diff options
author | Angelo Rossi <angelo.rossi.homelab@gmail.com> | 2023-06-21 12:04:16 +0000 |
---|---|---|
committer | Angelo Rossi <angelo.rossi.homelab@gmail.com> | 2023-06-21 12:04:16 +0000 |
commit | b18347ffc9db9641e215995edea1c04c363b2bdf (patch) | |
tree | f3908dc911399f1a21e17d950355ee56dc0919ee /benchmarks/dc63.dat |
Initial commit.
Diffstat (limited to 'benchmarks/dc63.dat')
-rw-r--r-- | benchmarks/dc63.dat | 1135 |
1 files changed, 1135 insertions, 0 deletions
diff --git a/benchmarks/dc63.dat b/benchmarks/dc63.dat new file mode 100644 index 0000000..63b3cb5 --- /dev/null +++ b/benchmarks/dc63.dat @@ -0,0 +1,1135 @@ +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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