SIPROTEC 7UT6 Poor Move Protection Manual
Contents
1.2. TEM Air IN EX o 26 LEDs CFC
3. i MI gt EEH p BE 268
4. Per
5. CC 3 3 7 i DIGSI2 IJBS TOOL O 141 O 141 115kBits s
6. L sc transt Jhtransf 70T6 DC CT 106
7. 273 2 1 2 2 1 3 C2 2 11 k L DATs L2 9 P q
8. 2 11 1 7UT635 1 B U f U f Unovy Bwow B TT U B UNobi Uf UNopj fN N
9. 2 1 1 T 43 M1 Iiwa I2zw Tia PC DIGSI 3
10. M2 gt disconnect Mx gt disconn I gt 0 CFC CFC OR gt disconn I gt 0 RIT RAX Al H 5 Fail Disconnect FN 30145
11. 1 290 2 18 3 CCFC SICAM SIPROTEC e e
12. TBS Tool DIGS PC IP 7UP6 115kBand IP 141 141 255 160
13. gt Emer Start O L 212 1 ALARM 4205 4202 K FACTOR TIME CONSTANT FNo 01515 1 Alarm FNo 01516 Alarm FNo 01521 hOverload TRIP I MOTOR START 4209 Kr FACTOR CB closed m FNo 01517 O L Th pickup FNo 01512 FNo 01503 Th Overload BLK
14. DIGSI 60870 5 103 transmission block test mode transmission block CFC dk A 3 CFC RHK SIPROTEC 4 50417 1176 151
15. 3 3 12 7UT6 CFC 3 3 13 T 7UT6
16. BE Dr CT CT 2 14 71 711 EARTH IX1 AT 711 EARTH IX1 AT Terminal Q7 Terminal Q8 2 14 IX1 4 X1 711 EARTH IX1 AT PJ Terminal 07 Terminal Q8 uc Uu 712 IN PRI CT 1 1 CT 713 IN SEC CT IX1 CT X2 721 EARTH IX2 AT TJI Termina N7 Terminal N8 722 IN PRI CT IX2 CT
17. Table 2 13 Operational measured values phase relationship Measured values Dimension 11 IL2M1 p ILI M1 Phase ange of the currents at the measuring 11 2 IL2M2 p IL3 2 locations 1 to M3 referred 1 1 11 1L2M3 q1L3M3 1 IL2M4 4IL3M4 _ Phase ange of the currents at the measuring 0 0 11 q1L2M5 103 5 1 locations M4 and 5 referred to 1 44 1 5 360 100 Conversion 7 0 0 360 100 PIX1 4IX2 4IX3 Phase ande of the currents at the 1 phase aux 0 0 measuring locations X1 to X3 referred fo 1 u 360 100 glk Phase ande of the currents at the 1 phase aux 0 0 measuring location X4 referred to I 444 5 360 100 qM p 10 5 Phase ande of the currents at the measuring 0 0 inputs refered to 1 5 360 100 11010112 3 Phase ange of the currents at the measuring 0 0 inputs referred to 1 2 360 100 UL1E UL2E pUL3E 1 Phase ange of the voltages at the 3 phase 0 0
18. v Py U R 2 ALF Iy UKPV Ri PN 195 IN ALF 800 5 5P10 30VA IN 5 A from 800 5 ALF 10 from 5P10 PN 30VA DC HL HENS 800 5 5P10 30 VA with Ri 0 30 Ve r i J ALF 0 3Q ue lt 9 10 54 75 5A 800 1 5P10 30 VA with Ri 5 9 30 VA Uys ts ALF SQ EP 10 14 350 5A
19. 512 IN PRI CT M1 W1 CT 512 IN SCE CT M1 2 1 2 28 3 1 3 C 1 0 2 7UT613 70T633 C 1 0 9 C 1 0 9 7UT635 1 511 STRPNT gt OB
20. gt BLOCK BkrFail 01403 7UT6 2 95 2 96
21. 10 175 WAM TAR 2414 T IE i
22. 2 1 4 B 105 PROT OBJECT 38 2
23. CFC Profibus 2 18 3 1 SIPROTEC DIGSI CO 22 17 DIGSI Table 2 17 Types of command and messages RC NE can Wi mma oar ona
24. DCF77 IRIG B 27 8 5s MODEM 28 SIPROTEC27UT6
25. 255 AUX CT IX3 TYPE 256 AUX CT IX4 TYPE 2 1 2 2 1 3 734 FACTOR CT IX3 744 FACTOR CT IX4 En x zi x tr CY x Ti CT XX CT
26. 114 Winding 2 Winding 1 L4 L L L L3 L3 2t re 8 BETI IA 2 1 1 1i 18 B 1 1 0 12 TM 1 2 1 2 1c 0 1 1 113J Ic 1 1 1 2 J 2 28 YNd5 2 29 2Z CT CT 2 29
27. 2 98 1 12 1 1 2 243 ARES ba gig T1 T2 2 98
28. 3 7 Aux2 Auxl Aux2 FA AS ZEE CBI1 1 Le Ucr ur z s RTC Relay Tripping Contact Cc Creu Breaker T Creal traskar Trip Cati Aunt cit a cortact osai whan CB is dosad cB T rut troakar Auxtlay enrtact whan R Byp es Raus Urrg Control voltage trip voltaps Ug irputvoltapa for Binary ripu L Figure 3 7 Trip circuit supervision with one binary input Rmax Rmin Rmax Rmin R 7 303 Rmax UcRT Uni min lp High Rmax Rmin Rmin R em TC LOW la HIGH
29. PoleOpenCurr SIPROTEC E50417 H1176 C151 PoleOpenCurr S1 1111 2 TUT6 2 17 3 7UT6 EB 1 999 999 CRA 114
30. RH E t 2 1 4 440 IEC ANSI 7UT6 PoleOpenCurr 4
31. IBS Tool 3 38 dee 120 gu 60 120 T4 V3 8 271 PHASE SEQ 2 1 3 X Fail Ph Seq U
32. PoleOpenCurr TN o 1111 PoleOpenCurr S1 1 1112 PoleOpenCurr S2 AERP MAAN 2 fil 1113 PoleOpenCurr S3 3 fli 1114 PoleOpenCurr S4 AERP MAN 4 fil 1115 PoleOpenCurr S5 5 1121 PoleOpenCurr 1 1122 PoleOpenCurr 2 2 95 1123 PoleOpenCurr 3
33. Tlitransf 1 sc transt 2 35 1241A SLOPE 1 1242A BASE POINT 1 DIGSIS Additional Settings 5i rH CT 127 Tripping Blocking Add on stabilization 12 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1244 I BASE POINT P Rest 1242 1256 INobj BASE POINT 1 I ADO ON STAB 2 46 ZERI DERE 2 1 2 CT 1244A BASE POINT 2
34. lt IEC 2 1 1 124 IEC 124 DMT IDMT Earth TOC IEC 2425 IEC CURVE Normal Inverse A IEC60266 3 Very Inverse B IEC60266 3 Extremely Inv C IEC60266 3 Long Inverse B IEC60266 3 4 4 4 7 1 1 fir 1 1 p 2421
35. 831 840 2 M4 CB2 CB2 gt ManualClose 30354 Tmin TRIP CMD 851A 78 Additional settings V DIGSI 79 2 1 6 211 No Conn MeasLoc 2 3 3 4 5 212 No As
36. fil Gn 10 2422 176 IE Ep
37. DIGSI 3 39 P P Q Q 356 P Positive active power into the protected object Skoed Positive reactive power Negative reactive power EE into the protected object into the protected object 3 39 2 1107 sign 2 1 9
38. 5 0 2 50 0 02 di 463 24 Gen CT M1 30060 2 to to Gen CT M5 30064 Gen VT U1 30065 2 1 3 Dif CT M1 05733 TEE Sc Ye UG RC RL 2 173 to 339 Dif CT M5 to 05737 Dif CT I1 05721 2 1 3 to to Dif CT 112 05732 Dif CT IX1 05738 2 1 3 to to Dif CT IX4 05741 REF CT
39. O 3 3 8 BAL ESSA BEN RES ULLUS
40. 20 40 2016 TI gt IEC Ip 2 1 1 120 IEC 120 DMT IDMT Phase TOC IEC 2026 CURVE ormal Inverse A IEC60255 3 Very Inverse B IEC60255 3 Extremely Inv C IEC60255 3 Long Inverse B IEC60255 3 4 4 4 7
41. 1 gt 04118 on gt YY fi 51 CY S2 M 2 1 HHRH qd S1 2 M1 M2
42. Stop 183 Time Stop Time gt BLK CLP stpTim Circuit breaker closed open 1 CB Open Time address 1711 CB open time open time ud Active Time address 1712 active time Possible shorter Operating state CLP due to stop Time DCP settings actve normal settings active Stop Time address 1713 si
43. NO 512 IN PRI CT MI 1 100000A 200A ICT 513 IN SEC CT MI 1A 1A 1CT 5A 521 STRPNT gt OBJ M2 YES YES 2CT NO 522 IN PRI CT M2 1 100000A 200A 2CT 523 IN SEC CT M2 1A 1A 2CT 5A 531 STRPNT gt OBJ M3 YES YES 3CT NO 532 IN PRI CT M3 1 100000A 200A 3CT 533 IN SEC CT M3 1A 1A 3CT 5A 541 STRPNT gt OBJ M4 YES YES ACT NO 542 IN PRI CT M4 1 100000A 200A 543 IN SEC CT M4 1A 1A 5A 551 STRPNT gt 0BJ M5 YES YES 5CT NO 552 IN PRI CT M5 1 100000A 200A SCT 553 IN SEC CT M5 1A 1A 5CT 5A 561 STRPNT gt BUS YES YES CT I1 NO 562 IN PRI CT Il 1 100000A 200A
44. 2 2 7 DIFF PROT Enabled 112 Disabled 105 PROT OBJECT 2 1 1 1201 DIFF PROT ON OFF Block relay OFF 125 CT
45. BI JV E 2 4 1 113 Winding 2 Winding 1 2 27 IA 100 UP Isp 1 0 10 Isp 1 0 01 3 Isp ISP 3I0 2 3
46. 3 3 4 CT o gt BRK FAIL EXTSRC FNo01431 FAIL EXT PU FNo01457 T1 7015 O T2 7016 340
47. zl Hi xax ex Ld A ANSI 3I0p 2 1 1 122 ANSI 122 DMT IDMT 310 TOC ANSI 2227 ANSI CURVE Definite Inv Extremely Inv Inverse Long Inverse Moderately Inv Short Inverse Very Inverse 4 4 8 4 9 1 1 1 1 161 2221 82223 3I0p
48. 1107 P Q Sign P Q 1111 PoleOpenCurr S1 0 04 1 00I Ins 0 10 I Ins 1 1112 PoleOpenCurr S2 0 04 1 00I Ins 0 10 I Ins 2 1113 PoleOpenCurr S3 0 04 1 00I Ins 0 10 I Ins 3 1114 PoleOpenCurr S4 0 04 1 00I Ins 0 10 I Ins 4 1115 PoleOpenCurr 55 0 04 1 00I Ins 0 10 I Ins 5 1121 PoleOpenCurr 0 04 1 00 0 04 A 1 1122 PoleOpenCurr M2 0 04 1 00As 0 04 A 2 1123 PoleOpenCurr M3 0 04 1 00As 0 04 A 3 1124 PoleOpenCurr 0 04 1 00As 0 04 A 4 1 1125 PoleOpenCurr 5 0 04 1 00As 0 04 A 5 1131 PoleOpenCurr I1 0 04 1 00 5 0 04 A 1 1132 PoleOpenCurr 12 0 04 1 00As 0 04 A 2 1133 PoleOpenCurr 13 0 04 1 00As 0 04 A 3 1134 PoleOpenCurr 14 0 04 1 00As 0
49. 127 DMT IPHASE 2 7 3 2 7 2 140 UNBALANCE LOAD Definite time IEC TOCIEC ANSI TOC ANSI 105 PROT OBJECT 1 phase transf lph Busbar 142 Therm Overload IEC 60255 8 thermal replica IEC 60354 IEC354
50. e A D 323 RS485 RS485 Interface 4H 4r Table 3 18 Exchange interface modules for devices with flush mounting housing Mounting Port Replacing Module Rs45 Optical820nm nm ProfbusFMS RS485 FMS RS485 FMS ProfbusFMS sindering ring Profibus FMS double ring FMS double Profibus FMS double ring System Interface ProfibusDPRS425 DP RS485 DP double ri Profibus DP double ring s MedbusRS485 RS485 820 820 0DNP30RS45 3 0 R5485 NP 3 0 820 DNP30820nm RS485 Additional Interface Opical820nm Opical820nm nm A 1 3 RS232 3 17 RS232 RS485 3 15 C CPU DEAK 2 3 16 RS232 CPU RS232
51. 150 0 1IN TJ EH 07583 T FNo 07581 Meas release Se IUS Der A Meas release 2002 InRushRest Ph 1 S 2 66 2 66 2 67
52. 119 CT CT CT 2 36 2 37 7UT613 7UT633 T 7UT635 2 38 4 L L Busbar 2 37 2 38 4 7UT6
53. Led Error 1A 5A wrong 00192 2 1 3 2 1 3 3 Err IN CT M1 To 30097 2 18 Err IN CT M5 to 2 1 9 3 30101 Err IN CT 1 3 To 30102 2 1 9 Err IN CT 10 12 to 251 953 30105 Err IN CT IXI To 30106 Doles Err IN CT IX4 to 21 33 30109 Faultconfig set 00311 GenErrGroupConn 00312 2 1 3 GenErrEarthCT 00313 21 2 GenErrSidesMeas 00314 Sides Measuring 2 1 2 Par too low 30067 Par too high 30068 SettingFault 30069 Diff Adap fact 05620 2 1 3 252 REF not avail 05835 2 2 1 4 REF Adapt fact 05836 2 2 REF Err CTstar 0
54. i 0 2 3 3 A DIGSI Additional Settings 1312A T I REF gt I INS I INO 2 1 3 s REF F i NER EN ON Block relay f
55. IA IA AD uC SZ nC
56. 2 24 3mA
57. 3 3 9 3 3 7 1 2 3 4 180 CT
58. aw DA E FH 7UT6 2 1 4 2 1 5 L1 Ed 1 2 95 240 3 1 PoleOpenCurr S1 1 2 1 9
59. ISP 2 28 Ynd5 13 231711127 113 s 31 71 17 12713 1 3 301 30 1117 I9 2 27
60. LI 305 3 LED Blocked 25 Device OK 2 14 1 3 m BUILT f 1 Imin Imax lt BAL FACT I M1 Imax IN gt BAL I LIMIT ML IN Tmax Imin BAL FACT MI
61. 2 1 2 1 PROT OBJECT 3 phase transf 2 29 3 phase transf Autotransf CT 2 35 1 phase transf L2 2 16 7 Hz Generator Motor
62. 216 MPT SR IS BELLE C F 1 2 9 3 2 1 4 3 442 7UT6 2 1 1 142 THERM OVERLOAD THERM OVERLOAD thermal replica IEC60354 THERM OVERLOAD IEC3S4
63. 4 1 2 2 A 3 329 L1 D D EI L1 D DI EI TEM FEM 2 1 2 2 1 3 H n
64. RTD OREM 7UT6 4 1 2 20 1 2 7UT6 9 12 1
65. DIGSI Ww a JH Bx b CR JER 1 DIGSI
66. LCD DIGSI PC EC 4 SIPROT E50417 H1176 C151 2 17 2 Js PC DIGSI 0 6 P
67. 2 1 3 VINS gt gt gt 4013 TI2 gt gt 4011 4012 I2 gt gt 4016T D gt 4014 4015 12 gt I2 gt D gt gt D gt gt 60 I2 gt gt V3 60 T 12 gt gt 205 B EEE 43 1 H BP AE AY
68. 16 7Hz WHAT 22 1 3 DC DC AC DC 7UT6 DIGSI8
69. 3 2 11 gt Sr In gu Ho mi oe US FE H 2 12 470 BREAKER FAIL E E 2 1 2
70. JA T xg SOT HII BEA BR OA I hC LEDs LCD 7UT6
71. 3 5 3 5 3 5
72. E 3 3 11 2 1 2 TIR Sos HEL s LL 1249 A PLI A AE 2 1 2 2 14 2
73. 2 1 2 CT 3 1 3 3 C 1 0 2 7UT613FK7UT633 C 1 0 9 C 1 0 9 7UT635 gt INprim INsec
74. 2 26 Yd5 150 Im k K In NS wt Im BAIA IB IC k K In IL1 IL2 IL3 IA IB IC IL1 IL2 IL3 T S 112 Winding 2 L4 L2 Ls KIRE RH Winding 1 L gt L3 4 1 0 Te 1 0
75. 3 1 2 2 1 7UT6 3 1 4 1 1
76. x TER Ae IEC DIN VDE Eg EN e e
77. CHE 4 1 2 DR PAT BTA IN Ac HH Wi ZE j 1 ji Fail Battery Wize 4 HE EUR ACER H DA RAF IC ae ds A o E 7 He H LED E H B BE TT 250 2 14 1 2
78. 307 3 1 3 2 E er vi e 5 6mm Pz1 5mm e FAESA A C D
79. 7UT613 7UT633 2 1 2 301 26 A 27 ALS 2 3 e gt Set Group Bit0 gt Set Group Bit1 e
80. IEC 60255 IEEE C37 90 4 0 EMC 73 23 EEC EEN 60255 6 VDE 0435 Siemens Siemens AP AK AE
81. IDiffL1 IDiffL2 IDiffL3 313 STARRNT SIDE 1 323 STARPNT SIDE 2 2 1 3 251 252 2 1 2 FB DI esti JRestL2 o
82. 2 83 2 7 4 2701 1Phase O C ON OFF Block relay 2 1 4 2 1 2 194 255 256 214 54 Tnput 2702 1Phase P gt 2705 1Phase I gt 255 256 sensitiv Input 2703 1
83. 9 12 9 12 7UT6 7UT6 6 12 2 5 70T635
84. 3 5 DC H gu DC 23 DC
85. 1 2 1 2 2 32 CT 2 32 ORO PY EE Ze Ie 101 1 101 43 2 Isp ISP 1 2 ISP I0 1 2ISP I0 1 2 CILI IL3 117 7 2 TE Py HUC AC EE
86. PROT OBJECT Autotransf 3 phase transf 1 phasetransf 2 300 CT BE o 10 A 15 1 AG A 19 A 23 A 2 CT 2 12 2 1 3 A 2 WRAZ 100mA H 6 A 3 A 24 IL2 A 3 A 17 A 18
87. 3 1 3 3 C CPU 2 C UO 1 3 1 3 4 RS485 HIT RS485 3 1 3 3 C CPU 2 All 3 1 3 4 RS485 RAM 3 10 3 2 E50417 H1176 C151
88. R RMS R 2 7 4 192 7UT6 7UT6 K EBER 2 82 7UT6
89. 405 A 2 412 A 3 421 A 4 437 5 R A 6 443 444 A 8 477 A 9 505 402 A 1 1 7UT613 8 9 10 1112 1314 15 16 Differential Protection TUT613 T 0 Rated Current In 1 1 In 5A 5 Auxiliary Voltage Power Supply Pick up Threshold of Binary Inputs DC 24 V to 48 V binary input threshold 17 V DC 60 V to 125 V 1 binary input threshold 17 V 2 DC 110 V to 250 V 1 AC 115 to 230 V binary input threshold 73 V 2 Housing Number of In and Outputs BI Binary Inputs BO Binary Outputs Surface mounting housing with two tier terminals 1 amp 19 5 BI 8 BO 1 life contact Flush mounting housing with plug in terminals gt 19 5 8 BO 1 life contact Flush mounting housing with screwed terminals 19 5 BI 8 BO 1 life contact Region Specific Default Language Settings and Function Versions Region GE 50 60 Hz 16 7 Hz language German language can be changed Region world 50 60 Hz 16 7 Hz language English language can be changed Region US 60 50 Hz language US English language can be changed Region world 50 6
90. SIPROTEC 4 LED e e r LED WR H SIPROTEC 4 LED DIGSI 3 3 4 LCD 9 RUU LED FJ E50417 H1176 C151 ALS EE LED ERROR 4 J BE
91. TripC ProgFail 1 2 104 253 c Circut bwaber trip call Aux 1 Circut bwnber modi ery contact rssbei CB TC 4 Aux 2 Circuit branber mod ary contact break Ups Contscivotage trip votage Upn voltage cf tat binary input Upp inpet voltagact Znd binary input Note The dagan shows the crest braser in closed atte Figure 2 104 Principle of the tip circuit supervision with two binary inputs UCtr1 gt 2UBLmin 19V 38V C 2 8 Table 2 8 Status table of the binary inputs depending on TR and CB No Triprelay Circuitbreaker Aux t
92. XIRTD7 9071A RTD 7 TYPE RTD 7 51 9073 RTD 7 STAGE 1 9074 RTD 7 STAGE 1 F 9072A RTD 7 LOCATION RTD7 9075 RTD 7 STAGE 2 C 249076 RTD 7 STAGE 2 F RTD8 9081A RTD 8 TYPE RTD 8 hHE9083 RTD 8 STAGE 1 C 9084 RTD 8 STAGE 1 F 9085 RTD 8 STAGE 2 C 249086 RTD 8 STAGE 2 F H 9082A RTD 8 LOCATION RTD 8 H H RTD9 9091A RTD 9 TYPE RTD 9 139093 RTD 9 STAGE 1 C 9094 RTD 7 STAGE 1 F 9092A RTD 9 LOCATION RTD 9 H 119095 RTD 9 STAGE 2 859096 RTD 7 STAGE 2 F XIRTDIO 9101A RTD 10 TYPE RTD 10 9102A RTD 10 LOCATION RTD 10 9103 RTD 10 STAGE 1 C 249104 RTD 10 STAGE 1 F 9105 RTD 10 STAGE 2 9106 RTD 10 STAGE 2 F RTD11 9111A RTD 11 TYPE 9112A RTD 10 LOCATION 9113 RTD 11 STAGE 1 C 9115 RTD 11 STAGE 2 C RTD12 9121A RTD 12 TYPE 2 10 3
93. 2 110 CBC SI CT 5 M1 M2 CT M3 S2 M2 disconnect M2 mi VDI mz r Main protecte object Figure 2 110 Arrangement with 11 circuit breakers 3 breakers for 2 transformer feeders 267 fy 10 D Pole Open Curr F disconnected Jf HANE
94. 801 UN PRI VT SET C 802 UN SEC VT SET 811 UN PRI VT U4 UN SEC VT U4 EH fEHUIES12 73 2 1 4 105 PROT OBJECT 2 1 2 2 1 3 CT 2 1 S1 ML M2 MI M2
95. 2 1 30 2 2 102 2 3 134 2 4 143 2 5 169 2 6 183 2 7 189 2 8 201 2 9 211 2 10 RTD 222 2 11 232 2 12 239 2 13 247 2 14 250 2 15 264 2 16 267 2 17 269 2 18 289 29 2 1 TWE TS Ac HR T UE e tet 2 1 337 SIPROTEC84 No 7 Ly 2 2 1 PC EA 9 LCD 70T6 1
96. i DIGSI Additional Settings x Hla E DIGSIG 4 Additional Settings X F 2 46 o b SLOPE lt B20 1 DIFF gt gt BECA o E 2 eK Up t CH 3 1262A T ADD DIGSI Additional Settings IdifWlrest BER gt gt Z Es EN WA Dit rl i gt 1206 I ITTE etn es i DX IHJ EGE ALL E E82 HARMONIC 1271
97. 1 1 3 5 299 BERE 3 Figure 3 5 View of a housing size 1h with transport protection without front and modules 4 2 6 6 2 10 e e 4 A 2 A 3 BBM 2 1 1 2 1 2 2 1 5 PROT OBJECT 105
98. 310 310 138 Tripping 3 Blocking 2 55 310 3I0 BUS H IREF IREF gt 3I0 3I0 CT 3I0 310 90 0 2 45 ME 31y 3l 2 56 KK vlimit 310 310 3I0 3I0 7UT6 K 4 a 139 4
99. 1 U4 262 VT U4 3 e n VT U4 conn not assig 1 Not connected 1 263 VT U4 TYPE acc 262 Udelta transf ULIE Transform UL12 Transform U4 Ux Transformer
100. 3M 2S 2 3 2 213 2 212 220ASSIGNM 2M 2S Mi M2 2 M1 S1 M2 S2 2 213 3 212 221 ASSIGNM 3M 2S N d gt N 50 M1 M2 M3 3 M1 M2 M1 2 3 3 M1
101. 57 2 1 3 1 CT PC DIGSI 4 270 Rated Frequency 50Hz 60 Hz 16 7 Hz 271 PHASE SEQ L1l L2 L3 LI L3 L2 Ly Ly L1 Lo L7 L3 Clockwise LT L2 L3 Counter clockwise LT L3 L2 2 8 Ce7szrs mepremrpezt RE
102. 279 2 7 4 Im lh d ap 7UT6
103. 7UT6 2 2 1 105 PROT OBJECT Generator Motor 61 fai n lt CT 361 UN GEN MOTOR SN GEN MOTOR 362 3 2 2 1 105 PROT OBJECT 3ph Busbar 370 UN
104. IEC 60354 k 1 ru 4203 TIME CONSTANT s Tth 1 permissible 1 s current 2 min 60 permissible continuous current 1s 0 5 s Th 0 5 permissible 0 5 s current min 60 permissible continuous current ttime 6 CNN min 6 322A 1 s 13 5KA Th _ 1 13500A 1 2 min 60 322A 60 TIME CONSTANT 29 4 te time 12s Tth 0 6 12s 72 min TIME CONSTANT 7 2 4203 TIME CONSTANT 218
105. LED CFC SIPROTEC4 E50417 H1176 C151 2 16 1107 BQ sign Table 2 16 Operational metered values Mewedvlies hm ep wmcm KAR HAR RIA MARI VAR 278 Sb E gt WP WP TUT6 67 4
106. 1278A IDIFFmax n HM n DIGSI Additional Settings sh 2 2 8 A DIGSI Additional Settings 324 1 IN 2 1 3 I INO 2 1 3 1201 DIFF PROT ON Block relay for trip com mands 1205 INC CHAR START OFF ON o
107. 7UT6 DIGSIG gt Trig wave cap Fno 00004 DIGSIC DIGSIS test test wave form filz 3 40 357 SIGRA Comtrade Viewer
108. Measurement Percent Values Differential and Restraint Currents DL Ipirrer 351 IResnsr IX1 711 EARTH IX1 AT 2 1 3 2 1 3 9 313 323 712 713 732 733
109. E EBE PE inp EUER I 3s yas EE BE i BET AD Ub 3 23 342 67 VEL n En Eus ma TEL EDS TTE D REI amp 7UT6 L 1 I 3 23 3 24
110. IEC TOC ANSI TOC ANSI User Defined PU User def Reset 4 447 122 DMT IDMT 3I0 3Io 105 PROT OBJECT 1 phase transf lph Busbar 124 MT IDMT Earth
111. 2 4 7 1 ST AN k M jc zuT6 ui 1 1 c FTT Cee J TENE i 2 44 CT L1 L3 L3 2 4 CT L1 L3 L3 WIN3 IM 100 mA L1 L2 L3 sym V3 1 00 1 00 IN oT 109 m L3 L1 0 58 1 73 IN L1 E 1 15 0 87 IN 2 3 W 36 1 73 2 89 auto CT 4AM5120 CT CT 2 1 3 n 124 CT
112. 2 6 3 3 M1 M2 S1 S2 3 M3 S3 3 1 1 1 2 6 X1 M3 3 1 A 3 A 16 M3 3 1
113. ON cooling OF cooling 9 70 4H k N NT On e Hy k MIN 215 Y OD cooling 90 H 4k lt 1 0 H k 40 15 H 98 C 4k gt 1 JI Z IN 98 C 208 4 F 6 K 98 208 4 P V Ageing at 6 98 6 Ageing at 98 C L
114. 0N OFF Log Buffers CAPITAL LETTERS ON OFF lowercase letters ON 0FF lt blank gt p Log Buffers Configurable in Matrix IEC 60870 5 103 j 00003 Synehronize Internal Real Time SP Ev LED 135 Clock gt Synch 00004 Trigger Waveform Capture Fault LED Gl Tng Wave Records 00008 gt Reset LED gt Reset LED ojei 135 Groupe a m cia F Ha Bd Te d Group 00008 men Select Bit 1 Set Change Group LED 135 52 GI Group Bit1 IBID 22025 HE Deve L on i a 00052 At Least 1 Protection Funct is Active IntSP LED 176 GI ProtActive Eme nestese eerte _ e ili aa am INLINE NN EI Ev e T T eL eee L 00068 Clock Synchronization Error Clock e OUT ON LED SyncErrer OFF Event Log On Off Trip Fault Log On Off Ground Fault Log On Off Marked in Oscill Record Binary Input Function Key Binary Output Chatter Blocking Information No Data Unit ASDU General Interrogation 475 Log Buff
115. 3 4 1 5 1 1 2 1 X3 S1 IX3 S1 2 2 X4 M5
116. Ix 1A TIr 5A 5 Phase Currents Setting Title Setting Options Default Setting PHASE O C ON OFF Phase Time Overcurrent Block relay for trip com mands InRushRest Ph ON InRush Restrained O C Phase OFF A MANUAL CLOSE gt gt instantaneously gt gt instantane OVC Manual Close Mode gt instantaneously cusly Ip instantaneously Inactive 0 10 35 00 l InS 2 00 l InS I Pickup 163 mme gt ______ aroasaoms rooms qe uossmx puma ee mw e uozsmx ma na mns e sma rena mm e nama oa je m s uns ea ma ps masm e jem TOC DROP OUT Instantaneous