BEGIN NEW DATA CASE C BENCHMARK DC-1 C Full-size, hvdc simulation of the Pacific Northwest to Pacific Southwest C (Oregon to California) intertie as first done by BPA during the late '70s. C There are two ends of the line, two poles, 3 bridges/pole, and 7 values C (6 plus bypass) per bridge. For some description of the simulation, see C the EMTP Newsletter article by W. Scott Meyer and Ma Ren-ming, Volume 3, C No. 1, the last paragraph of Section I. For simplified, smaller versions C of this same basic problem, see DC-2. The USE TPPLOT that follows was C added at the end of September, 1994 (see October newsletter). USE TPPLOT BEGIN { The first such declaration precedes the data for TPPLOT PL4 { Access to plot of ongoing simulation is via this basic command RAM { Special new (September, 1994) option to apply TPPLOT to EMTP LABEL { Define labeling for plots, beginning with super title (next): Super Title Line Vertical Axis Horizontal Axis of X-Y FLUSH { Erase any multi-line case title now being stored END { Bound the case title (none); this ends LABEL command # 1 2 3 5 7 9 13 14 15 { Select 9 curves to plot by number LIMITS { Request to manually set the Y-axis limits -500 500 { Curves will be small (maybe 1/4 height) to allow many using offsets FACTOR { Different units for currents (variables 7, 8, 9) require this 1 1 1 0.3 0.3 0.3 180 180 180 { Multiply curves by these factors OFFSET { Vertical displacement (constant to be added to each curve) 0 0 0 -325 -325 -325 200 200 200 { Then add these offsets to curves COLOR { Request to change pen colors to avoid weak ones for pens 7, 8, 9 1 9 { Beginning index and length of color vector to be redefined 14 10 15 12 13 11 14 10 15 { Vector of color numbers (1st 6 are default) { bypasses radii of marking disks (use default values of zero) { bypasses pixel widths of curves (use default values of unity) ROLL { After next plot is complete, curves will be extended automatically TIME 0 .02 { The first frame will cover 10% of the total range of 200 msec USE TPPLOT END { The 2nd such declaration ends the data for TPPLOT C The preceding uses FACTOR and OFFSET to separate curves. This was C done before WINDOW plotting was allowed. For a second use of ROLLing C (real-time) plotting, see DC-63, which uses 3 windows for same 9 curves. ABSOLUTE TACS DIMENSIONS C Expand TACS Table 1 from 60 to 140 on 1 April 2007. The overflow C check of SSTACS requires this. But to keep the total within List 19 C we must decrease some other tables. Here, it is easy. In fact, other C TACS tables easily are reduced so burden on List 19 is well under the C total 4800 for 3 * default. Note 3194 bytes, less than 2 * default! C Size List 19. Total floating-point TACS table space. 3194 4800 (LTACST) C Tacs table number 1 2 3 4 5 6 7 8 C Present figure 111 62 73 17 63 309 112 108 C Program limit 140 75 95 20 80 350 130 125 C 60 270 300 60 90 1250 550 180 --- default 140 75 95 20 80 350 130 125 .000100 .200 1 1 3 1 -1 5 5 20 20 C DC LINE WITH 12-PULSE RECTIFIER/INVERTER OPERATION USING TACS ------------ TACS HYBRID CASE FOR DC TERMINAL SIMULATION C DC LINE WITH 12-PULSE RECTIFIER/INVERTER OPERATION USING TACS ------------ C * * * * * * * GRID TIMING VOLTAGES * * * * * * * * * * * * * * PHA-BS +GENAS -GENBS PHB-AS +GENBS -GENAS PHB-CS +GENBS -GENCS PHC-BS +GENCS -GENBS PHC-AS +GENCS -GENAS PHA-CS +GENAS -GENCS PHA-BR +GENAR -GENBR PHB-AR +GENBR -GENAR PHB-CR +GENBR -GENCR PHC-BR +GENCR -GENBR PHC-AR +GENCR -GENAR PHA-CR +GENAR -GENCR 4 +NOT13 9 +NOT18 14 +NOT23 19 +NOT28 24 +NOT3 29 +NOT8 4R +NOT13R 9R +NOT18R 14R +NOT23R 19R +NOT28R 24R +NOT3R 29R +NOT8R C ********* ZERO-ORDER BLOCK ON "TIMEX" FOR LIMIT OF 2 CYCLES ******* C TIMER +TIMEX 0.0 33.3-3 90GENAS 90GENBS 90GENCS 90GENAR 90GENBR 90GENCR C $$$$$$ DECREASING RAMP FUNCTION FOR IGNITION ANGLE DELAY $$$$$$$$$$$$ C 88ALPHAR -.1045045 * TIMER + 4.17-3 C C -------------- RECTIFIER CONTROL LOGIC FOLLOWS -------------------- 88SA-B 52 +UNITY 0.0 PHA-BS 88F1S 54 +SA-B 0.0 ALPHAR 88F1SII 4 .AND. F1S 88NOT3 .NOT. F1SII 88F1SI 54 +F1SII 1.4E-3 88SB-A 52 +UNITY 0.0 PHB-AS 88F4S 54 +SB-A 0.0 ALPHAR 88F4SII 9 .AND. F4S 88NOT8 .NOT. F4SII 88F4SI 54 +F4SII 1.4E-3 88SB-C 52 +UNITY 0.0 PHB-CS 88F3S 54 +SB-C 0.0 ALPHAR 88F3SII 14 .AND. F3S 88NOT13 .NOT. F3SII 88F3SI 54 +F3SII 1.4E-3 88SC-B 52 +UNITY 0.0 PHC-BS 88F6S 54 +SC-B 0.0 ALPHAR 88F6SII 19 .AND. F6S 88NOT18 .NOT. F6SII 88F6SI 54 +F6SII 1.4E-3 88SC-A 52 +UNITY 0.0 PHC-AS 88F5S 54 +SC-A 0.0 ALPHAR 88F5SII 24 .AND. F5S 88NOT23 .NOT. F5SII 88F5SI 54 +F5SII 1.4E-3 88SA-C 52 +UNITY 0.0 PHA-CS 88F2S 54 +SA-C 0.0 ALPHAR 88F2SII 29 .AND. F2S 88NOT28 .NOT. F2SII 88F2SI 54 +F2SII 1.4E-3 C $$$$$$ INCREASING RAMP FUNCTION FOR IGNITION ANGLE DELAY $$$$$$$$$$$$ C 88ALPHAI +.076276 * TIMER + 4.17-3 C C ----------------- INVERTER CONTROL LOGIC FOLLOWS ----------------- 88RA-B 52 +UNITY 0.0 PHA-BR 88F1R 54 +RA-B 0.0 ALPHAI 88F1RIV 4R .AND. F1R 88NOT3R .NOT. F1RIV 88F1RIII54 +F1RIV 1.4E-3 88RB-A 52 +UNITY 0.0 PHB-AR 88F4R 54 +RB-A 0.0 ALPHAI 88F4RIV 9R .AND. F4R 88NOT8R .NOT. F4RIV 88F4RIII54 +F4RIV 1.4E-3 88RB-C 52 +UNITY 0.0 PHB-CR 88F3R 54 +RB-C 0.0 ALPHAI 88F3RIV 14R .AND. F3R 88NOT13R .NOT. F3RIV 88F3RIII54 +F3RIV 1.4E-3 88RC-B 52 +UNITY 0.0 PHC-BR 88F6R 54 +RC-B 0.0 ALPHAI 88F6RIV 19R .AND. F6R 88NOT18R .NOT. F6RIV 88F6RIII54 +F6RIV 1.4E-3 88RC-A 52 +UNITY 0.0 PHC-AR 88F5R 54 +RC-A 0.0 ALPHAI 88F5RIV 24R .AND. F5R 88NOT23R .NOT. F5RIV 88F5RIII54 +F5RIV 1.4E-3 88RA-C 52 +UNITY 0.0 PHA-CR 88F2R 54 +RA-C 0.0 ALPHAI 88F2RIV 29R .AND. F2R 88NOT28R .NOT. F2RIV 88F2RIII54 +F2RIV 1.4E-3 C C DELAY FIRING FOR BYPASS VALVES C 88FIRE - UNITY 77PHA-BS +166.1710 77PHB-AS -166.1710 77PHB-CS -332.3420 77PHC-BS +332.3420 77PHC-AS +166.1710 77PHA-CS -166.1710 77PHA-BR +153.2873 77PHB-AR -153.2873 77PHB-CR -306.5746 77PHC-BR +306.5746 77PHC-AR +153.2873 77PHA-CR -153.2873 77FIRE -1.0 BLANK card ending TACS initial conditions (and also all TACS data) C C 345678901234567890123456789012345678901234567890123456789012345678901234567890 C AC CIRCUIT OF POLE 4, CELILO C CONSISTS OF 5TH,7TH,11TH,13TH, AND HIGH-PASS FILTERS, C CCT BREAKERS FOR EACH 3-PHASE BRIDGE AND 1 MILE (1.6 KM) OF 230 KV LINE. C 0GENAS BIGEA4 .01 0GENBS BIGEB4GENAS BIGEA4 0GENCS BIGEC4GENAS BIGEA4 0BIGEA4 .86 114. 2.46 0BIGEB4 BIGEA4 0BIGEC4 BIGEA4 0 BIGEA4 1.18 114. 1.28 0 BIGEB4 BIGEA4 0 BIGEC4 BIGEA4 0BIGEA413AC4 .02 1.56 0BIGEB413BC4 BIGEA413AC4 0BIGEC413CC4 BIGEA413AC4 013AC4 HPAC4 40. 0HPAC4 13AC4 5.5 013BC4 HPBC4 13AC4 HPAC4 0HPBC4 13BC4 HPAC4 13AC4 013CC4 HPCC4 13AC4 HPAC4 0HPCC4 13CC4 HPAC4 13AC4 0HPAC4 3.9 0HPBC4 HPAC4 0HPCC4 HPAC4 0 13AC4 .93 44. .95 0 13BC4 13AC4 0 13CC4 13AC4 013AC4 11AC4 GENAS BIGEA4 013BC4 11BC4 GENAS BIGEA4 013CC4 11CC4 GENAS BIGEA4 011AC4 .82 44. 1.33 011BC4 11AC4 011CC4 11AC4 011AC4 AC6 GENAS BIGEA4 011BC4 BC6 GENAS BIGEA4 011CC4 CC6 GENAS BIGEA4 011AC4 AC4 GENAS BIGEA4 011BC4 BC4 GENAS BIGEA4 011CC4 CC4 GENAS BIGEA4 011AC4 AC2 GENAS BIGEA4 011BC4 BC2 GENAS BIGEA4 011CC4 CC2 GENAS BIGEA4 C C -------------------------------- GROUP 6, CELILO ---------------------- C ####### ANODE REACTORS ############### 0VI-1 VICA 3000. 0VICA VI-1 1.0 0VI-3 VICB VI-1 VICA 0VICB VI-3 VICA VI-1 0VI-5 VICC VI-1 VICA 0VICC VI-5 VICA VI-1 0VI-4 AN6C VI-1 VICA 0AN6C VI-4 VICA VI-1 0VI-6 AN6C VI-1 VICA 0AN6C VI-6 VICA VI-1 0VI-2 AN6C VI-1 VICA 0AN6C VI-2 VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN6C BYP6C 300. 0BYP6C AN6C 1.0 C //////////////////////// VALVE DAMPERS ///////////////////// 0CEL4 VDA6 1200. .1 0CEL4 VDB6 CEL4 VDA6 0CEL4 VDC6 CEL4 VDA6 0AN6C VDA6 CEL4 VDA6 0AN6C VDB6 CEL4 VDA6 0AN6C VDC6 CEL4 VDA6 C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$ 0VDA6 VICA 1000. 0VICA VDA6 .25 0VDB6 VICB VDA6 VICA 0VICB VDB6 VICA VDA6 0VDC6 VICC VDA6 VICA 0VICC VDC6 VICA VDA6 0CEL4 CTH6C VDA6 VICA 0CTH6C CEL4 VICA VDA6 C C * * * * * Y-DELTA XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AC6Y TXA6 .203 .7 0BC6Y TXB6 AC6Y TXA6 0CC6Y TXC6 AC6Y TXA6 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXA6C VDA6 .202 .717 0TXB6C VDB6 TXA6C VDA6 0TXC6C VDC6 TXA6C VDA6 C C <<<<<<<<<<<<<<< Y-DELTA TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXA6 99300. 52TXA6C TXB6C 82715. 68946. 51TXB6 TXA6 52TXB6C TXC6C 51TXC6 TXA6 52TXC6C TXA6C C C C -------------------------------- GROUP 4, CELILO ---------------------- C ####### ANODE REACTORS ############### 0IV-1 IVCA VI-1 VICA 0IVCA IV-1 VICA VI-1 0IV-3 IVCB VI-1 VICA 0IVCB IV-3 VICA VI-1 0IV-5 IVCC VI-1 VICA 0IVCC IV-5 VICA VI-1 0IV-4 AN4C VI-1 VICA 0AN4C IV-4 VICA VI-1 0IV-6 AN4C VI-1 VICA 0AN4C IV-6 VICA VI-1 0IV-2 AN4C VI-1 VICA 0AN4C IV-2 VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN4C BYP4C AN6C BYP6C 0BYP4C AN4C BYP6C AN6C C //////////////////////// VALVE DAMPERS ///////////////////// 0AN6C VDA4 CEL4 VDA6 0AN6C VDB4 CEL4 VDA6 0AN6C VDC4 CEL4 VDA6 0AN4C VDA4 CEL4 VDA6 0AN4C VDB4 CEL4 VDA6 0AN4C VDC4 CEL4 VDA6 C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$ 0VDA4 IVCA VDA6 VICA 0IVCA VDA4 VICA VDA6 0VDB4 IVCB VDA6 VICA 0IVCB VDB4 VICA VDA6 0VDC4 IVCC VDA6 VICA 0IVCC VDC4 VICA VDA6 0AN6C CTH4C VDA6 VICA 0CTH4C AN6C VICA VDA6 C C * * * * * Y-Y XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AC4Y TXA4 .22 2.07 0BC4Y TXB4 AC4Y TXA4 0CC4Y TXC4 AC4Y TXA4 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXA4C VDA4 .07 .8343 0TXB4C VDB4 TXA4C VDA4 0TXC4C VDC4 TXA4C VDA4 C C <<<<<<<<<<<<<<< Y-Y TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXA4 99300. 52TXA4C NS1 47951. 23174. 51TXB4 TXA4 52TXB4C NS1 51TXC4 TXA4 52TXC4C NS1 C ------------------------- ISOLATING Y-Y XFMR FROM GROUND ----------- 0NS1 1.E+10 C ------------------------------------------------------------------------- C -------------------------------- GROUP 2, CELILO ---------------------- C ####### ANODE REACTORS ############### 0II-1 IICA VI-1 VICA 0IICA II-1 VICA VI-1 0II-3 IICB VI-1 VICA 0IICB II-3 VICA VI-1 0II-5 IICC VI-1 VICA 0IICC II-5 VICA VI-1 0II-4 AN2C VI-1 VICA 0AN2C II-4 VICA VI-1 0II-6 AN2C VI-1 VICA 0AN2C II-6 VICA VI-1 0II-2 AN2C VI-1 VICA 0AN2C II-2 VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN2C BYP2C AN6C BYP6C 0BYP2C AN2C BYP6C AN6C C //////////////////////// VALVE DAMPERS ///////////////////// 0AN4C VDA2 CEL4 VDA6 0AN4C VDB2 CEL4 VDA6 0AN4C VDC2 CEL4 VDA6 0AN2C VDA2 CEL4 VDA6 0AN2C VDB2 CEL4 VDA6 0AN2C VDC2 CEL4 VDA6 C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$ 0VDA2 IICA VDA6 VICA 0IICA VDA2 VICA VDA6 0VDB2 IICB VDA6 VICA 0IICB VDB2 VICA VDA6 0VDC2 IICC VDA6 VICA 0IICC VDC2 VICA VDA6 0AN4C CTH2C VDA6 VICA 0CTH2C AN4C VICA VDA6 C C * * * * * Y-Y XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AC2Y TXA2 AC4Y TXA4 0BC2Y TXB2 AC4Y TXA4 0CC2Y TXC2 AC4Y TXA4 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXA2C VDA2 TXA4C VDA4 0TXB2C VDB2 TXA4C VDA4 0TXC2C VDC2 TXA4C VDA4 C C <<<<<<<<<<<<<<< Y-Y TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXA2 TXA4 52TXA2C NS2 51TXB2 TXA4 52TXB2C NS2 51TXC2 TXA4 52TXC2C NS2 C ------------------------- ISOLATING Y-Y XFMR FROM GROUND ----------- 0NS2 NS1 C C ------------------------------------------------------------------------- C GROUND ELECTRODE CIRCUIT, CELILO 0AN2C GR1C 1.0 0GR1C ELEC1 AN2C GR1C 0GR1C .06 0ELEC1 GR2C AN2C GR1C 0GR2C CELGR AN2C GR1C 0GR2C GR1C 0ELEC1 .43 22. C ------------------------------------------------------------------------- C AC CIRCUIT OF POLE 3, CELILO C CONSISTS OF 5TH,7TH,11TH,13TH, AND HIGH-PASS FILTERS, C CCT BREAKERS FOR EACH 3-PHASE BRIDGE AND 1 MILE (1.6 KM) OF 230 KV LINE. C 0GENAS BIGEA3GENAS BIGEA4 0GENBS BIGEB3GENAS BIGEA4 0GENCS BIGEC3GENAS BIGEA4 0BIGEA3 BIGEA4 0BIGEB3 BIGEA4 0BIGEC3 BIGEA4 0 BIGEA3 BIGEA4 0 BIGEB3 BIGEA4 0 BIGEC3 BIGEA4 0BIGEA313AC3 BIGEA413AC4 0BIGEB313BC3 BIGEA413AC4 0BIGEC313CC3 BIGEA413AC4 013AC3 HPAC3 13AC4 HPAC4 0HPAC3 13AC3 HPAC4 13AC4 013BC3 HPBC3 13AC4 HPAC4 0HPBC3 13BC3 HPAC4 13AC4 013CC3 HPCC3 13AC4 HPAC4 0HPCC3 13CC3 HPAC4 13AC4 0HPAC3 HPAC4 0HPBC3 HPAC4 0HPCC3 HPAC4 0 13AC3 13AC4 0 13BC3 13AC4 0 13CC3 13AC4 013AC3 11AC3 GENAS BIGEA4 013BC3 11BC3 GENAS BIGEA4 013CC3 11CC3 GENAS BIGEA4 011AC3 11AC4 011BC3 11AC4 011CC3 11AC4 011AC3 AC1 GENAS BIGEA4 011BC3 BC1 GENAS BIGEA4 011CC3 CC1 GENAS BIGEA4 011AC3 AC3 GENAS BIGEA4 011BC3 BC3 GENAS BIGEA4 011CC3 CC3 GENAS BIGEA4 011AC3 AC5 GENAS BIGEA4 011BC3 BC5 GENAS BIGEA4 011CC3 CC5 GENAS BIGEA4 C C -------------------------------- GROUP 1, CELILO ---------------------- C ####### ANODE REACTORS ############### 0I-1 ICA VI-1 VICA 0ICA I-1 VICA VI-1 0I-3 ICB VI-1 VICA 0ICB I-3 VICA VI-1 0I-5 ICC VI-1 VICA 0ICC I-5 VICA VI-1 0I-4 AN1C VI-1 VICA 0AN1C I-4 VICA VI-1 0I-6 AN1C VI-1 VICA 0AN1C I-6 VICA VI-1 0I-2 AN1C VI-1 VICA 0AN1C I-2 VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN1C BYP1C AN6C BYP6C 0BYP1C AN1C BYP6C AN6C C //////////////////////// VALVE DAMPERS ///////////////////// 0CELGR VDA1 CEL4 VDA6 0CELGR VDB1 CEL4 VDA6 0CELGR VDC1 CEL4 VDA6 0AN1C VDA1 CEL4 VDA6 0AN1C VDB1 CEL4 VDA6 0AN1C VDC1 CEL4 VDA6 C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$ 0VDA1 ICA VDA6 VICA 0ICA VDA1 VICA VDA6 0VDB1 ICB VDA6 VICA 0ICB VDB1 VICA VDA6 0VDC1 ICC VDA6 VICA 0ICC VDC1 VICA VDA6 0CELGR CTH1C VDA6 VICA 0CTH1C CELGR VICA VDA6 C C !!!!!!!!!!!!!!!!!!!!! SYMMETRY !!!!!!!!!!!!!!!! 0AN5C CEL3 .01 C !!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!! C * * * * * Y-DELTA XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AC1Y TXA1 AC6Y TXA6 0BC1Y TXB1 AC6Y TXA6 0CC1Y TXC1 AC6Y TXA6 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXA1C VDA1 TXA6C VDA6 0TXB1C VDB1 TXA6C VDA6 0TXC1C VDC1 TXA6C VDA6 C C <<<<<<<<<<<<<<< Y-DELTA TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXA1 TXA6 52TXA1C TXB1C 51TXB1 TXA6 52TXB1C TXC1C 51TXC1 TXA6 52TXC1C TXA1C C -------------------------------- GROUP 3, CELILO ---------------------- C ####### ANODE REACTORS ############### 0III-1 IIICA VI-1 VICA 0IIICA III-1 VICA VI-1 0III-3 IIICB VI-1 VICA 0IIICB III-3 VICA VI-1 0III-5 IIICC VI-1 VICA 0IIICC III-5 VICA VI-1 0III-4 AN3C VI-1 VICA 0AN3C III-4 VICA VI-1 0III-6 AN3C VI-1 VICA 0AN3C III-6 VICA VI-1 0III-2 AN3C VI-1 VICA 0AN3C III-2 VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN3C BYP3C AN6C BYP6C 0BYP3C AN3C BYP6C AN6C C //////////////////////// VALVE DAMPERS ///////////////////// 0AN1C VDA3 CEL4 VDA6 0AN1C VDB3 CEL4 VDA6 0AN1C VDC3 CEL4 VDA6 0AN3C VDA3 CEL4 VDA6 0AN3C VDB3 CEL4 VDA6 0AN3C VDC3 CEL4 VDA6 C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$ 0VDA3 IIICA VDA6 VICA 0IIICA VDA3 VICA VDA6 0VDB3 IIICB VDA6 VICA 0IIICB VDB3 VICA VDA6 0VDC3 IIICC VDA6 VICA 0IIICC VDC3 VICA VDA6 0AN1C CTH3C VDA6 VICA 0CTH3C AN1C VICA VDA6 C C * * * * * Y-Y XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AC3Y TXA3 AC4Y TXA4 0BC3Y TXB3 AC4Y TXA4 0CC3Y TXC3 AC4Y TXA4 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXA3C VDA3 TXA4C VDA4 0TXB3C VDB3 TXA4C VDA4 0TXC3C VDC3 TXA4C VDA4 C C <<<<<<<<<<<<<<< Y-Y TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXA3 TXA4 52TXA3C NS3 51TXB3 TXA4 52TXB3C NS3 51TXC3 TXA4 52TXC3C NS3 C ------------------------- ISOLATING Y-Y XFMR FROM GROUND ----------- 0NS3 NS1 C ------------------------------------------------------------------------- C -------------------------------- GROUP 5, CELILO ---------------------- C ####### ANODE REACTORS ############### 0V-1 VCA VI-1 VICA 0VCA V-1 VICA VI-1 0V-3 VCB VI-1 VICA 0VCB V-3 VICA VI-1 0V-5 VCC VI-1 VICA 0VCC V-5 VICA VI-1 0V-4 AN5C VI-1 VICA 0AN5C V-4 VICA VI-1 0V-6 AN5C VI-1 VICA 0AN5C V-6 VICA VI-1 0V-2 AN5C VI-1 VICA 0AN5C V-2 VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN5C BYP5C AN6C BYP6C 0BYP5C AN5C BYP6C AN6C C //////////////////////// VALVE DAMPERS ///////////////////// 0AN3C VDA5 CEL4 VDA6 0AN3C VDB5 CEL4 VDA6 0AN3C VDC5 CEL4 VDA6 0AN5C VDA5 CEL4 VDA6 0AN5C VDB5 CEL4 VDA6 0AN5C VDC5 CEL4 VDA6 C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$ 0VDA5 VCA VDA6 VICA 0VCA VDA5 VICA VDA6 0VDB5 VCB VDA6 VICA 0VCB VDB5 VICA VDA6 0VDC5 VCC VDA6 VICA 0VCC VDC5 VICA VDA6 0AN3C CTH5C VDA6 VICA 0CTH5C AN3C VICA VDA6 C C * * * * * Y-DELTA XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AC5Y TXA5 AC6Y TXA6 0BC5Y TXB5 AC6Y TXA6 0CC5Y TXC5 AC6Y TXA6 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXA5C VDA5 TXA6C VDA6 0TXB5C VDB5 TXA6C VDA6 0TXC5C VDC5 TXA6C VDA6 C C <<<<<<<<<<<<<<< Y-DELTA TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXA5 TXA6 52TXA5C TXB5C 51TXB5 TXA6 52TXB5C TXC5C 51TXC5 TXA6 52TXC5C TXA5C C C C SMOOTHING REACTOR, CELILO, POLE 4 =================== 0CEL4 S4- 500. 1 C ============================ C DC FILTERS, CELILO, POLE 4 C CONSISTING OF 6TH AND HIGH-PASS FILTERS C 0S4- ELEC1 6.3 280. .7 0S4- HP4C 2.5 0HP4C ELEC1 100. 0ELEC1 HP4C 7.0 C =========================================== C SURGE CAPACITOR, CELILO, POLE 4 0S4- SURC4 .7 0SURC4 5. 0SURC4 ELEC1 GENAS BIGEA4 C ============================================================ C SMOOTHING REACTOR, CELILO, POLE 3 =================== 0CEL3 A3+ CEL4 S4- C ============================ C DC FILTERS, CELILO, POLE 3 C CONSISTING OF 6TH AND HIGH-PASS FILTERS 0A3+ ELEC1 S4- ELEC1 0A3+ HP3C S4- HP4C 0HP3C ELEC1 HP4C ELEC1 0ELEC1 HP3C ELEC1 HP4C C =========================================== C SURGE CAPACITOR, CELILO, POLE 3 0A3+ SURC3 S4- SURC4 0SURC3 SURC4 0SURC3 ELEC1 GENAS BIGEA4 C ============================================================ C C ************************************************************************* C CELILO - SYLMAR LINE, 846 MILES (1362 KM) C ************************************************************************* C -1S4- 4-282 .02 6.56 .0142 282. -2A3+ 3-282 .02 1.56 .0192 282. -14-282 4-564 S4- 4-282 -23-282 3-564 -14-564 R4- S4- 4-282 -23-564 R3+ C C C SMOOTHING REACTOR, SYLMAR, POLE 4 =================== 0AN6S SYL4 CEL4 S4- C ============================ C DC FILTERS, SYLMAR, POLE 4 C CONSISTING OF 6TH AND HIGH-PASS FILTERS C 0R4- ELEC2 S4- ELEC1 0R4- HP4 S4- HP4C 0HP4 ELEC2 HP4C ELEC1 0ELEC2 HP4 ELEC1 HP4C C =========================================== C SURGE CAPACITOR, SYLMAR, POLE 4 0R4- SURS4 S4- SURC4 0SURS4 SURC4 0SURS4 ELEC2 GENAS BIGEA4 C ============================================================ C SMOOTHING REACTOR, SYLMAR, POLE 3 =================== 0CTH5S SYL3 CEL4 S4- C ============================ C DC FILTERS, SYLMAR, POLE 3 C CONSISTING OF 6TH AND HIGH-PASS FILTERS C 0R3+ ELEC2 S4- ELEC1 0R3+ HP3 S4- HP4C 0HP3 ELEC2 HP4C ELEC1 0ELEC2 HP3 ELEC1 HP4C C =========================================== C SURGE CAPACITOR, SYLMAR, POLE 3 0R3+ SURS3 S4- SURC4 0SURS3 SURC4 0SURS3 ELEC2 GENAS BIGEA4 C ============================================================ C C LC CIRCUIT NEAR SMOOTHING REACTOR ON LINE AT SYLMAR ONLY .......... C 0R4- CAP4 GENAS BIGEA4 0CAP4 .06 0CAP4 SYL4 1.0 0R3+ CAP3 GENAS BIGEA4 0CAP3 CAP4 0CAP3 SYL3 CAP4 SYL4 C C C AC CIRCUIT OF POLE 4, SYLMAR C CONSISTS OF 5TH,7TH,11TH,13TH, AND HIGH-PASS FILTERS AND C CCT BREAKERS FOR EACH 3-PHASE BRIDGE. C 0AS6 11AS4 GENAS BIGEA4 0BS6 11BS4 GENAS BIGEA4 0CS6 11CS4 GENAS BIGEA4 0AS4 11AS4 GENAS BIGEA4 0BS4 11BS4 GENAS BIGEA4 0CS4 11CS4 GENAS BIGEA4 0AS2 11AS4 GENAS BIGEA4 0BS2 11BS4 GENAS BIGEA4 0CS2 11CS4 GENAS BIGEA4 011AS4 L1A 1. 011BS4 L1B 11AS4 L1A 011CS4 L1C 11AS4 L1A 0L1A A57-4 GENAS BIGEA4 0L1B B57-4 GENAS BIGEA4 0L1C C57-4 GENAS BIGEA4 0A57-4 4. 214. 1.32 0B57-4 A57-4 0C57-4 A57-4 0 A57-4 5.7 214. .67 0 B57-4 A57-4 0 C57-4 A57-4 0A57-4 A13-4 GENAS BIGEA4 0B57-4 B13-4 GENAS BIGEA4 0C57-4 C13-4 GENAS BIGEA4 0A13-4 1.8 44. 1.33 0B13-4 A13-4 0C13-4 A13-4 0 A13-4 2.2 44. .95 0 B13-4 A13-4 0 C13-4 A13-4 0A13-4 A4 34.5 0A4 A13-4 4.8 0A4 4.5 0B13-4 B4 A13-4 A4 0B4 B13-4 A4 A13-4 0B4 A4 0C13-4 C4 A13-4 A4 0C4 C13-4 A4 A13-4 0C4 A4 0A13-4 GENAR GENAS BIGEA4 0B13-4 GENBR GENAS BIGEA4 0C13-4 GENCR GENAS BIGEA4 C C ---------------------------------- GROUP 6, SYLMAR -------------------- C ####### ANODE REACTORS ############### 0AN6S 6-1 VI-1 VICA 06-1 AN6S VICA VI-1 0AN6S 6-3 VI-1 VICA 06-3 AN6S VICA VI-1 0AN6S 6-5 VI-1 VICA 06-5 AN6S VICA VI-1 06SA 6-4 VI-1 VICA 06-4 6SA VICA VI-1 06SB 6-6 VI-1 VICA 06-6 6SB VICA VI-1 06SC 6-2 VI-1 VICA 06-2 6SC VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN6S BYP6S AN6C BYP6C 0BYP6S AN6S BYP6C AN6C C //////////////////////// VALVE DAMPERS ///////////////////// 0AN6S 6SA CEL4 VDA6 0AN6S 6SB CEL4 VDA6 0AN6S 6SC CEL4 VDA6 0CTH6S 6SA CEL4 VDA6 0CTH6S 6SB CEL4 VDA6 0CTH6S 6SC CEL4 VDA6 C $$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$ NO BUSHING REACTORS AT SYLMAR C C * * * * * Y-DELTA XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AS6Y TXS6A AC6Y TXA6 0BS6Y TXS6B AC6Y TXA6 0CS6Y TXS6C AC6Y TXA6 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXSA6 6SA TXA6C VDA6 0TXSB6 6SB TXA6C VDA6 0TXSC6 6SC TXA6C VDA6 C C <<<<<<<<<<<<<<< Y-DELTA TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXS6A TXA6 52TXSA6 TXSB6 51TXS6B TXA6 52TXSB6 TXSC6 51TXS6C TXA6 52TXSC6 TXSA6 C C C RESISTOR SEPARATING VALVE GROUPS AT SYLMAR ONLY! 0CTH6S AN4S .01 C C -------------------------------- GROUP 4, SYLMAR ---------------------- C ####### ANODE REACTORS ############### 0AN4S 4-1 VI-1 VICA 04-1 AN4S VICA VI-1 0AN4S 4-3 VI-1 VICA 04-3 AN4S VICA VI-1 0AN4S 4-5 VI-1 VICA 04-5 AN4S VICA VI-1 04SA 4-4 VI-1 VICA 04-4 4SA VICA VI-1 04SB 4-6 VI-1 VICA 04-6 4SB VICA VI-1 04SC 4-2 VI-1 VICA 04-2 4SC VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN4S BYP4S AN6C BYP6C 0BYP4S AN4S BYP6C AN6C C //////////////////////// VALVE DAMPERS ///////////////////// 0AN4S 4SA CEL4 VDA6 0AN4S 4SB CEL4 VDA6 0AN4S 4SC CEL4 VDA6 0CTH4S 4SA CEL4 VDA6 0CTH4S 4SB CEL4 VDA6 0CTH4S 4SC CEL4 VDA6 C $$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$ NO BUSHING REACTORS AT SYLMAR C C * * * * * Y-Y XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AS4Y TXS4A AC4Y TXA4 0BS4Y TXS4B AC4Y TXA4 0CS4Y TXS4C AC4Y TXA4 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXSA4 4SA TXA4C VDA4 0TXSB4 4SB TXA4C VDA4 0TXSC4 4SC TXA4C VDA4 C C <<<<<<<<<<<<<<< Y-Y TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXS4A TXA4 52TXSA4 NR1 51TXS4B TXA4 52TXSB4 NR1 51TXS4C TXA4 52TXSC4 NR1 C ------------------------- ISOLATING Y-Y XFMR FROM GROUND ----------- 0NR1 NS1 C ------------------------------------------------------------------------- C C RESISTOR SEPARATING VALVE GROUPS AT SYLMAR ONLY! 0CTH4S AN2S .01 C C -------------------------------- GROUP 2, SYLMAR ---------------------- C ####### ANODE REACTORS ############### 0AN2S 2-1 VI-1 VICA 02-1 AN2S VICA VI-1 0AN2S 2-3 VI-1 VICA 02-3 AN2S VICA VI-1 0AN2S 2-5 VI-1 VICA 02-5 AN2S VICA VI-1 02SA 2-4 VI-1 VICA 02-4 2SA VICA VI-1 02SB 2-6 VI-1 VICA 02-6 2SB VICA VI-1 02SC 2-2 VI-1 VICA 02-2 2SC VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN2S BYP2S AN6C BYP6C 0BYP2S AN2S BYP6C AN6C C //////////////////////// VALVE DAMPERS ///////////////////// 0AN2S 2SA CEL4 VDA6 0AN2S 2SB CEL4 VDA6 0AN2S 2SC CEL4 VDA6 0CTH2S 2SA CEL4 VDA6 0CTH2S 2SB CEL4 VDA6 0CTH2S 2SC CEL4 VDA6 C $$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$ NO BUSHING REACTORS AT SYLMAR C C * * * * * Y-Y XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AS2Y TXS2A AC4Y TXA4 0BS2Y TXS2B AC4Y TXA4 0CS2Y TXS2C AC4Y TXA4 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXSA2 2SA TXA4C VDA4 0TXSB2 2SB TXA4C VDA4 0TXSC2 2SC TXA4C VDA4 C C <<<<<<<<<<<<<<< Y-Y TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXS2A TXA4 52TXSA2 NR2 51TXS2B TXA4 52TXSB2 NR2 51TXS2C TXA4 52TXSC2 NR2 C ------------------------- ISOLATING Y-Y XFMR FROM GROUND ----------- 0NR2 NS1 C ------------------------------------------------------------------------- C C ------------------------------------------------------------------------- C GROUND ELECTRODE CIRCUIT, SYLMAR 0CTH2S GR1S AN2C GR1C 0GR1S ELEC2 AN2C GR1C 0GR1S GR1C 0ELEC2 GR2S AN2C GR1C 0GR2S AN1S AN2C GR1C 0GR2S GR1C 0ELEC2 ELEC1 C ------------------------------------------------------------------------- C C AC CIRCUIT OF POLE 3, SYLMAR C CONSISTS OF 5TH,7TH,11TH,13TH, AND HIGH-PASS FILTERS AND C CCT BREAKERS FOR EACH 3-PHASE BRIDGE. C 0AS1 11AS3 GENAS BIGEA4 0BS1 11BS3 GENAS BIGEA4 0CS1 11CS3 GENAS BIGEA4 0AS3 11AS3 GENAS BIGEA4 0BS3 11BS3 GENAS BIGEA4 0CS3 11CS3 GENAS BIGEA4 0AS5 11AS3 GENAS BIGEA4 0BS5 11BS3 GENAS BIGEA4 0CS5 11CS3 GENAS BIGEA4 011AS3 L2A 11AS4 L1A 011BS3 L2B 11AS4 L1A 011CS3 L2C 11AS4 L1A 0L2A A57-3 GENAS BIGEA4 0L2B B57-3 GENAS BIGEA4 0L2C C57-3 GENAS BIGEA4 0A57-3 A57-4 0B57-3 A57-4 0C57-3 A57-4 0 A57-3 A57-4 0 B57-3 A57-4 0 C57-3 A57-4 0A57-3 A13-3 GENAS BIGEA4 0B57-3 B13-3 GENAS BIGEA4 0C57-3 C13-3 GENAS BIGEA4 0A13-3 A13-4 0B13-3 A13-4 0C13-3 A13-4 0 A13-3 A13-4 0 B13-3 A13-4 0 C13-3 A13-4 0A13-3 A3 A13-4 A4 0A3 A13-3 A4 A13-4 0A3 A4 0B13-3 B3 A13-4 A4 0B3 B13-3 A4 A13-4 0B3 A4 0C13-3 C3 A13-4 A4 0C3 C13-3 A4 A13-4 0C3 A4 0A13-3 GENAR GENAS BIGEA4 0B13-3 GENBR GENAS BIGEA4 0C13-3 GENCR GENAS BIGEA4 C C ---------------------------------- GROUP 1, SYLMAR -------------------- C ####### ANODE REACTORS ############### 0AN1S 1-1 VI-1 VICA 01-1 AN1S VICA VI-1 0AN1S 1-3 VI-1 VICA 01-3 AN1S VICA VI-1 0AN1S 1-5 VI-1 VICA 01-5 AN1S VICA VI-1 01SA 1-4 VI-1 VICA 01-4 1SA VICA VI-1 01SB 1-6 VI-1 VICA 01-6 1SB VICA VI-1 01SC 1-2 VI-1 VICA 01-2 1SC VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN1S BYP1S AN6C BYP6C 0BYP1S AN1S BYP6C AN6C C //////////////////////// VALVE DAMPERS ///////////////////// 0AN1S 1SA CEL4 VDA6 0AN1S 1SB CEL4 VDA6 0AN1S 1SC CEL4 VDA6 0CTH1S 1SA CEL4 VDA6 0CTH1S 1SB CEL4 VDA6 0CTH1S 1SC CEL4 VDA6 C $$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$ NO BUSHING REACTORS AT SYLMAR C C * * * * * Y-DELTA XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AS1Y TXS1A AC6Y TXA6 0BS1Y TXS1B AC6Y TXA6 0CS1Y TXS1C AC6Y TXA6 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXSA1 1SA TXA6C VDA6 0TXSB1 1SB TXA6C VDA6 0TXSC1 1SC TXA6C VDA6 C C <<<<<<<<<<<<<<< Y-DELTA TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXS1A TXA6 52TXSA1 TXSB1 51TXS1B TXA6 52TXSB1 TXSC1 51TXS1C TXA6 52TXSC1 TXSA1 C C C RESISTOR SEPARATING VALVE GROUPS AT SYLMAR ONLY! 0CTH1S AN3S .01 C C -------------------------------- GROUP 3, SYLMAR ---------------------- C ####### ANODE REACTORS ## 0AN3S 3-1 VI-1 VICA 03-1 AN3S VICA VI-1 0AN3S 3-3 VI-1 VICA 03-3 AN3S VICA VI-1 0AN3S 3-5 VI-1 VICA 03-5 AN3S VICA VI-1 03SA 3-4 VI-1 VICA 03-4 3SA VICA VI-1 03SB 3-6 VI-1 VICA 03-6 3SB VICA VI-1 03SC 3-2 VI-1 VICA 03-2 3SC VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN3S BYP3S AN6C BYP6C 0BYP3S AN3S BYP6C AN6C C //////////////////////// VALVE DAMPERS ///////////////////// 0AN3S 3SA CEL4 VDA6 0AN3S 3SB CEL4 VDA6 0AN3S 3SC CEL4 VDA6 0CTH3S 3SA CEL4 VDA6 0CTH3S 3SB CEL4 VDA6 0CTH3S 3SC CEL4 VDA6 C $$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$ NO BUSHING REACTORS AT SYLMAR C C * * * * * Y-Y XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AS3Y TXS3A AC4Y TXA4 0BS3Y TXS3B AC4Y TXA4 0CS3Y TXS3C AC4Y TXA4 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXSA3 3SA TXA4C VDA4 0TXSB3 3SB TXA4C VDA4 0TXSC3 3SC TXA4C VDA4 C C <<<<<<<<<<<<<<< Y-Y TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXS3A TXA4 52TXSA3 NR3 51TXS3B TXA4 52TXSB3 NR3 51TXS3C TXA4 52TXSC3 NR3 C ------------------------- ISOLATING Y-Y XFMR FROM GROUND ----------- 0NR3 NS1 C ------------------------------------------------------------------------- C C RESISTOR SEPARATING VALVE GROUPS AT SYLMAR ONLY! 0CTH3S AN5S .01 C ---------------------------------- GROUP 5, SYLMAR -------------------- C ####### ANODE REACTORS ############### 0AN5S 5-1 VI-1 VICA 05-1 AN5S VICA VI-1 0AN5S 5-3 VI-1 VICA 05-3 AN5S VICA VI-1 0AN5S 5-5 VI-1 VICA 05-5 AN5S VICA VI-1 05SA 5-4 VI-1 VICA 05-4 5SA VICA VI-1 05SB 5-6 VI-1 VICA 05-6 5SB VICA VI-1 05SC 5-2 VI-1 VICA 05-2 5SC VICA VI-1 C ###################### BYPASS ANODE REACTOR ############## 0AN5S BYP5S AN6C BYP6C 0BYP5S AN5S BYP6C AN6C C //////////////////////// VALVE DAMPERS ///////////////////// 0AN5S 5SA CEL4 VDA6 0AN5S 5SB CEL4 VDA6 0AN5S 5SC CEL4 VDA6 0CTH5S 5SA CEL4 VDA6 0CTH5S 5SB CEL4 VDA6 0CTH5S 5SC CEL4 VDA6 C $$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$ NO BUSHING REACTORS AT SYLMAR C C * * * * * Y-DELTA XFMR LEAKAGE IMPEDANCE * * * * * * * * C +++++++++++ A.C. SOURCE SIDE +++++++++++ 0AS5Y TXS5A AC6Y TXA6 0BS5Y TXS5B AC6Y TXA6 0CS5Y TXS5C AC6Y TXA6 C +++++++++++ D.C. CONVERTER SIDE +++++++++ 0TXSA5 5SA TXA6C VDA6 0TXSB5 5SB TXA6C VDA6 0TXSC5 5SC TXA6C VDA6 C C <<<<<<<<<<<<<<< Y-DELTA TRANSFORMER >>>>>>>>>>>>>>>>>>>>> 51TXS5A TXA6 52TXSA5 TXSB5 51TXS5B TXA6 52TXSB5 TXSC5 51TXS5C TXA6 52TXSC5 TXSA5 C C $$$$$$$$$$$$$$$$$$$$$$$$$ LEAKAGE CAPACITANCE ACROSS VALVES C 0VICA CTH6C .001 0VICB CTH6C VICA CTH6C 0VICC CTH6C VICA CTH6C 0AN6C VICA VICA CTH6C 0AN6C VICB VICA CTH6C 0AN6C VICC VICA CTH6C 0IVCA CTH4C VICA CTH6C 0IVCB CTH4C VICA CTH6C 0IVCC CTH4C VICA CTH6C 0AN4C IVCA VICA CTH6C 0AN4C IVCB VICA CTH6C 0AN4C IVCC VICA CTH6C 0IICA CTH2C VICA CTH6C 0IICB CTH2C VICA CTH6C 0IICC CTH2C VICA CTH6C 0AN2C IICA VICA CTH6C 0AN2C IICB VICA CTH6C 0AN2C IICC VICA CTH6C 0ICA CTH1C VICA CTH6C 0ICB CTH1C VICA CTH6C 0ICC CTH1C VICA CTH6C 0AN1C ICA VICA CTH6C 0AN1C ICB VICA CTH6C 0AN1C ICC VICA CTH6C 0IIICA CTH3C VICA CTH6C 0IIICB CTH3C VICA CTH6C 0IIICC CTH3C VICA CTH6C 0AN3C IIICA VICA CTH6C 0AN3C IIICB VICA CTH6C 0AN3C IIICC VICA CTH6C 0VCA CTH5C VICA CTH6C 0VCB CTH5C VICA CTH6C 0VCC CTH5C VICA CTH6C 0AN5C VCA VICA CTH6C 0AN5C VCB VICA CTH6C 0AN5C VCC VICA CTH6C 06SA CTH6S VICA CTH6C 06SB CTH6S VICA CTH6C 06SC CTH6S VICA CTH6C 0AN6S 6SA VICA CTH6C 0AN6S 6SB VICA CTH6C 0AN6S 6SC VICA CTH6C 04SA CTH4S VICA CTH6C 04SB CTH4S VICA CTH6C 04SC CTH4S VICA CTH6C 0AN4S 4SA VICA CTH6C 0AN4S 4SB VICA CTH6C 0AN4S 4SC VICA CTH6C 02SA CTH2S VICA CTH6C 02SB CTH2S VICA CTH6C 02SC CTH2S VICA CTH6C 0AN2S 2SA VICA CTH6C 0AN2S 2SB VICA CTH6C 0AN2S 2SC VICA CTH6C 01SA CTH1S VICA CTH6C 01SB CTH1S VICA CTH6C 01SC CTH1S VICA CTH6C 0AN1S 1SA VICA CTH6C 0AN1S 1SB VICA CTH6C 0AN1S 1SC VICA CTH6C 03SA CTH3S VICA CTH6C 03SB CTH3S VICA CTH6C 03SC CTH3S VICA CTH6C 0AN3S 3SA VICA CTH6C 0AN3S 3SB VICA CTH6C 0AN3S 3SC VICA CTH6C 05SA CTH5S VICA CTH6C 05SB CTH5S VICA CTH6C 05SC CTH5S VICA CTH6C 0AN5S 5SA VICA CTH6C 0AN5S 5SB VICA CTH6C 0AN5S 5SC VICA CTH6C BLANK card ending electric network branch cards C ((((((((((( BRIDGE CIRCUIT BREAKERS, CELILO )))))))))))))))))))) AC6 AC6Y -10.E-3 10.E+3 BC6 BC6Y -10.E-3 10.E+3 CC6 CC6Y -10.E-3 10.E+3 AC4 AC4Y -10.E-3 10.E+3 BC4 BC4Y -10.E-3 10.E+3 CC4 CC4Y -10.E-3 10.E+3 AC2 AC2Y -10.E-3 10.E+3 BC2 BC2Y -10.E-3 10.E+3 CC2 CC2Y -10.E-3 10.E+3 AC1 AC1Y -10.E-3 10.E+3 BC1 BC1Y -10.E-3 10.E+3 CC1 CC1Y -10.E-3 10.E+3 AC3 AC3Y -10.E-3 10.E+3 BC3 BC3Y -10.E-3 10.E+3 CC3 CC3Y -10.E-3 10.E+3 AC5 AC5Y -10.E-3 10.E+3 BC5 BC5Y -10.E-3 10.E+3 CC5 CC5Y -10.E-3 10.E+3 C C ((((((((((( BRIDGE CIRCUIT BREAKERS, SYLMAR )))))))))))))))))))) AS6 AS6Y -10.E-3 10.E+3 BS6 BS6Y -10.E-3 10.E+3 CS6 CS6Y -10.E-3 10.E+3 AS4 AS4Y -10.E-3 10.E+3 BS4 BS4Y -10.E-3 10.E+3 CS4 CS4Y -10.E-3 10.E+3 AS2 AS2Y -10.E-3 10.E+3 BS2 BS2Y -10.E-3 10.E+3 CS2 CS2Y -10.E-3 10.E+3 AS1 AS1Y -10.E-3 10.E+3 BS1 BS1Y -10.E-3 10.E+3 CS1 CS1Y -10.E-3 10.E+3 AS3 AS3Y -10.E-3 10.E+3 BS3 BS3Y -10.E-3 10.E+3 CS3 CS3Y -10.E-3 10.E+3 AS5 AS5Y -10.E-3 10.E+3 BS5 BS5Y -10.E-3 10.E+3 CS5 CS5Y -10.E-3 10.E+3 C [[[[[[[[[[[[[ ]]]]]]]]]]]]]]]]]]]]]]]]]] C VALVES AT CELILO C [[[[[[[[[[[[[ ]]]]]]]]]]]]]]]]]]]]]]]]]] 11VI-1 CTH6C F2SI 1 11VI-3 CTH6C F4SI 1 11VI-5 CTH6C F6SI 13 11VI-4 VICA F5SI 1 11VI-6 VICB F1SI 1 11VI-2 VICC F3SI 1 11IV-1 CTH4C F2SII 1 11IV-3 CTH4C F4SII 1 11IV-5 CTH4C F6SII 1 11IV-4 IVCA F5SII 1 11IV-6 IVCB F1SII 1 11IV-2 IVCC F3SII 1 11II-1 CTH2C F2SII 1 11II-3 CTH2C F4SII 13 11II-5 CTH2C F6SII 1 11II-4 IICA F5SII 1 11II-6 IICB F1SII 1 11II-2 IICC F3SII 1 11I-1 CTH1C F2SI 1 11I-3 CTH1C F4SI 1 11I-5 CTH1C F6SI 1 11I-4 ICA F5SI 1 11I-6 ICB F1SI 1 11I-2 ICC F3SI 1 11III-1 CTH3C F2SII 1 11III-3 CTH3C F4SII 1 11III-5 CTH3C F6SII 1 11III-4 IIICA F5SII 1 11III-6 IIICB F1SII 1 11III-2 IIICC F3SII 1 11V-1 CTH5C F2SI 13 11V-3 CTH5C F4SI 1 11V-5 CTH5C F6SI 1 11V-4 VCA F5SI 1 11V-6 VCB F1SI 1 11V-2 VCC F3SI 1 C [[[[[[[[[[[[[ ]]]]]]]]]]]]]]]]]]]]]]]]]] C BYPASS VALVES C [[[[[[[[[[[[[ ]]]]]]]]]]]]]]]]]]]]]]]]]] 11BYP6C CTH6C FIRE 1 11BYP4C CTH4C FIRE 1 11BYP2C CTH2C FIRE 1 11BYP1C CTH1C FIRE 1 11BYP3C CTH3C FIRE 1 11BYP5C CTH5C FIRE 1 C [[[[[[[[[[[[[ ]]]]]]]]]]]]]]]]]]]]]]]]]] C VALVES AT SYLMAR C [[[[[[[[[[[[[ ]]]]]]]]]]]]]]]]]]]]]]]]]] 116-1 6SA F5RIII 1 116-3 6SB F1RIII 1 116-5 6SC F3RIII 1 116-4 CTH6S F2RIII 1 116-6 CTH6S F4RIII 1 116-2 CTH6S F6RIII 1 114-1 4SA F5RIV 1 114-3 4SB F1RIV 1 114-5 4SC F3RIV 1 114-4 CTH4S F2RIV 13 114-6 CTH4S F4RIV 1 114-2 CTH4S F6RIV 1 112-1 2SA F5RIV 1 112-3 2SB F1RIV 1 112-5 2SC F3RIV 1 112-4 CTH2S F2RIV 1 112-6 CTH2S F4RIV 1 112-2 CTH2S F6RIV 1 111-1 1SA F5RIII 1 111-3 1SB F1RIII 1 111-5 1SC F3RIII 1 111-4 CTH1S F2RIII 1 111-6 CTH1S F4RIII 1 111-2 CTH1S F6RIII 1 113-1 3SA F5RIV 1 113-3 3SB F1RIV 1 113-5 3SC F3RIV 1 113-4 CTH3S F2RIV 1 113-6 CTH3S F4RIV 1 113-2 CTH3S F6RIV 1 115-1 5SA F5RIII 1 115-3 5SB F1RIII 1 115-5 5SC F3RIII 1 115-4 CTH5S F2RIII 1 115-6 CTH5S F4RIII 1 115-2 CTH5S F6RIII 1 C [[[[[[[[[[[[[ ]]]]]]]]]]]]]]]]]]]]]]]]]] C BYPASS VALVES C [[[[[[[[[[[[[ ]]]]]]]]]]]]]]]]]]]]]]]]]] 11BYP6S CTH6S FIRE 1 11BYP4S CTH4S FIRE 1 11BYP2S CTH2S FIRE 1 11BYP1S CTH1S FIRE 1 11BYP3S CTH3S FIRE 1 11BYP5S CTH5S FIRE 1 BLANK card ending switch and valve cards 14GENAS 191.88 60. - 90. -1. 14GENBS 191.88 60. 150. -1. 14GENCS 191.88 60. 30. -1. 14GENAR 177.00 60. - 90. -1. 14GENBR 177.00 60. 150. -1. 14GENCR 177.00 60. 30. -1. BLANK card ending electric network source cards C 5SC 85.161135603237 85.161135845967 .24239772743E-8 C -.0064297994253 -0.0043259 .32104991758E-4 C Total network loss P-loss by summing injections = 9.400745644988E-01 C Output for steady-state phasor switch currents. C Node-K Node-M I-real I-imag I-magn C AC6 AC6Y -0.17537736E-02 -0.15130560E-03 0.17602884E-02 C BC6 BC6Y 0.74585229E-03 0.15944653E-02 0.17602884E-02 C CC6 CC6Y 0.10079213E-02 -0.14431597E-02 0.17602884E-02 C AC4 AC4Y -0.17256830E-02 -0.15254779E-03 0.17324124E-02 S4- 4-282 4-564 R4- A3+ 3-282 3-564 R3+ C Step Time VI-5 II-3 V-1 4-4 S4- 4-282 C CTH6C CTH2C CTH5C CTH4S C C 3-564 R3+ VI-5 II-3 V-1 4-4 C CTH6C CTH2C CTH5C CTH4S C *** Phasor I(0) = -1.7537736E-03 Switch "AC6 " to "AC6Y " closed C *** Phasor I(0) = 7.4585229E-04 Switch "BC6 " to "BC6Y " closed C *** Phasor I(0) = 1.0079213E-03 Switch "CC6 " to "CC6Y " closed C < < Etc. for all closed switches (many) > > C 0 0.0 92.4471816 -80.391986 -46.23358 -.00603248 .3504E-12 .51982E-12 C .11844E-12 -.4208E-12 0.0 0.0 0.0 0.0 C 1 .1E-3 92.3819397 -82.084592 -43.183633 3.21704985 .38869E-12 .49439E-12 C .13314E-12 -.391E-12 0.0 0.0 0.0 0.0 C 20 .002 67.3990315 -90.384846 21.0991082 58.5370378 .22041E-12 -.2248E-13 C .36015E-12 .29277E-12 0.0 0.0 0.0 0.0 C Valve "IV-6 " to "IVCB " closing after 3.90000000E-03 sec. C Valve "II-6 " to "IICB " closing after 3.90000000E-03 sec. C Valve "III-6 " to "IIICB " closing after 3.90000000E-03 sec. C 40 .004 8.90509663 -34.543231 78.5718629 85.3493624 .197975812 .14269E-12 C .89101E-13 .85369E-12 0.0 0.0 0.0 0.0 C Valve "III-6 " to "IIICB " opening after 4.40000000E-03 sec. C Valve "IV-6 " to "IVCB " opening after 4.50000000E-03 sec. C Valve "II-6 " to "IICB " opening after 4.50000000E-03 sec. C Valve "4-3 " to "4SB " closing after 4.70000000E-03 sec. BLANK card ending output variable requests (just node voltages, here) C 1980 .198 46.1602391 -113.62943 -110.38699 0.0 414.910346 406.384239 C -397.18723 -365.84617 0.0 0.0 0.0 .08752568 C Valve "4-4 " to "CTH4S " opening after 1.98200000E-01 sec. C Valve "2-4 " to "CTH2S " opening after 1.98200000E-01 sec. C Valve "3-4 " to "CTH3S " opening after 1.98200000E-01 sec. C Valve "6-6 " to "CTH6S " closing after 1.98500000E-01 sec. C Valve "1-6 " to "CTH1S " closing after 1.98500000E-01 sec. C Valve "5-6 " to "CTH5S " closing after 1.98500000E-01 sec. C Valve "VI-3 " to "CTH6C " opening after 1.98700000E-01 sec. C Valve "I-3 " to "CTH1C " opening after 1.98700000E-01 sec. C Valve "V-3 " to "CTH5C " opening after 1.98700000E-01 sec. C Valve "6-4 " to "CTH6S " opening after 1.99300000E-01 sec. C Valve "IV-6 " to "IVCB " closing after 1.99400000E-01 sec. C Valve "II-6 " to "IICB " closing after 1.99400000E-01 sec. C Valve "III-6 " to "IIICB " closing after 1.99400000E-01 sec. C Valve "1-4 " to "CTH1S " opening after 1.99800000E-01 sec. C Valve "5-4 " to "CTH5S " opening after 1.99800000E-01 sec. C Valve "4-1 " to "4SA " closing after 1.99900000E-01 sec. C Valve "2-1 " to "2SA " closing after 1.99900000E-01 sec. C 2000 0.2 0.0 -122.65729 -136.34202 116.985575 412.121881 399.669877 C -375.18165 -284.40015 1.16803681 0.0 0.0 0.0 C Variable max:135.843884 147.506119 154.898333 219.556654 460.297853 464.200612 C 2.68656079 5.38510251 1.44399474 1.33625405 1.42211178 1.24791434 C Times of max : .0166 .0101 .0064 .0214 .0419 .0399 C .0082 .0083 .1321 .1919 .171 .1761 C Variable min:-240.63646 -239.41651 -276.74318 -148.88559 .18263E-12 -.2867E-12 C -448.03483 -427.31588 -.19958675 -.20362309 -.2353591 -.06790456 C Times of min : .022 .0156 .0119 .0124 .0022 .0049 C .0592 .0413 .0219 .1808 .0118 .0306 PRINTER PLOT 194 2. 0.0 20. VI-5 CTH6C { Axis limits : (-0.052, 1.022) 144 2. 0.0 20. S4- { Axis limits : (0.000, 3.051) BLANK card terminating batch-mode plot cards BEGIN NEW DATA CASE BLANK