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发表于 2010-1-6 13:03:32
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如何用LCC模拟单导线双避雷线
本帖最后由 璐璐 于 2010-1-6 13:16 编辑
3 M( q" O! M& k4 E8 O+ {
2 ~! F0 C- ~: q, y& x1 Q错误信息:7 l( S1 C. X1 c- x a9 k
Alternative Transients Program (ATP), GNU Linux or DOS. All rights reserved by Can/Am user group of Portland, Oregon, USA.5 p2 t! f3 W" A c* h$ L; E7 O
Date (dd-mth-yy) and time of day (hh.mm.ss) = 06-Jan-10 13:03:49 Name of disk plot file is 方式1雷电.pl4& ]+ b' {$ ~7 Q b
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.: r; j# x) ^6 F" [3 B
Total size of LABCOM tables = 9872109 INTEGER words. 31 VARDIM List Sizes follow: 6002 10K 192K 900 420K 1200 15K
' k7 C# N C' J 120K 2250 3800 720 1200 72800 510 90K 800 90 254 120K 100K 3K 15K 192K 120 30K 160K 600 210K 300 19 200
% t% W, b2 n& z! U/ j& z# ]+ f9 {--------------------------------------------------+--------------------------------------------------------------------------------: L. }4 W, R9 u7 U: O
Descriptive interpretation of input data cards. | Input data card images are shown below, all 80 columns, character by character) Y- Y: L% v* o- X0 w9 a6 |
0 1 2 3 4 5 6 7 8( t5 F* h8 Y, Z8 x( [" P
012345678901234567890123456789012345678901234567890123456789012345678901234567890
7 o6 K7 [; ~ J/ d6 z G--------------------------------------------------+--------------------------------------------------------------------------------
3 t2 s8 k: G& [0 ?# n9 n/ `Comment card. KOMPAR > 0. |C data:方式1雷电.ATP
) q7 y. h5 T( Z4 O' |: Q2 G, ~ y1 iMarker card preceding new EMTP data case. |BEGIN NEW DATA CASE
4 I% j) u; f Y8 s( I5 q3 ?% @Comment card. KOMPAR > 0. |C --------------------------------------------------------
5 N: g, O; b. p5 V9 z1 dComment card. KOMPAR > 0. |C Generated by ATPDRAW 一月, 星期三 6, 2010
9 H+ Z7 E$ m1 S' D, A9 O0 DComment card. KOMPAR > 0. |C A Bonneville Power Administration program
. a r6 L$ ?* G8 K3 `" k8 b# F3 gComment card. KOMPAR > 0. |C Programmed by H. K. H鴌dalen at SEfAS - NORWAY 1994-2002
# |% s( |6 D, ~! d' y- C% PComment card. KOMPAR > 0. |C --------------------------------------------------------
5 S3 c6 B$ Q# T8 n! K' \" QComment card. KOMPAR > 0. |C $DUMMY, XYZ0003 t( V d$ O5 h' x
Comment card. KOMPAR > 0. |C dT >< Tmax >< Xopt >< Copt >
) n. F. x# M. H5 ]& qMisc. data. 1.000E-09 1.000E-03 0.000E+00 | 1.E-9 .001
0 j' P2 h$ g r2 m3 ?$ {Misc. data. 500 1 1 1 1 0 0 1 0 0 | 500 1 1 1 1 0 0 1 0
& P! ~4 u, V0 l0 mComment card. KOMPAR > 0. |C 1 2 3 4 5 6 7 8
) m+ N, F& b; o# Z# {1 p7 ?% KComment card. KOMPAR > 0. |C 3456789012345678901234567890123456789012345678901234567890123456789012345678904 r3 E: n: r& W7 O
Comment card. KOMPAR > 0. |C < n 1>< n 2><ref1><ref2>< R >< L >< C >$ R- S( H @ K9 |' t
Comment card. KOMPAR > 0. |C < n 1>< n 2><ref1><ref2>< R >< A >< B ><Leng><><>0' t& A" r4 B! A% N& q8 Z
0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.336E-02|-1XX0075XX0079 92.66 277. 3.7 1 0 0
! ~! u! ?( F+ xSeries R-L-C. 0.000E+00 0.000E+00 2.400E-10 | XX0075 .00024 07 x X4 e3 t) Z' Q+ c, G+ h3 r4 E
Series R-L-C. 0.000E+00 0.000E+00 2.400E-10 | g103 .00024 0
" L; i7 u( v& } O" }8 RSeries R-L-C. 0.000E+00 0.000E+00 9.000E-09 | g102 .009 0
8 K; k1 M9 f+ n, b# E 0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.841E-02|-1XX0099XX0075 92.66 277. 5.1 1 0 0
9 y" l% G% K t, K 0.000E+00 9.266E+01 2.770E+02 9.266E+01 2.888E-02|-1XX0101XX0099 92.66 277. 8. 1 0 0
( W6 p4 n* {. z8 J 0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.949E-01|-1g103 XX0101 92.66 277. 54. 1 0 0/ O. w& y! D' B Z2 Z% C3 c7 \, }
0.000E+00 9.266E+01 2.770E+02 9.266E+01 4.260E-02|-1g102 g103 92.66 277. 11.8 1 0 0
% L& O; S/ e3 A1 u1 N7 W- QSeries R-L-C. 0.000E+00 0.000E+00 2.400E-10 | XX0079 .00024 0
' ~9 ?8 Z8 u0 c \" `1 l1 gSeries R-L-C. 0.000E+00 0.000E+00 2.800E-10 | XX0083 .00028 0
8 N0 x4 v5 N- F( ISeries R-L-C. 0.000E+00 0.000E+00 2.400E-10 | XX0087 .00024 0& L: R- V5 i( W- a' ~5 d
Series R-L-C. 0.000E+00 0.000E+00 2.400E-10 | XX0091 .00024 0
P2 {( z) n4 b- \% v9 N 0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.155E-02|-1XX0079XX0083 92.66 277. 3.2 1 0 0; y& r$ H4 L3 a6 H. W
0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.444E-02|-1XX0087XX0091 92.66 277. 4. 1 0 06 Z G; q( `$ f! P+ t
0.000E+00 9.266E+01 2.770E+02 9.266E+01 8.375E-01|-1XX0091XX0095 92.66 277. 232. 1 0 0) k+ G% ~0 h2 {/ [" v
0.000E+00 9.266E+01 2.770E+02 9.266E+01 8.412E-01|-1XX0095XX0097 92.66 277. 233. 1 0 0% P0 S1 \: X8 n: B
Type-92 R(i) 0.0000E+00 0.0000E+00 5.5550E+03 |92 XX0099 5555. 0
* @, a, T2 s- o7 LZinc oxide. 6.0000E+02 1.0000E+19 0.0000E+00 | 600. -1. 0.0 1
( X l: P6 F! @Breakpoint. 1.5912E-48 1.5520E+01 7.6990E+02 | 1.591234631E-48 15.52026908 769.903250357 k" V& L; Z# o' a5 z
Breakpoint. 3.9976E-38 1.2404E+01 2.1750E+03 | 3.997592188E-38 12.404106918 2175.
8 H/ L( ?( J) e; h; }Breakpoint. 2.2654E-24 8.3130E+00 2.3000E+03 | 2.2654432576E-24 8.3129504142 2300.
$ {6 k5 O; c- l' ?8 [. OSpecial termination-of-points card. | 9999
- \% B9 }* ~- Q 0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.155E-02|-1XX0083XX0087 92.66 277. 3.2 1 0 0. ~9 z0 N6 X# f" { B2 U( s; [
Type-92 R(i) 0.0000E+00 0.0000E+00 5.5550E+03 |92 XX0097 5555. 0/ O( z+ O( G) ~- e3 ]: Z/ r
Zinc oxide. 6.4800E+02 1.0000E+19 0.0000E+00 | 648. -1. 0.0 1" [1 x& z4 a0 D1 p$ [& }, l4 |
Breakpoint. 5.4017E-49 1.5661E+01 7.7692E+02 | 5.4017443582E-49 15.661433602 776.923362932 A$ I7 d4 C9 }
Breakpoint. 1.2753E-37 1.2254E+01 2.1744E+03 | 1.2752861841E-37 12.253603623 2174.382716. V% q& V8 [; k! p0 L, r5 P
Breakpoint. 1.6525E-24 8.3533E+00 2.3009E+03 | 1.6524935301E-24 8.3532729098 2300.9259259% R1 A# A8 B' s4 e: F/ i0 c) H
Special termination-of-points card. | 9999
/ u3 r# w& Q5 b# u( R; D& B 0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0111XX0097 150.2.25E8 39. 1 0 0
* Z& @2 Q( Q3 r7 {& a4 t* P* k 0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0113XX0097 150.2.25E8 39. 1 0 0- U) {( C$ B2 P: O4 Y/ i
0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0115XX0125 150.2.25E8 39. 1 0 0
- a! s) E0 d1 q1 P- \% X% R 0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0117XX0127 150.2.25E8 39. 1 0 0
! ^* f7 G' m/ s2 {2 p$ h7 j 0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0121XX0137 150.2.25E8 39. 1 0 0
% H- u/ F, R! i% M' Q. |/ N, p: b! i 0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0123XX0139 150.2.25E8 39. 1 0 0
3 J/ l1 y1 j5 u0 ZSeries R-L-C. 1.000E+01 1.000E-15 1.000E-20 | XX0111 10.1.E-121.E-14 0
/ z& c N7 B( x! [- h5 V% {7 k8 uSeries R-L-C. 3.000E+02 0.000E+00 0.000E+00 | XX0097 300. 0& {; C, f# [. V, B- H. L, }( b+ z
Series R-L-C. 1.000E+01 1.000E-13 1.000E-16 | XX0113 10.1.E-101.E-10 0
" q/ K( |9 m3 `( J# aSeries R-L-C. 1.000E+01 1.000E-15 1.000E-20 | XX0115 10.1.E-121.E-14 0
" S, j! a- Y3 z0 Y" |Series R-L-C. 1.000E+01 1.000E-15 1.000E-20 | XX0117 10.1.E-121.E-14 0" d, p( E5 P+ t% p$ R
Series R-L-C. 1.000E+01 1.000E-15 1.000E-20 | XX0121 10.1.E-121.E-14 0
/ S0 K8 M1 T! B" `Series R-L-C. 1.000E+01 1.000E-15 1.000E-20 | XX0123 10.1.E-121.E-14 07 u- s* O) v6 m9 M' D" C2 L
Comment card. KOMPAR > 0. |C $INCLUDE, C:\ATP\project\lcc\LCC_3.lib, XX0125, XX0127
4 J( g; q2 G5 J) i! r6 |7 o+ `New MOLDAT = 1 (data vintage). |$VINTAGE, 1
* y1 u8 P( ~ y% U* G 6.050E-01 3.045E+02 4.161E+05 3.045E+02 1.082E-06|-1XX0125XX0127 6.05019E-01 3.04525E+02 4.16075E+05-4.50000E-01 1 12 K& s9 S0 A" _' R" |: n6 n% Q
New MOLDAT = 0 (data vintage). |$VINTAGE, 0 o) e8 R1 @+ H
Series R-L-C. 0.000E+00 0.000E+00 0.000E+00 | 1.00000000
, [: r( m( n9 B. O
5 @: s5 Y4 `) _+ k: w/ y4 s# p0 y9 d------------------------------------------------------------------------------------------------------------------------------------
( k; V# _7 p i1 i( kERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/! M4 H8 E0 x6 d! l
ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR// H$ o9 z, E1 F
------------------------------------------------------------------------------------------------------------------------------------
" F$ Q& d5 R1 H9 ^1 bYou lose, fella. The EMTP logic has detected an error condition, and is now going to terminate program execution. The following0 A4 R7 g& U+ y
message summarizes the circumstances leading to this situation. Where an otherwise-unidentified data card is referred to, or where
& E- m, a2 f/ y9 ^7 fthe "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
" n7 c9 f( ~/ u# i' }/ ~is generally the last one printed out prior to this termination message. But possibly this last-read card has not yet been. n: b& ?0 ]3 } o
displayed, so a copy follows:5 [3 k7 Z/ X+ j6 i! p, y
" 1.00000000 "
. `6 Y/ |, D- K KILL code number Overlay number Nearby statement number
8 w; M9 `% ^; @+ @ 4 3 8383
) y3 ~" T1 E- B7 ]+ bKILL = 4. The last card is a series R-L-C branch having zero impedance. In fact, all three data fields (for R, L, and C) in
' }1 P/ t; ~# a; g2 Xcolumns 27-44 were left blank or keyed with zeros. If the user really wants a short circuit, he should punch a very small value for
/ m. H3 k1 T& IR and L. Or, a permanently closed switch (e.g., a MEASURING switch) could be used, and this would in fact be better conditioned- x3 M, c, x' H u% t7 { x
numerically. Best of all numerically would be the combination of the two nodes into one, which would be a perfect short circuit.
. a& s* }+ _$ ]------------------------------------------------------------------------------------------------------------------------------------/ G \; t: q8 C) Z5 U+ y. b
ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/
- _& t9 d- k& \' [- A! ?' }) F: sERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/
( c3 @; U; U# L% p( }0 ?2 A. \3 E) Q9 |------------------------------------------------------------------------------------------------------------------------------------) T D& j) y1 O r
8 M- L8 w" l, b0 }" \Actual List Sizes for the preceding solution follow. 06-Jan-10 13:03:49" h" D7 C8 e+ v+ |: e) W
Size 1-10: -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999
; J3 W4 P; X5 V) p1 L Size 11-20: -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 23 -9999. o3 |( s! F o. P! K: L
Size 21-30: -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999
" |5 p( }2 `8 _7 s3 pSeconds for overlays 1-5 : 0.000 0.000 0.000 -- (CP: Wait; Real)
P$ T+ J& p N/ x3 @Seconds for overlays 6-11 : 0.000 0.000 0.000, D% A! {; y6 z+ P
Seconds for overlays 12-15 : 0.000 0.000 0.000
- G$ R, }$ X {1 LSeconds for time-step loop : 0.000 0.000 0.000* i$ F5 N4 j' F* C" x9 m' O& n
Seconds after DELTAT-loop : 0.031 0.000 0.031
; u1 n( r. D. M& m; v2 n ---------------------------
1 k) C* l9 d* J$ G4 T' T Totals : 0.031 0.000 0.031��� |
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