P74x/EN CM/Na7
Commissioning
(CM) 10-14
MiCOM P741, P742, P743
CM
4.2.4
Field voltage supply
The relay generates a field voltage of nominally 48V dc that can be used to energise the
opto-isolated inputs (alternatively the substation battery may be used).
Measure the field voltage across the terminals 7 and 9 on the terminal block given in Table
4. Check that the field voltage is within the range 40V to 60V when no load is connected and
that the polarity is correct.
Repeat for terminals 8 and 10.
Supply rail
Terminals
P741
P742
P743
+ve
L7 & L8
E7 & E8
G7 & G8
–ve
L9 & L10
E9 & E10
G9 & G10
TABLE 4: FIELD VOLTAGE TERMINALS
4.2.5
Input opto-isolators
This test checks that all the opto-isolated inputs on the relay are functioning correctly. The
P741 relay has 8 opto-isolated inputs while the P742 relay has 16 opto-isolated inputs and
P743 relays has 24 opto-isolated inputs.
The opto-isolated inputs should be energised one at a time, see the external connection
diagrams for the terminal numbers. Ensuring correct polarity, connect the field supply voltage
to the appropriate terminals for the input being tested.
Note:
The opto-isolated inputs may be energised from an external dc
auxiliary supply (e.g. the station battery) in some installations. Check
that this is not the case before connecting the field voltage otherwise
damage to the relay may result.
The status of each opto-isolated input can be viewed using either cell [SYSTEM DATA,
Opto I/P Status] or [COMMISSION TESTS, Opto I/P Status], a ‘1’ indicating an energised
input and a ‘0’ indicating a de-energised input. When each opto-isolated input is energised
one of the characters on the bottom line of the display will change to indicate the new state
of the inputs.
4.2.6
Output relays
This test checks that all the output relays are functioning correctly. The P741 and P742
relays have 8 output relays while P743 relay has 16 output relays.
See the external Connection Diagrams for the terminal numbers.
Ensure that the relay is still in test mode by viewing cell [COMMISSION TESTS, Test Mode]
to ensure that it is set to ‘Blocked’.
The output relays should be energised one at a time. To select output relay 1 for testing, set
cell [COMMISSION TESTS, Test Pattern] as appropriate.
Connect a continuity tester across the terminals corresponding to output relay 1 as shown in
external connection diagram.
To operate the output relay set cell COMMISSION TESTS, Contact Test] to ‘Apply Test’.
Operation will be confirmed by the continuity tester operating for a normally open contact
and ceasing to operate for a normally closed contact. Measure the resistance of the contacts
in the closed state.
Reset the output relay by setting cell [COMMISSION TESTS, Contact Test] to ‘Remove
Test’.
Summary of Contents for P741
Page 2: ......
Page 4: ......
Page 6: ...P74x EN IT Na7 Introduction MiCOM P741 P742 P743 ...
Page 8: ...P74x EN IT Na7 Introduction IT 1 2 MiCOM P741 P742 P743 IT ...
Page 18: ...P74x EN TD Na7 Technical Data MiCOM P741 P742 P743 ...
Page 30: ...P74x EN TD Na7 Technical Data TD 2 14 MiCOM P741 P742 P743 TD ...
Page 32: ...P74x EN GS Na7 Getting Started MiCOM P741 P742 P743 ...
Page 70: ...P74x EN ST Na7 Getting Started MiCOM P741 P742 P743 ...
Page 72: ...P74x EN ST Na7 Settings ST 4 2 MiCOM P741 P742 P743 ST ...
Page 116: ...P74x EN OP Na7 Operation MiCOM P741 P742 P743 ...
Page 120: ...P74x EN OP Na7 Operation OP 5 4 MiCOM P741 P742 P743 OP ...
Page 136: ...P74x EN OP Na7 Operation OP 5 20 MiCOM P741 P742 P743 OP FIGURE 8 CB FAIL LOGIC ...
Page 166: ...P74x EN AP Na7 Application Notes MiCOM P741 P742 P743 ...
Page 234: ...P74x EN PL Na7 Programmable Logic MiCOM P741 P742 P743 ...
Page 290: ...P74x EN PL Na7 Programmable Logic PL 7 56 MiCOM P741 P742 P743 PL ...
Page 291: ...Programmable Logic P74x EN PL Na7 MiCOM P741 P742 P743 PL 7 57 PL ...
Page 292: ...P74x EN PL Na7 Programmable Logic PL 7 58 MiCOM P741 P742 P743 PL ...
Page 294: ...P74x EN PL Na7 Programmable Logic PL 7 60 MiCOM P741 P742 P743 PL ...
Page 295: ...Programmable Logic P74x EN PL Na7 MiCOM P741 P742 P743 PL 7 61 PL ...
Page 296: ...P74x EN PL Na7 Programmable Logic PL 7 62 MiCOM P741 P742 P743 PL ...
Page 298: ...P74x EN PL Na7 Programmable Logic PL 7 64 MiCOM P741 P742 P743 PL ...
Page 299: ...Programmable Logic P74x EN PL Na7 MiCOM P741 P742 P743 PL 7 65 PL ...
Page 300: ...P74x EN PL Na7 Programmable Logic PL 7 66 MiCOM P741 P742 P743 PL ...
Page 302: ...P74x EN MR Na7 Measurements and Recording MiCOM P741 P742 P743 ...
Page 324: ...P74x EN FD Na7 Firmware Design MiCOM P741 P742 P743 ...
Page 344: ...P74x EN FD Na7 Firmware Design FD 9 20 MiCOM P741 P742 P743 FD FIGURE 10 P74x SYSTEM OVERVIEW ...
Page 351: ...Firmware Design P74x EN FD Na7 MiCOM P741 P742 P743 FD 9 27 FD ...
Page 353: ...P74x EN CM Na7 Commissioning MiCOM P741 P742 P743 ...
Page 429: ...P74x EN MT Na7 Maintenance MiCOM P741 P742 P743 ...
Page 431: ...P74x EN MT Ma7 Maintenance MT 11 2 MiCOM P741 P742 P743 MT ...
Page 451: ...P74x EN TS Na7 Troubleshooting MiCOM P741 P742 P743 ...
Page 453: ...P74x EN TS Na7 Troubleshooting TS 12 2 MiCOM P741 P742 P743 TS ...
Page 475: ...P74x EN SC Na7 SCADA Communications MiCOM P741 P742 P743 ...
Page 499: ...P74x EN SC Na7 SCADA Communications SC 13 24 MiCOM P741 P742 P743 SC ...
Page 501: ...P74x EN SG Na7 Symbols and Glossary MiCOM P741 P742 P743 ...
Page 511: ...P74x EN SG Na7 Symbols and Glossary SG 14 10 MiCOM P741 P742 P743 SG Logic Gates ...
Page 513: ...P74x EN IN Na7 Installation MiCOM P741 P742 P743 ...
Page 515: ...P74x EN IN Na7 Installation IN 15 2 MiCOM P741 P742 P743 IN ...
Page 528: ...Installation P74x EN IN Na7 MiCOM P741 P742 P743 IN 15 15 IN FIGURE 6 P742 40TE REAR VIEW ...
Page 533: ...P74x EN VH Na7 Firmware and Service Manual Version History MiCOM P741 P742 P743 ...
Page 542: ...APPENDIX A WIRING DIAGRAMS ...
Page 543: ...Appendix A Wiring Diagrams P74x P74x EN M Na7 ...
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