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authorAngelo Rossi <angelo.rossi.homelab@gmail.com>2023-06-21 12:04:16 +0000
committerAngelo Rossi <angelo.rossi.homelab@gmail.com>2023-06-21 12:04:16 +0000
commitb18347ffc9db9641e215995edea1c04c363b2bdf (patch)
treef3908dc911399f1a21e17d950355ee56dc0919ee /benchmarks/dc51.dat
Initial commit.
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+BEGIN NEW DATA CASE
+C BENCHMARK DC-51
+C "FREQUENCY SCAN" use, with subsequent plotting of phasors vs. frequency
+C This test cases uses uniform spacing; See DC-52 for geometric spacing.
+C Because IOUTLP = 2, the solutions for step numbers 3 and 5 are omitted.
+C 1st of 3 data subcases (2 LINE MODEL FREQUENCY SCAN, LMFS, cases follow)
+FREQUENCY SCAN, 60., 20., 130., 0, { 60 < f < 130 Hz in 20-Hz increments
+ 0.1 0.0
+ 2 1 1 { IOUTLP (cols. 1-8) only prints every other point
+C Note col-80 punch of "1" on following branch to output current. This was
+C added in March of 1998 when original limitation to node volt was removed.
+C In the output, this current should be the same as node voltage at CUR.
+C The two quadruplets will be found side by side, ending the output vector.
+ LOAD MID .99 1.0 1
+C The following is a sampling resistor to produce a node voltage that is
+C proportional to branch current. Note 1.0 = .99 + .01 (next card):
+ MID .01
+C The following is a measurement transformer. It is used to produce a
+C node voltage (node "CUR") that is proportional to the branch current
+C of interest. For minimum error, leakage impedance should, of course,
+C be small. Magnetizing impedance is infinite. The turns ratio equals
+C the resistance of sampling resistor. See end Sec. 1.0G3 Rule Book.
+ TRANSFORMER TRAN
+ 9999
+ 1MID .0005 1.0
+ 2CUR .001 100.
+BLANK card ending branches
+BLANK card ending (here, non-existent) switches
+C The following request for complete output (rather than the default choice
+C of magnitude only) is read as part of source data, but it must precede the
+C first source. This is for FS use (HFS allows it anywhere among sources).
+ BOTH POLAR AND RECTANGULAR { Request for (in order): mag, angle, real, imag
+C Preceding is one of 3 alternatives. The other two are, after commented:
+C POLAR OUTPUT VARIABLES { 2nd of 3 alternatives for output gives mag, angle
+C RECTANGULAR OUTPUT VARIABLES { 3rd of 3 alternative outputs gives real, imag
+14LOAD 100. 60. -1.
+BLANK card ending sources
+C Column headings for the 5 output variables follow. These are divided ...
+C First 4 output variables are electric-network voltage differences (upper voltage minus lower voltage);
+C Next 1 output variables are branch currents (flowing from the upper node to the lower node);
+C For each variable, magnitude is 1st, angle is 2nd, real part is 3rd, and imaginary is 4th. All 4 are labeled identically, note.
+C Step F [Hz] LOAD LOAD LOAD LOAD MID MID MID MID TRAN TRAN
+C TERRA TERRA TERRA TERRA
+C
+C TRAN TRAN CUR CUR CUR CUR LOAD LOAD LOAD LOAD
+C TERRA TERRA TERRA TERRA MID MID MID MID
+C 1 60. 100. 0.0 100. 0.0 .93571522 -20.655997 .875562973 -.33007946 .93571522 -20.655997
+C .875562973 -.33007946 93.571522 -20.655997 87.5562973 -33.007946 93.571522 -20.655997 87.5562973 -33.007946
+C The preceding agrees with what existed for many years prior to March of 1998:
+C mag:LOAD angle:LOAD mag:MID angle:MID mag:TRAN angle:TRAN mag:CUR angle:CUR
+C real:LOAD imag:LOAD real:MID imag:MID real:TRAN imag:TRAN real:CUR imag:CUR
+C ----- Output vector for step number 1. Frequency = 6.00000000E+01 Hz.
+C 1.0000000E+02 0.0000000E+00 9.3571522E-01 -2.0655997E+01 9.3571522E-01 -2.0655997E+01 9.3571522E+01 -2.0655997E+01
+C 1.0000000E+02 0.0000000E+00 8.7556297E-01 -3.3007946E-01 8.7556297E-01 -3.3007946E-01 8.7556297E+01 -3.3007946E+01
+-5LOAD { -5 ==> 2A6 name pairs for voltage differences (branch V)
+ MID TRAN { 0 ==> Request for the output of these node voltages
+-5CUR { -5 ==> 2A6 name pairs for voltage differences (branch V)
+BLANK card ending output requests
+C Printout for remaining steps follows. Note steps 2 and 4 are missing (IOUT=2)
+C 3 100. 100. 0.0 100. 0.0 .846733016 -32.141908 .7169568 -.45047724 .846733016 -32.141908
+C .7169568 -.45047724 84.6733016 -32.141908 71.69568 -45.047724 84.6733016 -32.141908 71.69568 -45.047724
+C 5 140. 100. 0.0 100. 0.0 .750845344 -41.336343 .563768731 -.49591688 .750845344 -41.336343
+C .563768731 -.49591688 75.0845344 -41.336343 56.3768731 -49.591688 75.0845344 -41.336343 56.3768731 -49.591688
+ PRINTER PLOT
+ F-SCAN COMPONENTS MAG ANGLE { Access "mag" and "angle" next
+C 19630. 60.150. CUR mag CUR angle { Axis limits: (-4.134, 9.357)
+ 18630. 60.150. CUR CUR { Node voltage at CUR is branch voltage to ground
+C The following card involves a deliberate spelling error in order to
+C show how this results in rejection of the card:
+ F-SCAN COMPONENTS REAL IMxx { Access "real" and "imag" next
+ F-SCAN COMPONENTS REAL IMAG { Access "real" and "imag" next
+C 19630. 60.150. CUR real CUR imag { Axis limits: (-4.959, 8.756)
+ 18630. 60.150. CUR CUR { Node voltage at CUR is branch voltage to ground
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 2nd of 3 data subcases.
+C Illustration of LINE MODEL FREQUENCY SCAN (LMFS). For background of this
+C feature that was first available in ATP at the end of March, 1992, see the
+C story that appeared in the April, 1992, issue of Can/Am EMTP News. This new
+C feature is to compare any "line model" with the exact Pi-model of a single
+C segment of overhead line over an arbitrary range of frequencies. The user
+C instructions are attached at the end of this test case.
+C In the current case a single-circuit line generated by JMARTI SETUP is to
+C be tested.
+C DISK PLOT DATA { Has no effect as explained in Can/Am EMTP News of April, 1992
+C Warning! This is degenerate use for initial testing only.
+C Note following card will produce scan of 2 points only:
+C LINE MODEL FREQUENCY SCAN, 60, , 599.9, 1, , , { f-begin, f-end, points/decade
+LINE MODEL FREQUENCY SCAN, 60, , 599.9, 1, , , First
+ 40.E-6 -.0600 60.
+ 1 1 0 0 0 0 0 2
+C IOUT KSSOUT ICAT
+$INCLUDE, []dc51fs3.dat
+$INCLUDE, []dc51fs3z.dat, JDA###, LMA###, JDB###, LMB###, JDC###, LMC###,
+C []dc51fs3p.dat
+C Unused! ----- 2nd of 2 file names is not used for this single-circuit case
+C Observation about the following is added 21 November 2003. Normally, a
+C LINE CONSTANTS declaration would begin the data since it is this choice
+C (not CC or CP) that is desired. But when LMFS began, LC was the
+C only choice. It seems to be the default choice. Lack of the declaration
+C here no longer is recommended, but it does demonstrate the default choice:
+C LINE CONSTANTS { Activate this comment to prove that the solution is unchanged
+ 1.3636 .05215 4 1.602 -20.75 50. 50.
+ 1.3636 .05215 4 1.602 -19.25 50. 50.
+ 2.3636 .05215 4 1.602 - 0.75 77.5 77.5
+ 2.3636 .05215 4 1.602 0.75 77.5 77.5
+ 3.3636 .05215 4 1.602 19.25 50. 50.
+ 3.3636 .05215 4 1.602 20.75 50. 50.
+ 0.5 2.61 4 0.386 -12.9 98.5 98.5
+ 0.5 2.61 4 0.386 12.9 98.5 98.5
+BLANK card ennds conductor cards of "LINE CONSTANTS" data
+100. 5000. 1 138. 1 1
+BLANK card ending frequency cards of "LINE CONSTANTS" data
+BLANK card ending batch-mode plot cards
+BEGIN NEW DATA CASE
+C 3rd of 3 data subcases illustrates LINE MODEL FREQUENCY SCAN (LMFS) for
+C an untransposed double-circuit line generated by JMARTI SETUP.
+C DISK PLOT DATA { Has no effect as explained in Can/Am EMTP News of April, 1992
+C LINE MODEL FREQUENCY SCAN, 6, , 60000, 10, , , { f-begin, f-end, points/decade
+C Preceding free-format alternative was used successfully for more than a
+C decade. 2 September 2003, replace it by this fixed-format alternative:
+C f-begin del-f f-end #/dec FUNDFS
+LINE MODEL FREQUENCY SCAN 6.0 0.0 6.E4 10
+ 40.E-6 -.0600 60. 1.E-15
+ 1 1 0 0 0 0 0 2
+C IOUT KSSOUT ICAT
+$INCLUDE, []dc51fs6.dat { 1st of 2 $INCLUDE contains line section to be tested
+$INCLUDE, []dc51fs6z.dat,MR02A# ,MR04A# ,MR02B# ,MR04B# ,MR02C# ,MR04C#, $$
+C MR02D# ,MR04D# ,MR02E# ,MR04E# ,MR02F# ,MR04F#
+C []dc51fs6p.dat
+C []dc51fs6m.dat
+C Raw LINE CONSTANTS data for the overhead transmission line being considered:
+ 1.4138 .0497 4 1.603 -15. 52.0 A1-1
+ 1.4138 .0497 4 1.603 -16.06 53.06 A1-2
+ 1.4138 .0497 4 1.603 -13.94 53.06 A1-3
+ 2.4138 .0497 4 1.603 -25. 83.0 B1-1
+ 2.4138 .0497 4 1.603 -26.06 84.06 B1-2
+ 2.4138 .0497 4 1.603 -23.94 84.06 B1-3
+ 3.4138 .0497 4 1.603 -15. 114.0 C1-1
+ 3.4138 .0497 4 1.603 -16.06 115.06 C1-2
+ 3.4138 .0497 4 1.603 -13.94 115.06 C1-3
+ 4.4138 .0497 4 1.603 15. 114.0 A2-1
+ 4.4138 .0497 4 1.603 13.94 115.06 A2-2
+ 4.4138 .0497 4 1.603 16.06 115.06 A2-3
+ 5.4138 .0497 4 1.603 25. 83.0 B2-1
+ 5.4138 .0497 4 1.603 23.94 84.06 B2-2
+ 5.4138 .0497 4 1.603 26.06 84.06 B2-3
+ 6.4138 .0497 4 1.603 15. 52.0 C2-1
+ 6.4138 .0497 4 1.603 13.94 53.06 C2-2
+ 6.4138 .0497 4 1.603 16.06 53.06 C2-3
+ 0.5 3.56 4 .495 -7.0 150.7 OHGW-L
+ 0.5 3.56 4 .495 7.0 150.7 OHGW-R
+BLANK CARD ENDING CONDUCTOR CARDS OF "LINE CONSTANTS" CASE
+ 100. .001 1 53.00 1 1
+C RHO ] [FCAR] [ DIST ] S T
+BLANK card ending frequency cards of "LINE CONSTANTS" data
+ PRINTER PLOT
+ 186 .5 0.0 5.0 GENIA MAG Marti Section Z in Ohms
+ 196 .5 0.0 5.0 GENIA MAG Equivalent Pi Z in Ohms
+ 196 .5 0.0 5.0 GENIB % MAG Error Percent
+BLANK card ending batch-mode (CalComp) plot cards
+BEGIN NEW DATA CASE
+BLANK
+BEGIN NEW DATA CASE
+BLANK
+EOF { Instruct EMTP input code to ignore all following records of disk file
+
+
+
+
+ INSTRUCTIONS FOR USING "LINE MODEL FREQUENCY SCAN (LMFS)"
+
+
+
+ This is a new feature in the EMTP to compare any "line model" with
+the exact Pi-model of a single segment of overhead line over an arbitrary
+range of frequencies. The "line model" that is being tested can be any
+combination of linear branches, such as lumped elements, lines (constant
+distributed parameters, frequency-dependent representation of any type),
+coupled R-L elements, etc.
+
+ Set up an EMTP simulation data case similar to that of a "FREQUENCY SCAN"
+(ATP Rule Book, pp. II-18 to II-21 ) as follows:
+
+ (1) Use a new special request card: LINE MODEL FREQUENCY SCAN (or LMFS).
+ The data fields and their format on this card are the same as those for
+ the regular "FREQUENCY SCAN" case: FMIMFS, DELFFS, FMAXFS, NPD. Leave
+ the data field for DeltaF blank, and enter the number of points per
+ decade for the logarithmic (geometric) spacing as NPD. FMIMFS and
+ FMAXFS are the beginning and the ending frequencies respectively.
+
+ (2) Input the misc. data cards.
+
+ (3) Input the branch cards for "line model" to be tested.
+
+ (4) Input the appropriate generic data files which consist of the needed
+ branch cards and source cards by using $INCLUDE. Also required on
+ this card are the names of sending end and receiving end of each
+ phase of the line being tested. Eight generic data files for 3-,
+ 6- and 9-phase lines are provided along with the EMTP. They are
+ called "linescan#?.brn". "#" is the number of phases of the test
+ line. "?" is either z (zero-sequence), or p (positive-sequence), or
+ m (mutual-coupling). E.g., linescan6z.brn consists of the needed
+ branch cards and source cards for a "6"-phase "Z"ero-sequence
+ impedance test. Following is an example of the data cards for the
+ generic files which are needed for a 6-phase line LMFS case:
+
+ Col. 79-80
+$INCLUDE,linescanz6.brn,MR02A# ,MR04A# ,MR02B# ,MR04B# ,MR02C# ,MR04C#, $$
+C MR02D# ,MR04D# ,MR02E# ,MR04E# ,MR02F# ,MR04F#
+C linescanp6.brn
+C linescanm6.brn
+
+ Note that 12 node names are needed for a 6-phase line: MR02A and
+ MR04A are names of sending end and receiving end of the first phase
+ respectively, etc. "$$" in columns 79-80 indicate there is a
+ continuation card following the current $INCLUDE card. "C linescanp6.brn"
+ card provides the name of the file that EMTP can generate the needed
+ branch and source cards for the positive-sequence impedance test case;
+ and "C linescanm6.brn" provides information for generating mutual-
+ coupling impedance test case. One does not need the latter data card if
+ the test line is a single circuit.
+
+ (5) Input the geometry data of a single segment of overhead line. Prepare
+ this line geometry data just like one does for the standard "LINE CONSTANTS"
+ data except only ONE frequency card is needed. This frequency card needs
+ the following data: RHO (earth resistivity), FCAR (Carson accuracy),
+ DIST (length of the line), ISEG (segmentation option), MODAL
+ (transposition of the line). End this group of cards with a BLANK
+ card ending frequency card.
+
+ (6) Input optional plot card(s). E. g.,
+
+ PRINTER PLOT
+ 186 .2 0.0 5.0 GENIA MAG
+ 196 .2 0.0 5.0 GENIB % MAG
+
+ Like the "FREQUENCY SCAN" cases, the plotting of the node voltage output
+ variables are given the type of branch quantities. The results of the
+ tested line model are treated as branch voltages ("8" in column 4), those
+ of the exact Pi-model are treated as branch current, so are the percentage
+ errors ("9" in column 4.)
+
+ (7) Input the following three cards to end the data:
+
+ BLANK CARD ENDING PLOT REQUESTS
+ BEGIN NEW DATA CASE
+ BLANK
+
+
+
+ Three frequency scan cases are run and three output files are generated
+with this single set of data to give the zero-sequence, positive-sequence,
+and mutual (if multiple circuits) impedance check for the tested line model.
+
+ The line printer output includes tabulation of results of the requested
+node voltage output variables for the tested line model, for the exact Pi-
+model, and the percentage errors. Using IOUT (misc. data card) to control
+the frequency of this tabulation. Tabulation after 100 entries will be
+truncated. Be careful with input of KSSOUT on the misc. data card.
+
+ Like the "FREQUENCY SCAN" cases, the plotting of the node voltage output
+variables are given the type of branch quantities. The results of the tested
+line model are treated as branch voltages, those of the exact Pi-model are
+treated as branch current, so are the percentage errors.
+
+ If one wants to plot all the output variables, simply enter "ALL" to
+the prompt:
+
+ SEND NODE NAME & OPT. A24 DESCR. OR END ( ) :ALL
+
+then, provide information of number of phases and kind of impedance test at
+the prompt:
+
+ SEND A2 FILE SPECIFICATION:3P
+
+where "3" means 3-phase circuit, "P" means ploting of the results of
+Positive-sequence impedance test. TPPLOT at this point will automatically
+attach the appropriate pre-existing, user-controlled, plot data file
+LMPLT3P.DAT (i.e. one of the LMPLT##.DAT files), and complete the whole
+set of postscript output. In other words, the nodes specified in the
+LMPLT##.DAT defines what user means by "ALL".
+
+
+ Tsu-huei Liu
+ March 24, 1992
+
+
+Solution of DC51.LIS :
+---------------------
+
+ --- Pass 1. Card = 19. Ready to open $INCLUDE = dc51fs3.dat
+ --- Pass 1. Card = 121. Ready to open $INCLUDE = dc51fs3z.dat
+Alternative Transients Program (ATP), Salford 80386 translation. All rights reserved by Can/Am user group of Portland, Oregon, USA.
+ Date (dd-mth-yy) and time of day (hh.mm.ss) = 30-Jul-93 09.55.41 Name of disk plot file, if any, is D:37300955.pl4
+Consult the 800-page ATP Rule Book of the Can/Am EMTP User Group in Portland, Oregon, USA. Program is no older than July, 1992.
+Total size of LABCOM tables = 227363 INTEGER words. VARDIM List Sizes follow : 752 900 1500 150 7500 120
+ 2100 5250 225 480 150 150 15000 60 10800 120 12 15 4800 1980 300 450 12000 9 1200 252 4 9600
+--------------------------------------------------+--------------------------------------------------------------------------------
+Descriptive interpretation of input data cards. | Input data card images are shown below, all 80 columns, character by character
+ 0 1 2 3 4 5 6 7 8
+ 012345678901234567890123456789012345678901234567890123456789012345678901234567890
+--------------------------------------------------+--------------------------------------------------------------------------------
+Marker card preceding new EMTP data case. |BEGIN NEW DATA CASE
+Comment card. KOMPAR = 1. |C 2nd of 3 data subcases.
+Comment card. KOMPAR = 1. |C Illustration of LINE MODEL FREQUENCY SCAN (LMFS). For background of this
+Comment card. KOMPAR = 1. |C feature that was first available in ATP at the end of March, 1992, see the
+ < < < Etc. (section removed) > > >
+Blank card terminating frequency cards. |BLANK card ending frequency cards of "LINE CONSTANTS" data
+ 1) Freq [Hz] = 6.0000000E+01 Total network loss = 7.284400782006E+01
+ 2) Freq [Hz] = 6.0000000E+02 Total network loss = 5.660068288220E+02
+
+********************************************************************************
+* *
+* LINE MODEL FREQUENCY SCAN COMPARISON TABLE 30-Jul-93 *
+* ZERO-SEQUENCE IMPEDANCE TEST *
+* *
+*******************************************************************************************
+
+ LINE MODEL BEING TESTED EXACT-PI MODEL % ERROR
+
+ FREQUENCY NODE MAG ANG REAL IMAG MAG ANG REAL IMAG PCTMAG PCTANG
+
+ 6.000E+01 GENIA 3.258E+02 8.126E+01 4.950E+01 3.220E+02 3.240E+02 8.140E+01 4.845E+01 3.204E+02 .5405 -.173
+ GENIB 3.258E+02 8.126E+01 4.950E+01 3.220E+02 3.271E+02 8.142E+01 4.878E+01 3.235E+02 -.427 -.204
+ GENIC 3.258E+02 8.126E+01 4.950E+01 3.220E+02 3.240E+02 8.140E+01 4.845E+01 3.204E+02 .5405 -.173
+
+ 6.000E+02 GENIA 6.545E+02 5.425E+01 3.824E+02 5.312E+02 6.499E+02 5.467E+01 3.758E+02 5.303E+02 .7028 -.773
+ GENIB 6.545E+02 5.425E+01 3.824E+02 5.312E+02 6.574E+02 5.464E+01 3.804E+02 5.361E+02 -.44 -.716
+ GENIC 6.545E+02 5.425E+01 3.824E+02 5.312E+02 6.499E+02 5.467E+01 3.758E+02 5.303E+02 .7028 -.773
+
+Blank card terminating all plot cards. |BLANK card ending batch-mode plot cards
+Actual List Sizes for the preceding solution follow. 30-Jul-93 09.52.45
+ Size 1-10: 10 12 15 3 -9999 0 -9999 -9999 0 0
+ Size 11-20: -9999 30 -9999 -9999 -9999 0 0 0 23 470
+ Size 21-29: 18 -9999 27 -9999 -9999 -9999 -9999 -9999 -9999
+Seconds for overlays 1-5 : 1.207 0.000 1.207 --- (CP: I/O; tot)
+Seconds for overlays 6-11 : 1.430 0.000 1.430
+Seconds for overlays 12-15 : 0.000 0.000 0.000
+Seconds for time-step loop : 1.098 0.000 1.098
+Seconds after DELTAT-loop : 0.055 0.000 0.055
+ ---------------------------
+ Totals : 3.789 0.000 3.789
+
+EMTP begins. Send (SPY, file_name, DISK, HELP, GO, KEY, STOP, BOTH, DIR) :
+ --- 35 cards of disk file read into card cache cells 1 onward.
+ --- Pass 1. Card = 20. Ready to open $INCLUDE = dc51fs3.dat
+ --- Pass 1. Card = 122. Ready to open $INCLUDE = dc51fs3p.dat
+Alternative Transients Program (ATP), Salford 80386 translation. All rights reserved by Can/Am user group of Portland, Oregon, USA.
+ Date (dd-mth-yy) and time of day (hh.mm.ss) = 30-Jul-93 09.56.45 Name of disk plot file, if any, is D:37300956.pl4
+Consult the 800-page ATP Rule Book of the Can/Am EMTP User Group in Portland, Oregon, USA. Program is no older than July, 1992.
+Total size of LABCOM tables = 227363 INTEGER words. VARDIM List Sizes follow : 752 900 1500 150 7500 120
+ 2100 5250 225 480 150 150 15000 60 10800 120 12 15 4800 1980 300 450 12000 9 1200 252 4 9600
+--------------------------------------------------+--------------------------------------------------------------------------------
+Descriptive interpretation of input data cards. | Input data card images are shown below, all 80 columns, character by character
+ 0 1 2 3 4 5 6 7 8
+ 012345678901234567890123456789012345678901234567890123456789012345678901234567890
+--------------------------------------------------+--------------------------------------------------------------------------------
+Comment card. KOMPAR = 1. |C data:GO
+Marker card preceding new EMTP data case. |BEGIN NEW DATA CASE
+Comment card. KOMPAR = 1. |C 2nd of 3 data subcases.
+Comment card. KOMPAR = 1. |C Illustration of LINE MODEL FREQUENCY SCAN (LMFS). For background of this
+Comment card. KOMPAR = 1. |C feature that was first available in ATP at the end of March, 1992, see the
+ < < < Etc. (section removed) > > >
+Blank card terminating frequency cards. |BLANK card ending frequency cards of "LINE CONSTANTS" data
+ 1) Freq [Hz] = 6.0000000E+01 Total network loss = 6.240924861294E+00
+ 2) Freq [Hz] = 6.0000000E+02 Total network loss = 7.142960437129E+00
+
+********************************************************************************
+* *
+* LINE MODEL FREQUENCY SCAN COMPARISON TABLE 30-Jul-93 *
+* POSITIVE-SEQUENCE IMPEDANCE TEST *
+* *
+********************************************************************************
+
+ LINE MODEL BEING TESTED EXACT-PI MODEL % ERROR
+
+ FREQUENCY NODE MAG ANG REAL IMAG MAG ANG REAL IMAG PCTMAG PCTANG
+
+ 6.000E+01 GENIA 8.329E+01 8.706E+01 4.276E+00 8.318E+01 8.381E+01 8.548E+01 6.605E+00 8.355E+01 -.624 1.845
+ GENIB 8.329E+01 -3.294E+01 6.990E+01 -4.529E+01 8.257E+01 -3.296E+01 6.927E+01 -4.492E+01 .8778 -.061
+ GENIC 8.329E+01 -1.529E+02 -7.417E+01 -3.789E+01 8.376E+01 -1.511E+02 -7.333E+01 -4.048E+01 -.561 1.219
+
+ 6.000E+02 GENIA 8.819E+01 -8.678E+01 4.952E+00 -8.805E+01 9.319E+01 -8.908E+01 1.488E+00 -9.317E+01 -5.36 -2.59
+ GENIB 8.819E+01 1.532E+02 -7.873E+01 3.974E+01 8.182E+01 1.544E+02 -7.379E+01 3.536E+01 7.784 -.764
+ GENIC 8.819E+01 3.322E+01 7.378E+01 4.832E+01 9.071E+01 3.412E+01 7.509E+01 5.089E+01 -2.77 -2.65
+
+
+Blank card terminating all plot cards. |BLANK card ending batch-mode plot cards
+Actual List Sizes for the preceding solution follow. 30-Jul-93 09.52.47
+ Size 1-10: 10 12 15 3 -9999 0 -9999 -9999 0 0
+ Size 11-20: -9999 30 -9999 -9999 -9999 0 0 0 23 470
+ Size 21-29: 18 -9999 27 -9999 -9999 -9999 -9999 -9999 -9999
+Seconds for overlays 1-5 : 1.262 0.000 1.262 --- (CP: I/O; tot)
+Seconds for overlays 6-11 : 0.496 0.000 0.496
+Seconds for overlays 12-15 : 0.000 0.000 0.000
+Seconds for time-step loop : 0.000 0.000 0.000
+Seconds after DELTAT-loop : 0.055 0.000 0.055
+ ---------------------------
+ Totals : 1.813 0.000 1.813
+
+ --- Pass 1. Card = 9. Ready to open $INCLUDE = dc51fs6.dat
+ --- Pass 1. Card = 193. Ready to open $INCLUDE = dc51fs6z.dat
+Alternative Transients Program (ATP), Salford 80386 translation. All rights reserved by Can/Am user group of Portland, Oregon, USA.
+ Date (dd-mth-yy) and time of day (hh.mm.ss) = 30-Jul-93 09.57.47 Name of disk plot file, if any, is D:37300957.pl4
+Consult the 800-page ATP Rule Book of the Can/Am EMTP User Group in Portland, Oregon, USA. Program is no older than July, 1992.
+Total size of LABCOM tables = 227363 INTEGER words. VARDIM List Sizes follow : 752 900 1500 150 7500 120
+ 2100 5250 225 480 150 150 15000 60 10800 120 12 15 4800 1980 300 450 12000 9 1200 252 4 9600
+--------------------------------------------------+--------------------------------------------------------------------------------
+Descriptive interpretation of input data cards. | Input data card images are shown below, all 80 columns, character by character
+ 0 1 2 3 4 5 6 7 8
+ 012345678901234567890123456789012345678901234567890123456789012345678901234567890
+--------------------------------------------------+--------------------------------------------------------------------------------
+Marker card preceding new EMTP data case. |BEGIN NEW DATA CASE
+Comment card. KOMPAR = 1. |C 3rd of 3 data subcases illustrates LINE MODEL FREQUENCY SCAN (LMFS) for
+Comment card. KOMPAR = 1. |C an untransposed double-circuit line generated by JMARTI SETUP.
+ < < < Etc. (section removed) > > >
+Blank card ending node names for voltage output. |BLANK CARD ENDING NODE VOLTAGE OUTPUTS ====================================
+ 2) Freq [Hz] = 7.5535525E+00 Total network loss = 1.460350203292E+01
+ 3) Freq [Hz] = 9.5093592E+00 Total network loss = 1.740069938004E+01
+ < < < Etc. (section removed) > > >
+ 40) Freq [Hz] = 4.7659694E+04 Total network loss = 2.219525952980E+03
+ 41) Freq [Hz] = 6.0000000E+04 Total network loss = 2.202395130215E+03
+Compute overhead line constants. Limit = 100 |
+Comment card. KOMPAR = 1. |C End of $INCLUDE. File name = 30
+Comment card. KOMPAR = 1. |C MR02D# ,MR04D# ,MR02E# ,MR04E# ,MR02F# ,MR04F#
+Comment card. KOMPAR = 1. |C dc51fs6p.dat
+Comment card. KOMPAR = 1. |C dc51fs6m.dat
+Comment card. KOMPAR = 1. |C Raw LINE CONSTANTS data for the overhead transmission line being considered:
+Line conductor card. 4.138E-01 4.970E-02 4 | 1.4138 .0497 4 1.603 -15. 52.0 A1-1
+Line conductor card. 4.138E-01 4.970E-02 4 | 1.4138 .0497 4 1.603 -16.06 53.06 A1-2
+ < < < Etc. (section removed) > > >
+Blank card terminating frequency cards. |BLANK card ending frequency cards of "LINE CONSTANTS" data
+ 1) Freq [Hz] = 6.0000000E+00 Total network loss = 1.163993843730E+01
+ 2) Freq [Hz] = 7.5535525E+00 Total network loss = 1.392642800817E+01
+ < < < Etc. (section removed) > > >
+ 40) Freq [Hz] = 4.7659694E+04 Total network loss = 2.223352249386E+03
+ 41) Freq [Hz] = 6.0000000E+04 Total network loss = 2.203817311869E+03
+
+********************************************************************************
+* *
+* LINE MODEL FREQUENCY SCAN COMPARISON TABLE 30-Jul-93 *
+* ZERO-SEQUENCE IMPEDANCE TEST *
+* *
+********************************************************************************
+
+ LINE MODEL BEING TESTED EXACT-PI MODEL % ERROR
+
+ FREQUENCY NODE MAG ANG REAL IMAG MAG ANG REAL IMAG PCTMAG PCTANG
+
+ 6.000E+00 GENIA 2.366E+01 8.006E+01 4.083E+00 2.331E+01 2.351E+01 8.070E+01 3.797E+00 2.320E+01 .6696 -.791
+ GENIB 2.368E+01 7.984E+01 4.176E+00 2.331E+01 2.381E+01 8.038E+01 3.979E+00 2.347E+01 -.552 -.671
+ GENIC 2.347E+01 7.996E+01 4.092E+00 2.311E+01 2.352E+01 8.055E+01 3.864E+00 2.320E+01 -.221 -.728
+ GENID 2.347E+01 7.996E+01 4.092E+00 2.311E+01 2.352E+01 8.055E+01 3.864E+00 2.320E+01 -.221 -.728
+ GENIE 2.368E+01 7.984E+01 4.176E+00 2.331E+01 2.381E+01 8.038E+01 3.979E+00 2.347E+01 -.552 -.671
+ GENIF 2.366E+01 8.006E+01 4.083E+00 2.331E+01 2.351E+01 8.070E+01 3.797E+00 2.320E+01 .6696 -.791
+
+ 7.554E+00 GENIA 2.914E+01 8.041E+01 4.857E+00 2.873E+01 2.901E+01 8.092E+01 4.577E+00 2.865E+01 .4326 -.641
+ GENIB 2.917E+01 8.030E+01 4.916E+00 2.876E+01 2.939E+01 8.073E+01 4.734E+00 2.900E+01 -.728 -.533
+ GENIC 2.892E+01 8.038E+01 4.831E+00 2.851E+01 2.904E+01 8.085E+01 4.616E+00 2.867E+01 -.408 -.581
+ GENID 2.892E+01 8.038E+01 4.831E+00 2.851E+01 2.904E+01 8.085E+01 4.616E+00 2.867E+01 -.408 -.581
+ GENIE 2.917E+01 8.030E+01 4.916E+00 2.876E+01 2.939E+01 8.073E+01 4.734E+00 2.900E+01 -.728 -.533
+ GENIF 2.914E+01 8.041E+01 4.857E+00 2.873E+01 2.901E+01 8.092E+01 4.577E+00 2.865E+01 .4326 -.641
+
+ < < < Etc. (section removed) > > >
+
+
+ 6.000E+04 GENIA 7.446E+02 -5.713E+00 7.409E+02 -7.413E+01 7.156E+02 -3.941E+00 7.139E+02 -4.919E+01 4.062 44.95
+ GENIB 7.249E+02 -1.238E+00 7.247E+02 -1.566E+01 7.120E+02 -3.456E-01 7.120E+02 -4.295E+00 1.804 258.2
+ GENIC 7.372E+02 -2.027E+00 7.367E+02 -2.607E+01 7.801E+02 -4.349E+00 7.779E+02 -5.916E+01 -5.51 -53.4
+ GENID 7.372E+02 -2.027E+00 7.367E+02 -2.607E+01 7.801E+02 -4.349E+00 7.779E+02 -5.916E+01 -5.51 -53.4
+ GENIE 7.249E+02 -1.238E+00 7.247E+02 -1.566E+01 7.120E+02 -3.456E-01 7.120E+02 -4.295E+00 1.804 258.2
+ GENIF 7.446E+02 -5.713E+00 7.409E+02 -7.413E+01 7.156E+02 -3.941E+00 7.139E+02 -4.919E+01 4.062 44.95
+
+Request for character (line printer) plotting. | PRINTER PLOT
+>> Plot card. 5.000E-01 0.000E+00 5.000E+00 | 186 .5 0.0 5.0 GENIA MAG MARTI SECTION Z IN OHMS
+
+30-Jul-93 09.57.47 1
+Plot type 8
+Node names GENIA MAG
+Time-axis legend : Frequency f in Hertz
+
+ Z IN OHMS ( x 10**( 3) )
+ 0.000 0.515 1.030 1.545 2.059 2.574 3.089 3.604 4.119 4.634 5.149 5.663 6.178 6.693
++---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+
+|
+|
+|
+|
+|
+|
+| 0.5
+|
+|
+A
+|
+|A
+|A
+|A
+|A
+|A
+|
+| A
+| A
+| A
+| A
+| A
+|
+| A
+| 2.0 A
+| A
+| A
+| A
+|
+| A
+| 2.5 A
+| A
+| A
+| A
+|
+| A
+| 3.0 A
+| A
+| A
+| A
+|
+| A
+| 3.5 A
+| A
+| A
+| A
+|
+| A
+| 4.0 A
+| A
+| A
+| A
+|
+| A
+| 4.5 A
+| A
+| A
+| A
+End of graph.
+
+ < < < Etc. (section removed) > > >
+
+Blank card terminating all plot cards. |BLANK card ending batch-mode (CalComp) plot cards
+Actual List Sizes for the preceding solution follow. 30-Jul-93 09.52.59
+ Size 1-10: 19 24 39 6 -9999 0 -9999 -9999 0 0
+ Size 11-20: -9999 60 82 -9999 -9999 0 0 0 23 1073
+ Size 21-29: 72 -9999 90 -9999 -9999 -9999 -9999 -9999 -9999
+Seconds for overlays 1-5 : 1.703 0.000 1.703 --- (CP: I/O; tot)
+Seconds for overlays 6-11 : 8.461 0.000 8.461
+Seconds for overlays 12-15 : 0.000 0.000 0.000
+Seconds for time-step loop : 1.047 0.000 1.047
+Seconds after DELTAT-loop : 0.879 0.000 0.879
+ ---------------------------
+ Totals : 12.090 0.000 12.090
+
+EMTP begins. Send (SPY, file_name, DISK, HELP, GO, KEY, STOP, BOTH, DIR) :
+ --- 44 cards of disk file read into card cache cells 1 onward.
+ --- Pass 1. Card = 10. Ready to open $INCLUDE = dc51fs6.dat
+ --- Pass 1. Card = 194. Ready to open $INCLUDE = dc51fs6p.dat
+Alternative Transients Program (ATP), Salford 80386 translation. All rights reserved by Can/Am user group of Portland, Oregon, USA.
+ Date (dd-mth-yy) and time of day (hh.mm.ss) = 30-Jul-93 09.58.00 Name of disk plot file, if any, is D:37300958.pl4
+Consult the 800-page ATP Rule Book of the Can/Am EMTP User Group in Portland, Oregon, USA. Program is no older than July, 1992.
+Total size of LABCOM tables = 227363 INTEGER words. VARDIM List Sizes follow : 752 900 1500 150 7500 120
+ 2100 5250 225 480 150 150 15000 60 10800 120 12 15 4800 1980 300 450 12000 9 1200 252 4 9600
+--------------------------------------------------+--------------------------------------------------------------------------------
+Descriptive interpretation of input data cards. | Input data card images are shown below, all 80 columns, character by character
+ 0 1 2 3 4 5 6 7 8
+ 012345678901234567890123456789012345678901234567890123456789012345678901234567890
+--------------------------------------------------+--------------------------------------------------------------------------------
+Comment card. KOMPAR = 1. |C data:GO
+Marker card preceding new EMTP data case. |BEGIN NEW DATA CASE
+Comment card. KOMPAR = 1. |C 3rd of 3 data subcases illustrates LINE MODEL FREQUENCY SCAN (LMFS) for
+Comment card. KOMPAR = 1. |C an untransposed double-circuit line generated by JMARTI SETUP.
+ < < < Etc. (section removed) > > >
+Blank card ending node names for voltage output. |BLANK CARD ENDING NODE VOLTAGE OUTPUTS ====================================
+ 2) Freq [Hz] = 7.5535525E+00 Total network loss = 2.186843544415E+00
+ 3) Freq [Hz] = 9.5093592E+00 Total network loss = 2.201132634968E+00
+ < < < Etc. (section removed) > > >
+ 40) Freq [Hz] = 4.7659694E+04 Total network loss = 5.301174275213E+01
+ 41) Freq [Hz] = 6.0000000E+04 Total network loss = 7.652463362163E+01
+Compute overhead line constants. Limit = 100 |
+ < < < Etc. (section removed) > > >
+Line conductor card. 4.138E-01 4.970E-02 4 | 1.4138 .0497 4 1.603 -15. 52.0 A1-1
+Line conductor card. 4.138E-01 4.970E-02 4 | 1.4138 .0497 4 1.603 -16.06 53.06 A1-2
+ < < < Etc. (section removed) > > >
+Blank card terminating frequency cards. |BLANK card ending frequency cards of "LINE CONSTANTS" data
+ 1) Freq [Hz] = 6.0000000E+00 Total network loss = 2.644053558159E+00
+ 2) Freq [Hz] = 7.5535525E+00 Total network loss = 2.646292442603E+00
+ < < < Etc. (section removed) > > >
+ 40) Freq [Hz] = 4.7659694E+04 Total network loss = 6.165455521027E+01
+ 41) Freq [Hz] = 6.0000000E+04 Total network loss = 9.153350121473E+01
+
+********************************************************************************
+* *
+* LINE MODEL FREQUENCY SCAN COMPARISON TABLE 30-Jul-93 *
+* POSITIVE-SEQUENCE IMPEDANCE TEST *
+* *
+********************************************************************************
+
+ LINE MODEL BEING TESTED EXACT-PI MODEL % ERROR
+
+
+ FREQUENCY NODE MAG ANG REAL IMAG MAG ANG REAL IMAG PCTMAG PCTANG
+
+ 6.000E+00 GENIA 2.626E+00 7.474E+01 6.912E-01 2.534E+00 2.604E+00 6.958E+01 9.085E-01 2.440E+00 .8639 7.416
+ GENIB 2.711E+00 -4.640E+01 1.869E+00 -1.963E+00 2.813E+00 -4.956E+01 1.825E+00 -2.141E+00 -3.65 -6.39
+ GENIC 2.663E+00 -1.655E+02 -2.578E+00 -6.683E-01 2.664E+00 -1.671E+02 -2.596E+00 -5.939E-01 -.008 -.987
+ GENID 2.608E+00 7.375E+01 7.299E-01 2.503E+00 2.625E+00 6.918E+01 9.329E-01 2.453E+00 -.653 6.599
+ GENIE 2.746E+00 -4.615E+01 1.902E+00 -1.980E+00 2.808E+00 -4.910E+01 1.839E+00 -2.123E+00 -2.21 -6.
+ GENIF 2.626E+00 -1.651E+02 -2.538E+00 -6.750E-01 2.644E+00 -1.677E+02 -2.583E+00 -5.654E-01 -.693 -1.52
+
+ 7.554E+00 GENIA 3.268E+00 7.756E+01 7.038E-01 3.191E+00 3.218E+00 7.334E+01 9.228E-01 3.083E+00 1.542 5.761
+ GENIB 3.368E+00 -4.312E+01 2.458E+00 -2.302E+00 3.467E+00 -4.578E+01 2.418E+00 -2.485E+00 -2.87 -5.8
+ GENIC 3.291E+00 -1.625E+02 -3.139E+00 -9.906E-01 3.285E+00 -1.635E+02 -3.150E+00 -9.335E-01 .1779 -.618
+ GENID 3.246E+00 7.675E+01 7.439E-01 3.160E+00 3.249E+00 7.288E+01 9.567E-01 3.105E+00 -.094 5.321
+ GENIE 3.405E+00 -4.296E+01 2.492E+00 -2.321E+00 3.463E+00 -4.529E+01 2.437E+00 -2.461E+00 -1.69 -5.13
+ GENIF 3.255E+00 -1.622E+02 -3.098E+00 -9.965E-01 3.251E+00 -1.641E+02 -3.126E+00 -8.919E-01 .1212 -1.16
+
+ < < < Etc. (section removed) > > >
+
+ 6.000E+04 GENIA 1.758E+02 5.490E+01 1.011E+02 1.438E+02 2.043E+02 5.199E+01 1.258E+02 1.610E+02 -14. 5.593
+ GENIB 2.032E+02 -1.852E+01 1.927E+02 -6.454E+01 2.288E+02 -1.702E+01 2.188E+02 -6.699E+01 -11.2 8.777
+ GENIC 8.011E+01 -1.524E+02 -7.101E+01 -3.709E+01 7.719E+01 -1.493E+02 -6.634E+01 -3.947E+01 3.787 2.124
+ GENID 1.186E+02 9.365E+01 -7.560E+00 1.184E+02 1.343E+02 8.904E+01 2.259E+00 1.343E+02 -11.7 5.186
+ GENIE 1.089E+02 -6.696E+01 4.262E+01 -1.002E+02 1.143E+02 -6.770E+01 4.338E+01 -1.058E+02 -4.72 -1.08
+ GENIF 1.970E+02 -1.591E+02 -1.841E+02 -7.034E+01 2.168E+02 -1.600E+02 -2.036E+02 -7.428E+01 -9.1 -.548
+
+Request for character (line printer) plotting. | PRINTER PLOT
+>> Plot card. 5.000E-01 0.000E+00 5.000E+00 | 186 .5 0.0 5.0 GENIA MAG MARTI SECTION Z IN OHMS
+
+30-Jul-93 09.58.00 1
+Plot type 8
+Node names GENIA MAG
+Time-axis legend : Frequency f in Hertz
+
+ Z IN OHMS ( x 10**( 3) )
+ 0.000 0.123 0.246 0.370 0.493 0.616 0.739 0.862 0.985 1.109 1.232 1.355 1.478 1.601
++---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+
+
+ < < < Etc. (section removed) > > >
+
+Blank card terminating all plot cards. |BLANK card ending batch-mode (CalComp) plot cards
+Actual List Sizes for the preceding solution follow. 30-Jul-93 09.53.11
+ Size 1-10: 19 24 39 6 -9999 0 -9999 -9999 0 0
+ Size 11-20: -9999 60 82 -9999 -9999 0 0 0 23 1073
+ Size 21-29: 72 -9999 90 -9999 -9999 -9999 -9999 -9999 -9999
+Seconds for overlays 1-5 : 1.539 0.000 1.539 --- (CP: I/O; tot)
+Seconds for overlays 6-11 : 8.406 0.000 8.406
+Seconds for overlays 12-15 : 0.000 0.000 0.000
+Seconds for time-step loop : 0.934 0.000 0.934
+Seconds after DELTAT-loop : 0.879 0.000 0.879
+ ---------------------------
+ Totals : 11.758 0.000 11.758
+
+EMTP begins. Send (SPY, file_name, DISK, HELP, GO, KEY, STOP, BOTH, DIR) :
+ --- 44 cards of disk file read into card cache cells 1 onward.
+ --- Pass 1. Card = 10. Ready to open $INCLUDE = dc51fs6.dat
+ --- Pass 1. Card = 194. Ready to open $INCLUDE = dc51fs6m.dat
+Alternative Transients Program (ATP), Salford 80386 translation. All rights reserved by Can/Am user group of Portland, Oregon, USA.
+ Date (dd-mth-yy) and time of day (hh.mm.ss) = 30-Jul-93 09.59.12 Name of disk plot file, if any, is D:37300959.pl4
+Consult the 800-page ATP Rule Book of the Can/Am EMTP User Group in Portland, Oregon, USA. Program is no older than July, 1992.
+Total size of LABCOM tables = 227363 INTEGER words. VARDIM List Sizes follow : 752 900 1500 150 7500 120
+ 2100 5250 225 480 150 150 15000 60 10800 120 12 15 4800 1980 300 450 12000 9 1200 252 4 9600
+--------------------------------------------------+--------------------------------------------------------------------------------
+Descriptive interpretation of input data cards. | Input data card images are shown below, all 80 columns, character by character
+ 0 1 2 3 4 5 6 7 8
+ 012345678901234567890123456789012345678901234567890123456789012345678901234567890
+--------------------------------------------------+--------------------------------------------------------------------------------
+Comment card. KOMPAR = 1. |C data:GO
+Marker card preceding new EMTP data case. |BEGIN NEW DATA CASE
+Comment card. KOMPAR = 1. |C 3rd of 3 data subcases illustrates LINE MODEL FREQUENCY SCAN (LMFS) for
+Comment card. KOMPAR = 1. |C an untransposed double-circuit line generated by JMARTI SETUP.
+ < < < Etc. (section removed) > > >
+Blank card ending node names for voltage output. |BLANK CARD ENDING NODE VOLTAGE OUTPUTS ====================================
+ 2) Freq [Hz] = 7.5535525E+00 Total network loss = 4.247788777322E+00
+ 3) Freq [Hz] = 9.5093592E+00 Total network loss = 4.950100153259E+00
+ < < < Etc. (section removed) > > >
+ 40) Freq [Hz] = 4.7659694E+04 Total network loss = 6.576631373437E+02
+ 41) Freq [Hz] = 6.0000000E+04 Total network loss = 7.406315999451E+02
+Compute overhead line constants. Limit = 100 |
+ < < < Etc. (section removed) > > >
+Blank card terminating frequency cards. |BLANK card ending frequency cards of "LINE CONSTANTS" data
+ 1) Freq [Hz] = 6.0000000E+00 Total network loss = 3.573399585181E+00
+ 2) Freq [Hz] = 7.5535525E+00 Total network loss = 4.146632333116E+00
+ < < < Etc. (section removed) > > >
+ 40) Freq [Hz] = 4.7659694E+04 Total network loss = 6.610984397030E+02
+ 41) Freq [Hz] = 6.0000000E+04 Total network loss = 7.522122408557E+02
+
+********************************************************************************
+* *
+* LINE MODEL FREQUENCY SCAN COMPARISON TABLE 30-Jul-93 *
+* MUTUAL IMPEDANCE TEST *
+* *
+********************************************************************************
+
+ LINE MODEL BEING TESTED EXACT-PI MODEL % ERROR
+
+ FREQUENCY NODE MAG ANG REAL IMAG MAG ANG REAL IMAG PCTMAG PCTANG
+
+ 6.000E+00 GENIA 1.335E+01 7.964E+01 2.401E+00 1.313E+01 1.327E+01 7.985E+01 2.339E+00 1.306E+01 .6346 -.259
+ GENIB 1.364E+01 7.935E+01 2.521E+00 1.341E+01 1.370E+01 7.978E+01 2.431E+00 1.348E+01 -.399 -.531
+ GENIC 1.326E+01 7.939E+01 2.442E+00 1.304E+01 1.330E+01 7.971E+01 2.377E+00 1.309E+01 -.261 -.395
+ GENID 1.021E+01 8.070E+01 1.650E+00 1.007E+01 1.023E+01 8.164E+01 1.487E+00 1.012E+01 -.187 -1.15
+ GENIE 1.004E+01 8.050E+01 1.656E+00 9.898E+00 1.011E+01 8.120E+01 1.547E+00 9.993E+00 -.765 -.855
+ GENIF 1.031E+01 8.062E+01 1.681E+00 1.017E+01 1.024E+01 8.181E+01 1.458E+00 1.014E+01 .6897 -1.46
+
+ 7.554E+00 GENIA 1.647E+01 8.025E+01 2.790E+00 1.623E+01 1.639E+01 8.042E+01 2.729E+00 1.617E+01 .4408 -.215
+ GENIB 1.684E+01 8.011E+01 2.892E+00 1.659E+01 1.693E+01 8.045E+01 2.810E+00 1.670E+01 -.545 -.42
+ GENIC 1.637E+01 8.010E+01 2.813E+00 1.612E+01 1.644E+01 8.035E+01 2.755E+00 1.621E+01 -.454 -.314
+ GENID 1.256E+01 8.075E+01 2.018E+00 1.239E+01 1.260E+01 8.151E+01 1.861E+00 1.246E+01 -.356 -.924
+ GENIE 1.234E+01 8.056E+01 2.023E+00 1.217E+01 1.246E+01 8.111E+01 1.924E+00 1.231E+01 -.979 -.685
+ GENIF 1.267E+01 8.061E+01 2.067E+00 1.250E+01 1.262E+01 8.158E+01 1.848E+00 1.249E+01 .4114 -1.19
+
+ < < < Etc. (section removed) > > >
+
+ 6.000E+04 GENIA 5.510E+02 1.845E+01 5.227E+02 1.744E+02 5.618E+02 2.101E+01 5.244E+02 2.015E+02 -1.91 -12.2
+ GENIB 5.619E+02 2.300E+01 5.173E+02 2.195E+02 5.683E+02 2.425E+01 5.182E+02 2.334E+02 -1.12 -5.17
+ GENIC 4.576E+02 1.536E+01 4.413E+02 1.212E+02 4.744E+02 1.321E+01 4.618E+02 1.084E+02 -3.53 16.24
+ GENID 3.301E+02 -2.650E+01 2.954E+02 -1.473E+02 3.577E+02 -2.794E+01 3.161E+02 -1.676E+02 -7.72 -5.15
+ GENIE 3.136E+02 -4.859E+01 2.075E+02 -2.352E+02 3.067E+02 -5.080E+01 1.939E+02 -2.377E+02 2.241 -4.36
+ GENIF 3.308E+02 -4.872E+01 2.182E+02 -2.486E+02 3.142E+02 -5.291E+01 1.895E+02 -2.506E+02 5.275 -7.93
+
+
+Request for character (line printer) plotting. | PRINTER PLOT
+>> Plot card. 5.000E-01 0.000E+00 5.000E+00 | 186 .5 0.0 5.0 GENIA MAG MARTI SECTION Z IN OHMS
+
+30-Jul-93 09.59.12 1
+Plot type 8
+Node names GENIA MAG
+Time-axis legend : Frequency f in Hertz
+
+ Z IN OHMS ( x 10**( 3) )
+ 0.000 0.254 0.507 0.761 1.015 1.268 1.522 1.776 2.029 2.283 2.537 2.790 3.044 3.298
++---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+---------+
+ < < < Etc. (section removed) > > >
+Blank card terminating all plot cards. |BLANK card ending batch-mode (CalComp) plot cards
+Actual List Sizes for the preceding solution follow. 30-Jul-93 09.53.22
+ Size 1-10: 19 24 39 3 -9999 0 -9999 -9999 0 0
+ Size 11-20: -9999 60 82 -9999 -9999 0 0 0 23 1073
+ Size 21-29: 72 -9999 90 -9999 -9999 -9999 -9999 -9999 -9999
+Seconds for overlays 1-5 : 1.703 0.000 1.703 --- (CP: I/O; tot)
+Seconds for overlays 6-11 : 8.133 0.000 8.133
+Seconds for overlays 12-15 : 0.000 0.000 0.000
+Seconds for time-step loop : 0.055 0.000 0.055
+Seconds after DELTAT-loop : 0.879 0.000 0.879
+ ---------------------------
+ Totals : 10.770 0.000 10.770
+