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|
BEGIN NEW DATA CASE
C BENCHMARK DC-63
C Third of 4 hvdc simulations follows DC-1 and DC-2, only is much smaller.
C The 2-pole representation of dc-2 is here reduced to one end only. It was
C produced from DC-2 by using two batteries to represent the California end.
C To compare with BPA's EMTP, this would be the 3rd of 4 subcases within DC-1.
C Answers agree with BPA EMTP exactly until there is one time-step difference
C on value closings between step 700 and 800. These should be equally valid:
C Valve "II-2 " to "IICC " closing after 3.82000000E-02 sec.
C Valve "III-2 " to "IIICC " closing after 3.82000000E-02 sec.
C The original BPA VAX EMTP closing times for these were one time step later.
C Appended as a subcase is the 4th hvdc simulation ---- a single-pole version.
USE TPPLOT BEGIN { The first such declaration precedes the data for TPPLOT
SET JULES=0 { Request no lines of labeling from .PL4 file comments (none)
SET MWINDO=0 { Disable automatic windows (here, we define them manually)
SET JULOFF=0 { Zero the Y-pixel offset to allow space for case title (none)
SET NCHSUP=0 { Zero the bytes of super title labeling (no such line wanted)
SET NUMTIT=0 { Zero the # of lines of case title (none wanted)
PL4 { Access to plot of ongoing simulation is via this basic command
RAM { Special new (September, 1994) option to apply TPPLOT to EMTP
# 1 2 3 4 6 8 12 13 14 { Name 9 curves to be plotted, by #
WINDOW { The gateway to window plotting is the window command
W1 { Begin the specification of window number 1 (top of 3 windows)
Voltages somewhere
kV
-200 200 { <CR> is the same as a pair of zeros for Y-min and Y-max: auto scale
2 .5 { Window height and separation in inches, respectively
8 8 { Color numbers of outer and inner grids for window, respectively
2 3 { Number of units on Y-axis and number of Y-axis numbers, respectively
3 { Number of curves to be plotted in this window
1 2 3 { Numbers of curves to be plotted (in order of selection by # command)
W2 { Begin the definition of window number 2 (the middle of 3 windows)
Voltages somewhere else
kV
-500 500 { Non-blank means these are manually-specified Y-axis limits
2 .5 { Window height and separation in inches, respectively
0 0 { Zero grid colors will suppress outer and inner grids, respectively
4 2 { Number of units on Y-axis and number of Y-axis numbers, respectively
3 { Number of curves to be plotted in this window
4 5 6 { Numbers of the curves to be plotted (in order of selection by # command)
W4 { Begin the specification of window number 4 (bottom of 3 windows)
Currents in thyristors
amps
-1 1 { Non-blank means these are manually-specified Y-axis limits
2 0.2 { Window height and separation in inches, respectively
2 0 { Color numbers of outer and inner grids for window, respectively
2 1 { Number of units on Y-axis and number of Y-axis numbers, respectively
3 { Number of curves to be plotted in this window number 3
7 8 9 { Numbers of curves to be plotted (in order of selection by # command)
SHOW W { Display parameters associated with the 3 windows just defined
END { Exit the WINDOW command; return to the basic plot prompt
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)
{ <CR> bypasses radii of marking disks (use default values of zero)
{ <CR> bypasses pixel widths of curves (use default values of unity)
ROLL { After next plot is complete, curves will be extended automatically
TIME 0 .020 { Define the page size to cover just over 1 cycle of time
USE TPPLOT END { The 2nd such declaration ends the data for TPPLOT
C For good demo of preceding ROLLing plot, Tmax really should be increased.
C For a second use of ROLLing (real-time) plotting, see windowless DC-1.
.000050 .050 { Note Tmax here is only 2-1/2 pages of the ROLLing plot.
1 1 1 3 1 -1
5 5 20 20 100 100
C DC LINE WITH 12-PULSE RECTIFIER/INVERTER OPERATION USING TACS ------------
TACS HYBRID CASE FOR DC TERMINAL SIMULATION
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
4 +NOT13
9 +NOT18
14 +NOT23
19 +NOT28
24 +NOT3
29 +NOT8
C ********* ZERO-ORDER BLOCK ON "TIMEX" FOR LIMIT OF 2 CYCLES *******
C
TIMER +TIMEX 0.0 33.3-3
90GENAS
90GENBS
90GENCS
C $$$$$$ DECREASING RAMP FUNCTION FOR IGNITION ANGLE DELAY $$$$$$$$$$$$
88ALPHAR -.1045045 * TIMER + 4.17-3
C
C -------------- RECTIFIER CONTROL LOGIC FOLLOWS --------------------
88SA-B 52 +UNITY 0.0 PHA-BS
88F1S 54 +SA-B 0.0 ALPHAR
88F1SII 4 .AND. F1S
88NOT3 .NOT. F1SII
88F1SI 54 +F1SII 1.4E-3
88SB-A 52 +UNITY 0.0 PHB-AS
88F4S 54 +SB-A 0.0 ALPHAR
88F4SII 9 .AND. F4S
88NOT8 .NOT. F4SII
88F4SI 54 +F4SII 1.4E-3
88SB-C 52 +UNITY 0.0 PHB-CS
88F3S 54 +SB-C 0.0 ALPHAR
88F3SII 14 .AND. F3S
88NOT13 .NOT. F3SII
88F3SI 54 +F3SII 1.4E-3
88SC-B 52 +UNITY 0.0 PHC-BS
88F6S 54 +SC-B 0.0 ALPHAR
88F6SII 19 .AND. F6S
88NOT18 .NOT. F6SII
88F6SI 54 +F6SII 1.4E-3
88SC-A 52 +UNITY 0.0 PHC-AS
88F5S 54 +SC-A 0.0 ALPHAR
88F5SII 24 .AND. F5S
88NOT23 .NOT. F5SII
88F5SI 54 +F5SII 1.4E-3
88SA-C 52 +UNITY 0.0 PHA-CS
88F2S 54 +SA-C 0.0 ALPHAR
88F2SII 29 .AND. F2S
88NOT28 .NOT. F2SII
88F2SI 54 +F2SII 1.4E-3
C $$$$$$ INCREASING RAMP FUNCTION FOR IGNITION ANGLE DELAY $$$$$$$$$$$$
C
88ALPHAI +.076276 * TIMER + 4.17-3
C
C DELAY FIRING FOR BYPASS VALVES
C
88FIRE - UNITY
77PHA-BS +166.1710
77PHB-AS -166.1710
77PHB-CS -332.3420
77PHC-BS +332.3420
77PHC-AS +166.1710
77PHA-CS -166.1710
77FIRE -1.0
C AC CIRCUIT OF POLE 4, CELILO
C CONSISTS OF 5TH,7TH,11TH,13TH, AND HIGH-PASS FILTERS,
C CCT BREAKERS FOR EACH 3-PHASE BRIDGE AND 1 MILE (1.6 KM) OF 230 KV LINE.
BLANK card ending TACS initial conditions (and also all TACS data)
0GENAS BIGEA4 .01
0GENBS BIGEB4GENAS BIGEA4
0GENCS BIGEC4GENAS BIGEA4
0BIGEA4 .86 114. 2.46
0BIGEB4 BIGEA4
0BIGEC4 BIGEA4
0 BIGEA4 1.18 114. 1.28
0 BIGEB4 BIGEA4
0 BIGEC4 BIGEA4
0BIGEA413AC4 .02 1.56
0BIGEB413BC4 BIGEA413AC4
0BIGEC413CC4 BIGEA413AC4
013AC4 HPAC4 40.
0HPAC4 13AC4 5.5
013BC4 HPBC4 13AC4 HPAC4
0HPBC4 13BC4 HPAC4 13AC4
013CC4 HPCC4 13AC4 HPAC4
0HPCC4 13CC4 HPAC4 13AC4
0HPAC4 3.9
0HPBC4 HPAC4
0HPCC4 HPAC4
0 13AC4 .93 44. .95
0 13BC4 13AC4
0 13CC4 13AC4
013AC4 11AC4 GENAS BIGEA4
013BC4 11BC4 GENAS BIGEA4
013CC4 11CC4 GENAS BIGEA4
011AC4 .82 44. 1.33
011BC4 11AC4
011CC4 11AC4
011AC4 AC6 GENAS BIGEA4
011BC4 BC6 GENAS BIGEA4
011CC4 CC6 GENAS BIGEA4
011AC4 AC2 GENAS BIGEA4
011BC4 BC2 GENAS BIGEA4
011CC4 CC2 GENAS BIGEA4
C
C -------------------------------- GROUP 6, CELILO ----------------------
C ####### ANODE REACTORS ###############
0VI-1 VICA 3000.
0VICA VI-1 1.0
0VI-3 VICB VI-1 VICA
0VICB VI-3 VICA VI-1
0VI-5 VICC VI-1 VICA
0VICC VI-5 VICA VI-1
0VI-4 AN6C VI-1 VICA
0AN6C VI-4 VICA VI-1
0VI-6 AN6C VI-1 VICA
0AN6C VI-6 VICA VI-1
0VI-2 AN6C VI-1 VICA
0AN6C VI-2 VICA VI-1
C ###################### BYPASS ANODE REACTOR ##############
C //////////////////////// VALVE DAMPERS /////////////////////
0CEL4 VDA6 1200. .1
0CEL4 VDB6 CEL4 VDA6
0CEL4 VDC6 CEL4 VDA6
0AN6C VDA6 CEL4 VDA6
0AN6C VDB6 CEL4 VDA6
0AN6C VDC6 CEL4 VDA6
C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$
0VDA6 VICA 1000.
0VICA VDA6 .25
0VDB6 VICB VDA6 VICA
0VICB VDB6 VICA VDA6
0VDC6 VICC VDA6 VICA
0VICC VDC6 VICA VDA6
0CEL4 CTH6C VDA6 VICA
0CTH6C CEL4 VICA VDA6
C
C * * * * * Y-DELTA XFMR LEAKAGE IMPEDANCE * * * * * * * *
C +++++++++++ A.C. SOURCE SIDE +++++++++++
0AC6Y TXA6 .203 .7
0BC6Y TXB6 AC6Y TXA6
0CC6Y TXC6 AC6Y TXA6
C +++++++++++ D.C. CONVERTER SIDE +++++++++
0TXA6C VDA6 .202 .717
0TXB6C VDB6 TXA6C VDA6
0TXC6C VDC6 TXA6C VDA6
C
C <<<<<<<<<<<<<<< Y-DELTA TRANSFORMER >>>>>>>>>>>>>>>>>>>>>
51TXA6 99300.
52TXA6C TXB6C 82715. 68946.
51TXB6 TXA6
52TXB6C TXC6C
51TXC6 TXA6
52TXC6C TXA6C
C
C -------------------------------------------------------------------------
C -------------------------------- GROUP 2, CELILO ----------------------
C ####### ANODE REACTORS ###############
0II-1 IICA VI-1 VICA
0IICA II-1 VICA VI-1
0II-3 IICB VI-1 VICA
0IICB II-3 VICA VI-1
0II-5 IICC VI-1 VICA
0IICC II-5 VICA VI-1
0II-4 AN2C VI-1 VICA
0AN2C II-4 VICA VI-1
0II-6 AN2C VI-1 VICA
0AN2C II-6 VICA VI-1
0II-2 AN2C VI-1 VICA
0AN2C II-2 VICA VI-1
C ###################### BYPASS ANODE REACTOR ##############
C //////////////////////// VALVE DAMPERS /////////////////////
0AN6C VDA2 CEL4 VDA6
0AN6C VDB2 CEL4 VDA6
0AN6C VDC2 CEL4 VDA6
0AN2C VDA2 CEL4 VDA6
0AN2C VDB2 CEL4 VDA6
0AN2C VDC2 CEL4 VDA6
C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$
0VDA2 IICA VDA6 VICA
0IICA VDA2 VICA VDA6
0VDB2 IICB VDA6 VICA
0IICB VDB2 VICA VDA6
0VDC2 IICC VDA6 VICA
0IICC VDC2 VICA VDA6
0AN6C CTH2C VDA6 VICA
0CTH2C AN6C VICA VDA6
C
C * * * * * Y-Y XFMR LEAKAGE IMPEDANCE * * * * * * * *
C +++++++++++ A.C. SOURCE SIDE +++++++++++
0AC2Y TXA2 .22 2.07
0BC2Y TXB2 AC2Y TXA2
0CC2Y TXC2 AC2Y TXA2
C +++++++++++ D.C. CONVERTER SIDE +++++++++
0TXA2C VDA2 .07 .8343
0TXB2C VDB2 TXA2C VDA2
0TXC2C VDC2 TXA2C VDA2
C
C <<<<<<<<<<<<<<< Y-Y TRANSFORMER >>>>>>>>>>>>>>>>>>>>>
51TXA2 99300.
52TXA2C NS2 47951. 23174.
51TXB2 TXA2
52TXB2C NS2
51TXC2 TXA2
52TXC2C NS2
C ------------------------- ISOLATING Y-Y XFMR FROM GROUND -----------
0NS2 1.E+10
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 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 !!!!!!!!!!!!!!!!!!!!! SYMMETRY !!!!!!!!!!!!!!!!
0AN5C CEL3 .01
C !!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!
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 ##############
C //////////////////////// VALVE DAMPERS /////////////////////
0CELGR VDA3 CEL4 VDA6
0CELGR VDB3 CEL4 VDA6
0CELGR VDC3 CEL4 VDA6
0AN3C VDA3 CEL4 VDA6
0AN3C VDB3 CEL4 VDA6
0AN3C VDC3 CEL4 VDA6
C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$
0VDA3 IIICA VDA6 VICA
0IIICA VDA3 VICA VDA6
0VDB3 IIICB VDA6 VICA
0IIICB VDB3 VICA VDA6
0VDC3 IIICC VDA6 VICA
0IIICC VDC3 VICA VDA6
0CELGR CTH3C VDA6 VICA
0CTH3C CELGR VICA VDA6
C
C * * * * * Y-Y XFMR LEAKAGE IMPEDANCE * * * * * * * *
C +++++++++++ A.C. SOURCE SIDE +++++++++++
0AC3Y TXA3 AC2Y TXA2
0BC3Y TXB3 AC2Y TXA2
0CC3Y TXC3 AC2Y TXA2
C +++++++++++ D.C. CONVERTER SIDE +++++++++
0TXA3C VDA3 TXA2C VDA2
0TXB3C VDB3 TXA2C VDA2
0TXC3C VDC3 TXA2C VDA2
C
C <<<<<<<<<<<<<<< Y-Y TRANSFORMER >>>>>>>>>>>>>>>>>>>>>
51TXA3 TXA2
52TXA3C NS3
51TXB3 TXA2
52TXB3C NS3
51TXC3 TXA2
52TXC3C NS3
C ------------------------- ISOLATING Y-Y XFMR FROM GROUND -----------
0NS3 NS2
C -------------------------------------------------------------------------
C -------------------------------- GROUP 5, CELILO ----------------------
C ####### ANODE REACTORS ###############
0V-1 VCA VI-1 VICA
0VCA V-1 VICA VI-1
0V-3 VCB VI-1 VICA
0VCB V-3 VICA VI-1
0V-5 VCC VI-1 VICA
0VCC V-5 VICA VI-1
0V-4 AN5C VI-1 VICA
0AN5C V-4 VICA VI-1
0V-6 AN5C VI-1 VICA
0AN5C V-6 VICA VI-1
0V-2 AN5C VI-1 VICA
0AN5C V-2 VICA VI-1
C ###################### BYPASS ANODE REACTOR ##############
C //////////////////////// VALVE DAMPERS /////////////////////
0AN3C VDA5 CEL4 VDA6
0AN3C VDB5 CEL4 VDA6
0AN3C VDC5 CEL4 VDA6
0AN5C VDA5 CEL4 VDA6
0AN5C VDB5 CEL4 VDA6
0AN5C VDC5 CEL4 VDA6
C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$
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 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.
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 $$$$$$$$$$$$$$$$$$$$$$$$$ 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
0IICA CTH2C VICA CTH6C
0IICB CTH2C VICA CTH6C
0IICC CTH2C VICA CTH6C
0AN2C IICA VICA CTH6C
0AN2C IICB VICA CTH6C
0AN2C IICC 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
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
AC2 AC2Y -10.E-3 10.E+3
BC2 BC2Y -10.E-3 10.E+3
CC2 CC2Y -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 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
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
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
BLANK card ending switch and valve cards
C [[[[[[[[[[[[[ ]]]]]]]]]]]]]]]]]]]]]]]]]]
14GENAS 191.88 60. - 90. -1.
14GENBS 191.88 60. 150. -1.
14GENCS 191.88 60. 30. -1.
11R4- 260.00
11R3+ -260.00
C --------------+------------------------------
C From bus name | Names of all adjacent busses.
C --------------+------------------------------
C GENAS | BIGEA4*BIGEA3*
C BIGEA4 | TERRA *TERRA *GENAS *13AC4 *
C GENBS | BIGEB4*BIGEB3*
C BIGEB4 | TERRA *TERRA *GENBS *13BC4 *
C GENCS | BIGEC4*BIGEC3*
BLANK card ending electric network source cards
S4- 4-282 4-564 R4- A3+ 3-282 3-564 R3+
C Total network loss P-loss by summing injections = 3.860395580278E-01
C Output for steady-state phasor switch currents.
C Node-K Node-M I-real I-imag I-magn
C AC6 AC6Y -0.17537829E-02 -0.15130661E-03 0.17602977E-02
C BC6 BC6Y 0.74585609E-03 0.15944738E-02 0.17602977E-02
C CC6 CC6Y 0.10079268E-02 -0.14431672E-02 0.17602977E-02
C < < Etc. for many more switches > >
C Step Time VI-5 II-3 V-1 S4- 4-282 4-564
C CTH6C CTH2C CTH5C
C
C R3+ VI-5 II-3 V-1 CEL4
C CTH6C CTH2C CTH5C S4-
C *** Phasor I(0) = -1.7537829E-03 Switch "AC6 " to "AC6Y " closed
C *** Phasor I(0) = 7.4585609E-04 Switch "BC6 " to "BC6Y " closed
C *** Phasor I(0) = 1.0079268E-03 Switch "CC6 " to "CC6Y " closed
C *** Phasor I(0) = -1.7256922E-03 Switch "AC2 " to "AC2Y " closed
C *** Phasor I(0) = 7.3073497E-04 Switch "BC2 " to "BC2Y " closed
C *** Phasor I(0) = 9.9495722E-04 Switch "CC2 " to "CC2Y " closed
C *** Phasor I(0) = -1.7256922E-03 Switch "AC3 " to "AC3Y " closed
C *** Phasor I(0) = 7.3073497E-04 Switch "BC3 " to "BC3Y " closed
C *** Phasor I(0) = 9.9495722E-04 Switch "CC3 " to "CC3Y " closed
C *** Phasor I(0) = -1.7537829E-03 Switch "AC5 " to "AC5Y " closed
C *** Phasor I(0) = 7.4585609E-04 Switch "BC5 " to "BC5Y " closed
C *** Phasor I(0) = 1.0079268E-03 Switch "CC5 " to "CC5Y " closed
C 0 0.0 92.4476735 -80.392419 -46.233822 -.6059E-12 -.5031E-12 .87008E-13
C .12071E-13 0.0 0.0 0.0 -.7846E-15
C 1 .5E-4 92.4314685 -81.253201 -44.71671 -.6103E-12 -.5175E-12 .87672E-13
C -260. 0.0 0.0 0.0 -.7135E-15
C 60 .003 39.3727405 -76.238222 52.7516794 -.7005E-12 -.8214E-12 257.446725
C -260. 0.0 0.0 0.0 .53435E-17
C Valve "II-6 " to "IICB " closing after 3.85000000E-03 sec.
C Valve "III-6 " to "IIICB " closing after 3.85000000E-03 sec.
C 80 .004 10.9218031 -49.021132 82.2441262 .351391677 254.918524 257.4592
C -260. 0.0 0.0 0.0 .008847337
C Valve "II-6 " to "IICB " opening after 4.40000000E-03 sec.
C Valve "III-6 " to "IIICB " opening after 4.40000000E-03 sec.
C 100 .005 -45.494471 -36.386851 73.4856334 135.946744 254.943229 257.471553
C -260. 0.0 0.0 0.0 -.03160187
BLANK card ending output variable requests (just node voltages, here)
C Valve "V-5 " to "CTH5C " closing after 4.79500000E-02 sec.
C Valve "VI-3 " to "CTH6C " opening after 4.83000000E-02 sec.
C Valve "V-3 " to "CTH5C " opening after 4.83000000E-02 sec.
C Valve "II-6 " to "IICB " closing after 4.93500000E-02 sec.
C Valve "III-6 " to "IIICB " closing after 4.93500000E-02 sec.
C Valve "II-4 " to "IICA " opening after 4.98000000E-02 sec.
C Valve "III-4 " to "IIICA " opening after 4.98000000E-02 sec.
C 1000 .05 0.0 -167.46575 -134.7388 251.510661 139.93783 117.983336
C -260. .526265477 0.0 0.0 .527808483
C Variable max:92.4476735 92.1922669 116.425574 579.298066 663.305228 663.489503
C .12071E-13 .554084524 .929282825 .867170568 .872209101
C Times of max : 0.0 .0252 .0216 .01455 .01245 .0109
C 0.0 .04835 .02565 .0404 .02635
C Variable min: -198.8722 -193.07964 -223.00837 -.9678E-12 -.1033E-11 .87008E-13
C -260. -.10328566 -.02134205 -.07594113 -.0319449
C Times of min : .00785 .0148 .01455 .002 .0025 0.0
C .5E-4 .0218 .0468 .02695 .00505
PRINTER PLOT
194 5. 0.0 50. VI-5 CTH6C { Axis limits : (-1.033, 5.541)
144 5. 0.0 50. S4- { Axis limits : (0.000, 5.793)
BLANK card terminating batch-mode plot cards
BEGIN NEW DATA CASE
C 2nd of 2 subcases is for a 1-terminal, 1-pole simplified representation
C with only two bridges total. It was produced from the preceding data case
C by omitting the negative pole (reduction from two poles to a single pole).
C To compare with BPA's EMTP, this would be the 4th of 4 subcases within DC-1.
C Answers agree with BPA EMTP exactly until there is one time-step difference
C on a value closing between step 700 and 800. This should be equally valid:
C Valve "II-2 " to "IICC " closing after 3.82000000E-02 sec.
C 4 September 2011, we illustrate new logic of SUBR14 which will use all of
C available space of NBHDSW if declared space (LISTSIZE.DAT) is inadequate.
C Rather than a real case, it is easier to force this use artificially. To
C do this, we input a special set of LISTSIZE.DAT data with the optional
C NDHDSW declaration having an empty factor of zero. This is the multiple
C of List 6 for sizing NBHDSW, so ATP thinks NBHDSW has no space. This
C will trigger the "try harder" logic of SUBR14 which will go get the real
C limits as declared in LISTSIZE.BPA : List 6 is 1200 and the factor is 15,
C so in fact the vector NBHDSW is dimensioned 18K. This will be documented
C by two exceptional lines of output to the .LIS file:
C === SUBR14. Switch connectivity of NBHDSW needs more space. From LISTSIZE.DAT, List 56 = 0
C Expand this to use all of NBHDSW. J, KSWTCH, LSWTCH, List 56 = 7 18 40 18000
C The 1st line documents the artificial List 56 (real data will not have 0).
C 2nd line: valu 40 for LSWTCH is simply the default (not real) List-6 limit
C as ordered immediately below. All list sizes can be default sizes except
C for List 19 of TACS, which requires a little more space (we use 5K). The
C data involves 18 switches (that is KSWTCH), and need for more space was
C first detected on switch 7. Why not switch 1? Because the 1st 6 switches
C are simple circuit breakers which touch no other switches. Switch 7 is a
C valve connecting VI-1 with CTH6C, and this touches the 8th switch which
C connects VI-3 to the same CTH6C. That triggered the new, better logic.
NEW LIST SIZES
NBHDSW 0.0 { Vector NBHDSW of LABCOM has size List 6 * this factor FNBHD
0 0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 5000 0
0 0 0
240000 742
.000050 .060
1 1 1 3 1 -1
5 5 20 20 100 100
TACS HYBRID CASE FOR DC TERMINAL SIMULATION
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
4 +NOT13
9 +NOT18
14 +NOT23
19 +NOT28
24 +NOT3
29 +NOT8
C ********* ZERO-ORDER BLOCK ON "TIMEX" FOR LIMIT OF 2 CYCLES *******
C
TIMER +TIMEX 0.0 33.3-3
90GENAS
90GENBS
90GENCS
C $$$$$$ DECREASING RAMP FUNCTION FOR IGNITION ANGLE DELAY $$$$$$$$$$$$
88ALPHAR -.1045045 * TIMER + 4.17-3
C
C -------------- RECTIFIER CONTROL LOGIC FOLLOWS --------------------
88SA-B 52 +UNITY 0.0 PHA-BS
88F1S 54 +SA-B 0.0 ALPHAR
88F1SII 4 .AND. F1S
88NOT3 .NOT. F1SII
88F1SI 54 +F1SII 1.4E-3
88SB-A 52 +UNITY 0.0 PHB-AS
88F4S 54 +SB-A 0.0 ALPHAR
88F4SII 9 .AND. F4S
88NOT8 .NOT. F4SII
88F4SI 54 +F4SII 1.4E-3
88SB-C 52 +UNITY 0.0 PHB-CS
88F3S 54 +SB-C 0.0 ALPHAR
88F3SII 14 .AND. F3S
88NOT13 .NOT. F3SII
88F3SI 54 +F3SII 1.4E-3
88SC-B 52 +UNITY 0.0 PHC-BS
88F6S 54 +SC-B 0.0 ALPHAR
88F6SII 19 .AND. F6S
88NOT18 .NOT. F6SII
88F6SI 54 +F6SII 1.4E-3
88SC-A 52 +UNITY 0.0 PHC-AS
88F5S 54 +SC-A 0.0 ALPHAR
88F5SII 24 .AND. F5S
88NOT23 .NOT. F5SII
88F5SI 54 +F5SII 1.4E-3
88SA-C 52 +UNITY 0.0 PHA-CS
88F2S 54 +SA-C 0.0 ALPHAR
88F2SII 29 .AND. F2S
88NOT28 .NOT. F2SII
88F2SI 54 +F2SII 1.4E-3
C $$$$$$ INCREASING RAMP FUNCTION FOR IGNITION ANGLE DELAY $$$$$$$$$$$$
C
88ALPHAI +.076276 * TIMER + 4.17-3
C
C DELAY FIRING FOR BYPASS VALVES
C
88FIRE - UNITY
77PHA-BS +166.1710
77PHB-AS -166.1710
77PHB-CS -332.3420
77PHC-BS +332.3420
77PHC-AS +166.1710
77PHA-CS -166.1710
77FIRE -1.0
C AC CIRCUIT OF POLE 4, CELILO
C CONSISTS OF 5TH,7TH,11TH,13TH, AND HIGH-PASS FILTERS,
C CCT BREAKERS FOR EACH 3-PHASE BRIDGE AND 1 MILE (1.6 KM) OF 230 KV LINE.
BLANK card ending TACS initial conditions (and also all TACS data)
0GENAS BIGEA4 .01
0GENBS BIGEB4GENAS BIGEA4
0GENCS BIGEC4GENAS BIGEA4
0BIGEA4 .86 114. 2.46
0BIGEB4 BIGEA4
0BIGEC4 BIGEA4
0 BIGEA4 1.18 114. 1.28
0 BIGEB4 BIGEA4
0 BIGEC4 BIGEA4
0BIGEA413AC4 .02 1.56
0BIGEB413BC4 BIGEA413AC4
0BIGEC413CC4 BIGEA413AC4
013AC4 HPAC4 40.
0HPAC4 13AC4 5.5
013BC4 HPBC4 13AC4 HPAC4
0HPBC4 13BC4 HPAC4 13AC4
013CC4 HPCC4 13AC4 HPAC4
0HPCC4 13CC4 HPAC4 13AC4
0HPAC4 3.9
0HPBC4 HPAC4
0HPCC4 HPAC4
0 13AC4 .93 44. .95
0 13BC4 13AC4
0 13CC4 13AC4
013AC4 11AC4 GENAS BIGEA4
013BC4 11BC4 GENAS BIGEA4
013CC4 11CC4 GENAS BIGEA4
011AC4 .82 44. 1.33
011BC4 11AC4
011CC4 11AC4
011AC4 AC6 GENAS BIGEA4
011BC4 BC6 GENAS BIGEA4
011CC4 CC6 GENAS BIGEA4
011AC4 AC2 GENAS BIGEA4
011BC4 BC2 GENAS BIGEA4
011CC4 CC2 GENAS BIGEA4
C
C -------------------------------- GROUP 6, CELILO ----------------------
C ####### ANODE REACTORS ###############
0VI-1 VICA 3000.
0VICA VI-1 1.0
0VI-3 VICB VI-1 VICA
0VICB VI-3 VICA VI-1
0VI-5 VICC VI-1 VICA
0VICC VI-5 VICA VI-1
0VI-4 AN6C VI-1 VICA
0AN6C VI-4 VICA VI-1
0VI-6 AN6C VI-1 VICA
0AN6C VI-6 VICA VI-1
0VI-2 AN6C VI-1 VICA
0AN6C VI-2 VICA VI-1
C //////////////////////// VALVE DAMPERS /////////////////////
0CEL4 VDA6 1200. .1
0CEL4 VDB6 CEL4 VDA6
0CEL4 VDC6 CEL4 VDA6
0AN6C VDA6 CEL4 VDA6
0AN6C VDB6 CEL4 VDA6
0AN6C VDC6 CEL4 VDA6
C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$
0VDA6 VICA 1000.
0VICA VDA6 .25
0VDB6 VICB VDA6 VICA
0VICB VDB6 VICA VDA6
0VDC6 VICC VDA6 VICA
0VICC VDC6 VICA VDA6
0CEL4 CTH6C VDA6 VICA
0CTH6C CEL4 VICA VDA6
C
C * * * * * Y-DELTA XFMR LEAKAGE IMPEDANCE * * * * * * * *
C +++++++++++ A.C. SOURCE SIDE +++++++++++
0AC6Y TXA6 .203 .7
0BC6Y TXB6 AC6Y TXA6
0CC6Y TXC6 AC6Y TXA6
C +++++++++++ D.C. CONVERTER SIDE +++++++++
0TXA6C VDA6 .202 .717
0TXB6C VDB6 TXA6C VDA6
0TXC6C VDC6 TXA6C VDA6
C
C <<<<<<<<<<<<<<< Y-DELTA TRANSFORMER >>>>>>>>>>>>>>>>>>>>>
51TXA6 99300.
52TXA6C TXB6C 82715. 68946.
51TXB6 TXA6
52TXB6C TXC6C
51TXC6 TXA6
52TXC6C TXA6C
C
C -------------------------------------------------------------------------
C -------------------------------- GROUP 2, CELILO ----------------------
C ####### ANODE REACTORS ###############
0II-1 IICA VI-1 VICA
0IICA II-1 VICA VI-1
0II-3 IICB VI-1 VICA
0IICB II-3 VICA VI-1
0II-5 IICC VI-1 VICA
0IICC II-5 VICA VI-1
0II-4 AN2C VI-1 VICA
0AN2C II-4 VICA VI-1
0II-6 AN2C VI-1 VICA
0AN2C II-6 VICA VI-1
0II-2 AN2C VI-1 VICA
0AN2C II-2 VICA VI-1
C ###################### BYPASS ANODE REACTOR ##############
C //////////////////////// VALVE DAMPERS /////////////////////
0AN6C VDA2 CEL4 VDA6
0AN6C VDB2 CEL4 VDA6
0AN6C VDC2 CEL4 VDA6
0AN2C VDA2 CEL4 VDA6
0AN2C VDB2 CEL4 VDA6
0AN2C VDC2 CEL4 VDA6
C $$$$$$$$$ BUSHING REACTORS $$$$$$$$$$$$$$$
0VDA2 IICA VDA6 VICA
0IICA VDA2 VICA VDA6
0VDB2 IICB VDA6 VICA
0IICB VDB2 VICA VDA6
0VDC2 IICC VDA6 VICA
0IICC VDC2 VICA VDA6
0AN6C CTH2C VDA6 VICA
0CTH2C AN6C VICA VDA6
C
C * * * * * Y-Y XFMR LEAKAGE IMPEDANCE * * * * * * * *
C +++++++++++ A.C. SOURCE SIDE +++++++++++
0AC2Y TXA2 .22 2.07
0BC2Y TXB2 AC2Y TXA2
0CC2Y TXC2 AC2Y TXA2
C +++++++++++ D.C. CONVERTER SIDE +++++++++
0TXA2C VDA2 .07 .8343
0TXB2C VDB2 TXA2C VDA2
0TXC2C VDC2 TXA2C VDA2
C
C <<<<<<<<<<<<<<< Y-Y TRANSFORMER >>>>>>>>>>>>>>>>>>>>>
51TXA2 99300.
52TXA2C NS2 47951. 23174.
51TXB2 TXA2
52TXB2C NS2
51TXC2 TXA2
52TXC2C NS2
C ------------------------- ISOLATING Y-Y XFMR FROM GROUND -----------
0NS2 1.E+10
C
C -------------------------------------------------------------------------
C GROUND ELECTRODE CIRCUIT, CELILO
0AN2C GR1C 1.0
0GR1C ELEC1 AN2C GR1C
0GR1C .06
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 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 *************************************************************************
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 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.
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 $$$$$$$$$$$$$$$$$$$$$$$$$ 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
0IICA CTH2C VICA CTH6C
0IICB CTH2C VICA CTH6C
0IICC CTH2C VICA CTH6C
0AN2C IICA VICA CTH6C
0AN2C IICB VICA CTH6C
0AN2C IICC 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
AC2 AC2Y -10.E-3 10.E+3
BC2 BC2Y -10.E-3 10.E+3
CC2 CC2Y -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
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
BLANK card ending switch and valve cards
C [[[[[[[[[[[[[ ]]]]]]]]]]]]]]]]]]]]]]]]]]
14GENAS 191.88 60. - 90. -1.
14GENBS 191.88 60. 150. -1.
14GENCS 191.88 60. 30. -1.
11R4- 260.00
11R3+ -260.00
BLANK card ending electric network source cards
C Total network loss P-loss by summing injections = 1.930197805538E-01
C Output for steady-state phasor switch currents.
C Node-K Node-M I-real I-imag I-magn
C AC6 AC6Y -0.17537829E-02 -0.15130661E-03 0.17602977E-02
C BC6 BC6Y 0.74585608E-03 0.15944738E-02 0.17602977E-02
C CC6 CC6Y 0.10079268E-02 -0.14431672E-02 0.17602977E-02
C AC2 AC2Y -0.17256922E-02 -0.15254879E-03 0.17324216E-02
C BC2 BC2Y 0.73073496E-03 0.15707677E-02 0.17324216E-02
C CC2 CC2Y 0.99495722E-03 -0.14182189E-02 0.17324216E-02
C VI-1 CTH6C Open Open Open
C
C GENCS 166.17295447816 191.88 -.3624911331317 .72614413549163
C 95.94 30.0000000 .62919431331648 119.9470848
S4- 4-282 4-564 R4- A3+ 3-282 3-564 R3+
C Step Time VI-5 II-3 S4- 4-282 4-564 R4-
C CTH6C CTH2C
C
C VI-5 II-3 CEL4
C CTH6C CTH2C S4-
C *** Phasor I(0) = -1.7537829E-03 Switch "AC6 " to "AC6Y " closed
C *** Phasor I(0) = 7.4585609E-04 Switch "BC6 " to "BC6Y " closed
C *** Phasor I(0) = 1.0079268E-03 Switch "CC6 " to "CC6Y " closed
C *** Phasor I(0) = -1.7256922E-03 Switch "AC2 " to "AC2Y " closed
C *** Phasor I(0) = 7.3073497E-04 Switch "BC2 " to "BC2Y " closed
C *** Phasor I(0) = 9.9495722E-04 Switch "CC2 " to "CC2Y " closed
C 0 0.0 92.4476735 -80.392419 -.7733E-13 -.106E-12 -.4033E-13 .51245E-13
C 0.0 0.0 -.1763E-14
C 1 .5E-4 92.4314685 -81.253201 -.6891E-13 -.1173E-12 -.4559E-13 260.
C 0.0 0.0 -.1605E-14
C
C 60 .003 39.3727405 -76.238222 .10266E-12 -.3965E-12 257.446725 260.
C 0.0 0.0 .25576E-16
C Valve "II-6 " to "IICB " closing after 3.85000000E-03 sec.
C 80 .004 10.9210123 -49.022147 .363630979 254.918524 257.4592 260.
C 0.0 0.0 .008845798
C Valve "II-6 " to "IICB " opening after 4.40000000E-03 sec.
C 100 .005 -33.737956 -24.630028 130.519221 254.943229 257.471553 260.
C 0.0 0.0 -.02057533
C Valve "II-1 " to "CTH2C " closing after 5.05000000E-03 sec.
C Valve "VI-6 " to "VICB " closing after 5.30000000E-03 sec.
C Valve "VI-6 " to "VICB " opening after 5.75000000E-03 sec.
C Valve "II-1 " to "CTH2C " opening after 5.80000000E-03 sec.
C Valve "VI-1 " to "CTH6C " closing after 6.50000000E-03 sec.
C Valve "VI-1 " to "CTH6C " opening after 7.05000000E-03 sec.
C
C 700 .035 0.0 -123.32011 181.490229 155.439416 268.34801 260.
C .250964556 0.0 .256905072
C Valve "II-1 " to "CTH2C " closing after 3.54500000E-02 sec.
C Valve "II-5 " to "CTH2C " opening after 3.57500000E-02 sec.
C Valve "VI-1 " to "CTH6C " closing after 3.68500000E-02 sec.
C Valve "VI-5 " to "CTH6C " opening after 3.72000000E-02 sec.
C Valve "II-2 " to "IICC " closing after 3.82000000E-02 sec.
C Valve "II-6 " to "IICB " opening after 3.87000000E-02 sec.
C Valve "VI-2 " to "VICC " closing after 3.96000000E-02 sec.
C 800 .04 -120.72051 -12.665015 138.181338 238.820605 227.470808 260.
C 0.0 0.0 .822537008
BLANK card ending output variable requests (just node voltages, here)
C Valve "II-6 " to "IICB " opening after 5.54000000E-02 sec.
C Valve "VI-2 " to "VICC " closing after 5.63000000E-02 sec.
C Valve "VI-6 " to "VICB " opening after 5.68500000E-02 sec.
C Valve "II-3 " to "CTH2C " closing after 5.76500000E-02 sec.
C Valve "II-1 " to "CTH2C " opening after 5.83500000E-02 sec.
C Valve "VI-3 " to "CTH6C " closing after 5.90500000E-02 sec.
C Valve "VI-1 " to "CTH6C " opening after 5.96000000E-02 sec.
C 1200 .06 -160.8791 0.0 282.172623 256.182494 395.98766 260.
C 0.0 .840036806 .840753821
C Variable max:92.4476735 46.4552844 544.762078 580.755428 541.946569 260.
C .44972865 1.16857933 1.10230727
C Times of max : 0.0 .041 .0444 .044 .02855 .5E-4
C .03685 .04185 .0416
C Variable min:-211.70165 -165.79475 -.1027E-12 -35.63939 -.1839E-12 .51245E-13
C -.03932269 -.00819858 -.0265962
C Times of min : .02335 .0508 .00385 .05325 .0015 0.0
C .0372 .04575 .0231
PRINTER PLOT
194 5. 0.0 60. VI-5 CTH6C { Axis limits : (-0.393, 4.497)
144 5. 0.0 60. S4- { Axis limits : (0.000, 5.448)
BLANK card terminating batch-mode plot cards
BEGIN NEW DATA CASE
BLANK
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