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/dc19.dat |
Initial commit.
Diffstat (limited to 'benchmarks/dc19.dat')
-rw-r--r-- | benchmarks/dc19.dat | 355 |
1 files changed, 355 insertions, 0 deletions
diff --git a/benchmarks/dc19.dat b/benchmarks/dc19.dat new file mode 100644 index 0000000..d803ae7 --- /dev/null +++ b/benchmarks/dc19.dat @@ -0,0 +1,355 @@ +BEGIN NEW DATA CASE
+C BENCHMARK DC-19
+C Test of the control of TACS sources by node voltages and switch currents
+C of the electric network. The electric network has no dynamics, with both
+C the node voltage and switch current equal to one half, always. TACS
+C supplemental variable GENT adds these to give unity. The output signal
+C is then passed through a function block 1/(1+S) to give ELEMT, and
+C through a S/(1+S) block to give GT/ELT. There also is a disconnected
+C validation of the Type-17 electric network source, which provides for
+C modulation of the following source function by a TACS variable. For use
+C here, the TACS variable is the constant TWO = 2.0 --- easy to verify.
+ .05 2.0
+ 1 1 1 1 1
+TACS HYBRID
+ 1ELEMT +GENT
+ 1.0
+ 1.0 1.0
+ 1GT/ELT +GENT
+ 1.0
+ 1.0 1.0
+90BUS2
+91BUS1
+11TWO 2.0 { Constant for modulation of electric network COSINE
+99GENT = BUS1 + BUS2
+33ELEMT GENT GT/ELTBUS1 BUS2
+BLANK card ending all TACS data
+ BUS3 BUS2 1.0
+ BUS2 BUS1 1.0
+ COSINE 1.0 { Dummy branch connects source of interest
+ SURGE 1.0 { Dummy branch connects Type-15 surge function
+ TAKUSG 1.0 { Dummy branch for Taku Noda's Type-15 surge
+BLANK card ending electric network branches
+ BUS1 MEASURING 1
+BLANK card ending switches
+11BUS3 1.0
+17TWO { The constant 2.0 of TACS multiplies following 1/2 to give unity:
+14COSINE 0.5 0.5 { Cosine starts at peak 0.5, and also ends there
+15SURGE 2.0 -1.0 -3.0 { Surge function is a smooth pulse > 0
+15TAKUSG 2.0 -1.0 -3.0 -6666. { Same except 2.0 = peak valu
+BLANK card ending electric network source cards.
+C Step Time BUS1 BUS2 BUS3 COSINE SURGE TAKUSG BUS1 TACS TACS TACS
+C TERRA ELEMT GENT GT/ELT
+C *** Switch "BUS1 " to " " closed before 0.00000000E+00 sec.
+C 0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
+C 1 .05 0.0 0.5 1.0 0.0 .181042896 .470363242 0.5 .024390244 1.0 .975609756
+ 1
+C 39 1.95 0.0 0.5 1.0 .987688341 .278788345 .724313367 0.5 .854137166 1.0 .145862834
+C 40 2.0 0.0 0.5 1.0 1.0 .265713062 .690342786 0.5 .861252427 1.0 .138747573
+C maxima : 0.0 0.5 1.0 1.0 .769799804 1.99999856 0.5 .861252427 1.0 .975609756
+C maxima : 0.0 .05 .05 2.0 .55 .55 .05 2.0 .05 .05
+ PRINTER PLOT
+ 143 .4 0.0 2.0 SURGE COSINE { Axis limits: (-1.000, 1.000)
+ 193 .4 0.0 2.0 TACS GT/ELTTACS ELEMT { Axis limits: (0.000, 9.756)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 2nd of 5 subcases of DC-19 tests important supplemental variable functions
+C Unlike 1st, there is no electric network (in theory). In practice, ATP
+C will automatically supply a dummy electric network. This is since around
+C 1993 when TACS STAND ALONE was internally converted to TACS HYBRID.
+ .100 6.0
+ 1 1 0 1 0 0 0 0
+TACS STAND ALONE
+ X2 -X3 +TQ 6.6667 -100. 0.2
+ 1X3 +X2 0.0 1.05
+ 1.0
+ 0.0 1.
+11TQ 1.0 0.0
+98SUPVAR = 0.4 * ( ABS(X3) + 1.E-6 ) ** 3.0 * 2.0
+26T { Type-26 is given value equal to ATP variable in columns 3-8
+33X2 X3 T SUPVAR
+C Step Time TACS TACS TACS TACS
+C X2 X3 T SUPVAR
+C 0 0.0 0.0 0.0 0.0 0.0
+C 1 0.1 0.2 .01 0.1 .80024E-6
+C 2 0.2 0.2 .03 0.2 .216022E-4
+BLANK card ending all TACS data cards
+C 58 5.8 .203206E-4 .999997968 5.8 .799997523
+C 59 5.9 .677346E-5 .999999323 5.9 .800000774
+C 60 6.0 .22578E-5 .999999774 6.0 .800001858
+ PRINTER PLOT
+ 143 1. 0.0 6.0 X2 SUPVAR { Axis limits: (0.000, 8.000)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 3rd of 5 subcases consists only of Type-15 lightning functions, including
+C both old (the 2-exponential surge function) and new (Bernd Stein of FGH)
+C models. Bernd's FGH improvement is documented in a letter dated 30.7.86
+C Smoothing of plot data points after 50 ups and downs is also illustrated.
+ 1.0E-8 3.E-6
+ 1 1 1 1 1 -1 1
+ 5 5 20 20
+ LIGHTN 1.0
+ ALGHTN 1.0
+ LIGHT1 1.0
+ ALGHT1 1.0
+ ALGHT2 1.0
+ ALGHT3 1.0
+ STAN1 1.0 { Resistor for Standler surge added 29 Sept 00
+ STAN2 1.0 { Resistor for 2nd Standler surge added 27 Oct 00
+ TWOE1 1.0 { Resistor for TWO EXP surge added 19 Jan 01
+ TWOE2 1.0 { Resistor for 2nd TWO EXP surge added 19 Jan 01
+ HEID1 1.0 { Resistor for Heidler surge added 19 Jan 01
+ HEID2 1.0 { Resistor for 2nd Heidler surge added 19 Jan 01
+C Orlando Hevia mentions legality and danger of negative L of series R-L-C.
+C Add a branch to illustrate as mentioned in newsletter dated January, 2001
+ HEVIA 10.E3 -3.0 { Series R-L with negative L } 1
+BLANK card ending electric network branches
+BLANK card ending switches
+15ALGHTN-1 1.0 2.E-6 50.E-6 5.0
+15LIGHTN-1 1.0 -20000. -500000.
+15ALGHT2-1 1.0 2.E-6 50.E-6 10.0
+15ALGHT1-1 1.0 2.E-6 50.E-6 5.0
+15LIGHT1-1 1.0 -20000. -500000.
+15ALGHT3-1 1.0 2.E-6 50.E-6 10.0
+C 345678901234567890123456789012345678901234567890
+C <--- Off-line Standler 3F10.0 ->
+15STAN1 -1 0.6 20.E-6 0.04 Standler { "Standler" is same as -7777
+C C A B { Identify of 3 Standler parameters
+C <--- In-line Standler 4F8.0 ---><-Request word-> <T-start >< T-stop >
+C T1 T2 Perc peak
+15STAN2 -1 1.0E-6 20.0E-6 0.0 1.000 Standler in-line 0.0 1.0
+C
+C <--- Off-line Two exp 3F10.0 ->
+15TWOE1 -1 1.20 -36000.0 -5.0E+6 { it is an old two exp source
+C C A B { Identify of 3 Two exp parameters
+C <--- In-line Two exp 4F8.0 ---><-Request word-> <T-start >< T-stop >
+C T1 T2 Perc peak
+15TWOE2 -1 1.0E-6 20.0E-6 0.0 1.0 Two exp in-line 0.0 1.0
+C
+C <--- Off-line Heidler 3F10.0 -->
+15HEID1 -1 0.6 1.0E-06 3.0E-5 5.0 { it is an old Heidler source
+C C A B N { Identify of 4 Heidler parameters
+C <-Heidler in line 4F8.0 ---><-key----------><><T-start >< T-stop >
+C T1 T2 Perc peak N
+15HEID2 -1 1.0E-6 20.0E-6 0.0 1.000 Heidler in-line 5 0.0 1.0
+C
+14HEVIA 1.0 60. { Voltage source is shorted at 1 us } 1.E-6
+BLANK card ending electric network source cards.
+ STAN1 STAN2 ALGHT2ALGHT1LIGHT1ALGHTNLIGHTNALGHT3HEID1 HEID2 TWOE1 TWOE2
+C First 12 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 Step Time STAN1 STAN2 ALGHT2 ALGHT1 LIGHT1 ALGHTN LIGHTN ALGHT3 HEID1 HEID2
+C
+C
+C TWOE1 TWOE2 HEVIA
+C TERRA
+C 0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
+C 0.0 0.0 0.0
+C 1 .1E-7 .442479244 .855069065 .25405E-20 .812971E-4 957.508161 .406485E-9 .004787541 .50811E-15 .930195E-8 .140651E-7
+C .058092768 .04993186 -.16949E-5
+C 2 .2E-7 .454691626 .88074615 .2601E-17 .002438392 -4.9670744 .130049E-7 .009550246 .51918E-12 .297563E-6 .449919E-6
+C .113331409 .097441938 -.51422E-5
+C 3 .3E-7 .461895211 .895961187 .14996E-15 .01470791 952.565899 .987364E-7 .01428824 .28952E-10 .225886E-5 .34153E-5
+C .165855128 .142646809 -.87063E-5
+C 4 .4E-7 .467007506 .906801471 .26623E-14 .048743046 -9.8846491 .415991E-6 .019001647 .473526E-9 .951554E-5 .143866E-4
+C .21579634 .185657436 -.12391E-4
+C 5 .5E-7 .470959015 .91521116 .2479E-13 .121908619 947.672889 .126925E-5 .023690588 .395202E-8 .290285E-4 .43887E-4
+C .263281003 .226579442 -.16201E-4
+BLANK card ending output requests
+C 260 .26E-5 .48556872 .972472279 .991750958 -15.735499 -362.71992 .993881314 .676797074 -18.724315 .572623725 .949657569
+C 1.09277363 .94980214 -.55047746
+C 280 .28E-5 .482164403 .967184298 .987942471 -17.163302 -375.61152 .990578487 .698942172 -19.269102 .568828878 .942698718
+C 1.08493561 .942824605 -1.0722499
+C 300 .3E-5 .478686003 .961711993 .984066679 -17.995991 -387.2694 .987055255 .718634373 -19.452928 .565055727 .935784527
+C 1.07715275 .935897248 -2.0885866
+C Variable maxima : .506829483 1.00000002 1.0 1757.33053 957.508161 1.0 .718634373 2231.07839 0.6 1.0
+C 1.14948506 .999999945 0.0
+C Times of maxima : .8E-6 .1E-5 .2E-5 .7E-6 .1E-7 .2E-5 .3E-5 .113E-5 .1E-5 .1E-5
+C .99E-6 .1E-5 0.0
+C Variable minima : 0.0 0.0 0.0 -17.995991 -387.2694 0.0 0.0 -19.452928 0.0 0.0
+C 0.0 0.0 -2.0885866
+C Times of minima : 0.0 0.0 0.0 .3E-5 .3E-5 0.0 0.0 .3E-5 0.0 0.0
+C 0.0 0.0 .3E-5
+ PRINTER PLOT
+ 145 .4 0.0 3.0 LIGHTNALGHTNALGHT2 { Plot limits: (0.000, 1.000)
+ 145 .4 0.0 3.0 LIGHT1ALGHT1ALGHT3 { Plot limits: (-0.110, 2.231)
+C 145 .4 0.0 3.0 STAN1 STAN2
+C 145 .4 0.0 3.0 HEID1 HEID2
+C 145 .4 0.0 3.0 TWOE1 TWOE2
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+C 4th of 5 subcases was added 17 September 1999 to illustrate delayed
+C opening of a Type-13 TACS-controlled switch. There are two parallel,
+C identical circuits on the electrical side. A sinusoidal source drives
+C current through a series R-L branch. The old logic is illustrated by
+C the QUICK alternative whereas the new is the DELAY alternative.
+C The new optional DO NOT OPEN UNTIL CURRENT 0 is illustrated by the
+C latter of these two: opening will be delayed until current passes
+C through zero. Both circuits oscillate following opening because both
+C have a hanging inductor. But QUICK opens first, and it oscillates
+C more. The graph is distinctive.
+PRINTED NUMBER WIDTH, 10, 2, { Request maximum precision (for 8 output columns)
+ .0004 .010
+ 1 1
+TACS HYBRID
+14CLAMP 100. 50. 30. 0. -1.
+33CLAMP
+BLANK card ending TACS
+ GEN QUICK 10. 4. { Series R-L will oscillate when opened
+ GEN DELAY 10. 4.
+BLANK card ending branches
+13DELAY Do not open until current 0 CLOSED CLAMP 11
+$DISABLE
+C The preceding involves a high-level, English-language declaration. It
+C is equivalent to the following low-level, numeric declation.
+13RESIS -77333. CLOSED CLAMP 11
+C I.e., the data field of otherwise-unused columns 25-34 can be used to
+C hold the special numeric value. About the English, this must begin
+C to the right of column 24. If 55-60 are used as here for CLOSED, the
+C beginning of "do not open until current 0" can be delayed at most 3
+C columns (note 3 blanks between ending 0 and start of CLOSED). Case is
+C arbitrary (note 1st letter has been made upper case on switch card).
+$ENABLE
+13QUICK CLOSED CLAMP 11
+BLANK card ending switches
+14GEN 100. 50. 0.0 0. -1.
+BLANK card ending sources
+ GEN QUICK DELAY
+BLANK card ending voltage printout
+ CALCOMP PLOT { Needed to cancel PRINTER PLOT of preceding subcase
+ SUPERIMPOSE 2 { Superimpose plots of the following 2 cards
+ 144 1. 0.0 10. GEN DELAY QUICK { First, three node voltages
+ 194 1. 0.0 10.-200.200.TACS CLAMP { 2nd of 2 in overlay is I-branch
+BLANK card ending plot
+BEGIN NEW DATA CASE
+C 5th of 5 subcases was added 28 July 2002 to illustrate 3 new source
+C types: CIGRE, CESI, and USRFUN. These are all special sub-types
+C within the Type-15 source. The supporting code comes from Orlando P.
+C Hevia of UTN in Santa Fe, Argentina. For an alternate and different
+C illustration of the USRFUN alternative, see DC-5. For comments
+C about required precision, see note following this subcase.
+ .05E-6 10.E-6 { Hevia used dT = 1.0E-9, but such detail is not needed
+ 1 1 1 1 -1
+ 5 5 20 20
+ CESI1 1.0
+ CESI2 1.0
+ CIGRE1 1.0
+ CIGRE4 1.0
+ USER2 1.0
+ USER8 1.0 { Add another USRFUN test on 10 December 2002
+BLANK card ending branch cards
+BLANK card ending switch cards (none for this data)
+C CORRENTE DI CRESTA -0.001 [kA]
+C TEMPO DI CRESTA 1 [us]
+C TEMPO EMIVALORE 10 [us]
+C GENERATORI EQUIVALENTI FRONTE
+15CESI1 -1 1.5 1.0E-6 10.0-6 CESI
+15CESI2 -1 -1.2 1.0E-6 10.0-6 CESI
+15CIGRE1 1.0 1.0E-6 10.0E-6 CIGRE 20.0E+5 0.5E-6 9.5E-6
+15CIGRE4 1.0 1.0E-6 10.0E-6 CIGRE 50.0E+5 0.5E-6 9.5E-6
+15USER2 2.0 USRFUN
+15USER8 8.0 USRFUN
+BLANK card ending electric network sources
+ 1 { Request for all possible node voltage outputs (here, just 4)
+ CALCOMP PLOT
+ 145 .5 0.0 5.0 CESI1 CESI2 USER2 CIGRE1
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+BLANK
+EOF
+
+Warning about the preceding. The CIGRE1 output depends greatly on arithmetic
+precision. Even 64 bits seems inadequate since turning the Salford debugger
+on and off (minor update using SUBR5) results in the following differences.
+Note that the 3rd row is what will be published in a future newsletter. The
+CIGRE1 value on step 40 rises from .661 to .668 when the debugger is
+turned on.
+
+FC version 2.0 - Copyright (c) 1990 Mike Albert Wed Aug 21 14:08:13 2002
+Options are: -c1 -ds5 -t8
+
+Compare files:
+ dc19.lis 71885 8-21-102 2:07p
+ dc19.sal 71885 8-21-102 1:48p
+
+Changed lines 859-868
+ > 15 .75E-6 1.000594 -.800475 .0648095 .0662431 .0783034
+ > 20 .1E-5 1.477403 -1.18192 .1299899 .1324862 .1044063
+ > 40 .2E-5 1.338601 -1.07088 .668485 .4280678 .2093254
+ > 60 .3E-5 1.23813 -.990504 .9529333 .9505637 .3267037
+ > 80 .4E-5 1.167656 -.934125 .8811803 .8800206 .5541328
+ > 100 .5E-5 1.104946 -.883957 .8148301 .8147126 .9983771
+ > 120 .6E-5 1.044245 -.835396 .7534758 .7542513 .9931261
+ > 140 .7E-5 .9840634 -.787251 .6967413 .6982769 .9835613
+ > 160 .8E-5 .9240164 -.739213 .6442788 .6464564 .9740871
+ > 180 .9E-5 .8640042 -.691203 .5957665 .5984817 .9647042
+To
+ > 15 .75E-6 1.000594 -.800475 .0644145 .0662431 .0783034
+ > 20 .1E-5 1.477403 -1.18192 .1291901 .1324862 .1044063
+ > 40 .2E-5 1.338601 -1.07088 .661331 .4280678 .2093254
+ > 60 .3E-5 1.23813 -.990504 .9533223 .9505637 .3267037
+ > 80 .4E-5 1.167656 -.934125 .88154 .8800206 .5541328
+ > 100 .5E-5 1.104946 -.883957 .8151627 .8147126 .9983771
+ > 120 .6E-5 1.044245 -.835396 .7537834 .7542513 .9931261
+ > 140 .7E-5 .9840634 -.787251 .6970257 .6982769 .9835613
+ > 160 .8E-5 .9240164 -.739213 .6445418 .6464564 .9740871
+ > 180 .9E-5 .8640042 -.691203 .5960097 .5984817 .9647042
+
+Changed line 872
+ >Variable maxima : 1.497392 0.0 .999673 .9989941 .9999945
+To
+ >Variable maxima : 1.497392 0.0 .9997968 .9989941 .9999945
+
+Comparison complete
+
+21 August 2002, remove from before the 5th, which was not being executed:
+BLANK ----------------- Protect following 4th data subcase from execution
+C Note: Following is copy of 3rd subcase between October, 1990, and
+C July, 1991. It was wrong during 9 months. The solution
+C prior to October, 1990, was kept below here, and discovered
+C to be correct once again on July 22, 1991. So, it would
+C seem that Guido's "correction" of Oct, 1990, was wrong, and
+C during the spring or summer of 1991 he merely corrected the
+C correction. Well, as history, we keep the wrong data:
+C 3rd of 3 subcases consists only of Type-15 lightning functions, including
+C both old (the 2-exponential surge function) and new (Bernd Stein of FGH)
+C models. Bernd's FGH improvement is documented in a letter dated 30.7.86
+C Smoothing of plot data points after 50 ups and downs is also illustrated.
+C Comment cards altered 23 Oct 1990. Original contents preserved below
+C as 4th data subcase until Bernd Stein approves of changes.
+ 1.E-8 300.E-8
+ 1 1 1 1 1 -1
+ 5 5 20 20
+ LIGHTN 1.0
+ ALGHTN 1.0
+ LIGHT1 1.0
+ ALGHT1 1.0
+ ALGHT2 1.0
+ ALGHT3 1.0
+BLANK card ending electric network branches
+BLANK card ending switches
+15ALGHTN-1 1.0 2.E-6 50.E-6 5.0
+15LIGHTN-1 1.0 -20000. -500000.
+15ALGHT2-1 1.0 2.E-6 50.E-6 10.0
+15ALGHT1-1 1.0 2.E-6 50.E-6 5.0
+15LIGHT1-1 1.0 -20000. -500000.
+15ALGHT3-1 1.0 2.E-6 50.E-6 10.0
+BLANK card ending electric network source cards.
+C Step Time ALGHT2 ALGHT1 LIGHT1 ALGHTN LIGHTN ALGHT3
+C 0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
+C 1 .1E-7 .26503E-20 .853443E-4 957.508161 .426722E-9 .004787541 .53005E-15
+C 2 .2E-7 .27133E-17 .002559784 -4.9670744 .136524E-7 .009550246 .54161E-12
+C 3 .3E-7 .15643E-15 .015440124 952.565899 .103652E-6 .01428824 .30202E-10
+C 4 .4E-7 .27773E-14 .051169655 -9.8846491 .436701E-6 .019001647 .493979E-9
+ 1
+C 300 .3E-5 1.02657121 -18.891898 -387.2694 1.03619451 .718634373 -20.293153
+C maxima : 1.04319273 1844.81694 957.508161 1.0497837 .718634373 2327.44477
+C Times of max : .2E-5 .7E-6 .1E-7 .2E-5 .3E-5 .113E-5
+C minima : 0.0 -18.891898 -387.2694 0.0 0.0 -20.293153
+C Times of min : 0.0 .3E-5 .3E-5 0.0 0.0 .3E-5
+ PRINTER PLOT
+ 145 .4 0.0 3.0 LIGHTNALGHTNALGHT2 { Plot limits: (0.000, 1.050)
+ 145 .4 0.0 3.0 LIGHT1ALGHT1ALGHT3 { Plot limits: (-0.110, 2.327)
+BLANK card ending plot cards
+BEGIN NEW DATA CASE
+
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