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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
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/ ]; a3 F, n3 |% _- h- O错误信息:
/ L) x- {, [" O$ M7 Y8 x0 [Alternative Transients Program (ATP), GNU Linux or DOS. All rights reserved by Can/Am user group of Portland, Oregon, USA.' {! u) Z3 ~% O b" G8 ]6 q7 k; w5 {
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
. z5 {' y5 X6 E5 d& C( dConsult the 860-page ATP Rule Book of the Can/Am EMTP User Group in Portland, Oregon, USA. Source code date is 19 September 2003.
6 l) [8 i. ~6 |Total size of LABCOM tables = 9872109 INTEGER words. 31 VARDIM List Sizes follow: 6002 10K 192K 900 420K 1200 15K8 @8 ~, R% Z \- b
120K 2250 3800 720 1200 72800 510 90K 800 90 254 120K 100K 3K 15K 192K 120 30K 160K 600 210K 300 19 2001 Z9 T" U! s. j
--------------------------------------------------+--------------------------------------------------------------------------------
3 \+ R" l8 c. h6 x; G, ]Descriptive interpretation of input data cards. | Input data card images are shown below, all 80 columns, character by character* j+ j) V+ u7 Q4 O
0 1 2 3 4 5 6 7 8
1 P4 c4 n$ x. H6 y0 d9 e! E 0123456789012345678901234567890123456789012345678901234567890123456789012345678907 T* Z; ?- \1 d5 a+ X* t
--------------------------------------------------+--------------------------------------------------------------------------------* P+ J0 {6 Z" [; S
Comment card. KOMPAR > 0. |C data:方式1雷电.ATP
; K3 F$ G& Y+ j( q) U. b+ jMarker card preceding new EMTP data case. |BEGIN NEW DATA CASE0 o$ i9 q( r+ ^; S( ^6 J
Comment card. KOMPAR > 0. |C --------------------------------------------------------
2 t( C' t# ]/ I2 ^7 k) ~: I4 G0 oComment card. KOMPAR > 0. |C Generated by ATPDRAW 一月, 星期三 6, 2010! `9 u: w0 l/ v0 N
Comment card. KOMPAR > 0. |C A Bonneville Power Administration program$ F! \ D1 [7 t
Comment card. KOMPAR > 0. |C Programmed by H. K. H鴌dalen at SEfAS - NORWAY 1994-2002/ t, X* ~+ S4 N2 p
Comment card. KOMPAR > 0. |C --------------------------------------------------------
5 D; r$ `9 f* A# {& O+ g2 S# K& I7 l* MComment card. KOMPAR > 0. |C $DUMMY, XYZ0004 T( d/ p& l$ _$ m) C0 y7 I
Comment card. KOMPAR > 0. |C dT >< Tmax >< Xopt >< Copt >( Y j3 Q5 J% }( o! [
Misc. data. 1.000E-09 1.000E-03 0.000E+00 | 1.E-9 .001
( B* {5 b2 N8 u, w) VMisc. data. 500 1 1 1 1 0 0 1 0 0 | 500 1 1 1 1 0 0 1 02 r5 c! E' P- P w
Comment card. KOMPAR > 0. |C 1 2 3 4 5 6 7 83 C' q" z6 M" x! d
Comment card. KOMPAR > 0. |C 345678901234567890123456789012345678901234567890123456789012345678901234567890
( b5 h% D" j) O8 d% A0 |Comment card. KOMPAR > 0. |C < n 1>< n 2><ref1><ref2>< R >< L >< C >, @4 z: K. ?# w2 y) l8 A/ r
Comment card. KOMPAR > 0. |C < n 1>< n 2><ref1><ref2>< R >< A >< B ><Leng><><>0' b! a- R$ m5 s9 c+ g8 @
0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.336E-02|-1XX0075XX0079 92.66 277. 3.7 1 0 0
) F4 f$ ]: @, ]/ x8 hSeries R-L-C. 0.000E+00 0.000E+00 2.400E-10 | XX0075 .00024 0
+ l; H7 P/ x; E, Y- y' }Series R-L-C. 0.000E+00 0.000E+00 2.400E-10 | g103 .00024 0
5 ^+ K' {* G l% E& q, S$ z) fSeries R-L-C. 0.000E+00 0.000E+00 9.000E-09 | g102 .009 0: r! @- S- p9 f
0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.841E-02|-1XX0099XX0075 92.66 277. 5.1 1 0 0: @3 M5 Z5 f7 B, I8 N
0.000E+00 9.266E+01 2.770E+02 9.266E+01 2.888E-02|-1XX0101XX0099 92.66 277. 8. 1 0 01 A/ M1 V! ~7 F$ S0 u
0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.949E-01|-1g103 XX0101 92.66 277. 54. 1 0 0
3 d8 A" H# K3 D1 g8 a 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
( `- Q+ g2 r. VSeries R-L-C. 0.000E+00 0.000E+00 2.400E-10 | XX0079 .00024 0
$ w2 m& I$ L9 L1 ]( W5 i* M1 lSeries R-L-C. 0.000E+00 0.000E+00 2.800E-10 | XX0083 .00028 0
7 _5 d" P; Z/ F" U, S% xSeries R-L-C. 0.000E+00 0.000E+00 2.400E-10 | XX0087 .00024 07 x: P/ M; X1 E w
Series R-L-C. 0.000E+00 0.000E+00 2.400E-10 | XX0091 .00024 08 ~2 H! t, s b7 i9 y
0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.155E-02|-1XX0079XX0083 92.66 277. 3.2 1 0 0
9 \9 X1 m# c# l7 w+ F6 Q 0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.444E-02|-1XX0087XX0091 92.66 277. 4. 1 0 0. V( ^) P7 [6 o1 \1 M5 Y
0.000E+00 9.266E+01 2.770E+02 9.266E+01 8.375E-01|-1XX0091XX0095 92.66 277. 232. 1 0 0
6 `) A7 ^2 R3 k) t* b. G 0.000E+00 9.266E+01 2.770E+02 9.266E+01 8.412E-01|-1XX0095XX0097 92.66 277. 233. 1 0 0; p/ G8 z" M$ J2 e
Type-92 R(i) 0.0000E+00 0.0000E+00 5.5550E+03 |92 XX0099 5555. 0
: K8 W! Y( Q* Y9 b# J9 F- u0 XZinc oxide. 6.0000E+02 1.0000E+19 0.0000E+00 | 600. -1. 0.0 19 w" B B' {! C' y3 M$ h/ Y% H4 S3 s
Breakpoint. 1.5912E-48 1.5520E+01 7.6990E+02 | 1.591234631E-48 15.52026908 769.90325035
, l/ \! f" j [2 Q& a. KBreakpoint. 3.9976E-38 1.2404E+01 2.1750E+03 | 3.997592188E-38 12.404106918 2175.
. j7 y0 W7 P% X- HBreakpoint. 2.2654E-24 8.3130E+00 2.3000E+03 | 2.2654432576E-24 8.3129504142 2300.
/ y. \& |; ]2 N* iSpecial termination-of-points card. | 9999; S. i, `4 p: q+ y
0.000E+00 9.266E+01 2.770E+02 9.266E+01 1.155E-02|-1XX0083XX0087 92.66 277. 3.2 1 0 04 y g1 t7 a/ l. H# d6 H; O- A% L
Type-92 R(i) 0.0000E+00 0.0000E+00 5.5550E+03 |92 XX0097 5555. 0
2 ?" g8 S* {9 S/ F3 d& [Zinc oxide. 6.4800E+02 1.0000E+19 0.0000E+00 | 648. -1. 0.0 14 L2 m: S# i8 |3 N7 d' R0 ?
Breakpoint. 5.4017E-49 1.5661E+01 7.7692E+02 | 5.4017443582E-49 15.661433602 776.92336293: _7 ^: R" i2 w( L1 q" ?
Breakpoint. 1.2753E-37 1.2254E+01 2.1744E+03 | 1.2752861841E-37 12.253603623 2174.382716
, G& _6 w8 L! zBreakpoint. 1.6525E-24 8.3533E+00 2.3009E+03 | 1.6524935301E-24 8.3532729098 2300.9259259* f7 {$ P* P' k) K& a$ d! F
Special termination-of-points card. | 9999' Y0 {9 O. O" i5 \
0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0111XX0097 150.2.25E8 39. 1 0 05 H6 K& L' G1 L3 C4 D% Z8 L
0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0113XX0097 150.2.25E8 39. 1 0 02 \: ]1 K5 G# v0 I; ~
0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0115XX0125 150.2.25E8 39. 1 0 0& z9 f, ^7 l/ ~7 G6 U o. i. }
0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0117XX0127 150.2.25E8 39. 1 0 0
1 F# l% B( g M* S' t, Z 0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0121XX0137 150.2.25E8 39. 1 0 0
$ A2 U1 Q$ S7 v 0.000E+00 1.500E+02 2.250E+08 1.500E+02 1.733E-07|-1XX0123XX0139 150.2.25E8 39. 1 0 0/ Y& x6 ]: w L% ?9 j
Series R-L-C. 1.000E+01 1.000E-15 1.000E-20 | XX0111 10.1.E-121.E-14 0
0 l5 v+ ^# S7 Y, ^6 r7 aSeries R-L-C. 3.000E+02 0.000E+00 0.000E+00 | XX0097 300. 0, B1 H2 c: k6 |* F) s, \
Series R-L-C. 1.000E+01 1.000E-13 1.000E-16 | XX0113 10.1.E-101.E-10 0" P) y- \( u& ~% `' x1 o
Series R-L-C. 1.000E+01 1.000E-15 1.000E-20 | XX0115 10.1.E-121.E-14 0: u$ f+ p2 J$ N
Series R-L-C. 1.000E+01 1.000E-15 1.000E-20 | XX0117 10.1.E-121.E-14 0
& D' |& z* D) h- ISeries R-L-C. 1.000E+01 1.000E-15 1.000E-20 | XX0121 10.1.E-121.E-14 0& O: N3 h8 ]! y( q9 d! t1 p% h
Series R-L-C. 1.000E+01 1.000E-15 1.000E-20 | XX0123 10.1.E-121.E-14 0
" C6 l- Y- |8 CComment card. KOMPAR > 0. |C $INCLUDE, C:\ATP\project\lcc\LCC_3.lib, XX0125, XX0127# G0 ~. l5 _3 J& A' T$ w
New MOLDAT = 1 (data vintage). |$VINTAGE, 1
2 B5 C5 {1 k; M' e: B1 t2 E4 V 6.050E-01 3.045E+02 4.161E+05 3.045E+02 1.082E-06|-1XX0125XX0127 6.05019E-01 3.04525E+02 4.16075E+05-4.50000E-01 1 1
- E* G& M+ k7 @* j0 L9 R7 M" sNew MOLDAT = 0 (data vintage). |$VINTAGE, 0
' O! k" }1 q4 K- pSeries R-L-C. 0.000E+00 0.000E+00 0.000E+00 | 1.00000000
( F2 w5 o8 N! \5 y+ z$ _
( O$ j! n* T# C------------------------------------------------------------------------------------------------------------------------------------
! d! P5 j& x8 JERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/# f! Q6 V6 g; J, h3 T
ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/
: \$ @- S3 o# p------------------------------------------------------------------------------------------------------------------------------------1 w9 F6 r+ q. y- V- s. d
You lose, fella. The EMTP logic has detected an error condition, and is now going to terminate program execution. The following
! e, K' r2 u6 w9 ?) W' H$ P5 wmessage summarizes the circumstances leading to this situation. Where an otherwise-unidentified data card is referred to, or where
9 y: w5 {2 s' Y. L2 P; M6 jthe "last" card is mentioned, it is the most recently read card of the input data that is meant. The 80-column image of this card7 p* L9 {$ }0 o) `
is generally the last one printed out prior to this termination message. But possibly this last-read card has not yet been. Z" e9 u; C! M) F! n) {5 P
displayed, so a copy follows:( |- [. h( e% u5 W
" 1.00000000 "( I6 q$ e g( V8 b9 R$ O3 l
KILL code number Overlay number Nearby statement number
1 G8 }+ H, I/ S. Q0 P8 z7 q' K/ ^ 4 3 8383
& d' z N. u, j2 D$ OKILL = 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) in6 ]9 T' W# x) \9 M: m+ ^ v$ j
columns 27-44 were left blank or keyed with zeros. If the user really wants a short circuit, he should punch a very small value for4 `0 [, B1 a+ w _! n: z8 w# W4 `$ J
R and L. Or, a permanently closed switch (e.g., a MEASURING switch) could be used, and this would in fact be better conditioned" k$ b( d$ w+ q' w: Y
numerically. Best of all numerically would be the combination of the two nodes into one, which would be a perfect short circuit.& |( L; @" g( O$ l/ ~, M# d, M( x
------------------------------------------------------------------------------------------------------------------------------------/ w0 c; R* P J7 l& B7 ^' o
ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/+ A# L) W" @* l; A3 a2 i
ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/
) ^. G. p( k7 w. U/ c' V! Z------------------------------------------------------------------------------------------------------------------------------------ b; |7 w a) ] N
( M5 M+ M- k2 g- u i4 T9 }7 ZActual List Sizes for the preceding solution follow. 06-Jan-10 13:03:49
6 j7 Z% ]( ?1 i9 d0 S9 v! F Size 1-10: -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999
. s3 L* i5 f, @1 y* @ Size 11-20: -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 23 -9999
" d# w8 [9 ~3 C0 q+ a7 D. p, i Size 21-30: -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999) o9 _/ Y4 w, @2 u+ [
Seconds for overlays 1-5 : 0.000 0.000 0.000 -- (CP: Wait; Real)
( d! c8 C- C0 R) bSeconds for overlays 6-11 : 0.000 0.000 0.000/ B, Q4 W5 T, V" |8 h, v
Seconds for overlays 12-15 : 0.000 0.000 0.000& D. y" q) }6 B$ S
Seconds for time-step loop : 0.000 0.000 0.000
' @9 B: |1 l; l8 Y/ f" f4 oSeconds after DELTAT-loop : 0.031 0.000 0.031& j, d+ L8 F9 [# i! @
---------------------------# y9 l9 K9 D, W* b% A8 i' q
Totals : 0.031 0.000 0.031��� |
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