only L1271 Reserved Pseudo Relay Latched 01849 Read Only L1272 Reserved Pseudo Relay Latched 01850 Read Only L1273 Reserved Pseudo Relay Latched 01851 Read Only L1274 Reserved Pseudo Relay Latched 01852 Read Only L1275 Reserved Pseudo Relay Latched 01853 Read Only L1276 Reserved Pseudo Relay Latched 01854 Read Only L1277 Reserved Pseudo Relay Latched 01855 Read Only L1278 Reserved Pseudo Relay Latched 01856 Read Only L1279 Reserved Pseudo Relay Latched 01857 Read Only L1280 Reserved Pseudo Relay Latched 01858 Read Only L1281 Reserved Pseudo Relay Latched 01859 Read Only L1282 Reserved Pseudo Relay Latched 01860 Read Only L1283 Reserved Pseudo Relay Latched 01861 Read Only L1284 Reserved Pseudo Relay Latched 01862 Read Only L1285 Reserved Pseudo Relay Latched 01863 Read Only L1286 Reserved Pseudo Relay Latched 01864 Read Only L1287 Reserved Pseudo Relay Latched 01865 Read Only L1288 Reserved Pseudo Relay Latched 01866 Read Only L1289 Reserved Pseudo Relay Latched 01867 Read Only L1290 Reserved Pseudo Relay Latched 01868 Read Only L1291 Reserved Pseudo Relay Latched 01869 Read Only L1292 Reserved Pseudo Relay Latched 01870 Read Only L1293 Reserved Pseudo Relay Latched 01871 Read Only L1294 Reserved Pseudo Relay Latched 01872 Read Only L1295 Reserved Pseudo Relay Latched 01873 Read Only L1296 Reserved Pseudo Relay Latched

QT108300

- 230 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01874 Read Only L1297 Reserved Pseudo Relay Latched 01875 Read Only L1298 Reserved Pseudo Relay Latched 01876 Read Only L1299 Reserved Pseudo Relay Latched 01877 Read Only L1300 Reserved Pseudo Relay Latched 01878 Read Only L1301 Reserved Pseudo Relay Latched 01879 Read Only L1302 Reserved Pseudo Relay Latched 01880 Read Only L1303 Reserved Pseudo Relay Latched 01881 Read Only L1304 Reserved Pseudo Relay Latched 01882 Read Only L1305 Reserved Pseudo Relay Latched 01883 Read Only L1306 Reserved Pseudo Relay Latched 01884 Read Only L1307 Reserved Pseudo Relay Latched 01885 Read Only L1308 Reserved Pseudo Relay Latched 01886 Read Only L1309 Reserved Pseudo Relay Latched 01887 Read Only L1310 Reserved Pseudo Relay Latched 01888 Read Only L1311 Reserved Pseudo Relay Latched 01889 Read Only L1312 Reserved Pseudo Relay Latched 01890 Read Only L1313 Reserved Pseudo Relay Latched 01891 Read Only L1314 Reserved Pseudo Relay Latched 01892 Read Only L1315 Reserved Pseudo Relay Latched 01893 Read Only L1316 Reserved Pseudo Relay Latched 01894 Read Only L1317 Reserved Pseudo Relay Latched 01895 Read Only L1318 Reserved Pseudo Relay Latched 01896 Read Only L1319 Reserved Pseudo Relay Latched 01897 Read Only L1320 Reserved Pseudo Relay Latched 01898 Read Only L1321 Reserved Pseudo Relay Latched 01899 Read Only L1322 Reserved Pseudo Relay Latched 01900 Read Only L1323 Reserved Pseudo Relay Latched 01901 Read Only L1324 Reserved Pseudo Relay Latched 01902 Read Only L1325 Reserved Pseudo Relay Latched 01903 Read Only L1326 Reserved Pseudo Relay Latched 01904 Read Only L1327 Reserved Pseudo Relay Latched 01905 Read Only L1328 Reserved Pseudo Relay Latched 01906 Read Only L1329 Reserved Pseudo Relay Latched 01907 Read Only L1330 Reserved Pseudo Relay Latched 01908 Read Only L1331 Reserved Pseudo Relay Latched 01909 Read Only L1332 Reserved Pseudo Relay Latched 01910 Read Only L1333 Reserved Pseudo Relay Latched 01911 Read Only L1334 Reserved Pseudo Relay Latched 01912 Read Only L1335 Reserved Pseudo Relay Latched 01913 Read Only L1336 Reserved Pseudo Relay Latched 01914 Read Only L1337 Reserved Pseudo Relay Latched 01915 Read Only L1338 Reserved Pseudo Relay Latched 01916 Read Only L1339 Reserved Pseudo Relay Latched 01917 Read Only L1340 Reserved Pseudo Relay Latched 01918 Read Only L1341 Reserved Pseudo Relay Latched 01919 Read Only L1342 Reserved Pseudo Relay Latched 01920 Read Only L1343 Reserved Pseudo Relay Latched

QT108300

- 231 -

Coils number 01921 to 02048(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

01921 Read Only L1344 Reserved Pseudo Relay Latched 01922 Read Only L1345 Reserved Pseudo Relay Latched 01923 Read Only L1346 Reserved Pseudo Relay Latched 01924 Read Only L1347 Reserved Pseudo Relay Latched 01925 Read Only L1348 Reserved Pseudo Relay Latched 01926 Read Only L1349 Reserved Pseudo Relay Latched 01927 Read Only L1350 Reserved Pseudo Relay Latched 01928 Read Only L1351 Reserved Pseudo Relay Latched 01929 Read Only L1352 Reserved Pseudo Relay Latched 01930 Read Only L1353 Reserved Pseudo Relay Latched 01931 Read Only L1354 Reserved Pseudo Relay Latched 01932 Read Only L1355 Reserved Pseudo Relay Latched 01933 Read Only L1356 Reserved Pseudo Relay Latched 01934 Read Only L1357 Reserved Pseudo Relay Latched 01935 Read Only L1358 Reserved Pseudo Relay Latched 01936 Read Only L1359 Reserved Pseudo Relay Latched 01937 Read Only L1360 Reserved Pseudo Relay Latched 01938 Read Only L1361 Reserved Pseudo Relay Latched 01939 Read Only L1362 Reserved Pseudo Relay Latched 01940 Read Only L1363 Reserved Pseudo Relay Latched 01941 Read Only L1364 Reserved Pseudo Relay Latched 01942 Read Only L1365 Reserved Pseudo Relay Latched 01943 Read Only L1366 Reserved Pseudo Relay Latched 01944 Read Only L1367 Reserved Pseudo Relay Latched 01945 Read Only L1368 Reserved Pseudo Relay Latched 01946 Read Only L1369 Reserved Pseudo Relay Latched 01947 Read Only L1370 Reserved Pseudo Relay Latched 01948 Read Only L1371 Reserved Pseudo Relay Latched 01949 Read Only L1372 Reserved Pseudo Relay Latched 01950 Read Only L1373 Reserved Pseudo Relay Latched 01951 Read Only L1374 Reserved Pseudo Relay Latched 01952 Read Only L1375 Reserved Pseudo Relay Latched 01953 Read Only L1376 Reserved Pseudo Relay Latched 01954 Read Only L1377 Reserved Pseudo Relay Latched 01955 Read Only L1378 Reserved Pseudo Relay Latched 01956 Read Only L1379 Reserved Pseudo Relay Latched 01957 Read Only L1380 Reserved Pseudo Relay Latched 01958 Read Only L1381 Reserved Pseudo Relay Latched 01959 Read Only L1382 Reserved Pseudo Relay Latched 01960 Read Only L1383 Reserved Pseudo Relay Latched 01961 Read Only L1384 Reserved Pseudo Relay Latched 01962 Read Only L1385 Reserved Pseudo Relay Latched 01963 Read Only L1386 Reserved Pseudo Relay Latched 01964 Read Only L1387 Reserved Pseudo Relay Latched 01965 Read Only L1388 Reserved Pseudo Relay Latched 01966 Read Only L1389 Reserved Pseudo Relay Latched 01967 Read Only L1390 Reserved Pseudo Relay Latched 01968 Read Only L1391 Reserved Pseudo Relay Latched 01969 Read Only L1392 Reserved Pseudo Relay Latched 01970 Read Only L1393 Reserved Pseudo Relay Latched 01971 Read Only L1394 Reserved Pseudo Relay Latched 01972 Read Only L1395 Reserved Pseudo Relay Latched 01973 Read Only L1396 Reserved Pseudo Relay Latched 01974 Read Only L1397 Reserved Pseudo Relay Latched 01975 Read Only L1398 Reserved Pseudo Relay Latched 01976 Read Only L1399 Reserved Pseudo Relay Latched 01977 Read Only L1400 Reserved Pseudo Relay Latched 01978 Read Only L1401 Reserved Pseudo Relay Latched 01979 Read Only L1402 Reserved Pseudo Relay Latched 01980 Read Only L1403 Reserved Pseudo Relay Latched 01981 Read Only L1404 Reserved Pseudo Relay Latched 01982 Read Only L1405 Reserved Pseudo Relay Latched 01983 Read Only L1406 Reserved Pseudo Relay Latched 01984 Read Only L1407 Reserved Pseudo Relay Latched 01985 Read Only L1408 Reserved Pseudo Relay Latched 01986 Read Only L1409 Reserved Pseudo Relay Latched 01987 Read Only L1410 Reserved Pseudo Relay Latched 01988 Read Only L1411 Reserved Pseudo Relay Latched 01989 Read Only L1412 Reserved Pseudo Relay Latched 01990 Read Only L1413 Reserved Pseudo Relay Latched 01991 Read Only L1414 Reserved Pseudo Relay Latched 01992 Read Only L1415 Reserved Pseudo Relay Latched 01993 Read Only L1416 Reserved Pseudo Relay Latched 01994 Read Only L1417 Reserved Pseudo Relay Latched 01995 Read Only L1418 Reserved Pseudo Relay Latched 01996 Read Only L1419 Reserved Pseudo Relay Latched 01997 Read Only L1420 Reserved Pseudo Relay Latched 01998 Read Only L1421 Reserved Pseudo Relay Latched 01999 Read Only L1422 Reserved Pseudo Relay Latched 02000 Read Only L1423 Reserved Pseudo Relay Latched 02001 Read Only L1424 Reserved Pseudo Relay Latched

QT108300

- 232 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

02002 Read Only L1425 Reserved Pseudo Relay Latched 02003 Read Only L1426 Reserved Pseudo Relay Latched 02004 Read Only L1427 Reserved Pseudo Relay Latched 02005 Read Only L1428 Reserved Pseudo Relay Latched 02006 Read Only L1429 Reserved Pseudo Relay Latched 02007 Read Only L1430 Reserved Pseudo Relay Latched 02008 Read Only L1431 Reserved Pseudo Relay Latched 02009 Read Only L1432 Reserved Pseudo Relay Latched 02010 Read Only L1433 Reserved Pseudo Relay Latched 02011 Read Only L1434 Reserved Pseudo Relay Latched 02012 Read Only L1435 Reserved Pseudo Relay Latched 02013 Read Only L1436 Reserved Pseudo Relay Latched 02014 Read Only L1437 Reserved Pseudo Relay Latched 02015 Read Only L1438 Reserved Pseudo Relay Latched 02016 Read Only L1439 Reserved Pseudo Relay Latched 02017 Read Only L1440 Reserved Pseudo Relay Latched 02018 Read Only L1441 Reserved Pseudo Relay Latched 02019 Read Only L1442 Reserved Pseudo Relay Latched 02020 Read Only L1443 Reserved Pseudo Relay Latched 02021 Read Only L1444 Reserved Pseudo Relay Latched 02022 Read Only L1445 Reserved Pseudo Relay Latched 02023 Read Only L1446 Reserved Pseudo Relay Latched 02024 Read Only L1447 Reserved Pseudo Relay Latched 02025 Read Only L1448 Reserved Pseudo Relay Latched 02026 Read Only L1449 Reserved Pseudo Relay Latched 02027 Read Only L1450 Reserved Pseudo Relay Latched 02028 Read Only L1451 Reserved Pseudo Relay Latched 02029 Read Only L1452 Reserved Pseudo Relay Latched 02030 Read Only L1453 Reserved Pseudo Relay Latched 02031 Read Only L1454 Reserved Pseudo Relay Latched 02032 Read Only L1455 Reserved Pseudo Relay Latched 02033 Read Only L1456 Reserved Pseudo Relay Latched 02034 Read Only L1457 Reserved Pseudo Relay Latched 02035 Read Only L1458 Reserved Pseudo Relay Latched 02036 Read Only L1459 Reserved Pseudo Relay Latched 02037 Read Only L1460 Reserved Pseudo Relay Latched 02038 Read Only L1461 Reserved Pseudo Relay Latched 02039 Read Only L1462 Reserved Pseudo Relay Latched 02040 Read Only L1463 Reserved Pseudo Relay Latched 02041 Read Only L1464 Reserved Pseudo Relay Latched 02042 Read Only L1465 Reserved Pseudo Relay Latched 02043 Read Only L1466 Reserved Pseudo Relay Latched 02044 Read Only L1467 Reserved Pseudo Relay Latched 02045 Read Only L1468 Reserved Pseudo Relay Latched 02046 Read Only L1469 Reserved Pseudo Relay Latched 02047 Read Only L1470 Reserved Pseudo Relay Latched 02048 Read Only L1471 Reserved Pseudo Relay Latched

QT108300

- 233 -

Coils number 02049 to 02176(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

02049 Read Only L1472 Reserved Pseudo Relay Latched 02050 Read Only L1473 Reserved Pseudo Relay Latched 02051 Read Only L1474 Reserved Pseudo Relay Latched 02052 Read Only L1475 Reserved Pseudo Relay Latched 02053 Read Only L1476 Reserved Pseudo Relay Latched 02054 Read Only L1477 Reserved Pseudo Relay Latched 02055 Read Only L1478 Reserved Pseudo Relay Latched 02056 Read Only L1479 Reserved Pseudo Relay Latched 02057 Read Only L1480 Reserved Pseudo Relay Latched 02058 Read Only L1481 Reserved Pseudo Relay Latched 02059 Read Only L1482 Reserved Pseudo Relay Latched 02060 Read Only L1483 Reserved Pseudo Relay Latched 02061 Read Only L1484 Reserved Pseudo Relay Latched 02062 Read Only L1485 Reserved Pseudo Relay Latched 02063 Read Only L1486 Reserved Pseudo Relay Latched 02064 Read Only L1487 Reserved Pseudo Relay Latched 02065 Read Only L1488 Reserved Pseudo Relay Latched 02066 Read Only L1489 Reserved Pseudo Relay Latched 02067 Read Only L1490 Reserved Pseudo Relay Latched 02068 Read Only L1491 Reserved Pseudo Relay Latched 02069 Read Only L1492 Reserved Pseudo Relay Latched 02070 Read Only L1493 Reserved Pseudo Relay Latched 02071 Read Only L1494 Reserved Pseudo Relay Latched 02072 Read Only L1495 Reserved Pseudo Relay Latched 02073 Read Only L1496 Reserved Pseudo Relay Latched 02074 Read Only L1497 Reserved Pseudo Relay Latched 02075 Read Only L1498 Reserved Pseudo Relay Latched 02076 Read Only L1499 Reserved Pseudo Relay Latched 02077 Read Only L1500 Reserved Pseudo Relay Latched 02078 Read Only L1501 Reserved Pseudo Relay Latched 02079 Read Only L1502 Reserved Pseudo Relay Latched 02080 Read Only L1503 Reserved Pseudo Relay Latched 02081 Read Only L1504 Reserved Pseudo Relay Latched 02082 Read Only L1505 Reserved Pseudo Relay Latched 02083 Read Only L1506 Reserved Pseudo Relay Latched 02084 Read Only L1507 Reserved Pseudo Relay Latched 02085 Read Only L1508 Reserved Pseudo Relay Latched 02086 Read Only L1509 Reserved Pseudo Relay Latched 02087 Read Only L1510 Reserved Pseudo Relay Latched 02088 Read Only L1511 Reserved Pseudo Relay Latched 02089 Read Only L1512 Reserved Pseudo Relay Latched 02090 Read Only L1513 Reserved Pseudo Relay Latched 02091 Read Only L1514 Reserved Pseudo Relay Latched 02092 Read Only L1515 Reserved Pseudo Relay Latched 02093 Read Only L1516 Reserved Pseudo Relay Latched 02094 Read Only L1517 Reserved Pseudo Relay Latched 02095 Read Only L1518 Reserved Pseudo Relay Latched 02096 Read Only L1519 Reserved Pseudo Relay Latched 02097 Read Only L1520 Reserved Pseudo Relay Latched 02098 Read Only L1521 Reserved Pseudo Relay Latched 02099 Read Only L1522 Reserved Pseudo Relay Latched 02100 Read Only L1523 Reserved Pseudo Relay Latched 02101 Read Only L1524 Reserved Pseudo Relay Latched 02102 Read Only L1525 Reserved Pseudo Relay Latched 02103 Read Only L1526 Reserved Pseudo Relay Latched 02104 Read Only L1527 Reserved Pseudo Relay Latched 02105 Read Only L1528 Reserved Pseudo Relay Latched 02106 Read Only L1529 Reserved Pseudo Relay Latched 02107 Read Only L1530 Reserved Pseudo Relay Latched 02108 Read Only L1531 Reserved Pseudo Relay Latched 02109 Read Only L1532 Reserved Pseudo Relay Latched 02110 Read Only L1533 Reserved Pseudo Relay Latched 02111 Read Only L1534 Reserved Pseudo Relay Latched 02112 Read Only L1535 Reserved Pseudo Relay Latched 02113 Read Only L1536 Reserved Pseudo Relay Latched 02114 Read Only L1537 Reserved Pseudo Relay Latched 02115 Read Only L1538 Reserved Pseudo Relay Latched 02116 Read Only L1539 Reserved Pseudo Relay Latched 02117 Read Only L1540 Reserved Pseudo Relay Latched 02118 Read Only L1541 Reserved Pseudo Relay Latched 02119 Read Only L1542 Reserved Pseudo Relay Latched 02120 Read Only L1543 Reserved Pseudo Relay Latched 02121 Read Only L1544 Reserved Pseudo Relay Latched 02122 Read Only L1545 Reserved Pseudo Relay Latched 02123 Read Only L1546 Reserved Pseudo Relay Latched 02124 Read Only L1547 Reserved Pseudo Relay Latched 02125 Read Only L1548 Reserved Pseudo Relay Latched 02126 Read Only L1549 Reserved Pseudo Relay Latched 02127 Read Only L1550 Reserved Pseudo Relay Latched 02128 Read Only L1551 Reserved Pseudo Relay Latched 02129 Read Only L1552 Reserved Pseudo Relay Latched

QT108300

- 234 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

02130 Read Only L1553 Reserved Pseudo Relay Latched 02131 Read Only L1554 Reserved Pseudo Relay Latched 02132 Read Only L1555 Reserved Pseudo Relay Latched 02133 Read Only L1556 Reserved Pseudo Relay Latched 02134 Read Only L1557 Reserved Pseudo Relay Latched 02135 Read Only L1558 Reserved Pseudo Relay Latched 02136 Read Only L1559 Reserved Pseudo Relay Latched 02137 Read Only L1560 Reserved Pseudo Relay Latched 02138 Read Only L1561 Reserved Pseudo Relay Latched 02139 Read Only L1562 Reserved Pseudo Relay Latched 02140 Read Only L1563 Reserved Pseudo Relay Latched 02141 Read Only L1564 Reserved Pseudo Relay Latched 02142 Read Only L1565 Reserved Pseudo Relay Latched 02143 Read Only L1566 Reserved Pseudo Relay Latched 02144 Read Only L1567 Reserved Pseudo Relay Latched 02145 Read Only L1568 Reserved Pseudo Relay Latched 02146 Read Only L1569 Reserved Pseudo Relay Latched 02147 Read Only L1570 Reserved Pseudo Relay Latched 02148 Read Only L1571 Reserved Pseudo Relay Latched 02149 Read Only L1572 Reserved Pseudo Relay Latched 02150 Read Only L1573 Reserved Pseudo Relay Latched 02151 Read Only L1574 Reserved Pseudo Relay Latched 02152 Read Only L1575 Reserved Pseudo Relay Latched 02153 Read Only L1576 Reserved Pseudo Relay Latched 02154 Read Only L1577 Reserved Pseudo Relay Latched 02155 Read Only L1578 Reserved Pseudo Relay Latched 02156 Read Only L1579 Reserved Pseudo Relay Latched 02157 Read Only L1580 Reserved Pseudo Relay Latched 02158 Read Only L1581 Reserved Pseudo Relay Latched 02159 Read Only L1582 Reserved Pseudo Relay Latched 02160 Read Only L1583 Reserved Pseudo Relay Latched 02161 Read Only L1584 Reserved Pseudo Relay Latched 02162 Read Only L1585 Reserved Pseudo Relay Latched 02163 Read Only L1586 Reserved Pseudo Relay Latched 02164 Read Only L1587 Reserved Pseudo Relay Latched 02165 Read Only L1588 Reserved Pseudo Relay Latched 02166 Read Only L1589 Reserved Pseudo Relay Latched 02167 Read Only L1590 Reserved Pseudo Relay Latched 02168 Read Only L1591 Reserved Pseudo Relay Latched 02169 Read Only L1592 Reserved Pseudo Relay Latched 02170 Read Only L1593 Reserved Pseudo Relay Latched 02171 Read Only L1594 Reserved Pseudo Relay Latched 02172 Read Only L1595 Reserved Pseudo Relay Latched 02173 Read Only L1596 Reserved Pseudo Relay Latched 02174 Read Only L1597 Reserved Pseudo Relay Latched 02175 Read Only L1598 Reserved Pseudo Relay Latched 02176 Read Only L1599 Reserved Pseudo Relay Latched

QT108300

- 235 -

Coils number 02177 to 02304(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

02177 Read Only L1600 Reserved Pseudo Relay Latched 02178 Read Only L1601 Reserved Pseudo Relay Latched 02179 Read Only L1602 Reserved Pseudo Relay Latched 02180 Read Only L1603 Reserved Pseudo Relay Latched 02181 Read Only L1604 Reserved Pseudo Relay Latched 02182 Read Only L1605 Reserved Pseudo Relay Latched 02183 Read Only L1606 Reserved Pseudo Relay Latched 02184 Read Only L1607 Reserved Pseudo Relay Latched 02185 Read Only L1608 Reserved Pseudo Relay Latched 02186 Read Only L1609 Reserved Pseudo Relay Latched 02187 Read Only L1610 Reserved Pseudo Relay Latched 02188 Read Only L1611 Reserved Pseudo Relay Latched 02189 Read Only L1612 Reserved Pseudo Relay Latched 02190 Read Only L1613 Reserved Pseudo Relay Latched 02191 Read Only L1614 Reserved Pseudo Relay Latched 02192 Read Only L1615 Reserved Pseudo Relay Latched 02193 Read Only L1616 Reserved Pseudo Relay Latched 02194 Read Only L1617 Reserved Pseudo Relay Latched 02195 Read Only L1618 Reserved Pseudo Relay Latched 02196 Read Only L1619 Reserved Pseudo Relay Latched 02197 Read Only L1620 Reserved Pseudo Relay Latched 02198 Read Only L1621 Reserved Pseudo Relay Latched 02199 Read Only L1622 Reserved Pseudo Relay Latched 02200 Read Only L1623 Reserved Pseudo Relay Latched 02201 Read Only L1624 Reserved Pseudo Relay Latched 02202 Read Only L1625 Reserved Pseudo Relay Latched 02203 Read Only L1626 Reserved Pseudo Relay Latched 02204 Read Only L1627 Reserved Pseudo Relay Latched 02205 Read Only L1628 Reserved Pseudo Relay Latched 02206 Read Only L1629 Reserved Pseudo Relay Latched 02207 Read Only L1630 Reserved Pseudo Relay Latched 02208 Read Only L1631 Reserved Pseudo Relay Latched 02209 Read Only L1632 Reserved Pseudo Relay Latched 02210 Read Only L1633 Reserved Pseudo Relay Latched 02211 Read Only L1634 Reserved Pseudo Relay Latched 02212 Read Only L1635 Reserved Pseudo Relay Latched 02213 Read Only L1636 Reserved Pseudo Relay Latched 02214 Read Only L1637 Reserved Pseudo Relay Latched 02215 Read Only L1638 Reserved Pseudo Relay Latched 02216 Read Only L1639 Reserved Pseudo Relay Latched 02217 Read Only L1640 Reserved Pseudo Relay Latched 02218 Read Only L1641 Reserved Pseudo Relay Latched 02219 Read Only L1642 Reserved Pseudo Relay Latched 02220 Read Only L1643 Reserved Pseudo Relay Latched 02221 Read Only L1644 Reserved Pseudo Relay Latched 02222 Read Only L1645 Reserved Pseudo Relay Latched 02223 Read Only L1646 Reserved Pseudo Relay Latched 02224 Read Only L1647 Reserved Pseudo Relay Latched 02225 Read Only L1648 Reserved Pseudo Relay Latched 02226 Read Only L1649 Reserved Pseudo Relay Latched 02227 Read Only L1650 Reserved Pseudo Relay Latched 02228 Read Only L1651 Reserved Pseudo Relay Latched 02229 Read Only L1652 Reserved Pseudo Relay Latched 02230 Read Only L1653 Reserved Pseudo Relay Latched 02231 Read Only L1654 Reserved Pseudo Relay Latched 02232 Read Only L1655 Reserved Pseudo Relay Latched 02233 Read Only L1656 Reserved Pseudo Relay Latched 02234 Read Only L1657 Reserved Pseudo Relay Latched 02235 Read Only L1658 Reserved Pseudo Relay Latched 02236 Read Only L1659 Reserved Pseudo Relay Latched 02237 Read Only L1660 Reserved Pseudo Relay Latched 02238 Read Only L1661 Reserved Pseudo Relay Latched 02239 Read Only L1662 Reserved Pseudo Relay Latched 02240 Read Only L1663 Reserved Pseudo Relay Latched 02241 Read Only L1664 Reserved Pseudo Relay Latched 02242 Read Only L1665 Reserved Pseudo Relay Latched 02243 Read Only L1666 Reserved Pseudo Relay Latched 02244 Read Only L1667 Reserved Pseudo Relay Latched 02245 Read Only L1668 Reserved Pseudo Relay Latched 02246 Read Only L1669 Reserved Pseudo Relay Latched 02247 Read Only L1670 Reserved Pseudo Relay Latched 02248 Read Only L1671 Reserved Pseudo Relay Latched 02249 Read Only L1672 Reserved Pseudo Relay Latched 02250 Read Only L1673 Reserved Pseudo Relay Latched 02251 Read Only L1674 Reserved Pseudo Relay Latched 02252 Read Only L1675 Reserved Pseudo Relay Latched 02253 Read Only L1676 Reserved Pseudo Relay Latched 02254 Read Only L1677 Reserved Pseudo Relay Latched 02255 Read Only L1678 Reserved Pseudo Relay Latched 02256 Read Only L1679 Reserved Pseudo Relay Latched 02257 Read Only L1680 Reserved Pseudo Relay Latched

QT108300

- 236 -

(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

02258 Read Only L1681 Reserved Pseudo Relay Latched 02259 Read Only L1682 Reserved Pseudo Relay Latched 02260 Read Only L1683 Reserved Pseudo Relay Latched 02261 Read Only L1684 Reserved Pseudo Relay Latched 02262 Read Only L1685 Reserved Pseudo Relay Latched 02263 Read Only L1686 Reserved Pseudo Relay Latched 02264 Read Only L1687 Reserved Pseudo Relay Latched 02265 Read Only L1688 Reserved Pseudo Relay Latched 02266 Read Only L1689 Reserved Pseudo Relay Latched 02267 Read Only L1690 Reserved Pseudo Relay Latched 02268 Read Only L1691 Reserved Pseudo Relay Latched 02269 Read Only L1692 Reserved Pseudo Relay Latched 02270 Read Only L1693 Reserved Pseudo Relay Latched 02271 Read Only L1694 Reserved Pseudo Relay Latched 02272 Read Only L1695 Reserved Pseudo Relay Latched 02273 Read Only L1696 Reserved Pseudo Relay Latched 02274 Read Only L1697 Reserved Pseudo Relay Latched 02275 Read Only L1698 Reserved Pseudo Relay Latched 02276 Read Only L1699 Reserved Pseudo Relay Latched 02277 Read Only L1700 Reserved Pseudo Relay Latched 02278 Read Only L1701 Reserved Pseudo Relay Latched 02279 Read Only L1702 Reserved Pseudo Relay Latched 02280 Read Only L1703 Reserved Pseudo Relay Latched 02281 Read Only L1704 Reserved Pseudo Relay Latched 02282 Read Only L1705 Reserved Pseudo Relay Latched 02283 Read Only L1706 Reserved Pseudo Relay Latched 02284 Read Only L1707 Reserved Pseudo Relay Latched 02285 Read Only L1708 Reserved Pseudo Relay Latched 02286 Read Only L1709 Reserved Pseudo Relay Latched 02287 Read Only L1710 Reserved Pseudo Relay Latched 02288 Read Only L1711 Reserved Pseudo Relay Latched 02289 Read Only L1712 Reserved Pseudo Relay Latched 02290 Read Only L1713 Reserved Pseudo Relay Latched 02291 Read Only L1714 Reserved Pseudo Relay Latched 02292 Read Only L1715 Reserved Pseudo Relay Latched 02293 Read Only L1716 Reserved Pseudo Relay Latched 02294 Read Only L1717 Reserved Pseudo Relay Latched 02295 Read Only L1718 Reserved Pseudo Relay Latched 02296 Read Only L1719 Reserved Pseudo Relay Latched 02297 Read Only L1720 Reserved Pseudo Relay Latched 02298 Read Only L1721 Reserved Pseudo Relay Latched 02299 Read Only L1722 Reserved Pseudo Relay Latched 02300 Read Only L1723 Reserved Pseudo Relay Latched 02301 Read Only L1724 Reserved Pseudo Relay Latched 02302 Read Only L1725 Reserved Pseudo Relay Latched 02303 Read Only L1726 Reserved Pseudo Relay Latched 02304 Read Only L1727 Reserved Pseudo Relay Latched

QT108300

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Coils number 02305 to 02432(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

02305 Read Only L1728 Reserved Pseudo Relay Latched 02306 Read Only L1729 Reserved Pseudo Relay Latched 02307 Read Only L1730 Reserved Pseudo Relay Latched 02308 Read Only L1731 Reserved Pseudo Relay Latched 02309 Read Only L1732 Reserved Pseudo Relay Latched 02310 Read Only L1733 Reserved Pseudo Relay Latched 02311 Read Only L1734 Reserved Pseudo Relay Latched 02312 Read Only L1735 Reserved Pseudo Relay Latched 02313 Read Only L1736 Reserved Pseudo Relay Latched 02314 Read Only L1737 Reserved Pseudo Relay Latched 02315 Read Only L1738 Reserved Pseudo Relay Latched 02316 Read Only L1739 Reserved Pseudo Relay Latched 02317 Read Only L1740 Reserved Pseudo Relay Latched 02318 Read Only L1741 Reserved Pseudo Relay Latched 02319 Read Only L1742 Reserved Pseudo Relay Latched 02320 Read Only L1743 Reserved Pseudo Relay Latched 02321 Read Only L1744 Reserved Pseudo Relay Latched 02322 Read Only L1745 Reserved Pseudo Relay Latched 02323 Read Only L1746 Reserved Pseudo Relay Latched 02324 Read Only L1747 Reserved Pseudo Relay Latched 02325 Read Only L1748 Reserved Pseudo Relay Latched 02326 Read Only L1749 Reserved Pseudo Relay Latched 02327 Read Only L1750 Reserved Pseudo Relay Latched 02328 Read Only L1751 Reserved Pseudo Relay Latched 02329 Read Only L1752 Reserved Pseudo Relay Latched 02330 Read Only L1753 Reserved Pseudo Relay Latched 02331 Read Only L1754 Reserved Pseudo Relay Latched 02332 Read Only L1755 Reserved Pseudo Relay Latched 02333 Read Only L1756 Reserved Pseudo Relay Latched 02334 Read Only L1757 Reserved Pseudo Relay Latched 02335 Read Only L1758 Reserved Pseudo Relay Latched 02336 Read Only L1759 Reserved Pseudo Relay Latched 02337 Read Only L1760 Reserved Pseudo Relay Latched 02338 Read Only L1761 Reserved Pseudo Relay Latched 02339 Read Only L1762 Reserved Pseudo Relay Latched 02340 Read Only L1763 Reserved Pseudo Relay Latched 02341 Read Only L1764 Reserved Pseudo Relay Latched 02342 Read Only L1765 Reserved Pseudo Relay Latched 02343 Read Only L1766 Reserved Pseudo Relay Latched 02344 Read Only L1767 Reserved Pseudo Relay Latched 02345 Read Only L1768 Reserved Pseudo Relay Latched 02346 Read Only L1769 Reserved Pseudo Relay Latched 02347 Read Only L1770 Reserved Pseudo Relay Latched 02348 Read Only L1771 Reserved Pseudo Relay Latched 02349 Read Only L1772 Reserved Pseudo Relay Latched 02350 Read Only L1773 Reserved Pseudo Relay Latched 02351 Read Only L1774 Reserved Pseudo Relay Latched 02352 Read Only L1775 Reserved Pseudo Relay Latched 02353 Read Only L1776 Reserved Pseudo Relay Latched 02354 Read Only L1777 Reserved Pseudo Relay Latched 02355 Read Only L1778 Reserved Pseudo Relay Latched 02356 Read Only L1779 Reserved Pseudo Relay Latched 02357 Read Only L1780 Reserved Pseudo Relay Latched 02358 Read Only L1781 Reserved Pseudo Relay Latched 02359 Read Only L1782 Reserved Pseudo Relay Latched 02360 Read Only L1783 Reserved Pseudo Relay Latched 02361 Read Only L1784 Reserved Pseudo Relay Latched 02362 Read Only L1785 Reserved Pseudo Relay Latched 02363 Read Only L1786 Reserved Pseudo Relay Latched 02364 Read Only L1787 Reserved Pseudo Relay Latched 02365 Read Only L1788 Reserved Pseudo Relay Latched 02366 Read Only L1789 Reserved Pseudo Relay Latched 02367 Read Only L1790 Reserved Pseudo Relay Latched 02368 Read Only L1791 Reserved Pseudo Relay Latched 02369 Read Only L1792 Reserved Pseudo Relay Latched 02370 Read Only L1793 Reserved Pseudo Relay Latched 02371 Read Only L1794 Reserved Pseudo Relay Latched 02372 Read Only L1795 Reserved Pseudo Relay Latched 02373 Read Only L1796 Reserved Pseudo Relay Latched 02374 Read Only L1797 Reserved Pseudo Relay Latched 02375 Read Only L1798 Reserved Pseudo Relay Latched 02376 Read Only L1799 Reserved Pseudo Relay Latched 02377 Read Only L1800 Reserved Pseudo Relay Latched 02378 Read Only L1801 Reserved Pseudo Relay Latched 02379 Read Only L1802 Reserved Pseudo Relay Latched 02380 Read Only L1803 Reserved Pseudo Relay Latched 02381 Read Only L1804 Reserved Pseudo Relay Latched 02382 Read Only L1805 Reserved Pseudo Relay Latched 02383 Read Only L1806 Reserved Pseudo Relay Latched 02384 Read Only L1807 Reserved Pseudo Relay Latched 02385 Read Only L1808 Reserved Pseudo Relay Latched

QT108300

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(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

02386 Read Only L1809 Reserved Pseudo Relay Latched 02387 Read Only L1810 Reserved Pseudo Relay Latched 02388 Read Only L1811 Reserved Pseudo Relay Latched 02389 Read Only L1812 Reserved Pseudo Relay Latched 02390 Read Only L1813 Reserved Pseudo Relay Latched 02391 Read Only L1814 Reserved Pseudo Relay Latched 02392 Read Only L1815 Reserved Pseudo Relay Latched 02393 Read Only L1816 Reserved Pseudo Relay Latched 02394 Read Only L1817 Reserved Pseudo Relay Latched 02395 Read Only L1818 Reserved Pseudo Relay Latched 02396 Read Only L1819 Reserved Pseudo Relay Latched 02397 Read Only L1820 Reserved Pseudo Relay Latched 02398 Read Only L1821 Reserved Pseudo Relay Latched 02399 Read Only L1822 Reserved Pseudo Relay Latched 02400 Read Only L1823 Reserved Pseudo Relay Latched 02401 Read Only L1824 Reserved Pseudo Relay Latched 02402 Read Only L1825 Reserved Pseudo Relay Latched 02403 Read Only L1826 Reserved Pseudo Relay Latched 02404 Read Only L1827 Reserved Pseudo Relay Latched 02405 Read Only L1828 Reserved Pseudo Relay Latched 02406 Read Only L1829 Reserved Pseudo Relay Latched 02407 Read Only L1830 Reserved Pseudo Relay Latched 02408 Read Only L1831 Reserved Pseudo Relay Latched 02409 Read Only L1832 Reserved Pseudo Relay Latched 02410 Read Only L1833 Reserved Pseudo Relay Latched 02411 Read Only L1834 Reserved Pseudo Relay Latched 02412 Read Only L1835 Reserved Pseudo Relay Latched 02413 Read Only L1836 Reserved Pseudo Relay Latched 02414 Read Only L1837 Reserved Pseudo Relay Latched 02415 Read Only L1838 Reserved Pseudo Relay Latched 02416 Read Only L1839 Reserved Pseudo Relay Latched 02417 Read Only L1840 Reserved Pseudo Relay Latched 02418 Read Only L1841 Reserved Pseudo Relay Latched 02419 Read Only L1842 Reserved Pseudo Relay Latched 02420 Read Only L1843 Reserved Pseudo Relay Latched 02421 Read Only L1844 Reserved Pseudo Relay Latched 02422 Read Only L1845 Reserved Pseudo Relay Latched 02423 Read Only L1846 Reserved Pseudo Relay Latched 02424 Read Only L1847 Reserved Pseudo Relay Latched 02425 Read Only L1848 Reserved Pseudo Relay Latched 02426 Read Only L1849 Reserved Pseudo Relay Latched 02427 Read Only L1850 Reserved Pseudo Relay Latched 02428 Read Only L1851 Reserved Pseudo Relay Latched 02429 Read Only L1852 Reserved Pseudo Relay Latched 02430 Read Only L1853 Reserved Pseudo Relay Latched 02431 Read Only L1854 Reserved Pseudo Relay Latched 02432 Read Only L1855 Reserved Pseudo Relay Latched

QT108300

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Coils number 02433 to 02560(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

02433 Read Only L1856 Reserved Pseudo Relay Latched 02434 Read Only L1857 Reserved Pseudo Relay Latched 02435 Read Only L1858 Reserved Pseudo Relay Latched 02436 Read Only L1859 Reserved Pseudo Relay Latched 02437 Read Only L1860 Reserved Pseudo Relay Latched 02438 Read Only L1861 Reserved Pseudo Relay Latched 02439 Read Only L1862 Reserved Pseudo Relay Latched 02440 Read Only L1863 Reserved Pseudo Relay Latched 02441 Read Only L1864 Reserved Pseudo Relay Latched 02442 Read Only L1865 Reserved Pseudo Relay Latched 02443 Read Only L1866 Reserved Pseudo Relay Latched 02444 Read Only L1867 Reserved Pseudo Relay Latched 02445 Read Only L1868 Reserved Pseudo Relay Latched 02446 Read Only L1869 Reserved Pseudo Relay Latched 02447 Read Only L1870 Reserved Pseudo Relay Latched 02448 Read Only L1871 Reserved Pseudo Relay Latched 02449 Read Only L1872 Reserved Pseudo Relay Latched 02450 Read Only L1873 Reserved Pseudo Relay Latched 02451 Read Only L1874 Reserved Pseudo Relay Latched 02452 Read Only L1875 Reserved Pseudo Relay Latched 02453 Read Only L1876 Reserved Pseudo Relay Latched 02454 Read Only L1877 Reserved Pseudo Relay Latched 02455 Read Only L1878 Reserved Pseudo Relay Latched 02456 Read Only L1879 Reserved Pseudo Relay Latched 02457 Read Only L1880 Reserved Pseudo Relay Latched 02458 Read Only L1881 Reserved Pseudo Relay Latched 02459 Read Only L1882 Reserved Pseudo Relay Latched 02460 Read Only L1883 Reserved Pseudo Relay Latched 02461 Read Only L1884 Reserved Pseudo Relay Latched 02462 Read Only L1885 Reserved Pseudo Relay Latched 02463 Read Only L1886 Reserved Pseudo Relay Latched 02464 Read Only L1887 Reserved Pseudo Relay Latched 02465 Read Only L1888 Reserved Pseudo Relay Latched 02466 Read Only L1889 Reserved Pseudo Relay Latched 02467 Read Only L1890 Reserved Pseudo Relay Latched 02468 Read Only L1891 Reserved Pseudo Relay Latched 02469 Read Only L1892 Reserved Pseudo Relay Latched 02470 Read Only L1893 Reserved Pseudo Relay Latched 02471 Read Only L1894 Reserved Pseudo Relay Latched 02472 Read Only L1895 Reserved Pseudo Relay Latched 02473 Read Only L1896 Reserved Pseudo Relay Latched 02474 Read Only L1897 Reserved Pseudo Relay Latched 02475 Read Only L1898 Reserved Pseudo Relay Latched 02476 Read Only L1899 Reserved Pseudo Relay Latched 02477 Read Only L1900 Reserved Pseudo Relay Latched 02478 Read Only L1901 Reserved Pseudo Relay Latched 02479 Read Only L1902 Reserved Pseudo Relay Latched 02480 Read Only L1903 Reserved Pseudo Relay Latched 02481 Read Only L1904 Reserved Pseudo Relay Latched 02482 Read Only L1905 Reserved Pseudo Relay Latched 02483 Read Only L1906 Reserved Pseudo Relay Latched 02484 Read Only L1907 Reserved Pseudo Relay Latched 02485 Read Only L1908 Reserved Pseudo Relay Latched 02486 Read Only L1909 Reserved Pseudo Relay Latched 02487 Read Only L1910 Reserved Pseudo Relay Latched 02488 Read Only L1911 Reserved Pseudo Relay Latched 02489 Read Only L1912 Reserved Pseudo Relay Latched 02490 Read Only L1913 Reserved Pseudo Relay Latched 02491 Read Only L1914 Reserved Pseudo Relay Latched 02492 Read Only L1915 Reserved Pseudo Relay Latched 02493 Read Only L1916 Reserved Pseudo Relay Latched 02494 Read Only L1917 Reserved Pseudo Relay Latched 02495 Read Only L1918 Reserved Pseudo Relay Latched 02496 Read Only L1919 Reserved Pseudo Relay Latched 02497 Read Only L1920 Reserved Pseudo Relay Latched 02498 Read Only L1921 Reserved Pseudo Relay Latched 02499 Read Only L1922 Reserved Pseudo Relay Latched 02500 Read Only L1923 Reserved Pseudo Relay Latched 02501 Read Only L1924 Reserved Pseudo Relay Latched 02502 Read Only L1925 Reserved Pseudo Relay Latched 02503 Read Only L1926 Reserved Pseudo Relay Latched 02504 Read Only L1927 Reserved Pseudo Relay Latched 02505 Read Only L1928 Reserved Pseudo Relay Latched 02506 Read Only L1929 Reserved Pseudo Relay Latched 02507 Read Only L1930 Reserved Pseudo Relay Latched 02508 Read Only L1931 Reserved Pseudo Relay Latched 02509 Read Only L1932 Reserved Pseudo Relay Latched 02510 Read Only L1933 Reserved Pseudo Relay Latched 02511 Read Only L1934 Reserved Pseudo Relay Latched 02512 Read Only L1935 Reserved Pseudo Relay Latched 02513 Read Only L1936 Reserved Pseudo Relay Latched

QT108300

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(continued) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

02514 Read Only L1937 Reserved Pseudo Relay Latched 02515 Read Only L1938 Reserved Pseudo Relay Latched 02516 Read Only L1939 Reserved Pseudo Relay Latched 02517 Read Only L1940 Reserved Pseudo Relay Latched 02518 Read Only L1941 Reserved Pseudo Relay Latched 02519 Read Only L1942 Reserved Pseudo Relay Latched 02520 Read Only L1943 Reserved Pseudo Relay Latched 02521 Read Only L1944 Reserved Pseudo Relay Latched 02522 Read Only L1945 Reserved Pseudo Relay Latched 02523 Read Only L1946 Reserved Pseudo Relay Latched 02524 Read Only L1947 Reserved Pseudo Relay Latched 02525 Read Only L1948 Reserved Pseudo Relay Latched 02526 Read Only L1949 Reserved Pseudo Relay Latched 02527 Read Only L1950 Reserved Pseudo Relay Latched 02528 Read Only L1951 Reserved Pseudo Relay Latched 02529 Read Only L1952 Reserved Pseudo Relay Latched 02530 Read Only L1953 Reserved Pseudo Relay Latched 02531 Read Only L1954 Reserved Pseudo Relay Latched 02532 Read Only L1955 Reserved Pseudo Relay Latched 02533 Read Only L1956 Reserved Pseudo Relay Latched 02534 Read Only L1957 Reserved Pseudo Relay Latched 02535 Read Only L1958 Reserved Pseudo Relay Latched 02536 Read Only L1959 Reserved Pseudo Relay Latched 02537 Read Only L1960 Reserved Pseudo Relay Latched 02538 Read Only L1961 Reserved Pseudo Relay Latched 02539 Read Only L1962 Reserved Pseudo Relay Latched 02540 Read Only L1963 Reserved Pseudo Relay Latched 02541 Read Only L1964 Reserved Pseudo Relay Latched 02542 Read Only L1965 Reserved Pseudo Relay Latched 02543 Read Only L1966 Reserved Pseudo Relay Latched 02544 Read Only L1967 Reserved Pseudo Relay Latched 02545 Read Only L1968 Reserved Pseudo Relay Latched 02546 Read Only L1969 Reserved Pseudo Relay Latched 02547 Read Only L1970 Reserved Pseudo Relay Latched 02548 Read Only L1971 Reserved Pseudo Relay Latched 02549 Read Only L1972 Reserved Pseudo Relay Latched 02550 Read Only L1973 Reserved Pseudo Relay Latched 02551 Read Only L1974 Reserved Pseudo Relay Latched 02552 Read Only L1975 Reserved Pseudo Relay Latched 02553 Read Only L1976 Reserved Pseudo Relay Latched 02554 Read Only L1977 Reserved Pseudo Relay Latched 02555 Read Only L1978 Reserved Pseudo Relay Latched 02556 Read Only L1979 Reserved Pseudo Relay Latched 02557 Read Only L1980 Reserved Pseudo Relay Latched 02558 Read Only L1981 Reserved Pseudo Relay Latched 02559 Read Only L1982 Reserved Pseudo Relay Latched 02560 Read Only L1983 Reserved Pseudo Relay Latched

QT108300

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Coils number 02561 to 02624(Internal Bit Device can be monitored on F7: DIAGNOSTIC>9.READ BIT.) Coil

Number Attribute

Internal Bit Device

Name Category Sub Category Note

02561 Read Only L1984 Reserved Pseudo Relay Latched 02562 Read Only L1985 Reserved Pseudo Relay Latched 02563 Read Only L1986 Reserved Pseudo Relay Latched 02564 Read Only L1987 Reserved Pseudo Relay Latched 02565 Read Only L1988 Reserved Pseudo Relay Latched 02566 Read Only L1989 Reserved Pseudo Relay Latched 02567 Read Only L1990 Reserved Pseudo Relay Latched 02568 Read Only L1991 Reserved Pseudo Relay Latched 02569 Read Only L1992 Reserved Pseudo Relay Latched 02570 Read Only L1993 Reserved Pseudo Relay Latched 02571 Read Only L1994 Reserved Pseudo Relay Latched 02572 Read Only L1995 Reserved Pseudo Relay Latched 02573 Read Only L1996 Reserved Pseudo Relay Latched 02574 Read Only L1997 Reserved Pseudo Relay Latched 02575 Read Only L1998 Reserved Pseudo Relay Latched 02576 Read Only L1999 Reserved Pseudo Relay Latched 02577 Read Only L2000 Reserved Pseudo Relay Latched 02578 Read Only L2001 Reserved Pseudo Relay Latched 02579 Read Only L2002 Reserved Pseudo Relay Latched 02580 Read Only L2003 Reserved Pseudo Relay Latched 02581 Read Only L2004 Reserved Pseudo Relay Latched 02582 Read Only L2005 Reserved Pseudo Relay Latched 02583 Read Only L2006 Reserved Pseudo Relay Latched 02584 Read Only L2007 Reserved Pseudo Relay Latched 02585 Read Only L2008 Reserved Pseudo Relay Latched 02586 Read Only L2009 Reserved Pseudo Relay Latched 02587 Read Only L2010 Reserved Pseudo Relay Latched 02588 Read Only L2011 Reserved Pseudo Relay Latched 02589 Read Only L2012 Reserved Pseudo Relay Latched 02590 Read Only L2013 Reserved Pseudo Relay Latched 02591 Read Only L2014 Reserved Pseudo Relay Latched 02592 Read Only L2015 Reserved Pseudo Relay Latched 02593 Read Only L2016 Reserved Pseudo Relay Latched 02594 Read Only L2017 Reserved Pseudo Relay Latched 02595 Read Only L2018 Reserved Pseudo Relay Latched 02596 Read Only L2019 Reserved Pseudo Relay Latched 02597 Read Only L2020 Reserved Pseudo Relay Latched 02598 Read Only L2021 Reserved Pseudo Relay Latched 02599 Read Only L2022 Reserved Pseudo Relay Latched 02600 Read Only L2023 Reserved Pseudo Relay Latched 02601 Read Only L2024 Reserved Pseudo Relay Latched 02602 Read Only L2025 Reserved Pseudo Relay Latched 02603 Read Only L2026 Reserved Pseudo Relay Latched 02604 Read Only L2027 Reserved Pseudo Relay Latched 02605 Read Only L2028 Reserved Pseudo Relay Latched 02606 Read Only L2029 Reserved Pseudo Relay Latched 02607 Read Only L2030 Reserved Pseudo Relay Latched 02608 Read Only L2031 Reserved Pseudo Relay Latched 02609 Read Only L2032 Reserved Pseudo Relay Latched 02610 Read Only L2033 Reserved Pseudo Relay Latched 02611 Read Only L2034 Reserved Pseudo Relay Latched 02612 Read Only L2035 Reserved Pseudo Relay Latched 02613 Read Only L2036 Reserved Pseudo Relay Latched 02614 Read Only L2037 Reserved Pseudo Relay Latched 02615 Read Only L2038 Reserved Pseudo Relay Latched 02616 Read Only L2039 Reserved Pseudo Relay Latched 02617 Read Only L2040 Reserved Pseudo Relay Latched 02618 Read Only L2041 Reserved Pseudo Relay Latched 02619 Read Only L2042 Reserved Pseudo Relay Latched 02620 Read Only L2043 Reserved Pseudo Relay Latched 02621 Read Only L2044 Reserved Pseudo Relay Latched 02622 Read Only L2045 Reserved Pseudo Relay Latched 02623 Read Only L2046 Reserved Pseudo Relay Latched 02624 Read Only L2047 Reserved Pseudo Relay Latched

QT108300

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List of Replaceable Parts

Parts Name Model mAYEKAWA Code No.

CP4 CPU Board Assembly REF-CX100-PR01 EAD-02000

CP4 Analog Input Board Assembly-1 REF-CX100-AI01 EAD-02001

CP4 Analog Input Board Assembly-2 REF-CX100-AI11 EAD-02002

CP4 UV-EPROM Board Assembly REF-CX100-RM01 EAD-02003

CP4 LCD Interface Board Assembly REF-CX100-LI01 EAD-02004

CP4 KeyPad Board Assembly REF-CX100-KP01 EAD-02005

CP4 Extension Digital Input/Output Base Board Assembly REF-CX100-DB01 EAD-02006

CP4 Extension A/D Converter Board Assembly REF-CX100-AD01 EAD-02007

CP4 Extension Communication Board Assembly REF-CX100-RS01 EAD-02008

CP4 Extension Analog Output Board Assembly REF-CX100-DA01 EAD-02009

CP4 Digital I/O Board(10 Output/6 Input) Assembly REF-MCS200-OIA0 EAD-02010

CP4 Digital Input/Output 4ch. Driver Board Assembly REF-MCS200-SO3 EAD-02011

CP4 Digital Input/Output 4ch. Driver Board Assembly REF-MCS200-SI3 EAD-02012

CP4 Digital Output 2ch./Digital Input 2ch. Driver Board Assembly REF-MCS200-SC23 EAD-02013

CP4 Ext. Digital Input/Output Board(14 Output/2 Input) Assembly REF-MCS200-OIE0 EAD-02014

CP4 PR01/J21-DB01/J12 DC Cable Harness REF-CX100-C0100-U EAD-02020

CP4 PR01/J22-AD01/J2 DC Cable Harness REF-CX100-C0100-U EAD-02021

CP4 PR01/J4-RS01/J2 DC Cable Harness REF-CX100-C0100-U EAD-02022

CP4 DC12V-LI01/J2 PR01/J1 DC Cable Harness REF-CX100-C0312-U EAD-02023

CP4 DC12V 24V-PR01/J5 DA01/J2 DC Cable Harness REF-CX100-C0322-U EAD-02024

CP4 DC24V-AI01/J2 DC Cable Harness REF-CX100-C0401-U EAD-02025

CP4 AI11/J2-AI01/J2 DC Cable Harness REF-CX100-C0501-U EAD-02026

CP4 LI01-PR01/J3 Cable Harness, Ribbon REF-CX100-C0901-U EAD-02027

CP4 KP01-PR01/J10 Cable Harness, Ribbon REF-CX100-C1000-U EAD-02028

CP4 PR01-AI01/AI11 Cable Harness, Ribbon REF-CX100-C1201-U EAD-02029

CP4 PR01- DIO Cable Harness, Ribbon REF-CX100-C1301-U EAD-02030

CP4 LI01-LCD Inverter Cable Harness REF-CX100-C1401-U EAD-02031

CP4 LI01-LCD Signal Cable Harness REF-CX100-C1501-U EAD-02032

CP4 LCD Panel NL6448BC33-59 EAD-02040

CP4 LCD Inverter 104PW191 EAD-02041

Noise Filter NAC-06-472-D EAD-02103

CP4 Lamp Holder Set for LCD 104LHS43 EAD-02043

CP4 Front Panel Front Panel 294-22-1 EAD-02050

CP4 Main Chassis Main Chassis 294-22-4 EAD-02051

CP4 LCD Chassis LCD Chassis 294-22-5 EAD-02052

CP4 Gasket (Right and Left) CR Gasket 400x9xt3 EAD-02053

CP4 Gasket (Top and Bottom) CR Gasket 378x9xt3 EAD-02054

CP4 Thumb Screw (4pcs) A176-S-6 EAD-02055

CP4 Overlay (Embossed) CP4 LEXAN8B35 EAD-02056

CP4 Acrylic Resin Window CG(P) 223x169xt2 EAD-02057

Mechanical Relay for Digital Input/Output Board G6B-1114P-US, DC12V EAD-02060

Solid State Relay for Digital Input/Output Board G3S-201PL-PD-US, DC12V

EAD-02061

Battery for CPU Board CR2032 EAD-02062

CP4 ROM CP4 ROM-U EAD-02063

Components other than the above are not available as replacement parts.

QT108300

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Software Revision Record 1

Software Version Date Revision

Ver.0.98 2005.09.15 First edition Ver.0.99 2005.10.27 Internal timer added Ver.100.100 2005.11.25 Auto-Vi added, Password Level changed, and version expression method

changed Ver.102.101 2005.12.14 VFD Control changed, and communication negative pressure expression

corrected Ver.102.102 2005.12.24 Refrigerant (R290 Propane) added Ver.103.103 2006.01.31 Graphics added, and problems in selection of Economizer w/o Sensor

corrected (Ver.104.104) (2006.02) Auto Reset at change of ANALOG INPUT SCALING added, and RTC

operation changed, etc. Ver.104.105 2006.02.21 AUTO STAGE function corrected, etc. Ver.105.106 2006.02.22 CONDENSER CONTROL function corrected, etc. Ver.106.107 2006.03.03 Display problems corrected, etc. Ver.106.108 2006.03.15 Password changed, and graphics changed, etc. (Ver.106.109) (2006.03) Refrigerant (R744 CO2) added, graphic colors added, 400 series

supported, cache used etc. Ver.107.109 2006.04.07 OPTION ANALOG INPUT added, initial values changed, ALARM backlight

ON added etc. Ver.107.110 2006.05.02 COM0 MODEM support function added, No PUMP OUT added etc. Ver.108.111 2006.05.25 Capacity control by communication, time change, and CLEAR ALARM

functions added etc. Ver.109.112 2006.07.03 Modified so that optional analog input can be assigned dynamically, etc. Ver.110.113 2006.08.04 Modified so that D/O TEST OPERATION can output Comp. Run (Y0),

[STOP] key operation changed, etc. Ver.110.114 2006.08.31 WDT operation at initialization changed, etc. Ver.111.115 2006.09.27 TREND LOG format added, 2-path chiller control supported, OVER

RANGE added, etc. Ver.112.115 2006.10.06 Modified so that no capacity control command is issued during Vi operationVer.113.116 2006.10.10 AUTO-Vi operation and device corrected, etc. Ver.113.117 2006.10.10 COMMUNICATION PROTOCOL display corrected Ver.114.118 2006.12.13 AUTO-Vi operation, CONDENSER CONTROL option names, and AUTO

STAGE prioritization method changed, etc. Ver.115.119 2006.12.22 CONDENSER VFD CONTROL option names changed, set point

switchover added, etc. Ver.116.120 2007.02.02 CHILLER PUMP MODE “NOT USE” supported, mask time at start of

overcurrent changed (60 sec), etc. Ver.117.121 2007.02.15 MVH during VFD control limiter operation added, etc. Ver.118.121 2007.02.16 Incorrect MV values during VFD COMPRESSOR limiter operation

corrected Ver.119.122 2007.02.28 Intermediate pressure control modified Ver.120.122 2007.03.02 Intermediate pressure control modified, and limiter added Ver.121.123 2007.03.13 COMPOUND-2 ECONOMIZER/INTER COOLER liquid supply SV control

changed to intermediate pressure and high-stage capacity Ver.122.124 2007.03.27 The need for pressing the [START] key after reset in OPERATION AUTO

mode eliminated Ver.123.125 2007.04.06 AUTO-Vi SLIDE ALARM added Ver.123.126 2007.05.17 Absolute pressure conversion at psi display selection corrected Ver.124.128 2007.08.10 SINGLE J1 support added (Ver. XXX.127 unpublicized) Ver.125.129 2007.08.29 Countermeasures for [STOP] key used to stop AUTO STAGE MASTER

station added Ver.125.130 2007.09.27 The problem that programs cannot be started when the SRAM content is

undefined corrected Ver.126.131 2007.11.08 Level regulator added, and DEAD BAND setting item added to capacity

control PID regulator Ver.127.131 2008.02.20 Specifications modified to prevent the ANTI CYCLE timer from being reset

when the CPU is reset The problem that MV is fixed to 0% when EXPASION VALVES CONTROL

is “SH ONLY” corrected This problem occurs in VERSION 125.130 and 126.131. Ver.128.132 2008.03.27 Control of two oil pumps added Specifications modified so that TOTAL RUN TIME and PASSWORD

initialization is not performed by SPECIAL BOOT[1] Ver.129.133 2008.04.10 REMOTE CAPACITY CONTROL:DIGITAL control added to VFD

COMPRESSOR:USE Ver.129.134 2008.04.14 Positioner malfunction corrected Assignment of initialization keys [1] to [4] on the SPECIAL BOOT initial

screen changed

QT108300

- 244 -

Software Version Date Revision

Ver.130.135 2008.06.26 Capacity and VFD COMPRESSOR SV write problems corrected Ver.130.136 2008.07.14 AUTO STAGE capacity and VFD COMPRESSOR regulator PV switching

failure corrected Ver.130.137 2008.07.17 The problem that FM160 can be selected in F6:SETUP>1.SYSTEM

SETUP>COMPRESSOR corrected Ver.130.138 2008.07.17 Programs modified so that “SYSTEM SUCTION PRESSURE” can be

selected in TARGET (CAPACITY CONTROL) Ver.132.140 2008.11.07 HIGH ST ALARM/FAILURE added (Ver. 131.139 is unpublicized.) Ver.132.141 2008.11.14 DEAD BAND setup added to all PID regulators

Software Revision Record 2

Software Version Date Revision

Ver.132.142 2008.12.11 PID regulator MV 0% write at occurrence of FAILURE stopped (for CONDENSER FAN control)

Ver.133.143 2009.04.14 170J supported Ver.134.144 2009.05.08 Problem caused when PRE LUB is selected in COMPOUND-2 (2016 &

HIGHER) collected Ver.135.145 2009.07.02 FM160 supported Indicator, F4:LOGS>SHIFT1.TREND GRAPH, SHIFT2.GRAPH

ASSIGNMENT added Ver.135.146 2009.07.28 Portuguese and Spanish added for display Ver.136.147 2009.08.27 In PARTIAL LUBE J series, LOW OP alarms during oil pump operation

disabled Ver.136.148 2009.09.15 Russian added for display Ver.137.149 2009.10.01 “HIGH & LOW” added to OPTION ANALOG INPUT ALARM/FAILURE “SYSTEM DISCHARGE PRESSURE” added to slide valve capacity control

targets Ver.138.150 2009.12.28 CUT IN/OUT: SYSTEM SUCTION PRESSURE to COMPRESSOR:

SINGLE J German added for display, and Portuguese display corrected Ver.139.151 2010.01.29 COMPUND-2 START FAILURE and OIL DRAIN SV operation in NORTH

AMERICA modified Ver.140.151 2010.02.02 COMPUND-2 RE-START ALARM and OIL DRAIN SV operation in NORTH

AMERICA modified Ver.141.152 2010.03.09 Failure to implement auto recovery from AUTO STAGE communication

error corrected Ver.142.153 2010.05.10 Occurrence of ⊿OP LOW FAILURE when COMPRESSOR is J and

PARTIAL LUBE is selected eliminated Countermeasures of INTERMEDIATE PRESSURE UNDER RANGE

FAILURE caused when 0.05 MPa or less during operation Slide valve position indicator lower-stage/high-stage position selection

function added

Instruction Manual Revision Record

DateVersion

First EditionMarch XX, 2011First edition (for Version 142.153)

INSTRUCTION MANUAL FOR

SCREW COMPRESSOR UNIT CONTROLLER MYPRO-CPIV

March XX, 2011First edition

Corporate office: 3-14-15, Botan, Koto-ku, Tokyo 135-8482, Japan Tel: +81-3-3642-8181 Fax: +81-3-3643-7094

Moriya Plant: 2000, Tatsuzawa, Moriya-shi, Ibaraki-ken 302-0118, Japan Tel: +81-297-48-1593 Fax: +81-297-45-2781

URL: http://www.mayekawa.com

Mayekawa Mfg. Co., Ltd. Reserves the right to change design and specifications.