metasys integrator york application

Metasys Connectivity Technical Manual 629.5Metasys Integrator Section

Application NoteIssue Date 0900

© 2000 Johnson Controls, Inc. 1Code No. LIT-6295540 www.johnsoncontrols.com

lntroduction Page *3

• Application Details *3

• Component Requirements *6

• Vendor Contact Information 7

• Design Considerations *7

Cable Connections 9

• Cable Pinouts 9

• Connecting the Cable 9

Metasys Integrator Setup *11

Point Mapping Tables 15

15

16

*18

20

21

22

24

27

29

• Translator and XL Login

• YT Centrifugal Dual or Mono Shell Chiller

• YK Centrifugal Super Chiller

• YS 125-400 Ton Rotary Screw Chiller

• LS 1000-1250 Ton Rotary Screw Chiller

• YP Absorption Chiller

• C1 U.S. Reciprocating “Intelligent” Chiller - Master

• C3 U.S. Reciprocating “Intelligent” Chiller - Subordinate

• B1 U.K. Basildon Reciprocating “Intelligent” Chiller - Master

• B3 U.K. Basildon Reciprocating “Intelligent” Chiller - Subordinate 31

APPLICATION NOTE

Metasys Integrator York Application

*Indicates those sections where changes have occurred since the last printing.

2 Metasys Integrator—Metasys Integrator York Application

Page 33

35

37

*39

• YR Sunline 3000 Rooftop Chiller

• A1 Air-cooled Screw Chiller - Master

• A3 Air-cooled Screw Chiller - Subordinate

• YI Isoflow Absorption Chiller

• YG Gas Engine Drive Chiller 42

Metasys Network Setup *45

Mapping to a CS Object *45

Custom Integration *47

*Indicates those sections where changes have occurred since the last printing.

Metasys Integrator—Metasys Integrator York Application 3

lntroduction

This document explains Metasys Integrator York applications. Use thisdocument with the Metasys Integrator technical bulletins in the MetasysConnectivity Technical Manual (FAN 629.5), which provide informationon installing and commissioning the Metasys Integrator unit. Forinformation on York equipment, see York documentation (obtainable froma York representative).

Note: If you use a Universal Packaging Module (UPM) enclosure, youmust install the Metasys Integrator 300 Series in a two highenclosure (EN-EWC25-0) rather than the one high enclosure(EN-EWC13-0) as shown in the figures in this application note.

The Metasys Integrator unit allows York Millennium chillers and Sunline 3000 rooftop units to become an integral part of the Metasysand Metasys Companion Networks. Once York controllers are connected to Metasys or Companion Networks via the Metasys Integrator unit, their data is available to the full complement of Metasys Building Automation System (BAS) features, including Change-of-State (COS) monitoring, alarm notification, scheduling, trend, and totalization.

The York YorkTalk Translator and YorkTalk XL are the interfaces between York chiller controllers and non-York devices (such as the Metasys Integrator unit).

Each Metasys Integrator vendor port can connect to one YorkTalk Translator. Each YorkTalk Translator can connect to up to four York chiller controllers. If you use reciprocating chillers, the maximum number of pairs in master/subordinate configuration (C1/C3 or B1/B3) is two. If you use only master reciprocating chillers (C1 or B1), the maximum number of chillers allowed is four. Also, with a YorkTalk Translator interface, reciprocating chillers may not be mixed with other types of chillers due to a difference in baud rates.

Each Metasys Integrator vendor port can connect to one YorkTalk XL, which can then connect to 32 York controllers.

Figure 1 shows York and Metasys System integration. Figure 2 shows York and Metasys Companion integration.

ApplicationDetails


N2 Bus

Standard NCU

UNT

N1 LAN

MetasysIntegrator

RS-232

York1

YTChiller

YKChiller

YSChiller

YPChiller

RS-485 ISN Network

LincChiller

LincChiller

LincChiller

YS YI

YorkTalkXL

YorkTalkTranslator

A3 A1

Note: If you use a UPM enclosure, you must install the Metasys Integrator 300Series in a two high enclosure (EN-EWC25-0) rather than the one highenclosure (EN-EWC13-0) as shown in the figures in this application note.

Figure 1: York and Metasys System Integration


N2 Bus

UNT

MetasysIntegrator

york2

RS-232

YKChiller

YSChiller

YPChiller

YTChiller

RS-485 ISN Network

YS YI

YorkTalkXL

YorkTalkTranslator

LincChiller

LincChiller

LincChiller

A1

Panel Unit Workstation

Note: A PC version and converter may be substituted for the Panel unit.

A3

Note: If you use a UPM enclosure, you must install the Metasys Integrator300 Series in a two high enclosure (EN-EWC25-0) rather than theone high enclosure (EN-EWC13-0) as shown in the figures in thisapplication note.

Figure 2: York and Metasys Companion Integration


To integrate York equipment, you need the following components:

• properly installed York YorkTalk Translator (Revision 1A,firmware Revision 5.00 or above) or YorkTalk XL version andYork chiller controllers

Note: The Metasys Integrator unit supports only the U.S. version ofthe translator, which has two Advanced Processor Cards.Versions with only one Advanced Processor Card (such asthe U.K. version) are not supported.

• RS-232 cable (for connecting the YorkTalk Translator orYorkTalk XL to the Metasys Integrator unit)

• Metasys Integrator unit

• N2 Bus (for connecting the Metasys Integrator unit to the Metasys orCompanion Networks)

• portable Personal Computer (PC) for downloading vendorcommunication tables (.VCT files) and network setup informationinto the Metasys Integrator unit, and for running diagnostics

• cable for connecting portable PC to the Metasys Integrator unit

• the correct vendor communication table (.VCT file) to download intothe Metasys Integrator unit (supplied on Metasys IntegratorCD-ROM)

To integrate York equipment into the Metasys Network, you need:

• Metasys Operator Workstation (OWS) software Release 6.0 or higher

• Metasys Integrator software/firmware Release 8.0 or higher

To integrate York equipment into the Metasys Companion Network, youneed:

• Metasys Companion Release 5.0 or higher

• Metasys Integrator software/firmware Release 8.0 or higher

Integration between the Metasys Integrator unit and York has been testedwith the YorkTalk Translator (Part Number 371-01415-100, Revision 1A)or the YorkTalk XL (Part Number 371-01457-101, Revision 77). Changesto this equipment or integration of York products not discussed in thisdocument will require additional software development and testing bySystems Products. For information on integrating other products, refer tothe Custom Integration section in this document.

ComponentRequirements

MetasysNetwork ReleaseRequirements

MetasysCompanionReleaseRequirements

VendorComponentRequirements


York International CorporationApplied SystemsP.O. Box 1592-232ZYork, PA 17405-1592

Phone: (717) 771-7890FAX: (717) 771-7640

When integrating York equipment, consider the following:

• Make sure all York equipment is set up and running properly beforeattempting to integrate with Metasys or Companion Network. (TheYork representative is responsible for operation of YorkTalkTranslator, YorkTalk XL, and controllers.)

• Make sure the YorkTalk Translator or YorkTalk XL baud rate is setto 9600. (The York representative is responsible for setting theYorkTalk baud rate.)

• The York representative must configure the YorkTalk Translator orthe YorkTalk XL to talk to the Metasys Integrator unit, providepasswords, and commission the chillers via YorkTalk. York must alsoconfigure the YorkTalk Translator and the YorkTalk XL to report BIstatuses as Off and On. (The defaults in the Translator at this time areNo and Yes.)

• The YorkTalk Translator or YorkTalk XL must be configured for:trm=4 (cr, prompt)txt=1 (field text)

• The YorkTalk Translator or the YorkTalk XL must have its logonpassword set to 1. Otherwise, the Metasys Integrator unit will not beable to bring it online.

IMPORTANT: Make sure the YorkTalk Translator or YorkTalk XLtable is defined as an N2 address so that the MetasysIntegrator unit can establish the logon procedure. Thiswill ensure the quickest recovery to online status of allYork equipment.

• RS-232 cable distance between the Metasys Integrator unit and theYorkTalk Translator or YorkTalk XL can be a maximum of 50 feet.

• Cable distance between the YorkTalk Translator and the lastcontroller can be a maximum of 5000 feet.

IMPORTANT: The YorkTalk Translator does not provide offlinenotification when the chiller is disconnected from theTranslator.

Vendor ContactInformation

DesignConsiderations


• York must configure the YorkTalk XL failure output to report statusesas NOR, and FLT to allow the XL to report if the chiller is offline tothe XL.

• Ensure battery backup is enabled to save baud rate settings on theYorkTalk Translator or YorkTalk XL.

• York chiller model names sometimes differ from the two charactercodes Johnson Controls uses (refer to Table 1).

Table 1: Chiller NamesStandard Name Also Known As:

C1, C3 (B1, B3) YCA, YDA, YEA, YCW, YCR

A1, A3 DYCAS

YI YIA

YP YPC


Cable Connections

Use the following cable pinouts for the RS-232 connection between theMetasys Integrator unit and the YorkTalk Translator and XL:

DB-9 Female

Signal Pin

RDTDGND

ScrewTerminal

SignalPinRS-232

Vendor Port A or Bon Metasys Integrator

RS-232 Port on Translator or XL

(50 ft maximum)york3

235

15

1416

TX1

RX1GND1

Figure 3: Cable Pinouts

Connect the female end of the RS-232 cable to either Vendor Port A orVendor Port B on the Metasys Integrator unit. Connect the male end toPort A on the YorkTalk Translator or YorkTalk XL.

MetasysIntegrator

YorkTalkTranslator or XL

RS-232Terminal

Block

Vendor PortA or B

RS-232 Cable

york4

Figure 4: Port-to-Port Connection

Cable Pinouts

Connecting theCable


Metasys Integrator Setup

To set up the Metasys Integrator unit, use a portable PC connected to theMetasys Integrator Terminal Port. Metasys Integrator setup involves:

• downloading the correct vendor communication table (.VCT file)

• setting up the ports

• assigning network addresses to the controllers

Table 2 provides information specific to York applications. For detailedprocedures, see the Metasys Integrator technical bulletins in the MetasysConnectivity Technical Manual (FAN 629.5).

Table 2: Metasys Integrator Setup for York ControllersVendor Communication Table (.VCT File)Login and Chillers Translator XLLogin YK_TRAN.VCT YK_XL.VCT

YT Chiller (Centrifugal Dual Shell orMono Shell)

YK_YTCH.VCT YK_YTXL.VCT

YK Chiller (Centrifugal “Super Chiller”) YK_YKCH.VCT YK_YKXL.VCT

YS Chiller (125-400 Ton Rotary Screw) YK_YSCH.VCT YK_YSXL.VCT

LS Chiller (1000-1250 Ton Rotary Screw) YK_LSCH.VCT YK_LSXL.VCT

YP Chiller (Absorption Chiller) YK_YPCH.VCT YK_YPXL.VCT

C1 Chiller (U.S. Reciprocating“Intelligent” Chiller-Master)

YK_C1CH.VCT YK_C1XL.VCT

C3 Chiller (U.S. Reciprocating “Intelligent” Chiller-Subordinate)

YK_C3CH.VCT YK_C3XL.VCT

B1 Chiller (U.K. Basildon Reciprocating“Intelligent” Chiller-Master)

YK_B1CH.VCT YK_B1XL.VCT

B3 Chiller (U.K. Basildon Reciprocating “Intelligent” Chiller-Subordinate)

YK_B3CH.VCT YK_B3XL.VCT

YR Chiller (Sunline 3000 Rooftop Chiller) YK_S3000.VCT YK_S30XL.VCT

A1 Chiller (Air-cooled Screw Chiller-Master)

N/A YK_A1XL.VCT

A3 Chiller (Air-cooled Screw Chiller-Subordinate)

N/A YK_A3XL.VCT

YI Chiller (Isoflow Absorption Chiller) N/A YK_YIXL.VCT

YG Chiller (Gas Engine Drive Chiller) N/A YK_YGXL.VCT

Port SetupBaud Rate 9600

Word Length 8

Stop Bits 1

Parity None

Continued on next page . . .


Network Setup for Login of Translator or XL (Cont.)

Interface RS-232

Vendor Address 0

Timeout Value 4000 ms

Poll Delay 550 ms

Network Setup for Translator

Vendor Address 1-8


Poll Delay 50 ms

Network Setup for XLVendor Address* net, node


Poll Delay 50 ms

Performance Guide

Chillers Translator XLApproximate Scan Time(For a single N2 address)

Login Table 4 seconds 8 seconds

YT Chiller 10 seconds 11 seconds

YK Chiller 11 seconds 11 seconds

YS Chiller 7 seconds 8 seconds

LS Chiller 6 seconds 6 seconds

YP Chiller 8 seconds 9 seconds

C1 Chiller 12 seconds 12 seconds

C3 Chiller 10 seconds 10 seconds

B1 Chiller 12 seconds 12 seconds

B3 Chiller 10 seconds 10 seconds

YR Chiller 11 seconds 12 seconds

A1 Chiller XL N/A 12 seconds

A3 Chiller XL N/A 10 seconds

YI Chiller XL N/A 11 seconds

YG Chiller XL N/A 9 seconds

* Example: If network is 0 and node is 2, then enter 00,02 for the vendor address.The format is two digits each for the network address and the nodeaddress, with leading zeros if necessary.


Network Modify/Add/Delete

N2Address Interface Type Vendor Address Port Timeout

PollDelay Retry

0 [ ] [ ] [A] [ ] [ ] [ 3]1 [ ] [ ] [A] [ ] [ ] [ 3]2 [ ] [ ] [A] [ ] [ ] [ 3]3 [YorkTalk Translator] [0 ] [A] [ 4000] [ 550] [ 3]4 [York C1 Chiller ] [1 ] [A] [ 3000] [ 50] [ 3]5 [ ] [ ] [A] [ ] [ ] [ 3]6 [ ] [ ] [A] [ ] [ ] [ 3]7 [ ] [ ] [A] [ ] [ ] [ 3]

Available Vendor Interface Types

YorkTalk Translator York C1 Chiller

F1 Cancel F2 Save F3 More F4 GotoSelect a vendor interface type from the list

Figure 5: Example--Proper Setup of York C1 Chilleron YorkTalk Translator

Network Modify/Add/Delete

N2Address Interface Type Vendor Address Port Timeout

PollDelay Retry

0 [ ] [ ] [A] [ ] [ ] [ 3]1 [YorkTalk XL ] [0 ] [A] [ 4000] [ 550] [ 3]2 [York YT Chiller XL] [00,01 ] [A] [ 3000] [ 50] [ 3]3 [York YT Chiller XL] [00,02 ] [A] [ 3000] [ 50] [ 3]4 [York YT Chiller XL] [00,03 ] [A] [ 3000] [ 50] [ 3]5 [ ] [ ] [A] [ ] [ ] [ 3]6 [ ] [ ] [A] [ ] [ ] [ 3]7 [ ] [ ] [A] [ ] [ ] [ 3]

Available Vendor Interface Types

York Talk XL York YT Chiller XL

F1 Cancel F2 Save F3 More F4 GotoSelect a vendor interface type from the list

Figure 6: Example--Proper Setup of Three York YT Chillerson ISN YorkTalk XL


Point Mapping Tables

The following tables (one for each application) show the points availablefor mapping in the York controllers:

Table 3: YorkTalk Translator LoginNPT1 NPA2 Unit DescriptionBI 1 Translator Ready 0-no, 1-yes

1 Network Point Type

2 Network Point Address

Table 4: YorkTalk XL LoginNPT1 NPA2 Unit DescriptionBI 1 XL Ready 0-no, 1-yes



Translator andXL Login


Table 5: YT Centrifugal Dual or Mono Shell Chiller(Translator and XL Configuration)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

psi

psi

psi

psi

%

Amperes

Amperes

Amperes

Volt

Volt

Volt

DegF

%

Leaving Chill Water Temperature

Entering Chill Water Temperature

Leaving Condenser Water Temperature

Entering Condenser Water Temperature

Evaporator Saturation Temperature

Condenser Saturation Temperature

Discharge Temperature

Oil Temperature

Evaporator Pressure

Condenser Pressure

Oil Differential Pressure

Purge Pressure

% Full Load Amperes

Phase A Amperes

Phase B Amperes

Phase C Amperes

Phase A-B Volts

Phase B-C Volts

Phase C-A Volts

Leaving Water Temperature Actual Setpoint

Current Actual Setpoint Feedback

BI

BI

BI

BI

BI

BI6

BI7

BI8

1

2

3

4

5

6

7

8

Compressor 0-open, 1-made

Vent Solenoid 0-open, 1-made

Chill Water Pump 0-open, 1-made

Start Switch 0-open, 1-made

Flow Switch 0-open, 1-made

ACC Valid Surge Map 0-open, 1-made

ACC New Surge Point 0-open, 1-made

VSD Cooling Pump Running 0-open, 1-made

AO

AO

AO

1*

2

3*

DegF

%FLA

DegC

Leaving Chill Water Setpoint (10 to 70)

Current Limit Setpoint (50 to 100)

Leaving Chill Water Setpoint (-12 to 21)

BO 1 Chiller Start/Stop 0-stop, 1-start



* Points AO1 and AO3 are the same point and will have the same value. Two pointsare provided because of the different ranges for DegF and DegC.


YT CentrifugalDual or MonoShell Chiller

To get the hardwarereference formapping points toCS object attributes(via the softwaremodel), combine theNPT (Network PointType) and NPA(Network PointAddress). Forexample, thehardware referencefor the CondenserPressure point isAI10.


NPT1

(Cont.)NPA2 Unit Description

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

Min

Code

Code

Code

Code

Hour

#

#

Volt

kW

MWh

Volt

Amps

#

Hz

%

%

kVA

Deg

Deg

#

Hz

Anti-Recycle Timer

Operational Mode Code

Operational Code

Safety Code

Cycling Code

Runtime Hours

Number Of Starts

Adaptive Capacity Control Frozen Delta p/p

VSD Output Voltage

VSD Input kW

VSD Input MWh

VSD DC Link Voltage

VSD DC Link Current

VSD Surge Count

VSD Output Frequency

VSD Maximum Voltage THD

VSD Maximum Current TDD

VSD Input kVA

VSD Internal Temperature

VSD Converter Heatsink Temperature

ACC PRV Position

ACC Frozen Output Frequency

BD

BD

1

2

VSD IEEE 519 Filter Present 0-Not Installed

Surge Detection Type 0-Delta_p/p, 1-Current




Table 6: YK Centrifugal Super Chiller(Translator and XL Configuration)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

psi

psi

psi

%

%

Amperes

Amperes

Amperes

Volt

Volt

Volt

psi

psi

DegF

%








Oil Temperature

Evaporator Pressure

Condenser Pressure


Refrigerant Level

Full Load Amperes

Phase A Amperes

Phase B Amperes

Phase C Amperes

Phase A-B Volts

Phase B-C Volts

Phase C-A Volts

Low Oil Pressure

High Oil Pressure



BI

BI

BI

BI

BI

BI

BI

BI

1

2

3

4

5

6

7

8


Vent Solenoid 0-open, 1-made




ACC Valid Surge Map 0-open 1-made

ACC New Surge Point 0-open 1-made

VSD Cooling Pump Running 0-open 1-made

AO

AO

AO

1*

2

3*

DegF

%FLA

DegC









YK CentrifugalSuper Chiller

To get the hardwarereference formapping points toCS object attributes(via the softwaremodel), combine theNPT (Network PointType) and NPA(Network PointAddress).For example, thehardware referencefor the CondenserPressure point isAI10.


NPT1


ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

Min

Code

Code

Code

Code

Hour

#

#

Volt

kW

MWh

Volts

Amps

#

Hz

%

%

kVA

Deg

Deg

#

Hz

%

Anti-Recycle Timer


Operational Code

Safety Code

Cycling Code

Runtime Hours

Number of Starts

Adaptive Capacity Control Frozen Delta p/p

VSD Output Voltage

VSD Input kW

VSD Input MWh

VSD DC Link Voltage

VSD DC link Current

VSD Surge Count

VSD Output Frequency

VSD Maximum Voltage THD

VSD Maximum Current TDD

VSD Input kVA

VSD Internal Temperature

VSD Converter Heatsink Temperature

ACC PRV Position

ACC Frozen Output Frequency

Refrigerant Level Setpoint

BD

BD

1

2

VSD IEEE 519 Filter Present 0-Not Installed

Surge Detection Type 0-Delta_p/p, 1-Current




Table 7: YS 125-400 Ton Rotary Screw Chiller(Translator and XL Configuration)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

psi

psi

psi

psi

%

Amperes

Amperes

Amperes

Volt

Volt

Volt

DegF

%








Oil Temperature

Evaporator Pressure

Condenser Pressure


Filter Differential Pressure

% Full Load Amperes

Phase A Amperes

Phase B Amperes

Phase C Amperes

Phase A-B Volts

Phase B-C Volts

Phase C-A Volts



BI

BI

BI

BI

BI

BI

BI

1

2

3

4

5

6

7


Oil Solenoid 0-open, 1-made




Eductor Solenoid 0-open, 1-made

Separator Solenoid 0-open, 1-made

AO

AO

AO

1*

2

3*

DegF

%FLA

DegC





ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

Min

Code

Code

Code

Code

Hour

#

Anti-Recycle Timer


Operational Code

Safety Code

Cycling Code

Runtime Hours

Number of Starts




YS 125-400 TonRotary ScrewChiller

To get the hardwarereference formapping points toCS object attributes(via the softwaremodel), combine theNPT (Network PointType) and NPA(Network PointAddress).For example, thehardware referencefor the DischargeTemperature pointis AI7.


Table 8: LS 1000-1250 Ton Rotary Screw Chiller(Translator and XL Configuration)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

DegF

DegF

DegF

DegF

DegF

psi

psi

psi

psi

%

%

%

DegF

%


Suction Temperature


Oil Temperature

Separator Temperature

Evaporator Pressure

Condenser Pressure

Oil Pressure

Filter Pressure

% Full Load Amperes

Slide Valve

Liquid Level

Vapor Pressure Ratio



BI

BI

BI

BI

1

2

3

4

Heater 0-open, 1-made

Oil Pump 0-open, 1-made

Separator Switch 0-open, 1-made


AO

AO

AO

1*

2

3*

DegF

%FLA

DegC





ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

Min

Code

Code

Code

Code

Code

Anti-Recycle Timer

Compressor Mode

Slide Mode

Operational Code

Safety Code

Cycling Code




LS 1000-1250Ton RotaryScrew Chiller

To get the hardwarereference formapping points toCS object attributes(via the softwaremodel), combine theNPT (Network PointType) and NPA(Network PointAddress). Forexample, thehardware referencefor the DischargeTemperature pointis AI3.


Table 9: YP Absorption Chiller(Translator and XL Configuration)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

psi

psi

psi

psi

DegF

DegF

%





Leaving Hot Water Temperature

Entering Hot Water Temperature

First Gen 1 Temperature

First Gen 2 Temperature

Refrigerant Temperature

Solution Temperature

First Gen 1 Pressure

First Gen 2 Pressure

Purge Pump Pressure

Purge Tank Pressure


Leaving Hot Water Temperature Actual Setpoint

Remote Loading Setpoint Feedback

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

1

2

3

4

5

6

7

8

9

10

11

Refrigerant Pump 0-open, 1-made

Condenser Pump 0-open, 1-made



Hot Water Pump 0-open, 1-made

Solution Pump 1 0-open, 1-made

Solution Pump 2 0-open, 1-made

Purge Pump 0-open, 1-made

Chill Water Flow Switch 0-open, 1-made

Hot Water Flow Switch 0-open, 1-made

Condenser Water Flow Switch 0-open, 1-made

AO

AO

AO

AO

1*

2*

3*

4*

DegF

DegF

DegC

DegC


Hot Water Setpoint (90 to 175)


Hot Water Setpoint (32 to 79)





YP AbsorptionChiller

To get the hardwarereference formapping points toCS object attributes(via the softwaremodel), combine theNPT (Network PointType) and NPA(Network PointAddress). Forexample, thehardware referencefor the Purge TankPressure point isAI14.


NPT1


ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

8

9

10

11

12

13

14

Mode

Code

Code

Code

Hour

#

#

#

#

Min

Min

DegF

DegF

%

Operational Mode

Operational Code

Safety Shutdown Code

Cycling Shutdown Code

Accumulated Operating Hours

Accumulated System Starts

Lifetime Purge Count

Max Loading

Seven Day Purge Total

Pulldown Minutes Setpoint

Pulldown Minutes Left

Pulldown Loading Start Setpoint

Pulldown Loading Stop Setpoint

Present Calculated Pulldown Loading



* Points AO1 and AO3 are the same point and will have the same value. Two pointsare provided because of the different ranges for DegF and DegC. The same is truefor points AO2 and AO4.


Table 10: C1 U.S. Reciprocating “Intelligent” Chiller - Master(Translator and XL Configuration)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

DegF

DegF

DegF

DegF

DegF

psi

psi

psi

%FLA

psi

psi

psi

%FLA

DegF

DegF

DegF

DegF

psi

psi

DegF

DegF

DegF





Outdoor Air Temperature

Compressor 1 Suction Pressure

Compressor 1 Discharge Pressure

Compressor 1 Oil Pressure

Compressor 1 Full Load Amperes





Leaving Chill Water Setpoint Feedback

Low Water Temperature Cutout Feedback

Low Ambient Cutout Feedback

High Ambient Cutout Feedback

Low Pressure Cutout Feedback

High Pressure Cutout Feedback

Remote Temperature Setpoint

Remote Cooling Range

Local Barrel Setpoint




C1 U.S.Reciprocating“Intelligent”Chiller - Master

To get the hardwarereference formapping points toCS object attributes(via the softwaremodel), combine theNPT (Network PointType) and NPA(Network PointAddress). Forexample, thehardware referencefor the Outdoor AirTemperature pointis AI5.


NPT1


BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

Chiller Run 0-open, 1-made

Chiller Alarm 0-open, 1-made

Evaporator Heater 0-open, 1-made

Evaporator Pump Starter 0-open, 1-made

Condenser Pump Starter 0-open, 1-made

Load Permissive 0-open, 1-made

Comp 1 Liquid Line Valve 0-open, 1-made

Comp 1 Hot Gas Bypass Valve 0-open, 1-made

Comp 1 Condenser Fan Reverse 0-open, 1-made




Sw 1 (0-Comfort Cooling, 1-Brine)

Sw 2 (0-Standard Ambient, 1-Low Ambient)

Sw 3 (0-Local, 1-Remote)

Sw 4 (0-RWT Control, 1-LWT Control)

Sw 5 (0-English Units, 1-Metric Units)

Sw 6 (0-Standard Fan Control, 1-Shared Fan Control)

Sw 7 (0-Manual Lead/Lag, 1-Auto Lead/Lag)

Sw 8 (0- Ambient Pressure Control,1- Discharge Pressure Control)

AO

AO

AO

1*

2

3*

DegF

%FLA

DegC


% Load Limit Setpoint (50 to 100)








NPT1


ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

Code

Code

#

#

Min

Hour

#

Sec

Code

Code

#

#

Min

Hour

#

Sec

Min

#

#

Compressor 1:

Operational Code

Fault Code

Number of Operating Stages

Condenser Fan Forward

Anti-Recycle Timer

Runtime Hours

Number of Starts

Runtime Seconds

Compressor 2:

Operational Code

Fault Code



Anti-Recycle Timer

Runtime Hours

Number of Starts

Runtime Seconds

Master Anti-Coincidence Timer

Load Steps Available

Lead Compressor




Table 11: C3 U.S. Reciprocating “Intelligent” Chiller - Subordinate (Translator and XL Configuration)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

DegF

DegF

DegF

DegF

psi

psi

psi

%FLA

psi

psi

psi

%FLA

DegF

DegF

DegF

DegF

psi

psi

DegF

DegF

DegF



Mixed Chill Water Temperature














Low-Pressure Cutout Feedback

High-Pressure Cutout Feedback




BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

1

2

3

4

5

6

7

8

9

10

11

12

13

14








Comp 3 Pressure Equalization Valve 0-open, 1-made

Comp 3 Condenser Reversing Valve 0-open, 1-made









C3 U.S.Reciprocating“Intelligent”Chiller - Subordinate

To get the hardware reference for mapping points to CS object attributes (via the software model), combine the NPT (Network Point Type) and NPA(Network Point Address). For example, the hardware reference for the Mixed Chill Water Temperature point is AI3.


NPT1


ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

Code

Code

#

#

Min

hrs

#

Sec

Code

Code

#

#

Min

Hour

#

Sec

Min

#

#

Compressor 3:

Operational Code

Fault Code

Number of Operating Stages Condenser Fan

Forward Anti-Recycle Timer

Runtime Hours

Number of Starts

Runtime Seconds

Compressor 4:

Operational Code

Fault Code


Forward Anti-Recycle Timer

Runtime Hours

Number of Starts

Runtime Seconds

Subordinate Anti-Coincidence Timer Load Steps Available

Lead Compressor




Table 12: B1 U.K. Basildon Reciprocating “Intelligent” Chiller -Master (Translator and XL Configuration)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

DegF

DegF

DegF

DegF

psi

psi

psi

%FLA

DegF

psi

psi

psi

%FLA

DegF

DegF

DegF

DegF

psi

psi

DegF

DegF

DegF




Compressor 1 Oil Temperature



















BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20













Sw 1 (0-Water Cooling, 1-Brine)

Sw 2 (0-Stand Ambient, 1-Low Ambient)

Sw 3 (0-Local, 1-Remote)

Sw 4 (0-Star/Delta, 1-Part Wind)

Sw 5 (0-English Units, 1-Metric units)

Sw 6 (0-Comm Enable, 1-Comm Disable)

Sw 7 (0-Manual Lead/Lag, 1-Auto Lead/Lag)

Sw 8 (0-R134A Refrigerant, 1-R22)




B1 U.K.BasildonReciprocating“Intelligent”Chiller - Master



NPT1


AO

AO

AO

1*

2

3*

DegF

%FLA

DegC


% Load Limit Setpoint (50 to 100)



ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

Mode

Code

#

#

Min

Hour

#

Sec

Code

Code

#

#

Min

Hour

#

Sec

Min

#

#

Compressor 1:

Operational Code

Fault Code



Anti-Recycle Timer

Runtime Hours

Number of Starts

Runtime Seconds

Compressor 2:

Operational Code

Fault Code



Anti-Recycle Timer

Runtime Hours

Number of Starts

Runtime Seconds

Master Panel Anti-Coincidence Timer

Load Steps Available

Lead Compressor





Table 13: B3 U.K. Basildon Reciprocating “Intelligent” Chiller -Subordinate (Translator and XL Configuration)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

DegF

DegF

DegF

DegF

psi

psi

psi

%FLA

DegF

psi

psi

psi

%FLA

DegF

DegF

DegF

DegF

psi

psi

DegF

DegF

DegF























BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

1

2

3

4

5

6

7

8

9

10

11

12

13

14


















B3 U.K.BasildonReciprocating“Intelligent”Chiller - Subordinate

To get the hardware reference for mapping points to CS object attributes (via the software model), combine the NPT (Network Point Type) and NPA(Network Point Address). For example, the hardware reference for the Outdoor Air Temperature point is AI3.


NPT1


ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

Code

Code

#

#

Min

Hour

#

Sec

Code

Code

#

#

Min

Hour

#

Sec

Min

#

#

Compressor 3:

Operational Code

Fault Code


Forward

Anti-Recycle Timer

Runtime Hours

Number of Starts

Runtime Seconds

Compressor 4:

Operational Code

Fault Code


Forward

Anti-Recycle Timer

Runtime Hours

Number of Starts

Runtime Seconds

Subordinate Panel Anti-Coincidence Timer Load Steps Available

Lead Compressor




Table 14: YR Sunline 3000 Rooftop Chiller(Translator and XL Configuration)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

DegF

DegF

DegF

DegF

psi

psi

%

%

Hour

Hour

%

%

psi

psi

psi

psi

psi

psi

DegF

DegF

psi

psi

DegF

Space Temperature

Discharge Air Temperature

Return Air Temperature

Outside Air Temperature

Duct Static Pressure

Building Air Pressure

Outside Air Damper Position 0-100%

Heating Coil Valve Position 0-100%

Supply Fan Run Hours

Exhaust Fan Run Hours

Supply Fan Inlet Guide Vane Position 0-100%

Exhaust Fan Inlet Guide Vane Position 0-100%







Low Ambient Cutout

High Ambient Cutout

Low Pressure Cutout

High Pressure Cutout

Discharge Air Temperature Cutout

BI

BI

BI

BI

BI

BI

BI

BI

BI

BIBIBIBI

BI

BI

BI

BI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

Unit Run Permissive 0-open, 1-made

Air Handling Unit Alarm 0-open, 1-made

Local/Remote Selected 0-local, 1-remote

Supply Fan Run 0-open, 1-made

Return (Exhaust) Fan Run 0-open, 1-made

OA/RA Selected 0-OA, 1-RA

Refrigeration System 1 Locked Out 0-open, 1-made

Compressor 1 Contractor 0-open, 1-made

System 1 Liquid Line Solenoid Valve 0-open, 1-made

Compressor 1 Unloader Solenoid Valve 1 0-open, 1-made


Compressor 1 Hot Gas Bypass Sol. Valve 0-open, 1-made

Refrigeration System 2 Locked Out 0-open, 1-made

Compressor 2 Contractor 0-open, 1-made

System 2 Liquid Line Solenoid Valve 0-open, 1-made






YR Sunline3000 RooftopChiller

To get the hardwarereference formapping points toCS object attributes(via the softwaremodel), combine theNPT (Network PointType) and NPA(Network PointAddress). Forexample, thehardware referencefor the Building AirPressure point isAI6.


NPT1


AO

AO

AO

1*

2

3*

DegF

#

DegC

Return Air Setpoint (10, 70)

0=Vent, 1=Heating, 2=Cooling, 3=Local Setpoints

Return Air Setpoint (-12 to 21)

BO 1 Start/Stop Command 0-stop, 1-start

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

Min

Hour

Min

#

Hour

Min

#

Code

Code

Code

Code

Code

#

#

DegF

DegF

DegF

psi

psi

Anti-Coincidence Timer

Compressor 1 Run Hours

Compressor 1 Anti-Recycle Timer

Compressor 1 No. of Operating Stages

Compressor 2 Run Hours

Compressor 2 Anti-Recycle Timer

Compressor 2 No. of Operating Stages

Air Handling Unit Shutdown Code

Compressor 1 Operational Code

Compressor 1 Fault Code

Compressor 2 Operational Code

Compressor 2 Fault Code

Number of Condenser Fans Running

Cooling Load Steps Available

Actual Heating Setpoint

Actual Cooling Setpoint

Actual Discharge Air Temperature Setpoint

Actual Static Pressure Setpoint

Actual Building Pressure Setpoint





Table 15: A1 Air-cooled Screw Chiller - Master(XL Configuration only)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

psi

psi

psi

%FLA

psi

psi

psi

%FLA

%

%

DegF

DegF

DegF

DegF

psi

psi

DegF

DegF




Compressor 1 Suction Temperature

Compressor 1 Discharge Temperature

Compressor 1 Saturated Suction Temperature

Compressor 1 Saturated Discharge Temperature
















Compressor 1 SVCALC %


Leaving Chill Water Setpoint

Low Water Temperature Cutout

Low Ambient Temperature Cutout

High Ambient Temperature Cutout

Low Pressure Cutout



Local Cooler Barrel Setpoint




A1 Air-cooledScrew Chiller -Master



NPT1


BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17





Comp 1 Liquid Line Solenoid Valve 0-open, 1-made




Switch 1 (0=Comfort Cooling, 1=Brine Cooling)

Switch 2 (0=Standard Ambient, 1=Low Ambient)

Switch 3 (0=Local, 1=Remote)

Switch 4 (0=eev, 1=Thermal Expansion Valves)

Switch 5 (0=English Units, 1=Metric Units)

Switch 6 (0=x-Line Start, 1=wye delta start)

Switch 7 (0=Manual Lead/Lag, 1=Auto Lead/Lag)

Switch 8 (0=R134a, 1=R22)


AO

AO

AO

1*

2

3*

DegF

%FLA

DegC


Load Limit Setpoint (50 to 100)



ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

8

9

10

11

12

13

14

Code

Code

#

Min

Hour

#

Code

Code

#

Min

Hour

#

Min

#

Compressor 1:

Operational Code

Fault Code


Anti-Recycle Timer

Runtime Hours

Number of Starts

Compressor 2:

Operational Code

Fault Code


Anti-Recycle Timer

Runtime Hours

Number of Starts


Lead Compressor





Table 16: A3 Air-cooled Screw Chiller - Subordinate (XL Configuration only)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

psi

psi

psi

%FLA

psi

psi

psi

%FLA

%

%

DegF

DegF

DegF

DegF

psi

psi

DegF

DegF

























Leaving Chill Water Setpoint

Low Water Temperature Cutout

Low Ambient Temperature Cutout

High Ambient Temperature Cutout

Low Pressure Cutout



Local Cooler Barrel Setpoint

BI

BI

BI

BI

BI

BI

BI

BI

BI

1

2

3

4

5

6

7

8

9













A3 Air-cooledScrew Chiller -Subordinate

To get the hardware reference for mapping points to CS object attributes (via the software model), combine the NPT (Network Point Type) and NPA(Network Point Address). For example, the hardware reference for the Outdoor Air Temperature point is AI14.


NPT1


ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

8

9

10

11

12

13

14

Code

Code

#

Min

Hour

#

Code

Code

#

Min

Hour

#

Min

#

Compressor 3:

Operational Code

Fault Code


Anti-Recycle Timer

Runtime Hours

Number of Starts

Compressor 4:

Operational Code

Fault Code


Anti-Recycle Timer

Runtime Hours

Number of Starts


Lead Compressor




Table 17: YI Isoflow Absorption Chiller (XL Configuration only)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

psi

psi

psi

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

Leaving Chilled Water Temperature

Entering Chilled Water Temperature



Automatic Decrystallization Temperature

Refrigerant Temperature Leaving the Condenser

Steam/Hot Water Supply Temperature

Refrigerant Temperature

Strong Solution Temperature

Generator Shell Pressure

Steam Supply Pressure (Steam Units Only)

Steam/Hot Water Actuator Value Position (0-100%)

Local Leaving Chilled Water Setpoint

Purge Pump Service Interval Setpoint - Hours

Active Leaving Chilled Water Setpoint

Remote Loading Setpoint

Maximum Steam/Hot Water Valve Load Setpoint

Pulldown Demand Setpoint - Minutes

Pulldown Demand Setpoint -Start Load Limit

Pulldown Demand Setpoint -Stop Load Limit

Remote Temperature Range Setpoint

Maximum Entering Condenser Water Temperature Setpoint




YI IsoflowAbsorptionChiller

To get the hardwarereference formapping points toCS object attributes(via the softwaremodel), combine theNPT (Network PointType) and NPA(Network PointAddress). Forexample, thehardware referencefor the RefrigerantTemperature pointis AI8.


NPT1


BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

BI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

Chilled Water Pump Status 0-Off, 1-On

Condenser Water Pump Status 0-Off, 1-On

Refrigerant Pump Motor Status 0-Off, 1-On

Solution/Absorber Pump Motor Status 0-Off, 1-On

Purge Pump Motor Status 0-Off, 1-On

Generator Pump Motor Status 0-Off, 1-On

Refrigerant and Solution Pump Motor 0-Off, 1-OnCoolant Solenoid Valve Status

Refrigerant Stabilizer Solenoid Valve 0-Off, 1-OnStatus

Refrigerant Level Solenoid Valve 0-Off, 1-OnStatus

Chilled Water Flow Switch Status 0-Open, 1-Closed

Condenser Water Flow Switch Status 0-Open, 1-Closed

Refrigerant Level Float Switch Status 0-Open, 1-Closed

Unit Switch Status 0-Stop, 1-Run

J50 Status 0-AutoRe, 1-Manual

J51 Status 0-LOA, 1-No_LOA

J52 Status 0-Englsh, 1-Metric

J54 Status 0-Limitd, 1-FullCn

J55 Status 0-DiagEn, 1-DiaDis

J57 Status 0-RTCDis,1-RTCEnb

J12 Status(Expansion I/O Board) 0-Englsh 1-German

Dilution Cycle Status 0-Open, 1-Made

Low Entering Condenser Water 0-No, 1-YesTemp Limit Active

Automatic Decrystallization Active 0-No, 1-Yes

Remote Load Limiting Active 0-No, 1-Yes

Pulldown Limiting Active 0-No, 1-Yes

AO

AO

1*

2*

DegF

DegC



BO 1 Chiller Start/Stop 0-Stop, 1-Start






NPT1


ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

8

9

10

11

12

13

Mode

Code

Code

Code

Code

Hour

#

#

#

Min

#

Code

DegF

Operational Mode (0-Service, 1-Local, 2-Remote)

Operational Code



Warning Message Code

Total Operating Hours

Total System Starts

Lifetime Purge Count

Weekly Purge Counter

Pulldown Demand - Minutes Left

Pulldown Demand - Present Limit

Dilution Cycle Code

Maximum Steam/Hot Water Valve Unload Setpoint

BD

BD

BD

1

2

3

JP1 Status 0-Steam, 1-Hwater

JP3 Status 0-Stndrd, 1-50Hz

JP1 (Expansion I/O Board) 0-Rotary, 1-Cage




Table 18: YG Gas Engine Drive Chiller (XL Configuration only)NPT1 NPA2 Unit DescriptionAI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

AI

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

DegF

DegF

DegF

DegF

DegF

DegF

DegF

DegF

psi

psi

psi

%

%

DegF

rpm

psi

psi

psi

psi

DegF

%

mils

mils

DegF

rpm








Oil Temperature

Evaporator Pressure

Condenser Pressure


Percent Engine Load

Percent Vanes Open

Engine Jacket Water Temperature

Engine Speed

Engine Oil Pressure

Engine Manifold Pressure

Low Oil Transducer Pressure

High Oil Transducer Pressure


Remote/Local Actual Engine Load Setpoint

Proximity Sensor - Actual Position

Proximity Sensor - Reference Position

Drain Line Thermocouple Temperature

Delta P over P

Surface Speed

BI

BI

BI

BI

BI

1

2

3

4

5

Engine Panel Shutdown Status 0-open, 1-made

Vent Valve Status 0-open, 1-made

Chilled Water Pump Status 0-open, 1-made

Start Switch Status 0-open, 1-made

Chilled Water Flow Switch Status 0-open, 1-made

AO

AO

AO

1*

2

3*

DegF

%FLA

DegC


Demand Limit Setpoint (50 to 100)







YG Gas EngineDrive Chiller

To get the hardwarereference formapping points toCS object attributes(via the softwaremodel), combine theNPT (Network PointType) and NPA(Network PointAddress). Forexample, thehardware referencefor the EngineSpeed point is AI15.


NPT1


ADF

ADF

ADF

ADF

ADF

ADF

ADF

1

2

3

4

5

6

7

Min

Code

Code

Code

Code

Hour

#

Anti-Recycle Time Left

Operating Mode

Operation Code



Accumulated Operating Hours

Accumulated System Starts

ADI 1 Code Engine Type0-G3408, 1-G3412, 2-G3508, 3-G3512,4-G3516, 5-G3606




Metasys Network Setup

Metasys Network setup is described in the Metasys Integrator technicalbulletins in the Metasys Connectivity Technical Manual (FAN 629.5). Thissection contains details specific to York applications.

Table 19: Software Model and CS Object DetailsApplication Software Model

(on Tables andModels CD-ROM)

Display Attribute(recommended)

NT CommandAttribute

(recommended)

Login YK_TRAN.DDL BI1 BI1*

YT Chiller YK_YTCH.DDL AI1 BO1

YK Chiller YK_YKCH.DDL AI1 BO1

YS Chiller YK_YSCH.DDL AI1 BO1

LS Chiller YK_LSCH.DDL AI1 BO1

YP Chiller YK_YPCH.DDL AI1 BO1

C1 Chiller YK_C1CH.DDL AI1 BO1

C3 Chiller YK_C3CH.DDL AI1 BI1*

B1 Chiller YK_B1CH.DDL AI1 BO1

B3 Chiller YK_B3CH.DDL AI1 BI1*

YR Chiller YK_S3000.DDL AI1 BO1

A1 Chiller YK_A1XL.DDL AI1 BO1

A3 Chiller YK_A3XL.DDL AI1 BI1*

YI Chiller YK_YIXL.DDL AI1 BO1

YG Chiller YK_YGXL.DDL AI1 BO1

* The NT Command attribute must be defined; it cannot be null. However, since thepoints are not commandable, you will not be able to command the attribute.

Mapping to aCS Object


Custom Integration

For information on integrating products that are not discussed in thisdocument, first refer to the Metasys Compatible Global Catalog, an onlinelist of released Connectivity products. If this list does not provide theinformation you require, consider using the System Integration ProjectData Sheet to request a custom contract from the System IntegrationTeam.

Both the Metasys Compatible Global Catalog and the System IntegrationProject Data Sheet can be accessed from The Advisor by performing thefollowing steps:

1. Click on the Systems Products button located on the left side of TheAdvisor home page.

2. Click on the Product Literature link.

3. Click on the Manuals-FANS link.

4. Click on the 629.0 Metasys Connectivity Sales Resource Manual link.

5. Find the System Integration Project Data Sheet link in the table ofcontents. Click on this link to view an online copy of the SystemIntegration Project Data Sheet, or click on the Metasys CompatibleGlobal Catalog link below it to view a list of released Connectivityproducts.

The System Integration Project Data Sheet (LIT-6290052) also can befound in the Metasys Connectivity Sales Resource Manual (FAN 629).

If you need further assistance, contact Johnson Controls Field SupportCenter.


Notes

www.johnsoncontrols.comControls Group FAN 629.5507 E. Michigan Street Metasys Connectivity Technical ManualP.O. Box 423 Metasys Integrator Release 9.0Milwaukee, WI 53201 Printed in U.S.A.

metasys integrator york application

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