ATP萌新
<span style="color:#444444;font-family:Tahoma, "font-size:14px;background-color:#FFFFFF;">ATP新手,点plotxy后出现The selected file contains no bytes,view LIS file如下,求大神解答Alternative Transients Program (ATP),GNU Linux or DOS.All rights reserved by Can/Am user group of Portland, Oregon, USA.
Date (dd-mth-yy) and time of day (hh.mm.ss) = 02-May-1923:52:54 Name of disk plot file isjjj1.pl4
Consult the 860-page ATP Rule Book of the Can/Am EMTP User Group in Portland,Oregon, USA.Source code date is 19 September 2003.
Total size of LABCOM tables = 9872109 INTEGER words.31 VARDIMList Sizes follow:600210K192K900420K120015K
120K2250380072012007280051090K80090254120K100K3K15K192K12030K160K600210K30019200
--------------------------------------------------+--------------------------------------------------------------------------------
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 > 0. |C data:JJJ1.ATP
Marker card preceding new EMTP data case. |BEGIN NEW DATA CASE
Comment card. KOMPAR > 0. |C --------------------------------------------------------
Comment card. KOMPAR > 0. |C Generated by ATPDRAW五月, 星期四 2, 2019
Comment card. KOMPAR > 0. |C A Bonneville Power Administration program
Comment card. KOMPAR > 0. |C by H. K. H鴌dalen at SEfAS/NTNU - NORWAY 1994-2015
Comment card. KOMPAR > 0. |C --------------------------------------------------------
Comment card. KOMPAR > 0. |CdT>< Tmax >< Xopt >< Copt ><Epsiln>
Misc. data. 1.000E-09 1.000E-03 0.000E+00 | 1.E-9 .001
Misc. data. 500 111100100 | 500 1 1 1 1 0 0 1 0
Comment card. KOMPAR > 0. |C 1 2 3 4 5 6 7 8
Comment card. KOMPAR > 0. |C 345678901234567890123456789012345678901234567890123456789012345678901234567890
Comment card. KOMPAR > 0. |C < n1 >< n2 ><ref1><ref2>< R>< L>< C>
Comment card. KOMPAR > 0. |C < n1 >< n2 ><ref1><ref2>< R>< A>< B><Leng><><>0
Series R-L-C. 0.000E+000.000E+002.500E-04 |XX0001 250. 0
4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0001XX0003 4. 60.3.E8500. 1 0 0
Series R-L-C. 0.000E+001.000E-010.000E+00 |XX0002XX0001 100. 0
4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0004XX0005 4. 60.3.E8500. 1 0 0
4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0006XX0007 4. 60.3.E8500. 1 0 0
Series R-L-C. 2.000E+005.000E-070.000E+00 |XX0003XX0008 2. .0005 0
4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0007XX0009 4. 60.3.E8500. 1 0 0
4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0006XX0004 4. 60.3.E8500. 1 0 0
4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0010XX0006 4. 60.3.E8500. 1 0 0
Series R-L-C. 0.000E+000.000E+002.500E-04 |XX0004 250. 0
Series R-L-C. 0.000E+000.000E+002.000E-03 |XX0005 2.E3 0
Series R-L-C. 0.000E+001.000E-010.000E+00 |XX0005XX0011 100. 0
Blank card ending branches.IBR, NTOT = 1212 |BLANK BRANCH
Comment card. KOMPAR > 0. |C < n 1>< n 2>< Tclose ><Top/Tde >< Ie ><Vf/CLOP ><type>
Switch. 1.00E-041.00E+030.00E+000.00E+00|XX0008XX0007 .0001 1.E3 0
Blank card ending switches. KSWTCH = 1. |BLANK SWITCH
Comment card. KOMPAR > 0. |C < n 1><>< Ampl.>< Freq.><Phase/T0>< A1 >< T1 >< TSTART >< TSTOP>
Source.-2.20E+055.00E+010.00E+00 -1.00E+00|14XX0002 0 -2.2E5 50. -1. 1.
Source. 2.20E+055.00E+010.00E+00 -1.00E+00|14XX0011 0 2.2E5 50. -1. 1.
Blank card ends electric sources.KCONST = 2 |BLANK SOURCE
List of input elements that are connected to each node. Only the physical connections of multi-phase lines are shown (capacitive
and inductive coupling are ignored). Repeated entries indicate parallel connections. Switches are included,although sources
(including rotating machinery) are omitted -- except that U.M. usage produces extra,internally-defined nodes"UMXXXX".
--------------+------------------------------
From bus name |Names of all adjacent busses.
--------------+------------------------------
XX0001 |TERRA *XX0003*XX0002*
XX0003 |XX0001*XX0008*
XX0002 |XX0001*
XX0004 |TERRA *XX0005*XX0006*
XX0005 |TERRA *XX0004*XX0011*
XX0006 |XX0004*XX0007*XX0010*
XX0007 |XX0006*XX0008*XX0009*
XX0008 |XX0003*XX0007*
XX0009 |XX0007*
XX0010 |XX0006*
XX0011 |XX0005*
TERRA|XX0001*XX0004*XX0005*
--------------+------------------------------
Pi-equivalent branches of distributed circuits are added to the table of List Size 3 between indices7 and12.
Sinusoidal steady-state phasor solution, branch by branch. All flows are away from a bus,and the real part,magnitude,or"P"
is printed above the imaginary part,the angle,or"Q". The first solution frequency=5.00000000E+01Hertz.
Bus K Phasornodevoltage Phasorbranchcurrent Power flow Power loss
Bus M Rectangular Polar Rectangular Polar PandQ PandQ
XX0001 149896.92103882149896.92103893 -.014392464530411772.876648291 -.103916875E-12-.103916875E-12
.18325054986281 0.0000700 11772.876648282 90.0000700 -.88235898067E9 82358980.6749818
TERRA 0.0 0.0 .0143924645303811772.876648291 0.0
0.0 0.0 -11772.87664828 -89.9999300 0.0
XX0001 149896.92103882149896.92103893 .008559418363391.3080632828924 641.63507836966641.63507869584
.18325054986281 0.0000700 1.3080352779679 89.6250777 -98035.22960451 -98035.2296045
XX0003 149886.95534862149892.66102285 .4352063227E-11 .435222396E-11 .3261832126E-6
-1307.839756983 -0.4999221 -.374041076E-13 -0.4924204 -.427067548E-10
XX0002 -220000. 220000. -.00583304616711774.184683562 641.63507836944.4357625372E-13
0.0 180.0000000 11774.18468356 90.0000284 .12951603152E10 77617331.0962029
XX0001 149896.92103882149896.92103893 .0058330461669911774.184683562 -641.6350783694
.18325054986281 0.0000700 -11774.18468356 -89.9999716 .882457015905E9
XX0004 -.2945521752439 74.70160613923 5.8695997432325.8696446842568 -.0065488056286 34457.12568473
74.701025419982 90.2259207 .02296897199572 0.2242092 219.23594259248 -187.4023329
XX0005 -11739.9657279211739.969852465 -5.8699945058965.8704633843495 34457.132233536
-9.840933953513 -179.9519723 -.0741946611597 -179.2758401 -406.6382754849
XX0006 4.244486877587974.505595921869 -.0012956034874.00129986432335 .00116159796287.00100320278347
74.384596220043 86.7341658 .10516112642E-3 175.3596074 -.0484096486471 -0.0242085
XX0007 6.187209985997274.476565829985 .64729984272E-3.64991369084E-3 -.1583951794E-3
74.219116745063 85.2346076 -.5822988199E-4 -5.1403847 .02420115155163
XX0003 149886.95534862149892.66102285 0.0 0.0 0.0 0.0
-1307.839756983 -0.4999221 0.0 0.0 0.0 0.0
XX0008 149886.95534862149892.66102285 0.0 0.0 0.0
-1307.839756983 -0.4999221 0.0 0.0 0.0
XX0007 6.187209985997274.476565829985 -.6472998427E-3.64991369084E-3 .1583951794E-3 .1583951794E-3
74.219116745063 85.2346076 .58229881992E-4 174.8596153 -.0242011515516 -0.0242012
XX0009 6.834445706469674.474449233014 -.285397164E-18.3019492227E-17 -.112437082E-15
74.160191076116 84.7346155 -.300597435E-17 -95.4235936 -.310469864E-18
XX0006 4.244486877587974.505595921869 .00194445829654 .0019499653913 -.0013201166475.00522868898108
74.384596220043 86.7341658 -.1464478074E-3 -4.3071274 .07262967052585 -0.0242678
XX0004 -.2945521752439 74.70160613923 -.0025949263561 .0026001733368 .00654880562858
74.701025419982 90.2259207 .16510175041E-3 176.3594729 -.0968975143038
XX0010 4.893295776749374.503478499874 -.109637827E-18.2107872404E-17 -.785145561E-16.15851868463E-3
74.342612040622 86.2341737 -.210501915E-17 -92.9814996 .1074859433E-17 -0.0242200
XX0006 4.244486877587974.505595921869 -.6488548091E-3.65016701958E-3 .15851868463E-3
74.384596220043 86.7341658 .41286680954E-4 176.3591735 -.0242200218787
XX0004 -.2945521752439 74.70160613923 -5.8670048168765.8670504264591 -.68358947E-16 -.68358947E-16
74.701025419982 90.2259207 -.0231340737461 -179.7740793 -219.1390450782 -219.1390451
TERRA 0.0 0.0 5.8670048168765.8670504264591 0.0
0.0 0.0 .02313407374613 0.2259207 0.0
XX0005 -11739.9657279211739.969852465 6.18324116256417376.4406083741 .2248867759E-11.2248867759E-11
-9.840933953513 -179.9519723 -7376.438016848 -89.9519723 -.4329959518E8 43299595.1804063
TERRA 0.0 0.0 -6.1832411625647376.4406083741 0.0
0.0 0.0 7376.4380168479 90.0480277 0.0
XX0005 -11739.9657279211739.969852465 -.31324665666857376.5122181602 -34457.13223354-.643041176E-12
-9.840933953513 -179.9519723 7376.5122115091 90.0024331 .433000018187E8 54716345.0846804
XX0011 220000. 220000. .313246656668517376.5122181602 34457.132233536
0.0 0.0 -7376.512211509 -89.9975669 .811416343266E9
Total network lossP-lossby summing injections = 3.509876731190E+04
Output for steady-state phasor switch currents.
Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
XX0008 XX0007 Open Open Open Open Open Open
Solution at nodes with known voltage. Nodes that are shorted together by switches are shown as a group of names, with the printed
result applying to the composite group. The entry "MVA" isSQRT( P**2 + Q**2 )in units of power,while"P.F."is the
associated power factor.
Node Sourcenodevoltage Injectedsourcecurrent Injectedsourcepower
name Rectangular Polar Rectangular Polar PandQ MVA and P.F.
XX0002 -220000. 220000. -.00583304616711774.184683562 641.63507836944.12951603152E10
0.0 180.0000000 11774.18468356 90.0000284 .12951603152E10 0.0000005
XX0011 220000. 220000. .313246656668517376.5122181602 34457.132233536.811416343998E9
0.0 0.0 -7376.512211509 -89.9975669 .811416343266E9 0.0000425
------------------------------------------------------------------------------------------------------------------------------------
ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/
ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/
------------------------------------------------------------------------------------------------------------------------------------
You lose, fella. The EMTP logic has detected an error condition, and is now going to terminate program execution.The following
message summarizes the circumstances leading to this situation.Where an otherwise-unidentified data card is referred to, or where
the "last" card is mentioned, it is the most recently read card of the input data that is meant.The 80-column image of this card
is generally the last one printed out prior to this termination message.But possibly this last-read card has not yet been
displayed, so a copy follows:
"XX0001XX0003XX0008XX0007XX0006XX0009XX0005XX0004 "
KILL code number Overlay number Nearby statement number
102 12 1536
KILL = 102. The total resistance for one particular mode of a constant-parameter, distributed transmission line is too large.
This is for linear branch number2 (in order of data input) which connects bus"XX0001"with bus"XX0003". Resistance is to
be lumped, with half in the middle and a quarter at each end (variableIPUNCHof columns 53-54 is equal to -1).The total modal
resistance of2.00000000E+03Ohmsis unreasonably large when compared with the surge (characteristic) impedance of
6.00000000E+01Ohms. Program logic can not handle any resistance that exceeds four times the characteristic impedance.For
normal power lines, such values are absurd, anyway, so no sympathy is accorded.
------------------------------------------------------------------------------------------------------------------------------------
ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/
ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/
------------------------------------------------------------------------------------------------------------------------------------
Actual List Sizes for the preceding solution follow. 02-May-1923:52:54
Size1-10: 12 12 12 2 -9999 1 -9999 -9999 0 0
Size 11-20: 0 -9999 -9999 -9999 -9999 0 0 0 23 0
Size 21-30: 1 -9999 14 -9999 -9999 1 -9999 -9999 -9999 0
Seconds for overlays1-5: 0.016 0.000 0.016-- (CP: Wait; Real)
Seconds for overlays6-11 : 0.016 0.000 0.016
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: 0.000 0.000 0.000
---------------------------
Totals: 0.031 0.000 0.031 你得上你的模型图,再问
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