summaryrefslogtreecommitdiffstats
path: root/benchmarks/dc29.dat
blob: 7c8ab31d4ba0e1fdf0b959ec439de587b301211e (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
BEGIN NEW DATA CASE
C     BENCHMARK DC-29                                                           
C     Test of  "SEMLYEN SETUP"   for 138-mile,  single-circuit,  500-kV overhead
C     line that connects "John Day"  with "Lower Monumental"  (BPA substations).
C     There are 2 ground wires (both eliminated),  and  each phase consists of a
C     bundle of 2 conductors.  Punched LUNIT7 branch cards contribute to  DC-31.
C     1st of 3 subcases.   2nd is for Pi-equiv. output (fast).  3rd is bypassed.
C      Solution changed on  23 Oct 1990  due to Mustafa Kizilcay's modifications
C      (preceding commented data has been copied to bottom for preservation).
SEMLYEN SETUP                                                                   
$ERASE
BRANCH  JDA   LMA   JDB   LMB   JDC   LMC                                       
TOLERANCES  10      5000.  { Illustration only; value of FMED actually unchanged
C 345678901234567890123456789012345678901234567890
C          60   80     230   1     7  7777     0    { Semlyen miscellaneous data
C          60   80  1  230   1     7  7777     0    { Semlyen miscellaneous data
C  Guido: whenever n4=0(col 26), n1 (col 21) should be 1 !! avoid kill=152
          200  150  10 230   1     7  7777     0    { Semlyen miscellaneous data
C  Guido: overhead lines; rule of thumb: NOO=100-300, NPOINT=150
C   Note:  Guido modifies Semlyen misc. data card above on 23 Oct 1990 following
C          the addition of Mustafa Kizilcay's latest changes.   The old one gave
C          an early  KILL  code.   Later (November 7th), WSM and THL convert the
C          "1 "  of columns 21-22 to  "10"  to make it universal.   Although the
C          VAX had no trouble reading  10  from the original as  I2 information,
C          Sun  (which agreed with Apollo, so Apollo most likely also was wrong)
C          erroneously read unity!   Sun seems to ignore blanks in  "I" FORMATs.
LINE CONSTANTS                                                                  
  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 ending conductor cards within  "LINE CONSTANTS"  data         
C 27.         5000.         1                  138.         { Transient frequency                            
C 27.         60.00         1                  138.   { Phasor solution frequency                     
C 27.          6.00         1                  138.           6 20  { log looping           
 27.         5000.                            138.         { Transient frequency                            
 27.         60.00                            138.   { Phasor solution frequency                     
 27.          6.00                            138.           6 20  { log looping           
BLANK card ending frequency cards of  "LINE CONSTANTS"  data
C                                Frequency = 5.00000000E+03  
C                                -------------------------- 
C            Impedance matrix                          Admittance matrix 
C               (ohm/mile)                                (mho/mile)
C 
C   3.2463317E+00                  0.0000000E+00   0.0000000E+00   0.0000000E+00
C   6.3079678E+01                  5.2869139E-04  -8.2803449E-05  -6.2048083E-05
C 
C   2.3065452E+00   2.0246396E+00                  0.0000000E+00   0.0000000E+00
C   1.4273670E+01   5.9110509E+01                  5.3917160E-04  -8.2803449E-05
C 
C   2.9595110E+00   2.3065452E+00   3.2463317E+00                  0.0000000E+00
C   1.4114577E+01   1.4273670E+01   6.3079678E+01                  5.2869139E-04
BLANK card ending  "LINE CONSTANTS"  data cases                                       
C The following values are computed on the basis of exact diagonalization of the
C        Mode to phase voltage                         Mode to phase current 
C        transformation matrix                         transformation matrix
C 
C   1.000000 -1.000000 -0.266985                    0.420272 -0.500000 -0.299082
C   0.000000  0.000000  0.019744                    0.007566  0.000000  0.006219
C 
C   0.711142  0.000000  1.000000                    0.224711  0.000000  0.840545
C  -0.027600  0.000000  0.000000                   -0.012556  0.000000  0.015131
C 
C   1.000000  1.000000 -0.266985                    0.420272  0.500000 -0.299082
C   0.000000  0.000000  0.019744                    0.007566  0.000000  0.006219
C 
C                        Alpha                     Beta              Attenuation
C  Mode             (neper/mi)             (radians/mi)                  (db/mi)
C   1   0.8245225702687424E-02   0.1861008889722703E+00   0.7161712049448019E-01
C   2   0.4981192766022477E-03   0.1700760589248700E+00   0.4326609063159914E-02
C   3   0.4573686287515477E-03   0.1691150685564419E+00   0.3972653433249082E-02
C Number of frequencies = 121     Starting and ending Hz = 6.0000E+00  6.000E+06
C           Fitting of the propagation step response for mode number  1 :
C Iteration   Amplitude        X(1)          X(2)          X(3)         Error
C   1  7.26461134E-1  1.32035374E+1  1.17295449E+0  2.21313604E-2 7.35218983E-04
C   1  7.13648369E-1  1.45238912E+1  1.17295449E+0  2.21313604E-2 1.23450128E-03
C   1  7.02961062E-1  1.58442449E01  1.17295449E+0  2.21313604E-2 1.78841949E-03
C      < <  Etc. until final (23-rd) such entries,  which is:
C   3  7.67204181E-1  1.05695813E+1  1.17465822E+0  2.53215686E-2 3.72675596E-05
C Successful convergence ....  SUBROUTINE TDFIT.  Tolerance EPS = 5.00000000E-05
C  ++++ Warning!  TDFIT  can not adjust time-domain step response to fit exactly
C                 Instead, the initial fitting will be used.
C    Amplitude 1   Time const. 1     Amplitude 2   Time const. 2      Delay time
C  7.6720418E-01   7.0400012E-05   2.3279582E-01   6.3345970E-04   7.7782236E-04
C Mode 1,  time step = 3.72049322E-06     Symbols :  "." = Semlyen approximation
C        Error           Time    0.0                              8.93193367E-01
C                              .1........1........1........1........1........1..
C      0.00000E+00    7.62701E-04 .*                                        
C      0.00000E+00    7.66422E-04 ..0                                           
C      0.00000E+00    7.70142E-04 ..0                                           
C      0.00000E+00    7.73863E-04 .. 0                                          
C      0.00000E+00    7.77583E-04 ..   0                                       
C     -2.07761E-02    7.81304E-04 .    . 0                                      
C     -4.84345E-03    7.85024E-04 .        *                                    
C      6.50870E-03    7.88745E-04 .           0.                                
C      1.41364E-02    7.92465E-04 .              0. 
C      1.88276E-02    7.96186E-04 .                 0.                          
C      2.12721E-02    7.99906E-04 .                   0  .                      
C      2.20463E-02    8.03627E-04 .                      0  .                   
C      2.16177E-02    8.07347E-04 .                         0  .                
C      2.03607E-02    8.11068E-04 .                            0 .              
C      1.85647E-02    8.14788E-04 .                               0 .           
C      1.64473E-02    8.18509E-04 .                                  0.        
C      1.41747E-02    8.22229E-04 .                                    0 .      
C      1.18700E-02    8.25949E-04 .                                       0.    C      9.61526E-03    8.29670E-04 .                                         0.  
C      7.46654E-03    8.33390E-04 .                                           0.
$PUNCH
C -1JDA   LMA                5.72862E-03 7.77822E-04              1  1  2  2   3
C   1.76406006E+01 9.04231135E+01-1.97906661E-04 1.44978522E-03 6.00000000E+01  
C   0.00000E+00 1.42045E+04 7.67204E-01 0.00000E+00 1.57863E+03 2.32796E-01     
C   0.00000E+00 1.70053E+05-7.75536E-04 0.00000E+00 5.92740E+02-1.43454E-03     
C -1JDB   LMB                7.00175E-03 7.40982E-04              2  2  2  2   3
C   5.19844042E-01 4.16341654E+01-1.59314154E-05 1.96071950E-03 6.00000000E+01  
C   0.00000E+00 1.82512E+05 9.69335E-01 0.00000E+00 2.58428E+03 3.06652E-02     
C   0.00000E+00 9.60136E+03-1.29672E-04 0.00000E+00 5.91248E+01-4.28783E-04     
C -1JDC   LMC                4.11495E-03 7.40975E-04              3  3  2  2   3
C   2.42272029E+00 7.27673245E+01-1.71561794E-05 1.15316857E-03 6.00000000E+01  
C   0.00000E+00 4.30709E+05 9.63717E-01 0.00000E+00 1.32518E+03 3.62828E-02     
C   0.00000E+00 2.12922E+03-1.21998E-04 0.00000E+00 8.97571E+01-3.32339E-04   
C       Prior to improvement on 27 November 2000, zero imaginary parts were
C       included,  and this forced low precision of 6E12.5:
C    1.00000E+00 0.00000E+00 1.00000E+00 0.00000E+00-2.66985E-01 0.00000E+00
C    7.11142E-01 0.00000E+00-1.02636E-14 0.00000E+00 1.00000E+00 0.00000E+00
C    1.00000E+00 0.00000E+00-1.00000E+00 0.00000E+00-2.66985E-01 0.00000E+00
C    4.20272E-01 0.00000E+00 5.00000E-01 0.00000E+00-2.99082E-01 0.00000E+00
C    2.24711E-01 0.00000E+00-5.36721E-15 0.00000E+00 8.40545E-01 0.00000E+00
C    4.20272E-01 0.00000E+00-5.00000E-01 0.00000E+00-2.99082E-01 0.00000E+00
C       Beginning  27 November 2000,  the zero imaginary parts are implied,
C       giving the following  3E26.18  output following a new request word.  A
C       big paragraph about this is planned for the April, 2001, newsletter:
C NO IMAGINARY PART
C   1.0000000000000000E+00    1.0000000000000000E+00   -2.6698449851193501E-01
C   7.1114175640039812E-01   -1.1764114701044076E-14    1.0000000000000000E+00
C   9.9999999999999945E-01   -9.9999999999999467E-01   -2.6698449851194972E-01
C   4.2027250134843613E-01    5.0000000000000333E-01   -2.9908213367540470E-01
C   2.2471123211965521E-01   -6.1556662545037000E-15    8.4054500269687149E-01
C   4.2027250134843563E-01   -4.9999999999999922E-01   -2.9908213367541620E-01
BLANK card ending  "SEMLYEN SETUP"  data cases                                  
BEGIN NEW DATA CASE
C     BENCHMARK DC-29                                                           
C           2nd of 3 subcases illustrates punching of Pi-equivalents on  LUNIT8.
C           Feature added by Mustafa Kizilcay of University of Hannover, Oct 88.
C           There is no rational function fitting, so execution is fast.   Also,
C           the time spent in  LINE CONSTANTS  is minimal: 2 decades,  1 pt/dec.
C            { Running interactively ("SPY DC29.") gave debug on second subcase:
DIAGNOSTIC   { Somehow needed to erase overlay-25 diagnostic.  ????  9 July 1989
SEMLYEN SETUP                                                                   
$OPEN,  UNIT=8  FILE=dc29out.lis  STATUS=UNKNOWN  FORM=FORMATTED ! { Pi-equivalents will go here
C 345678901234567890123456789012345678901234567890
           60   80     230 3 1     7  4100  4100    { Semlyen miscellaneous data
LINE CONSTANTS                                                                  
  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 ending conductor cards within  "LINE CONSTANTS"  data                
 27.         5000.                            138.         { Transient frequency
 27.         50.00                            138.   { Phasor solution frequency
 27.          6.00                            138.           2  1  { log looping
BLANK card ending frequency cards of  "LINE CONSTANTS"  data
BLANK card ending  "LINE CONSTANTS"  data cases                                 
$CLOSE,  UNIT=8  STATUS=KEEP     { Disconnect file now containing Pi-equivalents
BLANK card ending  "SEMLYEN SETUP"  data cases                                  
C  Transfer [Y] of equivalent Pi for F =  5.0000E+01 Hz.  23-Oct-90  19.45.28
C  1.151519555275E-3 -1.137441619542E-02 -1.060634758717E-04  3.491463556430E-03
C  3.537076770591E-4  3.210624087768E-03 -1.060634758717E-04  3.491463556430E-03
C  2.050900981651E-3 -1.162860843144E-02 -1.060634758717E-04  3.491463556430E-03
C  3.537076770591E-4  3.210624087768E-03 -1.060634758717E-04  3.491463556430E-03
C  1.151519555275E-3 -1.137441619542E-02
C     Shunt [Y] of equivalent Pi for F =  5.0000E+01 Hz.  
C -8.541869714622E-6  3.665747845891E-04  6.607667284137E-06 -5.660142619185E-05
C -8.648581530269E-6 -4.295696271522E-05  6.607667284137E-06 -5.660142619185E-05
C -2.342599469890E-5  3.722080025785E-04  6.607667284137E-06 -5.660142619185E-05
C -8.648581530269E-6 -4.295696271522E-05  6.607667284137E-06 -5.660142619185E-05
C -8.541869714623E-6  3.665747845891E-04
C  Transfer [Y] of equivalent Pi for F =  6.0000E+00 Hz.  23-Oct-90  19.45.28
C  3.262709023195E-2 -7.809118174262E-02 -1.341276675346E-02  2.522775392732E-02
C -1.150007192882E-2  2.343312809664E-02 -1.341276675346E-02  2.522775392732E-02
C  3.436831351543E-2 -7.888248987903E-02 -1.341276675347E-02  2.522775392732E-02
C -1.150007192882E-2  2.343312809664E-02 -1.341276675347E-02  2.522775392732E-02
C  3.262709023195E-2 -7.809118174262E-02
C     Shunt [Y] of equivalent Pi for F =  6.0000E+00 Hz.  
C -3.427096070385E-8  4.377964661972E-05  2.594787689802E-08 -6.855484667815E-06
C -3.570745329639E-8 -5.136885722574E-06  2.594787689802E-08 -6.855484667815E-06
C -9.461439943596E-8  4.464722732424E-05  2.594787689809E-08 -6.855484667815E-06
C -3.570745329639E-8 -5.136885722574E-06  2.594787689809E-08 -6.855484667815E-06
C -3.427096070393E-8  4.377964661972E-05
C  Transfer [Y] of equivalent Pi for F =  6.0000E+01 Hz.  23-Oct-90  19.45.28
C  9.441668531285E-4 -9.566451344743E-03 -7.083376044220E-05  2.864853469711E-03
C  3.766916044259E-4  2.651337447173E-03 -7.083376044220E-05  2.864853469711E-03
C  1.809395347023E-3 -9.800403930488E-03 -7.083376044219E-05  2.864853469711E-03
C  3.766916044259E-4  2.651337447173E-03 -7.083376044219E-05  2.864853469711E-03
C  9.441668531284E-4 -9.566451344743E-03
C     Shunt [Y] of equivalent Pi for F =  6.0000E+01 Hz.  
C -1.202671448681E-5  4.408181056666E-04  9.416194169739E-06 -6.772347154278E-05
C -1.218469464166E-5 -5.164200772177E-05  9.416194169739E-06 -6.772347154278E-05
C -3.311677630903E-5  4.467905957272E-04  9.416194169739E-06 -6.772347154278E-05
C -1.218469464166E-5 -5.164200772177E-05  9.416194169739E-06 -6.772347154278E-05
C -1.202671448681E-5  4.408181056666E-04
C  Transfer [Y] of equivalent Pi for F =  6.0000E+02 Hz.  23-Oct-90  19.45.28
C -3.712845487162E-3 -5.603787237254E-03 -1.561079196979E-03  4.482090715102E-03
C -3.184914860379E-3  5.584231439014E-03 -1.561079196979E-03  4.482090715102E-03
C -4.822417739649E-4 -7.822757815584E-03 -1.561079196979E-03  4.482090715102E-03
C -3.184914860379E-3  5.584231439014E-03 -1.561079196979E-03  4.482090715102E-03
C -3.712845487162E-3 -5.603787237254E-03
C     Shunt [Y] of equivalent Pi for F =  6.0000E+02 Hz.  
C  7.516929477229E-3  1.093259393216E-02  3.157367799464E-03 -8.756571161718E-03
C  6.427094062687E-3 -1.089709886987E-02  3.157367799464E-03 -8.756571161718E-03
C  1.100477005468E-3  1.520008342172E-02  3.157367799464E-03 -8.756571161718E-03
C  6.427094062687E-3 -1.089709886987E-02  3.157367799464E-03 -8.756571161718E-03
C  7.516929477229E-3  1.093259393216E-02
BEGIN NEW DATA CASE
C           3rd of 3 subcases illustrates  SEMLYEN SETUP  for two of the actual
C           3 phases of the 500-kV line data of the 1st subcase.  Results will  
C           be used in the 4th subcase of DC-41 to illustrate selective branch
C           current output.  This addition is made 11 December 2000.
SEMLYEN SETUP                                                                   
$ERASE
BRANCH  JDA   LMA   JDB   LMB  { Note only 2 of the actual 3 phases are used
TOLERANCES  10      5000.  { Illustration only; value of FMED actually unchanged
          200  150  10 230   1     7  7777     0    { Semlyen miscellaneous data
LINE CONSTANTS                                                                  
  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                         
C Following two conductor cards for phase "c" are omitted to create 2-phase line
C 3.3636 .05215  4         1.602   19.25   50.     50.  ----  omit phase "c"                        
C 3.3636 .05215  4         1.602   20.75   50.     50.  ----  omit phase "c"                        
  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 ending conductor cards within  "LINE CONSTANTS"  data         
 27.         5000.                            138.         { Transient frequency                            
 27.         60.00                            138.   { Phasor solution frequency                     
 27.          6.00                            138.           6 20  { log looping           
BLANK card ending frequency cards of  "LINE CONSTANTS"  data
BLANK card ending  "LINE CONSTANTS"  data cases                                       
$PUNCH
BLANK card ending  "SEMLYEN SETUP"  data cases                                  
BLANK     { Note this extra blank will terminate execution, to avoid 3rd subcase
BLANK     { 14 Dec 94,  we add more,  to make 5 even when comments are destroyed
BLANK     { 14 Dec 94,  we add more,  to make 5 even when comments are destroyed
BLANK     { 14 Dec 94,  we add more,  to make 5 even when comments are destroyed
BLANK     { 14 Dec 94,  we add more,  to make 5 even when comments are destroyed
BLANK     { 14 Dec 94,  we add more,  to make 5 even when comments are destroyed
BEGIN NEW DATA CASE                                                             
C      4th of 4 subcases, not normally executed, is Rule Book example of XXII-D.
C      This was 3rd of 3 until 11 December 2000 when preceding subcase was added
SEMLYEN SETUP                                                                   
$ERASE
BRANCH  SORCA LINEA SORCB LINEB SORCC LINEC                                     
           60   80     2     1     7  7777  1637                                
LINE CONSTANTS                                                                  
  1.3159 .192    4          .858  -10.67   31.5    31.5                         
  2.3159 .192    4          .858    0.00   31.5    31.5                         
  3.3159 .192    4          .858   10.67   31.5    31.5                         
  0.5    9.48    4         0.313   -5.33   40.5    40.5                         
  0.5    9.48    4         0.313    5.33   40.5    40.5                         
BLANK card ending conductor cards within  "LINE CONSTANTS"  data                    
 1000.       5000.                           18.65         { Transient frequency                            
 1000.       60.00                           18.65   { Phasor solution frequency                     
 1000.       60.00                           18.65           4 21  { log looping           
BLANK card ending frequency cards of  "LINE CONSTANTS"  data
BLANK card ending  "LINE CONSTANTS"  data cases                                       
$PUNCH
BLANK card ending  "SEMLYEN SETUP"  data cases                                       
BEGIN NEW DATA CASE
BLANK