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DIP5000

eleprotection

Vers ion A

User s M anual

DIP5K/EN U/B11



User's Manual DIP5K/EN U/B11

DIP5000 Page 1/2

DIP5000Teleprotection

CONTENT

Presentation DIP5K/EN IT/C11

Installation DIP5K/EN IN/D11

Commissioning DIP5K/EN CM/C11

Maintenance DIP5K/EN MT/C11

Human Machine Interface DIP5K/EN HI/C11



DIP5K/EN U/B11 User's Manual

Page 2/2 DIP5000

BLANK PAGE




DIP5000

PRESENTATION




DIP5000 Page 1/22

CONTENTS

1. DEFINITIONS 5

2.

GENERAL DESCRIPTION 6

2.1 Digital Interfaces supported 6

2.2 Voice frequency Interface 7

2.3 Functions 7

2.4 Transmission principle 8

2.4.1 Digital Mode 8

2.4.2 Analog mode 8

2.5 Available interfaces 8

2.6

Protection schemes 9

2.7 Self tests 9

2.8 Optional features 9

2.9 Environmental immunity 9

2.10 Ease of use 10

2.11 Digital mode specific features 11

2.11.1 Optimization of the transmission medium 11

2.11.2 Number of commands 11

2.11.3

Applications 11

2.11.4 Link check 11

2.11.5 Maintenance and loopback 11

2.12 Analog mode specific features 12

2.12.1 Transmission medium 12

2.12.2 Optimization of the medium 12

2.12.3 Number of commands 12

2.12.4 Link self-check 12

2.12.5 Special functions 13

3. EQUIPMENT COMPOSITION 14

4. MAIN CHARACTERISTICS 15

4.1 Mechanical characteristics 15

4.2 Environmental characteristics 15

4.3 Power supply electrical characteristics 16

4.4 Operational characteristics 16

4.5 Digital transmission characteristics 18

4.6 Voice frequency transmission characteristics 19

5. CE CERTIFICATE OF CONFORMITY 21



DIP5K/EN IT/C11 Presentation

Page 2/22 DIP5000

TABLE OF FIGURES

FIGURE 1 - DIGITAL INTERFACES 6

FIGURE 2 - VOICE FREQUENCY INTERFACE 7

FIGURE 3 - DIP5000 ENVIRONMENT 7

FIGURE 4 - TRANSMISSION - VOICE FREQUENCY BAND 8

FIGURE 5 - LOOPBACK 11

FIGURE 6 - LINK TEST - ANALOG MODE 13

FIGURE 7 - DIP5000 RACK 14




DIP5000 Page 3/22

MODIFICATIONS PAGE

VERSION DATE COMMENTS

A 17/10/2000 ORIGINAL ISSUE

B 18/04/2001 ADDITION OF OPTICAL INTERFACE

C 02/06/2004 AREVA- ADDITION OF ANALOGUE PART

NOTE : From the revision C, the numbering system of the document haschanged according to the AREVA standards, on the other hand theindex of the document has been incremented for a better follow-up.




Page 4/22 DIP5000

BLANK PAGE




DIP5000 Page 5/22

1. DEFINITIONS

Summary of some of the terms and acronyms used in this manual

! Dependability - Ability of a Teleprotection link to issue a valid command in thepresence of interference or noise. For convenience, the probability of missing

command Pmc is usually measured, the dependability is therefore given by 1 - Pmc.

! Security - Ability of a system to prevent interference or noise from generating acommand state at the receiving end when no command is transmitted. Forconvenience, the probability of unwanted command Puc is usually measured, thesecurity is then given by 1 - Puc.

! Nominal transmission time - The time elapsed between the moment of a change ofstate at the transmitter input and the moment of the corresponding change of state atthe receiver output when there is no interference or noise. This time does not includepropagation time.

! Guard - The guard signal or message is the signal or message being transmitted by

the teleprotection equipment in the idle state. When present, it inhibits any output ofthe teleprotection receiver

! Command - The command signal or message is the signal or message transmittedby the teleprotection requiring action at the receiving end.

! Permissive trip - Protection schemes that require a high dependability even underconditions when, due to a power system disturbance, the telecommunicationmedium may be adversely affected.

! Direct trip / Inter-trip - Protective schemes that are similar in operation to permissivetrip with the exception that security against unwanted operation and dependability ofcorrect operation are prime requirements. Speed of operation is usually sacrificed tomeet security and dependability requirements.

! Blocking - Protective schemes in which the requirements are more stringent fordependability and the speed of operation

! VF - Voice Frequency

! DCE - Data Communication Equipment

! DTE - Data Terminal Equipment

! LF (AF) - Low Frequency. Signals transmitted in the 0-4 kHz base band. Also calledAudio Frequency.

! FV - Guard Frequency

! FC - Command (or Command) Frequency




Page 6/22 DIP5000

2. GENERAL DESCRIPTION

2.1 Digital Interfaces supported

DIP5000

TDCE

R

S (Clock)

V11/X24

LINE

TDCE

R

G703.1 Codirectional

LINE

Clock

Clock

DIP5000

Clock

Tx

Rx

T DCE

R

G703.6

LINE

Optical Fiber

OPTICAL FIBER

Clock

Tx

Rx

Data

Data

Clock

DIP5000

Clock

Data

D0045ENa

Data

Clock

DIP5000

Tx

Rx

Optical Fiber

S'

DIP5000

Clock

Tx

Rx

FIGURE 1 - DIGITAL INTERFACES

NOTE : In the V11/X24 configuration, the teleprotection can provide the clock(DCE mode). In each configuration, two DIP5000 teleprotections canoperate together without DCE equipment.




DIP5000 Page 7/22

2.2 Voice frequency Interface

D0046ENa

DIP5000

TxETCD

Rx

ANALOGUE

LIGNE

BLR

BLE / BOOST

PRESENCE

DCE ALARME

FIGURE 2 - VOICE FREQUENCY INTERFACE

The voice frequency interface is working in a part of the 4 kHz audio frequency band, thesignal from transmitter to the receiver is conveyed via a telecommunication circuit that canbe cable link, PLC link, rented circuits, point to point radio links ...

2.3 Functions

The operational and safety demands of power networks require rapid, reliable and secureexchange of data between the protection systems installed at the ends of the transmissionlines. Transfer of this information requires powerful systems. On the other hand, the spreadof digital transmission networks and the growth of their field of application have broughtabout the development of specific high-tech telecommunications devices. Since it has beendesigned to meet these demands, the DIP5000 Digital/Analog Teleprotection equipmentoffers:

FOR THE TRANSMISSION PART

Encoding of information to ensure both, compatibility with the standard transmission mediumand also immunity to any interference that it may encounter.

FOR THE RECEPTION PART Decoding and advanced processing of the signals received, enabling faithful return of theinformation transmitted.

D0047ENa

Digital Network

Power Line

DTE

Alspa DIP5000

DCE

MUX/ Demux

DTE

Alspa DIP5000

DCE

MUX/Demux

ProtectionProtection

Optical Fiber

Analog

network

FIGURE 3 - DIP5000 ENVIRONMENT




Page 8/22 DIP5000

Although initially designed for power applications, DIP5000 Teleprotection equipment is alsoused in all applications where the following criteria are essential :

! Very short transfer times

! Optimum dependability and security

! Immunity to interference caused by the electrical environment

2.4 Transmission principle

2.4.1 Digital Mode

The transmission principle used is that of constant transmission of a digital framecorresponding to the stand-by state. Closing one or more contacts modifies this frame andtransmits a command message. The length of the messages depends on the Teleprotectionvariant chosen. They are encoded by means of a 4, 8 or 16 words selected in a code. Thecode is calculated to provide maximum security and reliability.

2.4.2 Analog mode

Frequency coding in the 0 - 4 kHz band.

As part of this principle the standby state (all the contacts whose position is to be transmittedopen) corresponds to the continuous transmission of a guard frequency FV. If one or morecontacts close, transmission of the guard frequency stops and one or more commandfrequencies FC are transmitted (via closed contact or transmitted command).

D0048ENa

Standby state

Transmission of2 commands

Guard Frequency

FC1 FC2

FIGURE 4 - TRANSMISSION - VOICE FREQUENCY BAND

2.5 Available interfaces

The architecture and principles used enable the DIP5000 Digital/Analog Teleprotectionequipment to adapt to the various transmission media:

! Speed from 32 Kbps to 2048 Kbps.

! Interface G703, V11,…

! Optical Interface

! Interface for 4 wires voice frequency support (LS, PLC)




DIP5000 Page 9/22

2.6 Protection schemes

In all cases, the performances of a Teleprotection link are the result of a compromisebetween transfer time, dependability and security. Depending on the protection diagram towhich the Teleprotection equipment is to be connected, one of these following three criteriamust be promoted. To achieve this, the DIP5000 Digital teleprotection equipment has 3

types of application :

! Permissive tripping type which promotes dependability,

! Blocking type which promotes transfer time,

! Direct tripping type that promotes security.

Each command is independent from others and can be customized.

2.7 Self tests

The DIP5000 Teleprotection equipment provides a number of automated processes thatconstantly check its various functions (power supply monitoring, I/O boards supervision ...)

The transmission link, digital or analog, is permanently checked. Alarm conditions are issuedwhen the medium is not any more able to ensure a good dependability and security level.

Any operating fault results in the following actions that:

! Protect command outputs,

! Light up indicator lights,

! Record usable information (log),

! Trigger alarm loops.

2.8 Optional features

The following features can be provided on analog and digital mode DIP5000 teleprotection :

! IRIG-B interface for synchronizing event logging on both sides

! Auxiliary power supply board to increase reliability and availability

! Adding I/O board module provides combinatorial logic on inputs and outputs.

2.9 Environmental immunity

DIP5000 Teleprotection equipment is designed to work in hostile environmental conditionsthat can be found in buildings housing very high voltage relay equipment.

To this end, it is fitted with protection devices against electromagnetic interference

(induced or radiated).




Page 10/22 DIP5000

2.10 Ease of use

DIP5000 Digital Teleprotection equipment has been designed to facilitate commissioning,use and maintenance of links. It is therefore fitted with an RS232C port to allow it to beconnected to a PC to perform all the commissioning and maintenance operations withoutany other instrument.

Note the following from the main accessible functions:

(D) stands for Digital Only

(A) stands for Analog only

CUSTOMISATION:

# Local and remote (D) teleprotection identity and address definition

# Setting the time and date of local and remote (D) Teleprotections

# Definition of the alarm activation bit error rate or S/N ratio

# Extension of transmission and output commands

# Types of protection scheme for each command

# Alarms customization

# ...

MESSAGING SERVICE:

# Number of commands transmitted and received

# Current bit error rate (D)

# Alarm status

# Inhibition status

# Current locks and loopbacks

# Customization parameter reading

# Dated lists of events and alarms

# ...

OPERATION, TESTS AND MAINTENANCE:

# Operating commands

# Local

# Remote loopback (D)

# Line locking

# Output relays locking

# Forcing command transmissions and outputs

# Transfer time measurement (D)

# Forcing PLC commands (A)

# ...




DIP5000 Page 11/22

2.11 Digital mode specific features

2.11.1 Optimization of the transmission medium

Digitalization of telecommunications networks for power distribution and transmissionservices optimizes the transfer of Teleprotection messages insofar as they are sent in thesame way as the other services for these systems.

On the other hand, with the principle adopted, the link constantly transmits a frame whenthere are no commands, which enables both teleprotections to talk and exchangeinformation via service words.

2.11.2 Number of commands

The architecture of the DIP5000 Digital Teleprotection equipment enables the transmissionof 2, 4 or 8 commands using standard boards. Regardless of the variant used, the variouscommands are independent and can be transmitted simultaneously.

2.11.3 Applications

Customization for the protection scheme is carried out on each set of 2 commands (1-2), (3-

4), (5-6), (7-8). The application can be selected between blocking, permissive or directtripping.

2.11.4 Link check

The transmission medium is permanently checked using a part of the transmitted frame (callservice channel). This service channel allows the teleprotections to exchange data abouttheir respective states and to decide whether or not if the link is able to carry out itsassignment. The local apparatus reflects the state of the remote by means of the remotealarm feature. The transmission time of the link is also permanently checked through theservice channel by measuring on both sides the times for a particular message to come backfrom the opposite side. The operator can check this transmission time using the HMIapplication on a personal computer with any version of Windows$ (since Windows 95).

Using the HMI application, the operator can also check the Bit Error Rate on the link

2.11.5 Maintenance and loopback

In order to control local and remote Teleprotection operation, the operator can switch theequipment to maintenance mode and carry out a local or remote loopback using theDIP5000 man-machine interface :

! The local loopback can be carried out while transmitting to the remote.

! The remote and local loopback are exclusive

! Commands can be forced with HMI while in local or remote mode

D0049ENa

LOCALLOOPBACK

Tx

RxREMOTE

LOOPBACK

REMOTE

Remote loop command

Transmitterblocked or not

FIGURE 5 - LOOPBACK

These features allows the checking of all the transmission link.

$ Windows is a registered trademark of Microsoft corporation




Page 12/22 DIP5000

2.12 Analog mode specific features

2.12.1 Transmission medium

The DIP5000 teleprotection equipment is designed to transmit low frequency signals on a 4-wire analog transmission medium possessing an voice frequency analog access. Note thatthe link is always bi-directional.

The architecture and principles adopted are such that the DIP5000 system can adapt to thedifferent bandwidth constraints of conventional transmission media, i.e. :

! 300 - 2400 Hz (cables, etc.).

! 300 - 3400 Hz (microwaves, optical fibers, radio, etc.).

! 300 - 3700 Hz (Power Line Carrier).

2.12.2 Optimization of the medium

When DIP5000 equipment are used with Power Line Carrier equipments (IEC Publication495), the operation of the transmission medium can be optimized :

! Bandwidth optimization

In the absence of a command, the link can transmit other signals (for example, telephony ordata). In this particular case the guard frequency FV can be the telephone signalingfrequency of the telecommunication system and hence can be generated by the latter.When a command is transmitted, the transmission of telephony, calling and, as appropriate,higher frequency signals is interrupted for the benefit of the command frequencies.

! Power optimization

On another hand, a specific exploitation mode, called Enhanced Mode allows the use of allthe available power of the PLC equipment to transmit the teleprotection commands.

In this scheme, the level of the transmitted command towards the PLC depends on thenumber of command to transmit simultaneously , in order to obtain a P.E.P. level, on theR.F. medium, equivalent to the level of the maximum power of the PLC.

2.12.3 Number of commands

The architecture of the DIP5000 equipment is such that standard boards can be used toprovide a 2 or 4 commands version.

Two variant can be adopted :

! Normal Mode

The various Commands are independent and can be transmitted simultaneously.

! Enhanced Mode (for maximum power. See above)

In the 4-commands mode, the commands are grouped by pairs that are treated on ahierarchical basis. Commands 1 and 2 have priority on commands 3 and 4.

2.12.4 Link self-check

The operator can verify the general operation of the link, even in service, by pressing a pushbutton or through the operator console. This procedure transmits a test message that isreturned by the other terminal system. The test message uses only the guard frequencychannel and therefore is harmless considering unwanted commands.

This procedure provides a very quick check on the transmission medium and the transmitterand receiver parts of the equipments.

The procedure can also be initiated automatically by the system on a daily basis at a fixedtime selected by the operator, or on an hourly basis. This features are programmed using theHMI application.




DIP5000 Page 13/22

If the procedure should fail (after three successive attempts), the system enters in anirreversible alarm condition (illumination of fault lights and activation of alarm loops).

D0050XXa

T

R

T

R

Test

TestCPU CPU

FIGURE 6 - LINK TEST - ANALOG MODE

2.12.5 Special functions

2.12.5.1 Unblocking function

Initiation condition: a loss on the guard frequency level higher than the thresholdprogrammed and during a time higher than the one selected causes a calibrated commandof 200 ms to be issued on the selected output.

! Delay time threshold : Adjustable from 5 to 80ms by step of 1ms

! Trip threshold : Adjustable from 10 to 20 dB under the guard nominal level by step of1 dB

2.12.5.2 Alive output

The voice frequency interface module provides a output contact (Solid state relay) which isclosed as long as the DIP5000 teleprotection is powered. This features allows thecommunication equipment or the protection automation system to be aware of the powering-off of the teleprotection when guard frequency is emitted by the communication equipment.

The circuit for this contact is located in the communication interface connector.

2.12.5.3 External alarm input

The voice frequency interface board has an opto-electronic input circuit that is activated byvoltage (48V nominal). This input can be configured by HMI to trigger an alarm on theteleprotection equipment. This alarm can be minor or major and is activated after a delayselected by the user (from 0 to 2.5 seconds with 100ms step).

This feature allows, for example, the DIP5000 teleprotection to take into account theabsence or the powering-off, as well as a dedicated alarm issued by the communicationequipment.

The circuit for this input is located in the communication interface connector.




Page 14/22 DIP5000

3. EQUIPMENT COMPOSITION

DIP5000 Teleprotection equipment is made up of a EUROPE type rack 19" wide and 3 unitshigh, in which the printed circuit boards holding the components (6-unit format, 220-mmdeep) are housed.

The modules are connected by a motherboard which also holds the sockets to which arefitted the connectors to the power supply, the transmission medium and the operatingsystem.

D0051XXa

37,7 mm

57,1 mm

37,7 mm

(3U)132,5 mm

316 mm1

2

3

4 5 6

FIGURE 7 - DIP5000 RACK

The different boars composing the DIP5000 are :

Name Function Location

UT148 CPU Board 1

SR114 I/O Board 48V to 250V DC 2 / 3

SR115 I/O board 24V to 127V DC 2 / 3

AL137 Power Supply 48V DC nominal input 5 / 6 *

AL139A Power Supply 110V DC and 127V DC nominal input 5 / 6 *

AL139B Power Supply 250V DC nominal input 5 / 6 *

AL140 Power Supply 24V DC nominal input 5 / 6 *

AL141 Power Supply 48V DC and 60V DC nominal input 5 / 6 *

IR173 G703-6 (2 Mbps) interface On CPU Board

IR179 V11 (32 kbps to 512 kbps) interface On CPU Board

IR180 G703-1 (64 kbps) codirectional interface On CPU Board

IR182-1310 Singlemode optical fiber interface (% = 1310nm) 4

IR182-1550 Singlemode optical fiber interface (% = 1550nm) 4

IR183 Voice Frequency interface On CPU Board

IR184 IRIG-B interface optional board On CPU Board

* In order to increase the reliability, two power supply modules can be used. They must havethe same input voltage.




DIP5000 Page 15/22

4. MAIN CHARACTERISTICS

4.1 Mechanical characteristics

Dimensions

height 132 mm (3U)width 483 mm (19")

depth 323 mm

mass 7,6 kg

Conductors section for crimping on mediumconnector

AWG 20 to 22 (0,324 to 0,519 mm²)

Allowable cable diameter on medium accessconnector

8,2 mm maximum

Cable for plug in terminal (I/O commands) 0,08 < Section < 2,5 mm²

Protection index IP30

4.2 Environmental characteristics

Climatic aspect

Nominal operation range

Temperature -10 °C to +55 °C

Relative humidity 90% at 23 °C

Operating limits

Temperature -10 °C to +55 °C (IEC 68-2-1 and IEC 68-2-2)

Relative humidity 95% at 40 °C (IEC 68-2-3)

Storage limits conditions

Temperature -25 °C to +70 °C (IEC 68-2-2)

Relative humidity 100% at 23 °C with no condensationElectrical security

Generic standard EN60950 / IEC 60255-5

Teleprotection Standard IEC 60834-1

Insulation resistance > 30.104 M& / 500 VDC

Dielectric tests at 50Hz 2.5 kV on I/O commands

1kV on communication link

Impulse withstand level ± 5 kV on I/O commands

Earth continuity < 22 m&

EMC

Compliance with IEC RecommendationsTeleprotection Standard IEC 60834-1

Generic immunity (industrial) IEC 61000-6-2

Generic emission (industrial) IEC 61000-6-4

Electrostatic discharges IEC 61000-4-2 Class 4 / IEC 60255-22-2

Radiated electromagnetic field IEC 61000-4-3 Class 3 / IEC 60255-22-3

Fast transient bursts IEC 61000-4-4 Class 4 / IEC 60255-22-4

Surge immunity IEC 61000-4-5 Class 3 / IEC 60255-22-5

Conducted electromagnetic field IEC 61000-4-6 Class 3 / IEC 60255-22-6

Magnetic field IEC 61000-4-8 Class 5

Oscillatory waves IEC 61000-4-12 Class 3 / IEC 60255-22-1Conducted common mode disturbances IEC 61000-4-16 Class 4 / IEC 60255-22-7

Compliance with IEEE Standards IEEE-ANSI C 37.90.1

IEEE-ANSI C 37.90.2

IEEE-ANSI C 37.1




Page 16/22 DIP5000

4.3 Power supply electrical characteristics

Nominal voltage 24 VDC 48/60 VDC 110/127VDC 127/250 VDC

Operating range (VDC) 18 to 36 36 to 72 70 to 160 100 to 300

Nominal consumption 7.5 W

Maximum absorbed power < 15 W

Maximum current at power-up < 15 A (50µs ' t ' 1.5 ms)

< 8 A (1.5 ms ' t ' 500 ms)

Ripple frequency allowed between100 Hz and 600 Hz

< 1.5 V peak to peak

Variations that can be superimposedon the above

± 20 V of maximum amplitude,

Maximum duration : 1 s

Fleeting power cut < 50 ms / 500 ms

Re-injected noise < 3 mV psophometric

< 6 mV peak to peak

4.4 Operational characteristics

General

Number of commands transmitted 2,4 or 8 according to variant

Particularity All commands are independent

(can be used simultaneously)Command inputs

Mode By voltage 24 to 250 V DC

Decoupling Opto-electronic

Input Filter Digital version 1 ms selectable by HMI

Analog version 1, 2 or 3 ms selectable by HMI

Minimum closure time Digital version : 1 ms

Analog version : from 1ms to 5 ms (1ms step)selectable by HMI

Logical input combination Possibility of AND / OR between 2 commandsPossible transmission extension(minimum duration)

For digital transmission 0 up to 250 ms by step of 1ms from MMI

For analogue transmission 0 up to 500 ms by step of 1ms from MMI




DIP5000 Page 17/22

Command outputs

Mode By contacts (solid-state relay)

Number of contacts (by command) 1 Working contact (8 commands versions and basic

4 commands version)

2 Working contacts in 2 commands versions

2 Working contacts in extended 4 commands version

Maximum voltage 290 VDC

Maximum current 2 A (protected against over current 100A/30ms)

Cut-off power 120 W

Short circuit current 100A / 30 ms

Contact closure time Duration of command signal received

Possible restitution extension(minimum duration)

For digital transmission 0 up to 250 ms by step of 1ms from MMI

For voice frequency transmission 0 up to 500 ms by step of 1ms from MMI

Auxiliary relays

Mode By contacts (solid-state relay)

Number of contacts 1 Working contact

At least 2 aux. contacts by command (1 TX & 1 RX)

Up to 4 aux. contacts by commands (2 TX & 2 RX)

Same characteristics than commandoutputs

Alarm Functions

Interface Indicator lights and relays

Number of contacts 2 x 2 neutral contacts (NC)

Maximum voltage 290 VDC

Maximum current 5 A (protected against over current 100A/30ms)

Cut-off power 100 W

Short circuit current 100A / 30 ms

Delay on alarm relay command 0s / 2.5s / 5s / 10s selectable from MMI

Operator assistance

Operations Indicators lights and alarm loops

Maintenance Terminal (PC) to handle all start-up and maintenanceoperations

History login 255 time-tagged events and 255 time-tagged faultsfor local Teleprotection and remote Teleprotection(resolution = 1 ms. between 2 events or faults)




Page 18/22 DIP5000

4.5 Digital transmission characteristics

Digital medium G703.1 / G703.6 / V11 / Optical

Transmission speed From 32 kbps up to 2048 kbps

Connector SUB-D 15 points, shielded

Impedance 120&

Insulation By translator for G703

By optocouplers for V11

Optical characteristics

Security (IEC 60825-1 amendment2 - 2002)

Class 1

Short distance link (up to 40 km) Laser diode 1310 nm for singlemode fiber

Optical power at 1310 nm -7 ± 1.5 dBm

Long distance link (up to 100 km) Laser diode 1550 nm for singlemode fiber

Optical power at 1550 nm -3 ± 1.5 dBm

Receiver sensitivity -40 dBm

Acceptable chromatic dispersion Non significant parameter

Data rate 256 kbps (internal clock mode)

64 kbps (external clock mode)

Can work on short distances withmultimode fiber (1310 nm)

Transmission time measurements

OPERATION

Blocking Permissive Tripping Direct TrippingDATARATE

2 cmds 4 cmds 8 cmds 2 cmds 4 cmds 8 cmds 2 cmds 4 cmds 8 cmds

32 Kbps 4.5 ms 6.5 ms 10.5 ms 6 ms 8.5 ms 15 ms 7.5 ms 11.5 ms 19.5 ms

64 Kbps 3 ms 4 ms 6 ms 3.5 ms 5 ms 8 ms 4.5 ms 6.5 ms 10.5 ms

128 Kbps 2 ms 2.5 ms 3.5 ms 2 ms 3 ms 4.5 ms 2.5 ms 3.5 ms 5.5 ms

256 Kbps 1.5 ms 1.5 ms 2 ms 1.5 ms 2 ms 2.5 ms 2 ms 2.5 ms 3.5 ms

2048 Kbps 1 ms 1 ms 1 ms 1 ms 1 ms 1 ms 1.5 ms 1.5 ms 1.5 ms

NOTE : The times given correspond to a configuration with the input filterdisabled.




DIP5000 Page 21/22

5. CE CERTIFICATE OF CONFORMITY




Page 22/22 DIP5000

BLANK PAGE




DIP5000

INSTALLATION




DIP5000 Page 1/26

CONTENTS

1. SHIPMENT 5

1.1

Packaging 5

1.2 Storage 5

1.3 Equipment parts list 5

2. CLIMATIC CONDITIONS 7

3. INSTALLATION 8

3.1 Description 8

4.

POWER SUPPLY 10

4.1 Voltage ranges 10

4.2 Power supply and consumption 10

5. CONNECTION 11

5.1 Earthing rule 11

5.2 Allocation of input/output sockets 11

5.3 Connection for commands I/O 11

5.3.1 Plug-in terminal blocks description 12

5.3.2

Definition of symbols 12

5.3.3 Terminal block presence. 12

5.3.4 Allocation 13

5.4 Connection for auxiliary outputs and alarms 15

5.4.1 Plug-in terminal blocks description 15

5.4.2 Definition of symbols 15

5.4.3 Allocation 16

5.5 Connection Power supply terminal block 18

5.5.1

Plug-in terminal blocks description 18

5.5.2 Allocation 18

5.6 Access port for the line connection medium 18

5.6.1 Connector description 18

5.6.2 Allocation 19

5.7 Optical Fiber access port 21

5.8 MMI access port (Connection to the PC) 21

5.9 IRIG-B interface port 21

6.

INSTALLATION 22



DIP5K/EN IN/D11 Installation

Page 2/26 DIP5000

7. APPENDIX A 23

7.1 Terminal block location 23

7.2 2 commands version connections 24

7.3

4 commands - 1 I/O board version - connections 24

7.4 4 commands - 2 I/O boards version - connections 25

7.5 8 commands connections 25

7.6 Selecting type of configuration 26

LIST OF FIGURES

FIGURE 1 - DIP5000 RACK 8

FIGURE 2 - POSITION OF PLUG-IN BOARDS 9

FIGURE 3 - POSITION IRXXX DAUGHTER BOARDS ON CPU 9

FIGURE 4 - PLUG-IN TERMINAL BLOCK 12

FIGURE 5 - 10 POINTS WAGO CONNECTOR 12

FIGURE 6 - 11 POINTS WAGO CONNECTOR 15

FIGURE 7 - ACCESS POINTS TO THE LINE CONNECTION MEDIUM (WIRING VIEW) 20

FIGURE 8 - LOCATION OF CONNECTIONS ON THE REAR SIDE 23

FIGURE 9 - TWO COMMANDS VERSION CONNECTIONS 24

FIGURE 10 - FOUR COMMANDS VERSION CONNECTIONS - 1 I/O BOARD 24

FIGURE 11 - FOUR COMMANDS VERSION CONNECTIONS - 2 I/O BOARD 25

FIGURE 12 - EIGHT COMMANDS VERSION CONNECTIONS 25

LIST OF TABLES

TABLE 1 - EQUIPMENT PARTS LIST 5

TABLE 2 - AVAILABLE BOARDS 6

TABLE 3 - POWER SUPPLY BOARDS 10

TABLE 4 - P10, P11, P12 AND P13 TERMINAL BLOCKS CIRCUITS LOCATION 13

TABLE 5 - ALLOCATION OF COMMANDS 14

TABLE 6 - P14, P15 AND P16 TERMINAL BLOCKS CIRCUITS LOCATION 16

TABLE 7 - ALLOCATION OF AUXILIARY OUTPUT 17

TABLE 8 - P17 TERMINAL BLOCK CONNECTIONS 18

TABLE 9 - V11/X24 INTERFACE CONNECTION 19

TABLE 10 - G703-1 CODIRECTIONAL INTERFACE CONNECTION 19

TABLE 11 - G703-6 INTERFACE CONNECTION 19

TABLE 12 - VOICE FREQUENCY INTERFACE CONNECTION 20

TABLE 13 - COMMANDS MANAGEMENT CONNECTORS 23

TABLE 14 - OTHER REAR PANEL CONNECTORS 23




DIP5000 Page 3/26

MODIFICATIONS PAGE

Version DATE COMMENTS


B 18/04/2001 ADDITION OF OPTICAL INTERFACE

C 04/10/2001 ADDITION OF GROUNDING RECOMMENDATION

D 02/06/2004 AREVA – ADDITION OF ANALOGUE PART

NOTE : From the revision C, the numbering system of the document haschanged according to the AREVA standards, on the other hand theindex of the document has been incremented for a better follow-up.




Page 4/26 DIP5000

BLANK PAGE




DIP5000 Page 5/26

1. SHIPMENT

1.1 Packaging

DIP5000 Digital teleprotection equipment comprises a rack to accommodate plug-in cards.This rack is designed to fit in standard 19-inch frame with fixing on the front panel. The

equipments are packaged and placed in a standard box suitable for transport.

Each box of equipment is marked externally with the equipment’s serial number to avoidopening when a number of items of equipment are shipped together in the same delivery.

The total equipment weight is 7.6 kg

1.2 Storage

If the equipment is not installed within a few weeks of leaving the factory, it is recommendedto remove it from its packaging before storing it, preferably in a warehouse. It is advised toinstall and energize equipments intended for a long long-term storage (several months).

The temperature limits to be observed for transport and storage are as follows:

-40°C to +70°C

1.3 Equipment parts list

The following table shows the various equipment components according to the variantadopted:

EQUIPMENT COMPONENTS

2 or 4 Commands Variant 8 Commands Variant

3U rack 1

UT 148 CPU Board 1

Terminal blocks 8

Line connection

(15 pin female socket)

1

PC connection

(9 pin female socket)

1

ALxxx PSU card (1) 1 or 2 (2)

SRxxx card (3) 1 or 2 (4) 2

IRxxx digital interface board (5) 1 (DIP5000 Digital version)

IR182 optical interface board 1 (DIP5000 Optical Fiber version)IR183 Voice Frequency interface 1 (DIP5000 Analog version)

IR184 IRIG_B interface board 1 (optional)

TABLE 1 - EQUIPMENT PARTS LIST

(1) (3) (5) see list of available boards table 2 below.

(2) 2 boards if using an auxiliary power supply for redundancy. In this case, the twoboards are the same.

(4) According to the scheme of contact chosen. See paragraph 3.1 below.




Page 6/26 DIP5000

Board name and category Function Comment

Power Supply boards

AL137 48V DC power supply 36V to 60V input

AL139A 110V / 127V DC power supply 80V to 160V input

AL139B 220V / 250V DC power supply 160V to 300V input

AL140 24V DC power supply 18V to 30V input

AL141 48V / 60V DC power supply 36V to 75V input

I/O boards

SR114 48V to 250V nominal I/O Command input from 36V to 300 V

SR115 24V to 127V nominal I/O Command input from 18V to 160 V

Communication interface

IR173 G703-6 (2 Mbps) Digital mode

IR179 V11 / X24 (32 kbps to 256 kbps) Digital mode

IR180 G703-1 codirectional (64 kbps) Digital mode

IR182-1310 Singlemode Optical Fiber(1310 nm)

Optical fiber mode

IR182-1550 Singlemode Optical Fiber(1550 nm)

Optical fiber mode

IR183 Voice frequency Interface Analog mode

Optional functions

IR184 IRIG-B Synchronization Interface

TABLE 2 - AVAILABLE BOARDS




DIP5000 Page 7/26

2. CLIMATIC CONDITIONS

! Maximum operating temperature : -10°C to + 55°C

! Maximum relative humidity at 23°C : 90 %

! This equipment is to be installed in rooms sheltered from the rain.




Page 8/26 DIP5000

3. INSTALLATION

3.1 Description

The card racks conform to the standard EUROPE 19 inches type, which are 3 units high incompliance with standard DIN 41494 and are designed to be installed in frames or cabinets.

The only fastening and support points on these racks are situated on the front panel of theframe, on perforated brackets.

The UT 148 and I/O boards cards, which are 220 mm long and 6U wide, are plugged in andlocked horizontally on the left part of the rack, the Power Supply boards are plugged in andlocked vertically on the right part of the rack after it has been installed and the connectingcables fed through. The optical interface board, if needed, is installed in the vertical position theclosest of the CPU board. The other interface are plugged on the CPU board (Daughter

boards). See figure 1 and figure 2 below.

D0052ENa

37,7 mm

57,1 mm

37,7 mm

(3U)132,5 mm

316 mm

Optical Interface

optional

Hinged flap 1 or 2 power supply card(s)AL13x according to option chosen

FIGURE 1 - DIP5000 RACK

The number of board depends on the version and required option.

In every case, the following boards are mandatory :

! 1 UT148 CPU board in the lower horizontal position

! 1 I/O board (SR114 or SR115) in the upper horizontal position

! 1 Power Supply board in the middle vertical position

Following the configuration, the following boards have to be added :

! 1 I/O board in the horizontal middle position for the 8 commands version (Digital only)

! 1 communication interface board selected between:

# Digital interface ( V11, G703-1or G703-6) installed as a daughter board on theCPU

# Copper wire interface (4 wires) installed as a daughter board on the CPU

# Optical fiber interface board (IR182) installed in the right vertical position




DIP5000 Page 9/26

As options, the following boards can be added :

! 1 redundancy Power Supply board in the vertical left position

! 1 IRIG_B interface (IR184) installed as a daughter board on the CPU

! 1 I/O board in the middle horizontal position can be added in the 4 commands versionto extend the number of outputs and to provide combinatorial logic on inputs.

Mandatory I/O Board

UT 148 BoardIRxxx interface

I R 1 8 2

M a i n P S U

A u x P S U

2 commands variant

Mandatory I/O Board


I R 1 8 2

M a i n P S U

A u x P S U

4 commands variant

Mandatory I/O Board

Mandatory I/O Board


I R 1 8 2

M a i n P S U

A u x P S U

8 commands variant(Digital Mode Only)

FIGURE 2 - POSITION OF PLUG-IN BOARDS

D0053ENa

V 7

V 5

V 3

V 2

V 4

V 6

V 1

V 8

DSP2189

M

U14

IR xxx communication interface board

V 9

MAX3000

MAX3000

Timer F L A S H

E E P R O M

S1

S2

U13

U8

U2

3,3V

IR184 Optional IRIG-B interface board

FIGURE 3 - POSITION IRXXX DAUGHTER BOARDS ON CPU




Page 10/26 DIP5000

4. POWER SUPPLY

4.1 Voltage ranges

DIP5000 Digital Teleprotection equipment is powered by a DC voltage supply.

The following power supply boards are available to cope with the most common voltageinputs :

! AL137 with a nominal input voltage of 48V.

! AL139-A with a nominal input voltage range of 110-127V.

! AL139-B with a nominal input voltage range of 127-250V

! AL140 with a nominal input voltage range of 24V.

! AL141 with a nominal input voltage range of 48-60V.

The equipment is guaranteed to work properly with a voltage supply that meets the followingminimum technical specifications:

BOARD Nominal Voltage

V DC

Min Voltage

V DC

Max Voltage

V DC

AL137 48 36 60

AL139A 110 - 127 80 160

AL139B 220 - 250 160 300

AL140 24 18 30

AL141 48 - 60 36 75

TABLE 3 - POWER SUPPLY BOARDS

! Alternative frequency component greater than or equal to 100 Hz : 0.12Un peak topeak

! Accidental variations (which can superimpose the above) :

# ± 20 V max. amplitude

# 10 ms max. duration

# 100 V/ms max. slope

4.2 Power supply and consumption

The DIP5000 Digital Teleprotection equipment is powered by the supply defined in the aboveparagraph. This may or may not be referenced to the frame’s mechanical earth.

The current consumption of equipment fully fitted, at nominal voltage of 48 V is 350mAmaximum, i.e. 17 W.

Consumption in idle state (without command) is 7W.




DIP5000 Page 11/26

5. CONNECTION

5.1 Earthing rule

To comply with the EMC characteristics announced, the rack of DIP5000 equipment must beconnected to a ground bar through a flat braid made of galvanized copper with a section of,

at least, 12 X 1 mm. This braid must be connected, DIP5000 equipment side, on one of thetwo gudgeon pin located at the back of the frame.

The immunity to electromagnetic perturbations is directly related tothe characteristics of the earthing connection. Any deviation can

severely influence performances and availability.

5.2 Allocation of input/output sockets

The various external sockets and connection points on the DIP5000 Digital Teleprotection equipment are situated on the rear panel of the equipment.

They are an integral part of the motherboard and include :

! P10 Terminal block containing command inputs 1 to 4.

! P11 Terminal block containing command output contacts 1 to 4

! P12 Terminal block containing command inputs 5 to 8.

! P13 Terminal block containing command output contacts 5 to 8

! P14 Auxiliary output terminal block for copying commands transmissions andreceptions.

! P15 Auxiliary output terminal block for copying commands transmissions andreceptions.

! P16 Major and minor alarm loop distribution terminal block.

! P17 Power Supply terminal block.

! P18 15 pins female socket connector for access to the communication line (copperwire).

! P19 9 pins female socket connector for RS232C link with the interface PC formaintenance/operation or access to the supervision network (TMN).

! P20 BNC connector for connection to an external clock by IRIG-B signal.

! FC/PC connector for optical fiber connection, only if the equipment is fitted with theIR182 option.

The location of these connection points is given in Appendix A figure 8.

5.3 Connection for commands I/O

The commands I/O to and from the protection relay are located on terminal blocks P10, P11,P12 and P13 at the rear side of the equipment. The references of the connectors are markedon the rear panel as well as the position of pin 1 for each connector (see Appendix A – figure8).

All the input and output of these blocks are fully isolated. Following the variant chosen,combinatorial logic can be allocated to commands. This means that one command can beactivated by the logical AND or the logical OR of two inputs coming from different sourceswith different voltage levels. This feature is available on the following variants :

# 2 commands variant

# 4 commands variant with one extra I/O board

Furthermore, in these variants, the command output is activated on two independent relays.




Page 12/26 DIP5000

5.3.1 Plug-in terminal blocks description

The conductors are connected to these terminal blocks by means of 10 self-lockingconnection points that lock in place conductors with a section between 0.08 and 2.5mm²inclusive.

These terminal blocks must be wired as follows:

# Strip each conductor to a length of 9 mm,

# Using the tool supplied (lever), press on 1,

# Insert the conductor in the dedicated housing,

# Release the lever.

These terminal blocks are also fitted with foolproof devices to prevent fitting the wrong waywhen they are being installed on the plugs situated on the motherboard.

D0054ENa

1

Lever

FIGURE 4 - PLUG-IN TERMINAL BLOCK

5.3.2 Definition of symbols

In this document, the following symbols have been used to mark the pins:

IN A command is activated by applying voltage to these terminals.+ designates the point to be connected to the positive terminal of the application – designates the point to be connected to the negative terminal of the application

OUT R, T, and C designate respectively the points BREAK, MAKE and COMMON of theavailable contacts.

5.3.3 Terminal block presence.

The equipment’s external wiring must include short-circuiting pins 1 and 2 on connectorsP10, P11, P12 and P13 (figure 5). This precaution enables the equipment to detect any

removal of the plug-in terminal block and to switch to alarm. The strap must be located onthe terminal block connector and must not be shifted.

D0055XXa

1 2

3 4

5 6 7

8 9

1 0

FIGURE 5 - 10 POINTS WAGO CONNECTOR




DIP5000 Page 13/26

5.3.4 Allocation

The following table gives the location of the I/O on the terminal blocks P10, P1, P2 and P13

ACCESSPOINTS

TERMINAL BLOCKP10

TERMINAL BLOCKP11

TERMINAL BLOCKP12

TERMINAL BLOCKP13

1 O # External loop External loop External loop External loop

2 O # Terminal presence Terminal presence Terminal presence Terminal presence

3 O # – IN1 C OUT1 – IN5 C OUT5

4 O # + T + T


6 O # + T + T


8 O # + T + T


10 O # + T + T

TABLE 4 - P10, P11, P12 AND P13 TERMINAL BLOCKS CIRCUITS LOCATION

As stated above, the allocation of a command to inputs and outputs depends on theconfiguration (see table 5 below). Where several choices are possible for the samecommand, the selection is made by MMI.




Page 14/26 DIP5000

COMMAND

ALLOCATION 2 COMMANDS VERSION

1 I/O BOARDS

4 COMMANDS VERSION

1 I/O BOARDS

4 COMMANDS VERSION

2 I/O BOARDS

8 COMMANDS VERSION

2 I/O BOARDS

DIGITAL ONLY

IN1 IN1

IN2 IN2IN1 or IN2 IN1 or IN2

COMMAND 1Acquisition

IN1 and IN2*

IN1

IN1 and IN2*

IN1

IN3 IN3

IN4 IN4

IN3 or IN4 IN3 or IN4


IN3 and IN4

IN2

IN3 and IN4

IN2

IN5

IN6

IN5 or IN6


IN3

IN5 and IN6

IN3

IN7

IN8

IN7 or IN8


IN4

IN7 and IN8

IN4


IN5


IN6


IN7


IN8

COMMAND 1Output

OUT1 / OUT2 OUT1 OUT1 / OUT2 OUT1

COMMAND 2Output

OUT3 / OUT4 OUT2 OUT3 / OUT4 OUT2

COMMAND 3Output

OUT3 OUT5 / OUT6 OUT3

COMMAND 4Output

OUT4 OUT7 / OUT8 OUT4

COMMAND 5Output

OUT5

COMMAND 6Output

OUT6

COMMAND 7Output

OUT7

COMMAND 8Output

OUT8

TABLE 5 - ALLOCATION OF COMMANDS




Page 16/26 DIP5000

5.4.3 Allocation

The following table gives the location of the I/O on the terminal blocks P14, P5 and P16

PINS TERMINAL BLOCK P14 TERMINAL BLOCK P15 TERMINAL BLOCK P16

1 T AUXT1 T AUXT9 C

2 T AUXT2 T AUXT10 R

Minor Alarm 1 Output

3 T AUXT3 T AUXT11 Not used

4 T AUXT4 T AUXT12 C

5 C AUXC 1 to 4 C AUXC 9 to 12 R

Minor Alarm 2 Output

6 Not used Not used Not used


8 T AUXT6 T AUXT14 R

Major Alarm 1 Output

9 T AUXT7 T AUXT15 Not used


11 C AUXC 5 to 8 C AUXC 13 to 16 RMajor Alarm 2 Output

TABLE 6 - P14, P15 AND P16 TERMINAL BLOCKS CIRCUITS LOCATION

The auxiliary output relays are used to give information about the current state of thetransmitter and the receiver as follow :

! Tx State for command number n (TXSn) : the contact(s) is(are) closed while thecommand n is being transmitted, open when in guard state or while other commandsare transmitted.

! Rx state for command number n (RXSn) : the contact(s) is(are) closed while the

command n is being received, open when in guard state or while other commands arebeing received.




DIP5000 Page 17/26

Allocation of the Aux. Output relays depends on the configuration (see table below)

ALLOCATION OF

COPY RELAYS 2-COMMAND

4-COMMAND

1 SR114 CARD

VERSION

4-COMMAND

2 SR114 CARD

VERSION

8-COMMAND

(DIGITAL ONLY)

TXS1 AUXT1AUXT5

AUXT1 AUXT1AUXT5

AUXT1

TXS2AUXT2AUXT6

AUXT2AUXT2AUXT6

AUXT2

TXS3 AUXT3AUXT9AUXT13

AUXT3

TXS4 AUXT4AUXT10AUXT14

AUXT4

TXS5 AUXT9

TXS6 AUXT10

TXS7 AUXT11

TXS8 AUXT12

RXS1AUXT3AUXT7

AUXT5AUXT3AUXT7

AUXT5

RXS2AUXT4AUXT8

AUXT6AUXT4AUXT8

AUXT6

RXS3 AUXT7AUXT11AUXT15

AUXT7

RXS4 AUXT8AUXT12AUXT16

AUXT8

RXS5 AUXT13

RXS6 AUXT14

RXS7 AUXT15

RXS8 AUXT16

TABLE 7 - ALLOCATION OF AUXILIARY OUTPUT




Page 18/26 DIP5000

5.5 Connection Power supply terminal block

The power supply connection is located on terminal blocks P17 at the rear side of theequipment. The connection points are labeled on the rear panel (see Appendix A - figure 8).

The connector provides 2 points for each polarity, this allows the shorting of +BAT or -BAT tothe mechanical ground with a simple wire strap (otherwise, the polarities are floating).

5.5.1 Plug-in terminal blocks description

The conductors are connected to these terminal blocks by means of 7 pins WAGO connectorwith self-locking connection points that lock conductors in place. Wires may have a sectionfrom 0.08 to 2.5 mm² inclusive. See figure 4 above.

5.5.2 Allocation

PINS MARKING POLARITY

1 +BAT

2 +BATPower supply negative polarity

3 +BAT

4 +BATPower supply positive polarity

5 Not Connected

6

7Mechanical Ground

TABLE 8 - P17 TERMINAL BLOCK CONNECTIONS

5.6 Access port for the line connection medium

This chapter applies for all versions of DIP5000 equipment except for the optical fiber

variant. In this case, see optical fiber connections in chapter 5.7.

5.6.1 Connector description

The port for the line connection medium (Connector P18) is located on the motherboard ofthe equipment (see Appendix A - figure 8). It is a 15-pole female connector SUB-D type.

The connections must be realized using a 15-pole male SUB-D connector supplied with theequipment. It includes the locking screws and the cover allowing a good shieldingconnection.

To comply with insulation restrictions, non-allocated terminals must not be connected.

The multi-strand conductor section is as follows:

! To be crimped: AWG 20 to 22 (0.324 to 0.519 mm²)

! Allowable cable diameter: 8.2mm maximum.

! Cable-clamp reducers for maximum diameters of 4.1, 5.5 and 6.8 are provided.

! The cable shielding must be connected to the metal cover.

For digital teleprotection links, the immunity to electromagneticdisturbances is directly related to the good connection of the cableshield to the mechanical ground on both sides of the connection.




Page 20/26 DIP5000

VOICE FREQUENCY INTERFACE (Analog mode)

Pin Name Pin Name Circuit designation and description

1

2 Tx(A) out 9 Tx(B) out Voice frequency signal out (transmit)

3 TBB(A) out 10 TBB(B) out Tx Blocking / Boost command circuit (solidstate relay)

4 Rx(A) in 11 Rx(B) in Voice frequency signal in (receive)

5 RB(A) out 12 RB(B) out Rx Blocking command circuit (solid staterelay)

6 EA(+) in 13 EA(-) in External Alarm input (opto-isolated)

7 AL(A) out 14 AL(B) out Alive output circuit (solid state relay)

8 nc 15 nc

TABLE 12 - VOICE FREQUENCY INTERFACE CONNECTION

Next figure gives a physical representation of the connectors

D0057ENa

9

10

11

12

13

14

15

1

2

3

45

6

7

8

V11/X24 Interface (ISO 4903)

T(B)

T(A)

R(B)R(A)

S(B)

S(A)

G703.1 Interface

codirectional

T(B)T(A)

R(B)

R(A)

9

10

11

12

13

14

15

1

2

3

4

5

6

78

9

10

11

12

13

14

15

1

2

3

45

6

7

8

G703.6 Interface 2Mbit/s

Tx +Tx -

Rx +Rx -

S'(B)

S'(A)

S' : transmitter clock circuitfor non-standard use

Analog Interface

Tx(B)Tx(A)

Rx(B)Rx(A)

9

10

11

12

13

14

15

1

2

3

4

5

6

78

AL(A)

AL(B)

EA(A)EA(B)RB(A)RB(B)

TBB(A)TBB(B)

FIGURE 7 - ACCESS POINTS TO THE LINE CONNECTION MEDIUM (WIRING VIEW)




DIP5000 Page 21/26

5.7 Optical Fiber access port

For the optical fiber version, the IR182 interface board must be present at its location in theequipment and must imperatively be fixed to the back panel via its two screws. Theconnection toward the communication equipment or with the remote DIP5000 is realizedthrough 2 FC/PC connectors located on the rear side of the equipment, see Appendix A -

figure 8. These connectors are part of the IR182 optical interface board.The two terminals (Tx and Rx) are FC/PC type connectors for singlemode fiber. When IR182interface is not present, an EMC protection plate, seals the connectors location. When theoptical interface is used, the P18 transmission connector must then be equipped with itsEMC protection cover.

Warning : Never try to remove IR182 module from apparatus withoutremoving beforehand the two fastening screws located on the back

panel.

5.8 MMI access port (Connection to the PC)

The port for the Personal Computer serial RS232 connection is located on front panel of theequipment. It is a

9-pole female connector SUB-D type.

A standard 2 meter long connecting lead is provided with the equipment. This lead is wiredpoint to point. It includes circuits allowing the DIP5000 equipment to detect the presence ofthe PC on the front panel connector.

The connection can also be made to the connector located on the rear side of the equipment(see P19 in Appendix A- figure 8). In this case, a DTE-DCE type adapter must be used withthe standard lead. The motherboard connector is dedicated to a supervision network access(TMN), on this access, the RTS / CTS hardware protocol is managed.

When not used, the connectors must be covered with the caps provided with the equipment.5.9 IRIG-B interface port

This port is dedicated for connection to an external clock with an IRIG-B synchronizationinterface (IRIG-B mode with analog 1 kHz modulation). The port is a standard female BNCcoaxial connector which is located on the rear side of the equipment (see P20 in AppendixA- figure 8), the connection is to be made using a standard male-male BNC cable.

The braid of the coaxial cable, which is the IRIG-B signal ground, is connected to theequipment mechanical ground.

When not used, the connector must be covered with the BNC cap provided with theequipment.




Page 22/26 DIP5000

6. INSTALLATION

Installation of the equipment includes the following steps:

1. Install casing (rack, cabinet or box).

2. Insert cables for subsystems and operation (power supply, earthing, transmissionmedium, and protection equipment).

3. Mount rack in casing. It is fastened in place using the screws on the front panel.

4. Connect rack to earth circuit.

5. Before installing the cards in the racks, check if apparatus is switched off (plugsremoved or switch open).

6. Install cards in rack.

NOTE : The optical interface card must be plugged and tied to the rack beforemounting the rack in the frame.




DIP5000 Page 23/26

7. APPENDIX A

7.1 Terminal block location

D0058ENa

P17

P16

P14

P15

P11

P10

P12

P13P19

P20

P18

Optical FiberAccess

Tx

Rx

- BAT- BAT+BAT+BAT

1

1

1 1

1

1

FIGURE 8 - LOCATION OF CONNECTIONS ON THE REAR SIDE

Command input and output terminals

P10 Command inputs

P11 Command outputs

P12 Command inputs

P13 Command outputs

P14 Commands Auxiliary outputs

P15 Commands Auxiliary outputs

Connection terminal blocks for protection andcommand management systems.(§ 5.3 and § 5.4)

TABLE 13 - COMMANDS MANAGEMENT CONNECTORS

Ancillary terminal blocks

P16 Connection terminals to the alarm management systems (§ 5.4)

P17 Power supply connection terminals (§ 5.5)

P18 Line connection ports (§ 5.6)

P19 Supervision network connection ports (§ 5.8)

P20 External clock synchronization connection port (§ 5.9)

TABLE 14 - OTHER REAR PANEL CONNECTORS




Page 24/26 DIP5000

7.2 2 commands version connections

D0059ENa

Command 1Acquisition

P10

IN1 IN2

Command 2Acquisition

IN3 IN4

- + - - -+ + +

P11P14

Command 1 Transmission Copy

OUT1 OUT2

Command 1Restitution

Command 2Restitution

{ { { {

{ { { {

Group 2 Copy Common

Group 1 Copy Common

Group 1 Group 2


Command 1 Reception Copy


OUT3 OUT4

FIGURE 9 - TWO COMMANDS VERSION CONNECTIONS

7.3 4 commands - 1 I/O board version - connections

D0060ENa

Command 1

Acquisition

P10

IN1 IN2 IN3 IN4

- + - - -+ + +

P11P14


Command 1

Restitution

{ { { {

{ { { {

Common of CommandTransmission Copies

Command 2

Restitution

Command 3

Restitution

Command 4

Restitution

OUT1






Command 3 Reception CopyCommand 4 Reception Copy

Common of CommandReception Copies

OUT2 OUT3 OUT4

Command 2

Acquisition

Command 3

Acquisition

Command 4

Acquisition

FIGURE 10 - FOUR COMMANDS VERSION CONNECTIONS - 1 I/O BOARD




Page 26/26 DIP5000

7.6 Selecting type of configuration

D0063ENa

Function Selection

MMI Choice

COMBINED MODE

ACQUISITION

Input 1+ Input 2

Input 1 . Input 2

OR Function

AND Function

Input Selection

MMI ChoiceSIMPLE MODE

ACQUISITION

Input 1

Input 2

See Terminal Block P10




DIP5000

COMMISSIONING




DIP5000 Page 1/20

CONTENT

1. FOREWORD 5

1.1

Organisation 5

1.2 Step by Step procedure 5

1.3 Measuring apparatus 6

1.4 Equipment safety (Keying the connectors) 6

2. CONTROL AND CUSTOMIZATION OF MODULES 7

2.1 SR114/SR115 7

2.2 UT148/FB182/AL137/AL139-A/AL139-B/AL140/AL141 7

3.

CONFIGURATION 8

3.1 Configuration parameter tables 8

3.1.1 Communication 8

3.1.2 Commands for digital equipment 8

3.1.3 Commands for analogue equipment 9

3.1.4 Identity 11

3.1.5 RS232 link 11

3.1.6 Minimum list of parameters 11

3.2

Powering up 12

4. TEST 13

5. AVAILABILITY OF THE DIP5000 14

6. APPENDIX A 15

6.1 UT148 card layout 15

6.2 SR114/SR115 card layout 16

6.3 AL137 card layout 17

6.4

AL139 card layout 17

6.5 IR183 card layout 18

6.6 IR184 card layout 19



DIP5K/EN CM/C11 Commissioning

Page 2/20 DIP5000

BLANK PAGE




DIP5000 Page 3/20

MODIFICATIONS PAGE

REVISION DATE COMMENTS


B 23/04/2001 Addition of optical interface

C 23/08/2004 AREVA logo and addition of analog version




DIP5000 Page 5/20

1. FOREWORD

1.1 Organisation

A DIP 5000 teleprotection link is commissioned according to the Step by Step proceduredescribed in the following paragraphs.

Compliance with these procedures will prevent any operating incidents and the deteriorationof equipment, authorises optimum configuration of the link and the fastest switch to theoperational phase.

For anything relating to use of the configurator (Human-Machine Interface) refer to thecorresponding manual.

1.2 Step by Step procedure

A DIP5000 link is making operative in accordance with the following block figure 1:

D0126ENa

Availability

End

Test

Start

Customization ofmodule

Choice of operatingparameters

Powering up

Configuration by theconfigurator (HMI)

Installation See installationmanual

FIGURE 1 – COMMISSIONING ORGANISATION

NB: Any handling of cards (removal or insertion) must be carried out whenthe equipment is powered down.




Page 6/20 DIP5000

1.3 Measuring apparatus

The facilities offered by the (HMI) configurator software enable full control of equipment(including commissioning and testing) without measuring apparatus (excluding the PC).

Where traditional measuring apparatus such as voltmeters, universal meters, can still beused to control or display the various signals (Command output, etc.), the only essentialpiece of equipment is the Personal Computer (PC) together with the configuration software(DIP5000 Configurator).

1.4 Equipment safety (Keying the connectors)

The DIP5000 has a safety device which can upset commissioning if not known:

Disconnecting a user terminal block (Command Inputs and Outputs at the back of theequipment) causes the alarm indicator lights to come on and the alarm contact status tochange. Refer to the installation manual.

Each connector has a keying digit which prevents a connector being plugged into the wrongsocket.




DIP5000 Page 7/20

2. CONTROL AND CUSTOMIZATION OF MODULES

Before inserting any module into the equipment (before commissioning or duringreplacement) it is better to check that the various customizations have been carried outcorrectly.

2.1 SR114/SR115

S2/S5 jumpers: Selecting the voltage level for the command input.

S2 S3 S4 S5

SR114/SR115Top position

Input 1(command 1 *)

Input 2(command 2*)

Input 3(command 3*)

Input 4(command 4*)

SR114/SR115Bottom position

Input 5(command 5*)

Input 6(command 6*)

Input 7(command 7*)

Input 8(command 8*)

* Allocating a command to an input depends on the combinatorial configuration (seeinstallation volume).

D0127XXa

1 2 3

S 2

1 2 3

S 3

1 2 3

S 4

1 2 3

S 5

Position Voltage range

1 - 2 220V –250V(SR114) or 24V(SR115)

2 - 3 48V -127V(SR114 or SR115)

Refer to the SR114/SR115 layout diagram for all reference marks (appendix A)

2.2 UT148/FB182/AL137/AL139-A/AL139-B/AL140/AL141

No configuration is necessary on these modules.




DIP5000 Page 9/20

3.1.2.1 Alarms

Relay time-delayMajor Alarm 1

NoTime-delay

! 2.5 sec. ! 5 sec. ! 10 sec.

Relay time-delay

Major Alarm 2

! No

Time-delay

! 2.5 sec. ! 5 SEC. ! 10 sec.

Relay time-delayMinor Alarm 1

NoTime-delay

! 2.5 sec. ! 5 sec. ! 10 sec.

Relay time-delayMinor Alarm 2

! NoTime-delay

! 2.5 sec. ! 5 SEC. ! 10 sec.

Alarm on lengthy Cd No alarm ! Minor Al. MAJOR AL.

Alarm on time oftransmission

No alarm ! Minor Al. MAJOR AL.

! 10-1! 10-2

10-3 MAJOR ALARM

THRESHOLD ON BIT

ERROR RATE ! 10-4

! 10-5

! 10-6

! 10-1! 10-2

! 10-3 MINOR ALARMTHRESHOLD ON BITERROR RATE ! 10-4 ! 10-5

10-6

3.1.3 Commands for analogue equipment

3.1.3.1 Common

Number of commands : ! 2 Commands ! 4 Commands

Version Choice : ! Normal ! Enhanced

Number of SR114/SR115 cards ! 1 ! 2

Filter on the inputs, for each command : ! 1 ms ! 2 ms ! 3 ms

Daily or hourly test : ! Yes ! No

Test Time : HH and/or MN ...../.....

3.1.3.2 Sender

Sender bandwidth : ! 300-2000 Hz! 300-2400 Hz

! 300-3400 Hz

Guard signal : ! 2240/3680 Hz! 2600 Hz! 3680 Hz

Guard source : ! Internal ! External

Input validation delay (1234) : ...../...../...../.....

Holding delay (1234) : ...../...../...../.....

Command 1 type : ! Permissive ! Blocking ! Direct

Command 2 type : ! Permissive ! Blocking ! DirectCommand 3 type : ! Permissive ! Blocking ! Direct





Page 10/20 DIP5000

3.1.3.3 Receiver





Receiver bandwidth: ! 300-2000 Hz! 300-2400 Hz! 300-3400 Hz

Guard signal: ! 2100/2300 Hz! 2400/2660 Hz! 3600/3800 or 2100/2300 Hz

Holding delay (1234) : ...../...../...../.....

Idle state (of outputs) if alarm (1234) : ...../...../...../.....

Unblocking on command (1234) : ...../...../...../.....

Unblocking threshold : - 10 dB to - 20 dB .... dB

Unblocking delay : 5 ms to 80 ms .... ms

3.1.3.4 Levels

SIGNAL LEVEL SETTING

Receiver guard level: -40 to 0dBm dBm (-20)

Relative level Cmd/guard: 0 to 16 dB dB ( 00)

Sender guard level: -30 to +6dBm dBm (-20)

Sender Cmd 1 Level: -30 to +6dBm dBm (-20)




Important notice : The internal guard level has to be adjusted even in case of externalguard frequency is choosen

3.1.3.5 3.1.3.5 Alarms

Relay delay

Major Alarm 1

NoTime-delay

! 2.5 sec. ! 5 sec. ! 10 sec.

Relay delay

Major Alarm 2

! NoTime-delay

! 2.5 sec. ! 5 SEC. ! 10 sec.

Relay delay

Minor Alarm 1

NoTime-delay

! 2.5 sec. ! 5 sec. ! 10 sec.

Relay delay

Minor Alarm 2

! NoTime-delay

! 2.5 sec. ! 5 SEC. ! 10 sec.

Alarm on externalinput


Alarm on inputcommand duration


THRESHOLD ANDDELAY ON LOWLEVEL ALARM

…./….




DIP5000 Page 11/20

3.1.4 Identity

Source station identification:20 characters max

DIP5000 STATION A

Destination station identification:

20 characters max

DIP5000 STATION B

Link address: 0

3.1.5 RS232 link

Serial port speed: ! 19200 bit/s ! 9600 bit/s

! 4800 bit/s ! 1200 bit/s

! 2400 bit/s ! 600 bit/s

3.1.6 Minimum list of parameters

The following parameters are the minimum parameters required for commissioning:

Commands: Communication: Identity:

! Number of commands

! Type of operation

! Bandwidths

! Type of junction ! Logical link address fordigital DIP




Page 12/20 DIP5000

3.2 Powering up

After checking the position of cards and the power supply connection (see installationmanual),it is powered up according to the following figure 2:

D0128ENa

Start

Are the AL137/AL139-A/AL139-B/AL140/AL141

card voltage presence indicatorlights on ?

?

Are the "STATUS"indicator lights onthe UT148 card on

or flashing ?

?

End

Yes

Yes

No

Go to repair

No

Switch ON(AL137/AL139-A/AL139-B/AL140/

AL141 cards)

FIGURE 2 – POWERING UP




DIP5000 Page 13/20

4. TEST

This phase is for checking that the components of the DIP5000 teleprotection are in perfectworking order and that the configuration sent complies with the hardware.

D0129ENa

Read the alarmusing the HMI

Start

?

Are there any testfaults on

powering up ?

?

End Go to repair

Are there anyhardware test faults ?

No

No

Yes

Yes

Note the nature ofthe displayed fault.

FIGURE 3 – POWERING UP




Page 14/20 DIP5000

5. AVAILABILITY OF THE DIP5000

The availability of the equipment, as described in the following diagram, corresponds to theoperational status. This procedure involves:

# Checking the user connections (rear sockets) and the “Terminal Block Presence” 1-2

jumpers

# Setting the local right time on the equipment

# Saving the configuration file

D0130ENa

Start

Set the time on theequipment

End

<File> Menu<File/Save>

<Date/Write/Local> Menu

Clear Event and Alarmlog

Check the "user"

connections (rear sockets)

File the configuration in aback-up file <Read/Local> Menu

<Configuration> Command

FIGURE 4 – AVAILABILITY




DIP5000 Page 15/20

6. APPENDIX A

6.1 UT148 card layout

UT148

D0131ENa

V 7

V 5

V 3

V 2

V 4

V 6

V 1

V 8

DSP2189

M

U14

IR xxx communication interface board

V 9

MAX3000

MAX3000

Timer F L A

S H

E E P

R O M

S1

S2

U13

U8U2

3,3V

IR184 Optional IRIG-B interface board




Page 16/20 DIP5000

6.2 SR114/SR115 card layout

SR114/SR115

D0132XXa

K5

K6

K7

K8

K9

K10

K11

K12

K4

K3

K2

K1

123 S 2

123

S 3

123

S 4

123

S 5V 5

V 6

V 7

V 8

V 1

V 2

V 3

V 4

P1

P2

P3

MAX7000

S1

U4




DIP5000 Page 17/20

6.3 AL137 card layout

AL137

D0133ENa

P1S1

A1

K2

K3

K1

K4

Power

MAJ. AL.

MIN. AL.

Factory setting0 V

F u s e

+5V

6.4 AL139 card layout

AL139

D0134ENa

P1INT.1

K3

K4

K1

K2C20

Power

MAJ. AL.

MIN. AL.

Factory setting

0 V+5V

F u s e

CONV.1

POT.1




Page 18/20 DIP5000

6.5 IR183 card layout

IR183




DIP5000 Page 19/20

6.6 IR184 card layout




Page 20/20 DIP5000

BLANK PAGE




DIP5000

MAINTENANCE




DIP5000 Page 1/34

TABLE OF CONTENTS

1. SUMMARY OF FAULT MANAGEMENT 5

2. MAINTENANCE ACTION PRINCIPLES 7

3. MAINTENANCE RESOURCES 8

3.1 Pushbuttons 8

3.2 Signalling 9

3.3 Human Machine Dialogue 10

3.3.1 Reading faults. 10

3.3.2 Forcing (Maintenance menu). 11

3.3.3

Reset 11

4. REPAIR PROCEDURE 12

4.1 Source fault 12

4.2 Human Machine Dialogue Fault 12

4.3 System fault (Messages / Action(s)) 12

4.4 Warning or error messages 32

5. APPENDIX 34

5.1

Procedure for replacing the timer battery 34



DIP5K/EN MT/C11 Maintenance

Page 2/34 DIP5000

TABLE OF FIGURES

FIGURE 1 – SIGNALLING INDICATOR LIGHTS 8

FIGURE 2 – ALARMS ON POWERING UP 13

FIGURE 3 – COMMUNICATION INTERFACE FAULT 14

FIGURE 4 – SR114/115 COHERENCE FAULT 15

FIGURE 5 – IRIG-B COHERENCE FAULT 16

FIGURE 6 – CONFIGURATION CHECKSUM FAULT 17

FIGURE 7 – LOCAL LOOPBACK TEST FAULT 18

FIGURE 8 – HARDWARE FAULT ALARMS 19

FIGURE 9 – SR114/115 MODULE TEST FAULT 20

FIGURE 10 – TERMINAL BLOCK PRESENCE FAULT 21

FIGURE 11 – AL137 OR AL139-A OR AL139-B OR AL14X POWER SUPPLY VOLTAGE FAULT22

FIGURE 12 – TIMER BATTERY VOLTAGE FAULT 23

FIGURE 13 – ALARM ON LINK TEST 24

FIGURE 14 – COMMUNICATION ALARMS – DIGITAL VERSION 25

FIGURE 15 – BIT ERROR RATE ALARM 25

FIGURE 16 – SYNCHRO LOSS 26

FIGURE 17 – REMOTE ALARMS 27

FIGURE 18 – COMMUNICATION INTERFACE FAULT 27

FIGURE 19 – TRANSMISSION TIME ALARM 28

FIGURE 20 – TX COMMAND DURATION ALARM 28

FIGURE 21 – COMMUNICATION ALARMS 29

FIGURE 22 – COMMUNICATION ALARMS – ANALOGUE VERSION 30

FIGURE 23 – EXTERNAL ALARM 31

FIGURE 24 – MISCELLANEOUS MESSAGES 32

FIGURE 25 – MISCELLANEOUS MESSAGES CONTINUED 33

FIGURE 26 – PROCEDURE FOR REMOVING THE "POWERCAP" 34

FIGURE 27 – PROCEDURE FOR INSTALLING THE "POWERCAP" 34




DIP5000 Page 5/34

1. SUMMARY OF FAULT MANAGEMENT

For further information, refer to the “Operation” section.

Faults are split into two classes: Major and Minor

Major Faults

A major fault is a fault whose appearance inhibits normal operation of the equipment orentails a risk to operation. In all cases, it involves placing the command output relays in restmode. The relays are kept in this mode until the fault disappears.

Minor Faults

A minor fault is a fault whose appearance causes no risk to operation. In this case, normaloperation of the equipment is guaranteed:

Faults are split into two types: Reversible and Irreversible

Reversible faults

Reversible faults convey an abnormal condition at a given moment. The teleprotectionreturns to normal operating mode as soon as the fault disappears.

Irreversible faults

Irreversible faults convey permanent non-operation of the link or equipment. Manualintervention (including repowering or resetting) is necessary to resolve it.

Faults are split into three categories: Powering up / Hardware / Communication




Page 6/34 DIP5000

The following table summarises the various fault categories showing the class and type:

FAULTS CLASS TYPE Version**

"Powering up" faults

Timer RAM test MAJ IRREV

DSP RAM test MAJ IRREV

EPROM Flash test MAJ IRREV

Communication interface presence MAJ IRREV

Loopback test MAJ IRREV

Configuration checksum MAJ IRREV

SR114 coherence test MAJ IRREV

IRIG-B coherence test MAJ IRREV

IR183 coherence test MAJ IRREV A

"Hardware" faults

Presence of SR114 modules MAJ REV

AL137/AL139 fault MIN REV

Presence of operating terminal blocks MIN REV

Battery fault (timer) MIN IRREV

Input / Output test MAJ IRREV

UT power supply voltage test MAJ REV

Link Test MAJ IRREV A

"Communication" faults

Transmission time alarm MIN/MAJ* REV D

Lack of received signal MAJ REV D

Lack of Rx timing MAJ REV D

Lack of Tx timing MAJ REV D

Synchro Loss MAJ REV D

Bit Error Rate / MAJ ALARM MAJ REV D

Bit Error Rate / MIN ALARM MIN REV DMajor remote Alarm MAJ REV D

Minor remote Alarm MIN REV D

Tx Command duration Alarm MIN/MAJ* REV

Missing Guard MAJ REV A

Low Level MAJ REV A

External Alarm MIN/MAJ* REV A

TABLE 1 – FAULT CATEGORY

* per configuration (by HMI).

** In the Version column, ‘D’ indicates that the fault concerns only the Digital version of theDIP5000. ‘A’ indicates that the fault concerns only the Analog version. None indicates thatthe fault concerns both versions.

Remote equipment faults are indicated locally. They are classed as reversible whatever theirnature. Once the remote fault is removed, the local alarm disappears.




DIP5000 Page 7/34

2. MAINTENANCE ACTION PRINCIPLES

Based on the information supplied by the equipment and by means of certain handling, therepair procedure enables:

! Location of the faulty component (DIP5000 card, transmission medium.)

! The equipment to be returned to operational status

The following covers most cases that may be encountered. In other cases (severalsimultaneous faults or breakdowns with multiple implications), knowledge of the system’sstructure (all the equipment that makes up a link, including transmission medium) willgradually reduce the faults (card by card, ...).

Special precautions:

The card must only be handled once the equipment is POWERED DOWN.

When replacing a card, make sure that customisations on the spare card are thesame as those on the card being replaced

(see «commissioning» manual).

Before any action on the optical interface board, it is necessary to withdraw thefastening screws of module IR182 located on the back panel.

The fastening screws of module IR182 must be insertedbefore connecting optical fibers




Page 8/34 DIP5000

3. MAINTENANCE RESOURCES

There are three types of maintenance resources offered by the DIP5000 equipment:

# The pushbutton

# Signalling (relays and indicator lights)

# The human-machine dialogue interface

D0135XXa

V 7 V 5 V 3 V 2 V 4 V 6 V 1 V 8 V 9 S1 S2

Maintenance

MTN LCK LOOP

Loc Rem

Link

SYNC REM AL

CPU

STATUS BAT

D0136ENa

Power supplies indicator lights

MAIN POWER AUX. POWER

MAJOR ALARM

MINOR ALARM

Opt. Link

TX

RX

Optical interfaceindicator lights

FIGURE 1 – SIGNALLING INDICATOR LIGHTS

3.1 Pushbuttons

Pushbuttons S1 and S2 are accessible when the door is open.

Pushbutton S1 is used to restart the equipment.

Pushbutton S2 :

$ Is reserved in the digital version

$ Is used to launch a link test in the analogue version




DIP5000 Page 9/34

3.2 Signalling

Signalling requiring a maintenance operation is produced by four relays (two for the majoralarm and two for the minor alarm), and also 13 coloured indicator lights (LEDs).

These 13 indicator lights are described in the table below:

Description UT148Main

PowerSupply

AuxiliaryPowerSupply

IR182 ActivityIndicator

lightColour Observation

Power supplyvoltage presence

x x Voltage presentVoltage absent

GreenOff

Fixed

Major Alarm x NormalAlarm

OffRed Fixed

Minor Alarm x NormalAlarm

OffRed Fixed

Local loopback x Normal

Loopback

V3 Off

Amber Fixed

G E N E R A L

Battery Fault x NormalFault

V9 OffRed Fixed

Remote loopback x NormalRemote loopedequipment

V2 OffAmber Fixed

Receiversynchronisation

x SynchronisedNot Synchronised

V4 GreenOff

Fixed

D I G I T A L

Remote Alarm x NormalRemote alarm

V6 OffRed Fixed

Tx AlarmOptical Interface

x NormalLack of timing

TX GreenRed

FixedFast

Tx AlarmOptical Interface

x TransmissionInhibition

TX Amber Slow

Rx AlarmOptical Interface

x NormalLack of timing

RX GreenRed

FixedFast

O P T I C A L

Rx AlarmOptical Interface

x Lack of Receivedsignal

RX Amber Slow

x SignalMissing

Guard/Low Level

V4 GreenOff

Fixed

Rx Level / Guardx Signal

MissingGuard/Low Level

V6 OffRed Fixed

A N A L O G

Link TestTransmission ofMessage TestLink test fault

V2Amber Amber

Fixed during2secFixed

TABLE 2 – MEANING OF SIGNALLING INDICATOR LIGHTS

Relays:

The signalling lights "MAJOR ALARM" and "MINOR ALARM" are associated with relaycontacts which can be time-delayed.

Each alarm has two independent normally open contact relays, the time-delay for which canbe programmed by the HMI.




Page 10/34 DIP5000

Each relay contact can be time-delayed by 0s, 2.5s, 5s or 10s, (refer to the «HumanMachine Interface» section).

Teleprotection StatusUT148 indicator light

V1 (STATUS)UT148 indicator light

V8 (STATUS)

UT148 indicatorlight

V7 (MTN)

NORMAL OPERATION Fixed Green Fast-flashing Green Off

Normal operation after a coldstart

Fixed Green Fast-flashing Amber Off

Initialisation in progress Fixed Green Fast-flashing Red Off

Alarm on power-up test Fast-flashing Red Fast-flashing Red Off

Configuration Write in theFlash EPROM

Slow-flashing Red Slow-flashing Red Off

Storage status(Isolated Timer Battery)

Quick switch from Greento Amber then Red

Quick switch from Greento Amber then Red

MAINTENANCE FIXED GREEN FAST-FLASHING GREEN OR

FAST-FLASHING AMBER FIXED AMBER

Remote loopback ofequipment

FIXED GREEN FAST-FLASHING GREEN OR

FAST-FLASHING AMBER FAST-FLASHING

AMBER

Pending code transfer forFlash memory

SLOW-FLASHING YELLOW SLOW-FLASHING YELLOW FAST-FLASHING

AMBER

CODE TRANSFER IN PROGRESS Green when timing the“0”s of transmitted data

Green when timing the“1”s of transmitted data

Fast-flashingAmber

Writing the code in the Flashmemory

SLOW-FLASHING RED SLOW-FLASHING RED Fast-flashingAmber

TABLE 3 – MEANING OF "STATUS" AND "MAINTENANCE" INDICATOR LIGHTS

3.3 Human Machine Dialogue

The DIP5000 teleprotection communicates with the outside world through the HMIcommunication interface (RS232 serial link), the functionalities of which are described in the«Human/Machine Interface» section of the technical manual.

3.3.1 Reading faults.

Faults are read from the menu:

<Read> <Local/Remote> <Alarms Snapshot>

or from the "Alarm" box on the lower status bar if at least one alarm is present.

This function is used to display the cause of a fault on the local or remote equipment on theoperator console (provided that both equipment can communicate).

The faults managed by the equipment are the following:

"Powering up" faults

$ Flash EPROM control

$ DSP internal RAM control

$ Timer RAM control

$

Configuration checksum$ Type of communication interface

$ SR114 coherence / HMI configuration

$ IRIG-B coherence / HMI configuration

$ Loopback test




DIP5000 Page 11/34

"Hardware" faults

$ SR114 module test

$ Presence of operating terminal blocks

$ Power supply voltage test

$ Battery voltage test

$ Link Test alarm (analogue version only)

"Communication" faults

$ Bit Error Rate / Major Alarm (digital version only)

$ Bit Error Rate / Minor Alarm (digital version only)

$ Synchronisation loss (digital version only)

$ Major remote Alarm

$ Minor remote Alarm

$ Time of transmission (digital version only)

$ TX Command duration Alarm

$ Low Level Alarm (analogue version only)

$ Missing Guard Alarm (analogue version only)

$ External Alarm (analogue version only)

"Communication Interface" faults

$ Lack of received signal (digital version only)

$ Lack of timing (digital version only)

3.3.2 Forcing (Maintenance menu).

A certain number of teleprotection statuses can be forced from the operator console. Theseforcing operations can only be carried out when the teleprotection is in Maintenance mode.

In this status, normal operation of the equipment is no longer guaranteed (the amber V7«Maintenance» indicator light is active).

The various statuses that can be forced are:

$ Local communication loopback

$ Remote equipment looping (after unlocking the line)

$ Transmission line cut (the line is locked by default)

$ Command output relay lock (the relays are locked by default)

$ Transmission of commands on line (and associated auxiliary relays)

$ Command output relays (and associated auxiliary relays)

$ PLC commands forcing (emission & reception) for the analog version

NB: Forcing is maintained even when the console is disconnected.

3.3.3 Reset

The local or remote teleprotection can be reset from the console. In this case, theteleprotection inhibits its normal operation and stops restarting the watchdog, which triggersthe reset phase.




DIP5000 Page 13/34

Fault reading analysis

This analysis is obtained for local equipment by clicking on the “ALARM” item on the lowerstatus bar: when this is active.

For remote equipment, use the menu:

<Read> <Remote> <Alarms Snapshot>.

D0137ENb

Power up Alarms

Fault:Flash EPROM

DSP RAMTimer RAM

Replace the UT148 module

Communication interfacefault

SR114/115 coherence fault

IRIG-B coherence fault

Configuration checksumfault

Local loopback test fault

see page 15

see page 16

see page 17

see page 18

see page 19

STATUS BATREM ALSYNCMTN LCK LOOP


MAIN POWER

MAJOR ALARM

MINOR ALARM

All these faults are major

irreversible faults

FIGURE 2 – ALARMS ON POWERING UP




Page 14/34 DIP5000

D0138ENa

Check the interface cardcoherence / configuration

Communication interfacefault

Check that the IRxxx card is present

Put the IRxxx card in positionIs the cardpresent ?

No

The processor does notrecognise the

communication interfacecard

UT148 card or IRxxx cardfault

Config OK ?

Yes

No Change the configuration orchange the IRxxx module

Yes

Failure on one of the modules

Replace the UT148 card andIRxxx card

FIGURE 3 – COMMUNICATION INTERFACE FAULT




DIP5000 Page 15/34

D0139ENb


SR114/115 coherence fault

Check that the number of SR114/115defined in the configuration matches

the nomber of cards present.

Change the configuration or install2nd SR114/115 card

Coherence OK ?No

The configuration does notmatch the number of cards

present.

Yes

Change the faulty module

UT148 card or SR114/115 cardfault or FB182 motherboard fault

FIGURE 4 – SR114/115 COHERENCE FAULT




Page 16/34 DIP5000

D0140ENa

IRIG-B coherence fault

Is the cardpresent ?

No

Yes


Config OK ?No

Yes

Check the IRIG-B cardcoherence / configuration

Change the configuration orchange the IRIG-B card

UT148 card or

IRIG-B card fault

Change the UT148 cardand IRIG-B card

Check that the IRIG-Binterface card is present

Put the IRIG-B card in position

Le processor does notrecognise the IRIG-B

interface card

FIGURE 5 – IRIG-B COHERENCE FAULT




DIP5000 Page 17/34

D0141ENa

Configuration checksumfault

Has the faultdisappeared ?

Yes

The configuration saved in Flash Eprom is corrupted

UT148 card component fault

END

Reload the configurationfrom the HMI

No

Failure on the UT148 module

Change the UT148 module

FIGURE 6 – CONFIGURATION CHECKSUM FAULT




Page 18/34 DIP5000

D0142ENa

Local loopback test fault The test on the local loopback communication interface card

has failed

Fault located on the IRxxcommunication interface card

or on the UT148 card

Change the IRxxx card


YesEND

No

Failure on the UT148 module


FIGURE 7 – LOCAL LOOPBACK TEST FAULT




DIP5000 Page 19/34

D0143ENb

Hardware alarms

SR114/115 test fault

see page 22

see page 24

Operating terminal blockpresence

MAIN POWER

MAJOR ALARM

MINOR ALARMsee page 21

AL137/AL139-A / AL139-B/ AL140/AL141

power supply voltage

Battery voltage

Link Test(Analog Version Only)

see page 25

MAIN POWER

MAJOR ALARM

MINOR ALARM

see page 23


MAIN POWER

MAJOR ALARM

MINOR ALARM

Major Alarm

FIGURE 8 – HARDWARE FAULT ALARMS




DIP5000 Page 21/34

D0145ENb

Terminal blockpresence fault

Are terminal blocksP10 to P13 on the rear

panel present ?

No Plug in terminal blocksP10 to P13

Install the terminal blockpresence "bridges" onconnectors P10 to P13

Are the presence"bridges" in place on

terminal blocksP10 to P13 ?

No

Yes

Yes


Change the faulty module

UT148 cardor SR114/115 card fault

or FB 182 motherboard fault

See Installation manual

FIGURE 10 – TERMINAL BLOCK PRESENCE FAULT




Page 22/34 DIP5000

D0146ENb

AL137 / AL139-A / AL139-B/AL140/AL141

power supply fault

Only when power supply redundancy:

One of the two modules

AL137 / AL139-x / AL14x is not

working.

AL137/AL139-A/AL139-B/AL14x module fault

Make a note of thefaulty card number

Card N˚ 1 : left positionCard N˚ 2 : right position

Is the"POWER" indicator light

on the faulty cardlit ?

YesRemplace the faulty

AL137/AL139-x /AL14xmodule

No

Is the faulty cardpowered up ?(switch ON/OFF)

YesPower up the card

No

Check the fuse

Fuse OK ?No Remplace the fuse

on the faulty card

Yes

Remplace the faultyAL137/AL139-x/AL14x

module

FIGURE 11 – AL137 OR AL139-A OR AL139-B OR AL14X POWER SUPPLY VOLTAGE FAULT




DIP5000 Page 23/34

D0147ENa

Timer batteryvoltage fault

See Installation manual

Install the "Power Cap"on the timer

No

Yes

Remplace thetimer "Power Cap"

Is the"Power Cap" present ?

Checkthat the "Power Cap"

is present on the timer

See appended procedure

FIGURE 12 – TIMER BATTERY VOLTAGE FAULT




Page 24/34 DIP5000

D0148ENb

Link Test fault

Fault located on IR183/UT148cards of local or remote DIP

Change the IR183 card on localDIP and restart link test

has the faultdisappeared ?

No

YesEND

Change the UT148 card on localDIP and restart link test

has the faultdisappeared ?

No

Yes END

Change the UT148 and/or IR183card on remote DIP

OR

Problem with thetransmission medium or

the threshold is not suitedto the flow

Check thetransmission medium

FIGURE 13 – ALARM ON LINK TEST

NB: Before carrying out a diagnosis, use the HMI to reset the local

equipment, then read again the alarms.




DIP5000 Page 25/34

Communication Alarms for the DIP5000 Digital version :

D0149ENb

Communication Alarms(Digital version)

Bit Error Rate Alarm

see page 28

see page 29

Synchro Loss Alarm

see page 27

Major or MinorRemote Alarm

Communication InterfaceAlarm

see page 29


see page 30Transmission Time Alarm

Tx Command durationAlarm

see page 31

MAIN POWER

MAJOR ALARM

MINOR ALARM

Major/Minor AlarmProgrammable by HMI

FIGURE 14 – COMMUNICATION ALARMS – DIGITAL VERSION

D0150ENa

Bit Error Rate/MAJOR AL.

Problem in the transmissionmedium or the connection

Check the quality of thetransmission medium

Bit Error Rate/ MINOR AL.

Check the connections betweenDIP5000 and the DCE

FIGURE 15 – BIT ERROR RATE ALARM




Page 26/34 DIP5000

D0151ENa

Check that the both equipmentsconfiguration of the link are in

compliance, as well as the link.

Change the configuration

Command numberOK ?

No

Fault located onIRxxx or UT148

Change the IRxxx module

Yes

Card numberOK ?

Logical AddressOK ?

Yes

Clock Config.OK ?

Yes

Yes


Synchro Loss


No

END

No

No

No

END

Yes

FIGURE 16 – SYNCHRO LOSS




DIP5000 Page 27/34

D0152ENa

Major remote Alarm

Menu : <Read>

<Remote> <Alarms Snapshot>

Minor remote Alarm

Repair the remote equipment

END

Make a note of the nature of faulton the remote equipment

FIGURE 17 – REMOTE ALARMS

D0153ENa

Communication interface Alarm

Lack of received signal ?Yes Check the signal from

the DCE

No

Lack of timing ?

No

UT148 card or IRxxxcard fault

Yes

Change the UT148 cardand IRxxx card

Lack of timing,only with V11 interface andG703.1 contradirectional interface

HDB3 code violation, withG703.6 (2Mbps) interface

Check the signal and clockfrom the DCE

FIGURE 18 – COMMUNICATION INTERFACE FAULT




Page 28/34 DIP5000

D0154ENa

Transmission Time Alarm

Problem with the transmission medium or the threshold is not

suited to the flow

Check thetransmission medium

ORIncrease the detection

threshold forthe transmission time alarm

FIGURE 19 – TRANSMISSION TIME ALARM

D0155ENa

Tx Command durationalarm fault

Local reading ofInput / Output status

Remplace theUT148 module

Is at least1 input active ?

No

Yes

Check the Input wiring

Remplace the SR114/115module for the active input

Is voltage present onat least 1 input ?

Yes

No

FIGURE 20 – TX COMMAND DURATION ALARM

NB: Before carrying out a diagnosis, use the HMI to reset the localequipment, then read again the alarms.




DIP5000 Page 29/34

Communication Alarms for the DIP5000 Analogue version :

D0156ENa

Communication Alarms(Analog version)

Missing Guard or Low LevelAlarm

see page 34External Alarm

see page 33

Tx Command durationAlarm

see page 31

MAIN POWER

MAJOR ALARM

MINOR ALARM

Major/Minor AlarmProgrammable by HMI


MAIN POWER

MAJOR ALARM

MINOR ALARM

Major/Minor Alarm

Programmable by HMI

FIGURE 21 – COMMUNICATION ALARMS




Page 30/34 DIP5000

D0157ENa

Check that the both equipmentsconfiguration of the link are in

compliance, as well as the link.

Change the configuration

Command numberOK ?

No

Fault located onIR183 or UT148

Change the IR183 module

Yes

Card numberOK ?

Logical AddressOK ?

Yes

Clock Config.OK ?

Yes

Yes


Missing guard or Low LevelAlarm


No

END

No

No

No

END

Yes

FIGURE 22 – COMMUNICATION ALARMS – ANALOGUE VERSION




DIP5000 Page 31/34

D0158ENa

External Alarm

Check input IN(A/B) on the linecommunication port


No

Yes END

Remplace the IR183 module


Yes END

No

Remplace the UT148 module

FIGURE 23 – EXTERNAL ALARM




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4.4 Warning or error messages

These messages are displayed in a window and are meant to attract the attention of the userto an abnormal action that may present a risk to operation (unwanted command) or to a usererror.

D0159ENa

Continued

Teleprotection not ready(local or remote)

The DIP5000 is busy processing apriority event(e.g. a command output)

Miscellaneous messagesor warning

Checksum errorAn error has occurred in the communicationon the V24 link.Repeat the operation.

Too many transmissionerrors

Fault in the V24 dialog. Restart the HMI ormanually reset the teleprotection.

PC disconnectionThe PC <--> Teleprotection connecting leadhas been disconnected or damaged.

Transmission time-delayexceeded

The equipment has not responded in therequired time.Establish a new connection.

Database checksum faultAn error has occured during the datatransfer.Repeat the operation.

FIGURE 24 – MISCELLANEOUS MESSAGES




DIP5000 Page 33/34

D0160ENa

Miscellaneous messagesor warning(continued)

Unplug the outputconnectors from the remoteequipment.

OR

Command will be

transmitted on line.

END

Switch the remoteequipment to"Relays Locking" mode.

Switch the local equipmentto "Line Locking" mode.

The action started risks causingan unwanted command on theremote equipment.

The action started risks causingan unwanted command on the

local equipment.

OR

Unplug the outputconnectors from the localequipment.

Switch the localequipment to"Relays Locking" mode.

Local commands

will be activated.

Risk associated with theremote equipment looping.

Local commandswill be activated.

FIGURE 25 – MISCELLANEOUS MESSAGES CONTINUED




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5. APPENDIX

5.1 Procedure for replacing the timer battery

D0161ENa

2 - Pull back screwdriver handleslowly until slot side ofPowerCap releases frommodule base.

1 - Insert small flatheadscrewdriver verticallyinto PowerCap slot.

FIGURE 26 – PROCEDURE FOR REMOVING THE "POWERCAP"

D0162ENa

2 - Hook PowerCap flange

under module baseboard. Fit Alignmentribs on PowerCap intoalignment notches inmodule base board.

1 - Align PowerCap contactsprings with modulebase contact lands.

3 - P ushdown and forward with screwdriver while inserting the PowerCap.This action will "open" the attachement feature.

FIGURE 27 – PROCEDURE FOR INSTALLING THE "POWERCAP"




DIP5000

HUMAN MACHINE

INTERFACE




DIP5000 Page 1/56

TABLE OF CONTENTS

1. DIP5000 DIGITAL 8

1.1

Foreword 8

1.2 System Required 8

1.3 Installing the HMI 8

1.4 Description of functionalities 8

1.4.1 File Menu 8

1.4.2 Tools Menu 8

1.4.3 Read Menu 9

1.4.4 Date Menu 9

1.4.5

Maintenance Menu 9

1.5 User levels and passwords 9

1.5.1 User levels 9

1.5.2 Password management 10

1.6 HMI, operating mode 11

1.6.1 Starting the HMI 11

1.6.2 Basic screen 11

1.7 HMI commands 15

1.7.1 Menu bar 15

1.7.2 <File> Menus 15

1.7.3 <Tools> Menu 19

1.7.4 <Read> Menu 20

1.7.5 <Date> Menu 22

1.7.6 <Maintenance> Menu 22

1.8 Exiting the HMI 22

1.9 Password manager 22

1.9.1 <Password> Menu 22

1.9.2

<Create Password> Menu 24

1.9.3 <List Password> Menu 24

1.9.4 Exiting the password manager 24

2. DIP5000 ANALOGIC 25

2.1 Foreword 25

2.2 System Required 25

2.3 Installing the HMI 25

2.4 Description of functionalities 25



DIP5K/EN HI/C11 Human Machine Interface

Page 2/56 DIP5000

2.4.1 Tools Menu 25

2.4.2 File Menu 25

2.4.3 DIP Menu 26

2.4.4 History Menu 26

2.4.5

Test Menu 26

2.5 User levels and passwords 26

2.5.1 User levels 26

2.5.2 Password management 28

2.6 HMI, operating mode 28

2.6.1 Starting the HMI 28

2.6.2 Basic screen 28

2.7 HMI commands 31

2.7.1 Menu bar 31

2.7.2 <Tools> Menu 31

2.7.3 <File> Menus 31

2.7.4 <DIP> Menu 43

2.7.5 <History> Menu 50

2.7.6 <Test> Menu 52

2.8 Exiting the HMI 52

2.9 Security Erreur ! Signet non défini.

2.9.1 <Password> Menu 52

2.9.2

<Create Password> Menu 54

2.9.3 <List Password> Menu 55

2.9.4 Exiting the security application Erreur ! Signet non défini.




DIP5000 Page 3/56

TABLE OF FIGURES

FIGURE 1 – BASIC SCREEN BEFORE PC/TELEPROTECTION CONNECTION 11

FIGURE 2 – EXAMPLE OF BASIC SCREEN AFTER PC/TELEPROTECTION CONNECTION 12

FIGURE 3 – TOOLBAR 12

FIGURE 4 – MAINTENANCE STATUS BAR DISPLAY 13

FIGURE 5 – EXAMPLE OF DIALOG BOX WITH LIST DISPLAY 14

FIGURE 6 – MENU BAR 15

FIGURE 7 – FILE MENU 15

FIGURE 8 – BASIC CONFIGURATION SCREEN 16

FIGURE 9 – CHANGE MENU 17


FIGURE 11 – EXAMPLE OF ALARM CONFIGURATION CHANGE 18

FIGURE 12 – CONFIGURATION EXIT MENU 19

FIGURE 13 – EXAMPLE OF READING THE EVENT QUEUE 20

FIGURE 14 – EXAMPLE OF A TIME MEASUREMENT 21

FIGURE 15 – EXAMPLE OF READING THE ALARM QUEUE 21

FIGURE 16 – PASSWORD MENU 23

FIGURE 17 – ENTERING THE PASSWORD 23

FIGURE 18 – CREATION OF LEVEL PASSWORDS 24

FIGURE 19 – BASIC SCREEN BEFORE PC/TELEPROTECTION CONNECTION 28

FIGURE 20 – EXAMPLE OF BASIC SCREEN AFTER PC/TELEPROTECTION CONNECTION 29


FIGURE 22 – STATUS BAR 30

FIGURE 23 – EXAMPLE OF DIALOG BOX WITH LIST DISPLAY 30

FIGURE 24 – MENU BAR 31

FIGURE 25 – TOOLS MENU 31

FIGURE 26 – FILE MENU 31

FIGURE 27 – BASIC CONFIGURATION SCREEN 32


FIGURE 29 – CONFIGURATION SYNTHESIS WINDOW 34

FIGURE 30 – CONFIGURATION GENERAL TABSHEET 35

FIGURE 31 – CONFIGURATION SENDER1 TABSHEET 36

FIGURE 32 – CONFIGURATION SENDER2 TABSHEET 37

FIGURE 33 – CONFIGURATION RECEIVER1 TABSHEET 38




Page 4/56 DIP5000

FIGURE 34 – CONFIGURATION RECEIVER2 TABSHEET 39

FIGURE 35 – CONFIGURATION INPUT/OUTPUT TABSHEET 40

FIGURE 36 – CONFIGURATION ALARMS TABSHEET 41

FIGURE 37 – CONFIGURATION EXIT MENU 42

FIGURE 38 – HARDWARE CONFIGURATION WINDOW 43

FIGURE 39 – VERSION WINDOW 43

FIGURE 40 – INSTANTANEOUS ALARMS WINDOW 44

FIGURE 41 – INPUT/OUTPUT WINDOW 44

FIGURE 42 – MAINTENANCE MENU 45

FIGURE 43 – MAINTENANCE STATUS BAR 45

FIGURE 44 – MAINTENANCE LEVELS. 46

FIGURE 45 – MAINTENANCE FORCE/LOCK/LOOP TABSHEET. 48

FIGURE 46 – DATE/TIME WINDOW. 49

FIGURE 47 – EXAMPLE OF READING THE EVENT QUEUE. 50

FIGURE 48 – EXAMPLE OF READING THE ALARM QUEUE. 51

FIGURE 49 – EXAMPLE OF READING COUNTERS STATEMENT. 51

FIGURE 50 – PASSWORD MENU 53

FIGURE 51 – ENTERING THE PASSWORD 53

FIGURE 52 – CREATION OF LEVEL PASSWORDS 54

FIGURE 53 – PASSWORDS LIST 55




DIP5000 Page 5/56

MODIFICATIONS PAGE

Revision DATE COMMENTS


B 23/08/2004 AREVA logo and addition of analog version




Page 6/56 DIP5000

BLANK PAGE




DIP5000 Page 7/56

GENERAL

This manual describes the Human-Machine interface of the DIP5000 teleprotection, i.e. themicrocomputer application which enables commissioning, operational use and maintenanceof this equipment.

DEFINITIONSHMI tool for using the DIP5000 teleprotection (Human-Machine Interface)

Configuration all the characteristics (fixed components) and parameters(customisation components) of a teleprotection

Configuration File micro-computer file containing all the configuration components of ateleprotection

Input password password for accessing the ‘Password Manager’ utility

User level all the authorised operations corresponding to the level ofresponsibility of a given operator

Level password password for accessing a user level

NOTE: Windows! and PC" are registered trademarks.




Page 8/56 DIP5000

1. DIP5000 DIGITAL

1.1 Foreword

As it is powerful and easy to use, the DIP5000 teleprotection HMI enables local or remote:

# complete commissioning of the equipment and control of its levels, without the needfor other tools,

# filing of configurations (=>rationalisation of commissioning actions),

# dated recording of equipment information (=> analyses and statistics),

# interactive and user-friendly maintenance,

# printing of equipment parameters.

1.2 System Required

The HMI runs on PCs fitted with 486 microprocessors and higher, operating underWINDOWS 98, NT, 2X or XP. They must have at least:

# 2 Mb free on the hard disk,

# 8 Mb of RAM.

Important: Where several tasks are running at the same time (office tools or other),transmission faults may occur on the PC-HMI. It is therefore recommended that allapplications are closed before using his HMI.

1.3 Installing the HMI

For security reasons, it is recommended that the HMI is installed from a copy of the disksupplied. Installation:

% insert the disk provided in the disk reader,

% run setup.exe file from the <Run> <Menu> in the program manager: D:\setup,

% follow the instructions.

1.4 Description of functionalities

1.4.1 File Menu

New File: This menu enables the creation of a new configuration from a defaultconfiguration.

Open File: This menu enables you to open a pre-saved configuration file or open an alarm

or event queue.Exit File: Closes the HMI program.

1.4.2 Tools Menu

Password: This menu enables you to change the user level. The move to a higher level isprotected and requires input of a password.

To user level 0: This menu enables you to return to the lowest priority 0 level.

Connect: This menu enables you to establish a connection between the DIP5000 and thePC on communication port 1 or 2.

Disconnect: This menu enables you to remove the connection between the DIP5000 and

the PC.




Page 10/56 DIP5000

1.5.1.2 Menus

Levels

Menus 0 1 2

new x x x

open x x x

File

exit x x x

password x x x

to user level 0 x x x

connect x x x

Tools

disconnect x x x

configuration x x x

hardware configuration x x x

version x x x

comment x x x

event list x x x

alarm list x x x

counter x x x

alarms snapshot x x x

Read (local/remote) *

input / output x x x

read x x x Date (local/remote) *

write x x x

switch to maintenance mode x x

unlocking line (security) x

unlocking relay (security) x

local loopback x x

remote loopback x

transmitter forcing x x

commands output forcing x x

alarms forcing x x

clear event file (local/remote) x

clear alarm file (local/remote) x

Maintenance *

local reset x x

TABLE 1 – MENU ACCESSIBILITY ACCORDING TO USER LEVEL

* To access these menus, in addition to the required level, you need to be connected.

1.5.2 Password management

To customise the application, the HMI comes with a password creation and managementutility (c.f. § 1.9 " Password Manager")




DIP5000 Page 11/56

1.6 HMI, operating mode

The HMI has an integrated environment, using standard WINDOWS tools and processes.

As only the operating modes specific to the HMI will be mentioned in the following, it isrecommended that operators not familiar with WINDOWS refer to the user manual for thisenvironment.

1.6.1 Starting the HMI

The HMI is started by clicking on:

<Start>

<Programs>

<DIP5000>

<DIP5000>

1.6.2 Basic screen

The basic screen has 5 functional zones (figure 1 and figure 2 below):

D0171ENa

The header barThe status barThe work zone

The menu barThe toolbar

FIGURE 1 – BASIC SCREEN BEFORE PC/TELEPROTECTION CONNECTION




Page 12/56 DIP5000

FIGURE 2 – EXAMPLE OF BASIC SCREEN AFTER PC/TELEPROTECTION CONNECTION

1.6.2.1 Header bar

The header displays at the top part of the screen the name of the HMI and its currentversion.

1.6.2.2 Menu bar

The operator transmits his commands via the standard WINDOWS menus, displayedaccording to the current user level, which in turn is determined by the password entered by

the operator.

1.6.2.3 Toolbar

The operator can transmit commands and readings locally via the toolbar shortcuts

By placing the mouse over a tool, information is displayed about its function.

D0163ENa

Reading Inputs / Outputs

Reading the date

Reading the countersReading the event queue

Reading the alarm queue

Reading the configuration

Writing the date

Disconnection

Connection

Opening a configuration or event or alarm file (depending on the extension chosen)

New configuration (a default configuration is suggested)

Choosing a password

FIGURE 3 – TOOLBAR

1.6.2.4 Pop-up menus

By right-clicking on the work space when connection with the equipment is established, apop-up menu appears which enables you to carry out all the read operations on local orremote equipment.




DIP5000 Page 13/56

1.6.2.5 Status bars.

Depending on the user level and the type of operation in progress, status bars can appeardisplaying the following information:

The top bar appears when the DIP is in maintenance, it displays:

% the line status (locked/unlocked)

% the relay status (locked/unlocked)

% the type of loopback (Rx on Tx / Tx on Rx / remote loopedback)

The bottom bar displays:

% the connection status (HMI) (connect / disconnect icon)

% the operating mode in progress (Exploitation / Maintenance)

% the link address

% the transmission time% the bit error rate

% alarm presence (clicking in this zone opens a window displaying the faults thathave triggered this alarm)

% the user level (from 0 to 2)

FIGURE 4 – MAINTENANCE STATUS BAR DISPLAY

1.6.2.6 Work and dialogue zone.

Most of the commands are also passed using the dialog boxes (figure 5 below). Six standardWindows tools are used:

% optional button groups

% tick boxes

% command buttons

% text boxes

% lists




Page 14/56 DIP5000

% cursors

D0170ENa

By clicking on a line, The information about this line is displayed

FIGURE 5 – EXAMPLE OF DIALOG BOX WITH LIST DISPLAY




DIP5000 Page 15/56

1.7 HMI commands

1.7.1 Menu bar

FIGURE 6 – MENU BAR

See table 1 in section 1.5.1.2 to access the various menus

1.7.2 <File> Menus

The <File> menu provides access to configuration file creation and sending.

It also opens the saved alarm (*.Ala) and event (*.Evt) files

D0164ENa

Creation of a new file based on a default configuration

Opening an existing configuration / alarm queue / event queue file

Exiting the HMI

FIGURE 7 – FILE MENU

The configuration of new equipment or reconfiguration of existing equipment involvescreating a configuration file:

% Click on <File><New> or <File><Open>

% Change the displayed configuration,

% Save the changed configuration (<File><Save as ...>).

The configuration creation is available regardless of the PC/Teleprotection connectionstatus, and from level 0. As this availability enables off-site creations and the preparation ofconfiguration libraries, it optimises commissioning and maintenance operations.

The configuration on the local or remote equipment can be changed from reading thisconfiguration:

% Click on <Read><Local> or <Remote><Configuration>

% Change the displayed configuration,

% Save the changed configuration (<File><Save as ...>).




Page 16/56 DIP5000

1.7.2.1 <File><New>

This action opens a default configuration file.

FIGURE 8 – BASIC CONFIGURATION SCREEN

1.7.2.2 <File><Open>

This menu opens 3 types of file:

# *.Cfg -> existing configuration file, this selection will open window (see figure 8)

# *.Ala -> alarm list file for consultation (see for the window display)

# *.Evt -> event list file for consultation (see figure 15 for the window display)




DIP5000 Page 17/56

1.7.2.3 <File><Change>

D0165ENa

All the parameters of the DIP can be changed from this menu

FIGURE 9 – CHANGE MENU

All the parameters of the DIP can also be changed from the toolbar


D0166ENa

Comments

Alarms

Application parameters

Inputs / Outputs

Communication interfaceGeneral

Print the configuration

Save the configuration

Double click on a significant word from the branch liston the corresponding configuration window





Page 18/56 DIP5000

FIGURE 11 – EXAMPLE OF ALARM CONFIGURATION CHANGE




DIP5000 Page 19/56

D0167ENa

Changes can be saved and printed from this menu,Exit takes you to the basic window.

FIGURE 12 – CONFIGURATION EXIT MENU

1.7.2.4 Sending a configuration

A configuration is loaded in a teleprotection using the menus <File><New> or<File><Open>.

Once configured, it can be sent to the (local or remote) equipment by the menu <Sendconfiguration>

This operation is available if the PC and teleprotection are connected and for operator levels1 or 2.

1.7.3 <Tools> Menu

The <Tools> menu is for choosing the user level, resetting it, connecting and disconnecting.

Level changes are made by entering the corresponding password. They are always madevia level 0: The < Tools ><User level selection> is only available at level 0.




Page 20/56 DIP5000

1.7.4 <Read> Menu

The <Read> menu is for displaying the following for the local or remote teleprotection:

# the configuration,

# the hardware configuration,

# the DIP firmware version

# the comments

# the event file

# the alarm file

# the counters

# the alarms snapshot

# the input / output status

# the remote bit error rate (the local bit error rate is continually displayed in the lowerstatus bar)

D0168ENa

This window gives additional information about forcing

Click on the column headers to sort the list by number, date, time or nature.

FIGURE 13 – EXAMPLE OF READING THE EVENT QUEUE

Click on the disk tool (or use the <File><Save) menu to generate the event file (*.evt) whichcan be consulted by the <File><Open> menu on the basic screen.

Click on the printer tool (or use the <File><Print menu) to print the event file.




DIP5000 Page 21/56

D0169ENa

The time is shown in seconds and milliseconds with amaximum delta of 10 minutes.

To measure the time between two events, first right-click to"mark" the reference then left-click on another event.

FIGURE 14 – EXAMPLE OF A TIME MEASUREMENT

FIGURE 15 – EXAMPLE OF READING THE ALARM QUEUE

Time sorts and measurements are made in the same way as for events.

Click on the disk tool (or use the <File><Save) menu to for the alarm file (*.ala) which can beconsulted by the <File><Open> menu on the basic screen.

Click on the printer tool (or use the <File><Print menu) to print the alarm file.




Page 22/56 DIP5000

1.7.5 <Date> Menu

The <Date> menu reads or writes the date for the local or remote teleprotection.

1.7.6 <Maintenance> Menu

The < Maintenance > menu enables the following:

# switching to maintenance or exploitation mode,

# line and relay unlocking,

# local or remote loopback,

# transmission, output or alarm forcing,

# resetting events and alarms to zero (local or remote),

# local or remote reset.

The HMI does not work like a simulator. In particular, the forcing

transmits real commands output and commands transmission.Therefore, careless use of these commands may have major

consequences on operation.

1.8 Exiting the HMI

To exit the HMI, click on the <Exit> sub-menu from the basic screen’s <File> menu.

1.9 Password manager

The password manager that comes with the HMI is for creating, changing, reading anddeleting passwords. It is started by means of the “Password Manager” icon in the DIP5000group of programs.

To ensure the confidentiality of passwords created and to warn of unauthorised use, thisutility is itself password-protected.

1.9.1 <Password> Menu

The <Password> menu enables you to enter or change the password permitting access tothe password manager. On delivery, this password is DIP5000 (in upper case); before goingany further, it is best to change it:

1. Click on the <Enter> sub-menu from the <Password> menu (figure 16) => Opens the"Enter password" menu

2. Enter DIP5000 in upper case in this window (figure 17)

3. Close the window using "OK" or <Enter> => activation of the <Change> sub-menu

4. Click on the <Change> sub-menu => Opens the "Change password" sub-menu

5. Enter the new password in this window

Characteristics of the input password: 1 to 15 characters to be chosen exclusively from thefollowing.

# upper case (A to Z)

# lower case (a to z)

# numbers (0 to 9)

# ! " # $ % & ' ( ) * + , - . / : ; < = > ? @ [ \ ] ^ _ ¨ { | } ~

Close the Change window using "OK" or <Enter> => opens the verification window

Enter the new password as requested: it is case sensitive (Upper or lower).




DIP5000 Page 23/56

Close the verification window using "OK" or <Enter> => displays the confirmation message.The <Create Passwords>, <List Passwords>, <Help> menus amd the <Change> sub-menu are activated on closing this window.

NOTE: Make a note of this new password – if you forget it the software willneed to be completely reinstalled.

FIGURE 16 – PASSWORD MENU

FIGURE 17 – ENTERING THE PASSWORD




Page 24/56 DIP5000

1.9.2 <Create Password> Menu

The <Create Password> menu is displayed after recognition of the entered password. Itopens the ENTER PASSWORD window (figure 18).

A number of passwords can be allocated to a given level. The same password can be usedseveral times.

Their characteristics are the same as those of the input password (c.f. §1.9.1).

It is case sensitive (Upper or lower).

FIGURE 18 – CREATION OF LEVEL PASSWORDS

1.9.3 <List Password> Menu

This menu is displayed with the <Create Password> menu after recognition of the enteredpassword. It shows the list of existing passwords, for consultation and / or deletion.

A password can be deleted by selecting the corresponding line, clicking on <Delete>, andanswering <YES> to the request then displayed to confirm deletion.

1.9.4 Exiting the password manager

To exit the password manager and return to the WINDOWS screen, click on the < Exit> sub-menu in the <Password> menu.




DIP5000 Page 25/56

2. DIP5000 ANALOGIC

2.1 Foreword

As it is powerful and easy to use, the DIP5000 Analogic teleprotection HMI enables local :

# complete commissioning of the equipment and control of its levels, without the needfor other tools,

# the levels adjustment without measuring apparatus.

# filing of configurations (=>rationalisation of commissioning actions),

# dated recording of equipment information (=> analysys and statistics),

# interactive and user-friendly maintenance,

# printing of equipment parameters.

2.2 System Required

The HMI runs on PCs fitted with 486 microprocessors and higher, operating underWINDOWS NT4, 2000 or XP. They must have at least:

# 2 Mb free on the hard disk,

# 8 Mb of RAM.

2.3 Installing the HMI

For security reasons, it is recommended that the HMI is installed from a copy of the disksupplied. Installation:

% insert the disk provided in the disk reader,

% run setup.exe file from the <Run> <Menu> in the program manager: D\:setup,

% follow the instructions.

2.4 Description of functionalities

2.4.1 Tools Menu

Identification: This menu enables you to change the user level. The move to a higher levelis protected and requires input of a password.

Back to level 0: This menu enables you to return to the lowest priority 0 level.

Connect: This menu enables you to establish a connection between the DIP5000 and thePC on all PC RS232 communication ports.

Disconnect: This menu enables you to remove the connection between the DIP5000 andthe PC.

Exit File: Closes the HMI program.

2.4.2 File Menu

New File: This menu enables the creation of a new configuration from a defaultconfiguration.

Open File: This menu enables you to open a pre-saved configuration file or open an alarmor event queue or open counter history




DIP5000 Page 27/56

2.5.1.2 Menus

Levels

Menus 0 1 2

new x x x File

open x x x

Identification x x x

To user level 0 x x x

connect x x x

disconnect x x x

Tools

exit x x x

configuration x x x

hardware configuration x x x

version x x x

Alarms snapshot x x x

input / output x x x

DIP *

Reset x x

read x x x DIP/Date *

write x x

Input level measure x x x

Output levels setting, adjustment receiving

alignment and automatic alignment

x x

switch to maintenance mode x

Unlocking line (security) x

Unlocking relay (security) x

local loopback x

transmitter forcing x

commands output forcing x

alarms forcing x

DIP/Maintenance *

Test * Link test x x

event list x x x

alarm list x x x

Counter list x x x

Clear event file x

Clear alarm file x

History *

Help x x x

TABLE 2 – MENU ACCESSIBILITY ACCORDING TO USER LEVEL

* To access these menus, in addition to the required level, you need to be connected.




DIP5000 Page 29/56

FIGURE 20 – EXAMPLE OF BASIC SCREEN AFTER PC/TELEPROTECTION CONNECTION

2.6.2.1 Header bar

The header displays at the top part of the screen the name of the HMI.

2.6.2.2 Menu bar

The operator transmits his commands via the standard WINDOWS menus, displayed

according to the current user level, which in turn is determined by the password entered bythe operator.

2.6.2.3 Toolbar

The operator can transmit commands and readings locally via the toolbar shortcuts


D0173ENa

Open Maintenance Window

Reading the configuration

Reading the alarm queue

Reading the event queue

Reading/Writing the date

Disconnection

Choosing a password





DIP5000 Page 31/56

2.7 HMI commands

2.7.1 Menu bar

FIGURE 24 – MENU BAR

See table 1 in section 1.5.1.2 to access the various menus

2.7.2 <Tools> Menu

The <Tools> menu is for choosing the user level, resetting it, connecting and disconnecting,Exiting the HMI.

Level changes are made by entering the corresponding password.

FIGURE 25 – TOOLS MENU

2.7.3 <File> Menus

The <File> menu provides access to configuration file creation and sending.

It also opens the saved alarm (*.alarms), event (*.events), counters (*.cnter) andconfiguration (*.rtf) files.

D0174ENa

Creation of a new file based

on a default configurationOpening an existing configuration

/ alarm queue / event queue/counterstatement file

FIGURE 26 – FILE MENU




DIP5000 Page 33/56

The configuration parameters are divided in 7 tabsheets :

% General

% Sender1

% Sender 2

% Receiver 1

% Receiver 2

% Input/Output

% Alarms

This configuration window is used to access to the following parameters:

% Number of commands

% Choice of the version ( Normal/Enhanced)

% Comments

% Transmission speed of serial port

% Periodic test

% Logical address

% IRIG-B State

% Sender parameters

% Receiver parameters

% Input/Output parameters

% Alarms

2.7.3.2 <File><Open>

This menu is used to open a file previously recorded.

This menu opens 4 types of file:

# *.rtf -> existing configuration file, this selection will open window (see Figure 27)

# *.alarms -> alarm list file for consultation (see Figure 48 for the window display)

# *.events -> event list file for consultation (see Figure 47 for the window display)

# *.cnter -> counter statement for consultation ( see Figure 49 for the window display)

2.7.3.2.1 Configuration Toolbar

D0176ENa

Open Synthesis Window

Save the configuration





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2.7.3.2.3 Configuration General Tabsheet

FIGURE 30 – CONFIGURATION GENERAL TABSHEET

Logical address: This value lies between 0 and 255.

Source and destination stations: 20 characters maximum.

Comments: 70 characters maximum.




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2.7.3.2.6 Configuration Receiver1 Tabsheet

FIGURE 33 – CONFIGURATION RECEIVER1 TABSHEET

Alignment levels:

Guard:

The display is done in dBm.

The value lies between -40 and 0 dBm

The display accuracy is ± 0.1 dBm.

Cmd/Guard:

The display is done in dB.

The value lies between 0 and 6 dB for a normal version and between 0 and 16 dB for anenhanced version.

The display accuracy is ± 0.1 dB.




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2.7.3.2.7 Configuration Receiver2 Tabsheet

FIGURE 34 – CONFIGURATION RECEIVER2 TABSHEET

Holding Delay:

The display is done in ms. The value lies between 0 and 500 ms. The display accuracy is ± 1ms.

Unblocking threshold:

The display is done in dB. The value lies between -20 and -10 dB. The display accuracy is ± 0.1dB.

Unblocking Delay:

The display is done in ms. The value lies between 5 and 80 ms. The display accuracy is ± 1

ms.The unblocking for one command is only available if Application type for this command isPermissive tripping.

It is possible to have unblocking only for one command.




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2.7.3.2.8 Configuration Input/Output Tabsheet

FIGURE 35 – CONFIGURATION INPUT/OUTPUT TABSHEET

Input filter delay:

The display is done in ms. The value lies between 0 and 3 ms. The display accuracy is±1ms.

Input/Output:

If the Command number is equal to 2 Commands, the number of board is 1 board.

If the command number is equal to 4 commands, the user can choose for 1 or 2 boards.

Combinatorial logic on inputs:

This panel is only available in case of configuration 4 commands/2 boards and configuration

2 commands/1 board.




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2.7.3.2.9 Configuration Alarms Tabsheet

FIGURE 36 – CONFIGURATION ALARMS TABSHEET

Alarm on external input:

The display is done in s. The value lies between 0 and 2.5 s. The display accuracy is ± 0.1s.

Input command duration alarm:

The display is done in s. The value lies between 0.5 and 10 s. The display accuracy is ± 0.1s.

Alarm on low level:

Threshold

The display is done in dBr. The value lies between -16 and -6 dBr. The display accuracy is ± 0.1 dBr.

Delay

The display is done in s. The value lies between 1 and 10 s. The display accuracy is ± 0.1s.




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D0177ENa

Open Synthesis Window

Changes can be saved from this menu,

Send the configuration to teleprotection

Exit takes you to the basic window.

FIGURE 37 – CONFIGURATION EXIT MENU

Edit: This menu is used to display the whole of the equipment parameters in a synthesis

window.

Save: This menu opens a standard dialogue box of Windows& which allow recording thedisplayed configuration in a file.

Send: This menu, accessible starting from the user level 2 when a connection is established,is used to load the displayed configuration towards the equipment. The equipment resetsitself then, to take into account the new parameters.

Exit: This menu closes the configuration window and returns to the main window.

2.7.3.3 Sending a configuration

A configuration is loaded in a teleprotection using the menus <File><New> or

<File><Open> or <DIP><Configuration>.

Once configured, it can be sent to the equipment by the menu <File><Send> or the <Send>button.

This operation is available if the PC and teleprotection are connected and for operator levels2.




DIP5000 Page 43/56

2.7.4 <DIP> Menu

The <DIP> menu is for displaying the following for teleprotection:

# the configuration,

# the hardware configuration,

FIGURE 38 – HARDWARE CONFIGURATION WINDOW

# the DIP firmware version

This menu enables you to read the firmware version of EPLD and DSP.

FIGURE 39 – VERSION WINDOW




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# the alarms snapshot

This window is used to read the failures.

FIGURE 40 – INSTANTANEOUS ALARMS WINDOW

# the input / output status

The "Inputs/Outputs" state is the representation of the Acquisitions state and the CommandsRestitutions state, with the two possible states < Active and Inactive>.

% Inactive Command= Blue color

% Active Command = Red color

FIGURE 41 – INPUT/OUTPUT WINDOW




DIP5000 Page 45/56

# Maintenance

# Date

# Reset

2.7.4.1 <DIP><Maintenance>

The <DIP>< Maintenance > menu enables the following:

# switching to maintenance or exploitation mode,

# line and relay unlocking,

# local loopback,

# transmission, output or alarm forcing,

# resetting events and alarms to zero locally

2.7.4.1.1 Maintenance menu

D0178ENa

Switch to maintenance

Switch to exploitation

FIGURE 42 – MAINTENANCE MENU

2.7.4.1.2 Maintenance status bar

The maintenance status bar appears when the DIP is in maintenance, it displays:

% the line status (locked/unlocked)

% the relay status (locked/unlocked)

% the type of loopback (Rx on Tx / Tx on Rx / remote loopedback)

FIGURE 43 – MAINTENANCE STATUS BAR




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2.7.4.1.3 Maintenance Levels

FIGURE 44 – MAINTENANCE LEVELS.

Input level measure:

This Panel is accessible starting from user level 0.

% This control displays the level received by the receiver.

% Display is done in dBr. The value lies between -45 dBr and +15 dBr

% "0 dBr" is the nominal value of receiver alignment.

% The display accuracy is ± 0.1 dBr.

Output levels setting:

This panel is accessible starting from user level 1.% The value is given directly in dBm (600 '(.

% The levels are adjustable between -30 dBm and +6 dBm.

% The accuracy is ±0.1 dBm.

Transmission of all these values to the DIP5000 will be effective by pushing the <Send>button.

In this case the information concerned takes effect but is volatile.

During a reset the information that was previously saved is used.

Do <Send> then Close the window.

By answering <Yes> to the message "Do you want to save the input/output level adjustmentin flash?”, the modified values will be definitively saved in the DIP5000.

During a reset it is this information that will be used.




DIP5000 Page 47/56

Adjustment Receiving Alignment:

This panel is accessible starting from user level 1.

This control causes the alignment of the receiver.

The received level of the guard frequencies is given directly in dBm.

This level is adjustable between -45 dBm and +15dBm.


The relative level commands/guard is given in dB.

This level is adjustable between 0 and +6dB in normal mode and 0 and +16dB in enhancedmode.


Transmission of the values to the DIP5000 must be made individually for each value with the<Send> button.

In this case the information concerned (that selected) takes effect but is volatile.





Automatic Alignment;

This button is accessible starting from user level 1.

This control causes the alignment of the receiver.

This alignment is automatic and is carried out according to the received level of the guardfrequency. At the end of alignment, the received level of the guard frequency will change.








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2.7.4.1.4 Maintenance Force/Lock/Loop

This tabsheet is accessible starting from user level 2 and if Maintenance mode is activated.

FIGURE 45 – MAINTENANCE FORCE/LOCK/LOOP TABSHEET.

Loop Back:

In this mode, transmission is looped on reception even if the transmission media access islocked.

The states are:

% active

% inactive

Locking:

The states for line and contact relay are:

% Unlocking

% Locking

Unlocking Line: This state is used to connect the teleprotection transmitter to thetransmission line. This operating mode introduces some risks of unwanted command sincethe operator can simulate the acquisition of a command.

Locking Line: This state is used to disconnect the teleprotection transmitter from thetransmission line. The operator can then simulate a command acquisition without any risk.

Unlocking Commands: When this state is activated, the output commands relays statecomply with the command conditions present on the reception line. This operating modeintroduces some risks of local unwanted command in case of loop back.




DIP5000 Page 49/56

Locking Commands: When this state is activated, the output commands relays are forced toidle state, whatever the command conditions present on the reception line.

The HMI does not work like a simulator. In particular, the forcingtransmits real commands output and commands transmission.

Therefore, careless use of these commands may have majorconsequences on operation.

Forcing

The different forcing are:

% Transmitter Forcing

% Restitution’s relays Forcing

% PLC Commands forcing

Transmitter Forcing:

This panel is used to send frequencies on the line referring to various states; standby,command or test message. These frequencies will be really generated on the line if this oneis unlocked. The relays of recopy as for them are always unlocked.

Restitution’s relay Forcing:

This panel is used to force the commands output relays state of the local equipment. Thecommands output relays will be activated only if the relays are unlocked. The relays ofrecopy as for them are always unlocked.

PLC Commands forcing:

This panel is used to force the state of transmission suppression service or receptionsuppression service toward PLC equipment.

2.7.4.2 <DIP> <Date>

The <DIP><Date> menu reads or writes the date and time for teleprotection.

D0179ENa

Write the date on teleprotection(either by recopying date and time fromthe PC or by sending some date and time chosen by the user).

FIGURE 46 – DATE/TIME WINDOW.




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2.7.5 <History> Menu

There are two history types:

% undated (counters)

% dated by the internal clock (events/alarms).

The <History> menu is for displaying the following for the teleprotection:

% the event file

% the alarm file

% the counters

% resetting events and alarms to zero (erase dated information stored in theassociated stacks)

WARNING: AFTER CLEARING BUFFERS THE INFORMATION CANNOT BERECOVERED

D0180ENaRetrieve events queue

FIGURE 47 – EXAMPLE OF READING THE EVENT QUEUE.

The events dated by the internal clock are recorded in a stack limited to 255 events. Whenthe stack is full, any further event replaces the first one recorded.

Click on the disk tool (or use the <File><Save) menu to generate the event file (*.events)which can be consulted by the <File><Open> menu on the basic screen.

Click on the printer tool (or use the <File><Print menu) to print the event file.




DIP5000 Page 51/56

D0181ENaRetrieve alarms queue

FIGURE 48 – EXAMPLE OF READING THE ALARM QUEUE.

The alarms dated by the internal clock are recorded in a stack limited to 255 alarms. When

the stack is full, any further event replaces the first one recorded.

Click on the disk tool (or use the <File><Save) menu to for the alarm file (*.alarms) whichcan be consulted by the <File><Open> menu on the basic screen.

Click on the printer tool (or use the <File><Print menu) to print the alarm file.

FIGURE 49 – EXAMPLE OF READING COUNTERS STATEMENT.

The stack capacity of counters is limited to 65535.

It's impossible to reset the counters.

Click on the disk tool (or use the <File><Save) menu to for the counter file (*.cnter) whichcan be consulted by the <File><Open> menu on the basic screen.

Click on the printer tool (or use the <File><Print menu) to print the counter file.




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2.7.6 <Test> Menu

Link Test:

This test is used to check the ability of the DIP5000 link to send and receive commands in abidirectional way.

This test can also be started:

% On a daily or hourly basis (seeDIP5000 Configuration).

% Manually using the push-button.

% On this menu

All commands have priority over this test, leaving the DIP5000 operational.

In the special case of a wrong test, the DIP5000 is declared to have an irreversible failure.

2.8 Exiting the HMI

To exit the HMI, click on the <Exit> sub-menu from the main screen’s <Tools> menu.

2.9 Password manager

The security application that comes with the HMI is for creating, changing, reading anddeleting passwords. It is started by means of the “Security” icon in the HMIDIP5K group ofprograms.

To ensure the confidentiality of passwords created and to warn of unauthorised use, thisutility is itself password-protected.

2.9.1 <Password> Menu

The <Password> menu enables you to enter or change the password permitting access tothe password manager. On delivery, this password is DIP5000 (in upper case); before going

any further, it is best to change it:

1. Click on the <Enter Password> sub-menu from the <Password> menu (Figure 50) =>Opens the "Enter password" menu

2. Enter DIP5000 in upper case in this window (Figure 51)

3. Close the window using "OK" or <Enter> => activation of the <Change> sub-menu

4. Click on the <Change> sub-menu => Opens the "Change password" sub-menu

5. Enter the new password in this window

Characteristics of the input password: 1 to 15 characters to be chosen exclusively from thefollowing.

# upper case (A to Z)

# lower case (a to z)

# numbers (0 to 9)

# ! " # $ % & ' ( ) * + , - . / : ; < = > ? @ [ \ ] ^ _ ¨ { | } ~

Close the Change window using "OK" or <Enter> => opens the verification window

Enter the new password as requested: it is case sensitive (Upper or lower).

Close the verification window using "OK" or <Enter> => displays the confirmation message.

The <Create Passwords>, <List Passwords> menus and the <Change> sub-menu areactivated on closing this window.

NOTE: Make a note of this new password – if you forget it the software willneed to be completely reinstalled.




DIP5000 Page 53/56

FIGURE 50 – PASSWORD MENU

FIGURE 51 – ENTERING THE PASSWORD




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2.9.2 <Create Password> Menu

The <Create Password> menu is displayed after recognition of the entered password. Itopens the ENTER PASSWORD window (Figure 52).

A number of passwords can be allocated to a given level. The same password can be usedseveral times.

Their characteristics are the same as those of the input password (c.f. §2.1.9.1).

It is case sensitive (Upper or lower).

FIGURE 52 – CREATION OF LEVEL PASSWORDS




DIP5000 Page 55/56

2.9.3 <List Password> Menu

This menu is displayed with the <Create Password> menu after recognition of the enteredpassword. It shows the list of existing passwords, for consultation and / or deletion.

A password can be deleted by selecting the corresponding line, clicking on <Delete>, andanswering <YES> to the request then displayed to confirm deletion.

The capacity of the password list is 29.

FIGURE 53 – PASSWORDS LIST

2.9.4 Exiting the password manager

To exit the security application and return to the WINDOWS screen, click on the <Exit> sub-

menu in the <Password> menu.

digital protection coupler

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