1启动pssds4 PSS/E 动态仿真完全手册 江涵 20009.5.17 1启动pssds4 根据节点规模选择相应的程序进入,pssds4的主界面如下图所示: Command Line Input用来输入命令,回车执行后所有信息都会在屏幕中显示。快捷按钮是Command line Input的快捷方式,可以在WINPSSE.PRM中进行设置。 2动态仿真 2.1 仿真算例 为了更好地说明仿真过程,文档后面附录中有仿真过程全部输入、输出及说明。所采用算例为PSS/E自带的例子,接线图如下: 预计进行动态仿真的发电机如图中所示,所连母线号为101和102。 动态数据文件为savnw.dyr 2.2仿真重要步骤说明 PSS/E中动态仿真必须与潮流算例相连接,所以仿真前必须准备的2个文件为潮流算例文件(*.raw或*.sav)和动态数据相应文件(*.dyr)。 之外,要对整个仿真做一定的
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,主要是仿真输入输出文件的名称。 以下步骤为一些基本的操作,PSSE还有很多其他的命令,可以参看其帮助。 1、LOFL 切换到潮流界面,如下图所示。 2、READ,FILENAME 读取潮流数据文件。 3、SOLV 潮流求解,利用高斯-塞德尔法来计算满足母线边界条件的母线电压 4、ORDR 最优排序,决定网络母线的排序 5、FNSL 潮流求解,使用完全耦合的牛顿-拉夫逊法来计算满足母线边界条件的母线电压 6、SAVE,FILENAME 保存潮流算例 7、CONL ALL 转换所有负荷 8、CONG 转换发电机 9、ORDR 最优排序 10、FACT 三角分解功能 11、TYSL 三角化的Y矩阵网络计算功能 12、SAVE,FILENAME 保存转换后的潮流文件到现在潮流文件准备完毕,接下来连接动态数据文件。 13、RTRN 切换回动态仿真界面 14、DYRE,FILENAME 连接动态数据文件 15、DYCH 检查模型合并情况 16、CHAN 设置输出通道的内容,为pssplt做准备 17、STRT 仿真初始化 18、RUN 仿真开始,开始时需要设定暂停时间,打印时间等 19、ALTR 改变运行状态 20、RUN 在改变后的条件下继续运行仿真 …… 21、STOP 停止pssds4 3 pssplt的使用 在开始菜单中启动pssplt,启动后的界面如下图所示。 使用步骤: 1、CHNF ,FILENAME 打开文件 也可单击菜单上的按钮DHNF,打开对话框: 选择输出文件EXAMPLE_CHANNEL.out即可。 2、SUBT 设置曲线标题 Executing activity SUBT SUBT SUBTITLE LINE 1 = THIS IS AN EXAMPLE! CHANGE IT? 1 ENTER NEW 60 CHARACTER SUBTITLE LINE OR
TO DELETE ************************************************************ : This is an exaple. //设置标题1 SUBTITLE LINE 2 = FOR THE TEST. CHANGE IT? 1 ENTER NEW 60 CHARACTER SUBTITLE LINE OR TO DELETE ************************************************************ : For a test. //设置标题2 ACTIVITY? 3、TINT 设置起始、终止时间 Executing activity TINT TINT CURRENT VALUE FOR TSTART = 0.0000, TSTOP = 0.0000 ENTER STARTING TIME (SECONDS), ENDING TIME (SECONDS) : 0,3 //输入时间 4、SLCT 选择输出的channel Executing activity SLCT SLCT CURRENT CHANNEL FILE IS: C:\PTI\PSSE30\EXAMPLE\EXAMPLE_CHANNEL.out 0 CHANNELS SELECTED (OUT OF A MAXIMUM OF 6) ENTER CHANNEL NUMBER (0 FOR NO MORE): 1 //选择通道,之前在CHAN命令中设置 CHANNEL 1 [ANGL BUS 101 MACH '1 ' ] MIN = 0.0, MAX = 0.0 ENTER NEW SCALES (MIN,MAX) OR 'R' TO RE-SELECT CHANNEL): 0 300 //坐标 ENTER CHANNEL NUMBER (0 FOR NO MORE): 2 CHANNEL 2 [ANGL BUS 102 MACH '1 ' ] MIN = 0.0, MAX = 0.0 ENTER NEW SCALES (MIN,MAX) OR 'R' TO RE-SELECT CHANNEL): 0 300 //坐标 ENTER CHANNEL NUMBER (0 FOR NO MORE): 0 ACTIVITY? 5、PLOT 打印 Executing activity PLOT PLOT ENTER 25 CHARACTER LABEL : ************************* : power SUPPORTED PLOTTING DEVICES ARE: 0 = NONE 2 = HP 7221A 11 = GRPG FILE 26 = MS-Windows (color) 27 = HP 7470A 28 = HP 7475A 29 = MS-Windows (B&W) 30 = MS-Adobe_PDF 38 = HP-GL FILE 41 = POSTSCRIPT 45 = ENCAPSULATED POSTSCRIPT 99 = INDE. PLOT FILE SELECT PLOTTING DEVICE [,PARM FILE]:26 //选择打印设备 选择完毕之后,例如选择26之后打印出的曲线如下图所示: 6、STOP 终止程序 附录: 仿真过程(红色为输入)及部分说明 1.初始界面 2.Executing activity LOFL LOFL //切换到潮流界面 ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 3.Executing activity READ READ //读取潮流数据文件 ENTER INPUT FILE NAME (0 TO EXIT, 1 FOR TERMINAL): SAVNW ENTER IC, SBASE ENTER TWO LINE HEADING ENTER BUS DATA ENTER LOAD DATA ENTER GENERATOR DATA ENTER NON-TRANSFORMER BRANCH DATA ENTER TRANSFORMER DATA ENTER AREA INTERCHANGE DATA ENTER TWO-TERMINAL DC LINE DATA ENTER VSC DC LINE DATA ENTER SWITCHED SHUNT DATA ENTER TRANSFORMER IMPEDANCE CORRECTION DATA ENTER MULTI-TERMINAL DC LINE DATA ENTER MULTI-SECTION LINE DATA ENTER ZONE NAME DATA ENTER INTER-AREA TRANSFER DATA ENTER OWNER NAME DATA ENTER FACTS DEVICE DATA ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 3.Executing activity SOLV SOLV ITER DELTAV/TOL X-------- AT BUS ---------X REAL(DELTAV) IMAG(DELTAV) 1 0.259 211 [HYDRO_G 20.000] 0.2575E-04 0.2861E-05 REACHED TOLERANCE IN 1 ITERATIONS LARGEST MISMATCH: 0.00 MW -0.14 MVAR 0.14 MVA AT BUS 201 [HYDRO 500.00] SYSTEM TOTAL ABSOLUTE MISMATCH: 1.06 MVA SWING BUS SUMMARY: BUS# X-- NAME --X BASKV PGEN PMAX PMIN QGEN QMAX QMIN 3011 MINE_G 13.800 258.7 900.0 0.0 104.0 600.0 -100.0 ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 4. Executing activity ORDR ORDR DIAGONALS = 22 OFF-DIAGONALS = 40 MAX SIZE = 58 ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 5.Executing activity FNSL FNSL 6.ENTER ITERATION NUMBER FOR VAR LIMITS 0 FOR IMMEDIATELY, -1 TO IGNORE COMPLETELY: 0 ITER DELTAP BUS DELTAQ BUS DELTA/V/ BUS DELTAANG BUS 0 0.0002( 153 ) 0.0014( 211 ) 0.00002( 211 ) 0.00000( 211 ) 1 0.0000( 201 ) 0.0005( 201 ) REACHED TOLERANCE IN 1 ITERATIONS LARGEST MISMATCH: 0.00 MW 0.05 MVAR 0.05 MVA AT BUS 201 [HYDRO 500.00] SYSTEM TOTAL ABSOLUTE MISMATCH: 0.10 MVA SWING BUS SUMMARY: BUS# X-- NAME --X BASKV PGEN PMAX PMIN QGEN QMAX QMIN 3011 MINE_G 13.800 258.7 900.0 0.0 104.0 600.0 -100.0 ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 7. Executing activity SAVE SAVE ENTER SAVED CASE FILENAME: EXAMPLE_CASE_1 //保存未经转换的潮流文件 CASE SAVED IN FILE EXAMPLE_CASE_1.sav ON WED, SEP 03 2008 12:37 ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 8. Executing activity CONL ALL CONL ALL //转换所有负荷 ENTER % CONSTANT I, % CONSTANT G FOR ACTIVE POWER: 30 40 // ENTER % CONSTANT I, % CONSTANT B FOR REACTIVE POWER: 50 50 LOAD TO BE REPRESENTED AS: ACTIVE REACTIVE 30.00% 0.00% CONSTANT POWER 30.00% 50.00% CONSTANT CURRENT 40.00% 50.00% CONSTANT ADMITTANCE 9. ENTER 1 IF O.K., 0 OTHERWISE: 1 8 OF 8 LOADS CONVERTED ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 10. Executing activity CONG CONG //转换发电机 GENERATOR CONVERSION COMPLETED ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 11. Executing activity ORDR ORDR DIAGONALS = 23 OFF-DIAGONALS = 41 MAX SIZE = 60 ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 12 Executing activity FACT .FACT 23 DIAGONAL AND 41 OFF-DIAGONAL ELEMENTS ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 13.Executing activity TYSL TYSL ITER DELTAV/TOL X-------- AT BUS ---------X REAL(DELTAV) IMAG(DELTAV) 1 0.465 211 [HYDRO_G 20.000] 0.4360E-05 0.1614E-05 REACHED TOLERANCE IN 1 ITERATIONS LARGEST MISMATCH: 0.00 MW 0.00 MVAR 0.00 MVA AT BUS 205 [SUB230 230.00] SYSTEM TOTAL ABSOLUTE MISMATCH: 0.00 MVA ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 14. Executing activity SAVE SAVE ENTER SAVED CASE FILENAME: EXAMPLE_CASE_2 //经过转换后的潮流文件 CASE SAVED IN FILE EXAMPLE_CASE_2.sav ON WED, SEP 03 2008 12:39 ACTIVITY RTRN TO RETURN TO DYNAMICS--ACTIVITY? 15. Executing activity RTRN RTRN //切换到动态仿真界面 ACTIVITY? 16.Executing activity DYRE DYRE 17 ENTER DYNAMICS DATA SOURCE FILENAME: SAVNW //导入的动态数据文件 18 ENTER FILENAME FOR SUBROUTINE CONEC: EXAMPLE_CC //CONEC子程序文件 19 ENTER FILENAME FOR SUBROUTINE CONET: EXAMPLE_CT //CONET子程序文件 NEXT AVAILABLE ADDRESSES ARE: CON STATE VAR ICON 1 1 1 1 20.ENTER STARTING CON, STATE, VAR, ICON OR CARRIAGE RETURN 1 OUT OF FILE DATA--SWITCH TO TERMINAL INPUT MODE GENERATOR MODELS USE: CONS 1- 82 STATES 1- 35 EXCITATION SYSTEM MODELS USE: CONS 83- 144 STATES 36- 53 VARS 1- 3 TURBINE GOVERNOR MODELS USE: CONS 145- 177 STATES 54- 63 VARS 4- 8 SUMMARY OF MODELS READ: GENS: GENROU GENSAL 5 1 EXSYS: IEEET1 SCRX SEXS 3 1 2 GOVS: TGOV1 HYGOV 3 1 NEXT AVAILABLE ADDRESSES ARE: CON STATE VAR ICON 178 64 9 1 NO MODEL CALLS IN CONNECTION ROUTINES--DYNAMICS SKELETON MAY BE USED 21.ENTER FILENAME FOR COMPILING FILE (0 TO EXIT): EXAMPLE_COMPLILE //编译文件? ACTIVITY? 22.Executing activity DYCH DYCH //检查模型合并情况 ENTRIES MAXIMUM MODEL CONNECTION TABLE 6 1440 ARRAY ALLOCATION TABLE 16 10080 USER MODEL DEF'N TABLE 0 100 ACTIVITY CHAN MODELS 0 2000 FUNCTIONS ARE: 0 = EXIT ACTIVITY 1 = CHECK CONSISTENCY 2 = LIST PLANT MODELS 3 = CHANGE MODEL STATUS 4 = REMOVE PLANT MODELS 5 = LIST UNCONNECTED MODELS 6 = REMOVE UNCONNECTED MODELS 7 = PACK TABLES 8 = LIST CHAN MODELS 9 = REMOVE UNUSED CHAN MODELS 10 = LIST USRMDL DEFINITIONS 11 = REMOVE UNUSED USRMDL DEFS 23. SELECT FUNCTION: 5 ALL PLANT RELATED MODELS ARE CONNECTED TO LOAD FLOW MACHINES FUNCTIONS ARE: 0 = EXIT ACTIVITY 1 = CHECK CONSISTENCY 2 = LIST PLANT MODELS 3 = CHANGE MODEL STATUS 4 = REMOVE PLANT MODELS 5 = LIST UNCONNECTED MODELS 6 = REMOVE UNCONNECTED MODELS 7 = PACK TABLES 8 = LIST CHAN MODELS 9 = REMOVE UNUSED CHAN MODELS 10 = LIST USRMDL DEFINITIONS 11 = REMOVE UNUSED USRMDL DEFS 24. SELECT FUNCTION: 2 25. ENTER BUS NUMBER: 101 PLANT RELATED MODELS AT BUS 101 [NUC-A 21.600]: MACH GEN. COMP. STAB. MINEXL MAXEXL EXC. GOV. 1 GENROU -- -- -- -- IEEET1 TGOV1 26. ENTER BUS NUMBER: 102 PLANT RELATED MODELS AT BUS 102 [NUC-B 21.600]: MACH GEN. COMP. STAB. MINEXL MAXEXL EXC. GOV. 1 GENROU -- -- -- -- IEEET1 TGOV1 ENTER BUS NUMBER: 27.换新bus 0 FUNCTIONS ARE: 0 = EXIT ACTIVITY 1 = CHECK CONSISTENCY 2 = LIST PLANT MODELS 3 = CHANGE MODEL STATUS 4 = REMOVE PLANT MODELS 5 = LIST UNCONNECTED MODELS 6 = REMOVE UNCONNECTED MODELS 7 = PACK TABLES 8 = LIST CHAN MODELS 9 = REMOVE UNUSED CHAN MODELS 10 = LIST USRMDL DEFINITIONS 11 = REMOVE UNUSED USRMDL DEFS 28.SELECT FUNCTION:0 ENTRIES MAXIMUM MODEL CONNECTION TABLE 6 1440 ARRAY ALLOCATION TABLE 16 10080 USER MODEL DEF'N TABLE 0 100 ACTIVITY CHAN MODELS 0 2000 ACTIVITY? 29.Executing activity CHAN CHAN //设置输出通道,在pssplt中使用 NEXT AVAILABLE ADDRESSES ARE: CHANNEL VAR ICON 1 9 1 30 ENTER STARTING CHANNEL, VAR, ICON INDICES OR CARRIAGE RETURN: . 1 ENTER OUTPUT CATEGORY: 0 = EXIT 1 = ANGLE 2 = PELEC 3 = QELEC 4 = ETERM 5 = EFD 6 = PMECH 7 = SPEED 8 = XADIFD 9 = ECOMP 10 = VOTHSG 11 = VREF 12 = BSFREQ 13 = VOLTAGE 14 = VOLT & ANG 15 = FLOW (P) 16 = FLOW (P&Q) 17 = FLOW (MVA) 18 = RELAY2 (R&X) 19 = VAR 20 = STATE 21 = MACH ITERM 22 = MACH APP IMP 23 = VUEL 24 = VOEL 25 = PLOAD 26 = QLOAD: 1 31. ENTER BUS NUMBER, MACHINE ID, 'IDENTIFIER': 101 32. ENTER BUS NUMBER, MACHINE ID, 'IDENTIFIER': 102 ENTER BUS NUMBER, MACHINE ID, 'IDENTIFIER': 33.0 34. ENTER OUTPUT CATEGORY: 0 = EXIT 1 = ANGLE 2 = PELEC 3 = QELEC 4 = ETERM 5 = EFD 6 = PMECH 7 = SPEED 8 = XADIFD 9 = ECOMP 10 = VOTHSG 11 = VREF 12 = BSFREQ 13 = VOLTAGE 14 = VOLT & ANG 15 = FLOW (P) 16 = FLOW (P&Q) 17 = FLOW (MVA) 18 = RELAY2 (R&X) 19 = VAR 20 = STATE 21 = MACH ITERM 22 = MACH APP IMP 23 = VUEL 24 = VOEL 25 = PLOAD 26 = QLOAD: 2 35.ENTER BUS NUMBER, MACHINE ID, 'IDENTIFIER': 101 36. ENTER BUS NUMBER, MACHINE ID, 'IDENTIFIER': 102 ENTER BUS NUMBER, MACHINE ID, 'IDENTIFIER': 37. 0 ENTER OUTPUT CATEGORY: 0 = EXIT 1 = ANGLE 2 = PELEC 3 = QELEC 4 = ETERM 5 = EFD 6 = PMECH 7 = SPEED 8 = XADIFD 9 = ECOMP 10 = VOTHSG 11 = VREF 12 = BSFREQ 13 = VOLTAGE 14 = VOLT & ANG 15 = FLOW (P) 16 = FLOW (P&Q) 17 = FLOW (MVA) 18 = RELAY2 (R&X) 19 = VAR 20 = STATE 21 = MACH ITERM 22 = MACH APP IMP 23 = VUEL 24 = VOEL 25 = PLOAD 26 = QLOAD: 4 38. ENTER BUS NUMBER, MACHINE ID, 'IDENTIFIER': 101 39. ENTER BUS NUMBER, MACHINE ID, 'IDENTIFIER': 102 ENTER BUS NUMBER, MACHINE ID, 'IDENTIFIER': 40.0 41 ENTER OUTPUT CATEGORY: 0 = EXIT 1 = ANGLE 2 = PELEC 3 = QELEC 4 = ETERM 5 = EFD 6 = PMECH 7 = SPEED 8 = XADIFD 9 = ECOMP 10 = VOTHSG 11 = VREF 12 = BSFREQ 13 = VOLTAGE 14 = VOLT & ANG 15 = FLOW (P) 16 = FLOW (P&Q) 17 = FLOW (MVA) 18 = RELAY2 (R&X) 19 = VAR 20 = STATE 21 = MACH ITERM 22 = MACH APP IMP 23 = VUEL 24 = VOEL 25 = PLOAD 26 = QLOAD: 13 42. ENTER BUS NUMBER, 'IDENTIFIER': 101 43. ENTER BUS NUMBER, 'IDENTIFIER': 102 ENTER BUS NUMBER, 'IDENTIFIER': 44. 0 45 ENTER OUTPUT CATEGORY: 0 = EXIT 1 = ANGLE 2 = PELEC 3 = QELEC 4 = ETERM 5 = EFD 6 = PMECH 7 = SPEED 8 = XADIFD 9 = ECOMP 10 = VOTHSG 11 = VREF 12 = BSFREQ 13 = VOLTAGE 14 = VOLT & ANG 15 = FLOW (P) 16 = FLOW (P&Q) 17 = FLOW (MVA) 18 = RELAY2 (R&X) 19 = VAR 20 = STATE 21 = MACH ITERM 22 = MACH APP IMP 23 = VUEL 24 = VOEL 25 = PLOAD 26 = QLOAD: 0 8 OUTPUT CHANNELS HAVE BEEN ADDED NEXT AVAILABLE ADDRESSES ARE: CHANNEL VAR ICON 9 11 3 ACTIVITY? 46 Executing activity SNAP SNAP ENTER SNAPSHOT FILENAME: EXAMPLE_SNAP //快照文件 NUMBER OF ELEMENTS IN USE ARE: CONS STATES VARS ICONS CHANNELS 177 63 10 2 8 47. ENTER NUMBER TO BE SAVED OR CARRIAGE RETURN FOR ABOVE VALUES 0 SNAPSHOT STORED IN FILE EXAMPLE_SNAP.snp AT TIME = 0.000 ACTIVITY? 48 Executing activity STRT STRT //初始化 PTI INTERACTIVE POWER SYSTEM SIMULATOR--PSS/E WED, SEP 03 2008 13:10 PSS/E PROGRAM APPLICATION GUIDE EXAMPLE BASE CASE INCLUDING SEQUENCE DATA INITIAL CONDITION LOAD FLOW USED 1 ITERATIONS ----------------------------- MACHINE INITIAL CONDITIONS ----------------------------- BUS# X-- NAME --X BASKV ID ETERM EFD POWER VARS P.F. ANGLE ID IQ 101 NUC-A 21.600 1 1.0200 2.0563 750.00 81.20 0.9942 63.47 0.6571 0.4934 102 NUC-B 21.600 1 1.0200 2.0563 750.00 81.20 0.9942 63.47 0.6571 0.4934 206 URBGEN 18.000 1 1.0236 2.5618 800.00 600.00 0.8000 23.53 0.8733 0.4380 211 HYDRO_G 20.000 1 1.0404 1.6150 600.00 17.74 0.9996 42.14 0.4089 0.6827 3011 MINE_G 13.800 1 1.0400 1.4655 258.66 104.05 0.9278 16.02 0.1648 0.2114 3018 CATDOG_G 13.800 1 1.0218 2.9374 100.00 80.00 0.7809 22.53 0.8757 0.4033 INITIAL CONDITIONS CHECK O.K. //说明初始化成功,没有错误信息 49 ENTER CHANNEL OUTPUT FILENAME: EXAMPLE_CHANNEL //通道输出文件名称,pssplt用 50 ENTER SNAPSHOT FILENAME: EXAMPLE_CASE //保存潮流文件 NUMBER OF ELEMENTS IN USE ARE: CONS STATES VARS ICONS CHANNELS 177 63 10 2 8 51 ENTER NUMBER TO BE SAVED OR CARRIAGE RETURN FOR ABOVE VALUES 0 SNAPSHOT STORED IN FILE EXAMPLE_CASE.snp AT TIME = -0.020 ACTIVITY? 52 Executing activity RUN RUN //开始仿真 AT TIME = -0.020 ENTER TPAUSE, NPRT, NPLT, CRTPLT: 0,1,1 //暂停时间,print和plot步长 CHANNEL OUTPUT FILE IS EXAMPLE_CHANNEL.out //通道输出文件名称 TIME X- VALUE --X X--------- IDENTIFIER ---------X X- VALUE --X X--------- IDENTIFIER ---------X -0.0200 63.466 ANGL BUS 101 MACH '1 ' 63.466 ANGL BUS 102 MACH '1 ' 3 7.5000 POWR BUS 101 MACH '1 ' 7.5000 POWR BUS 102 MACH '1 ' 5 1.0200 ETRM BUS 101 MACH '1 ' 1.0200 ETRM BUS 102 MACH '1 ' 7 1.0200 VOLT 101 [NUC-A 21.600] 1.0200 VOLT 102 [NUC-B 21.600] -0.0100 63.466 63.466 7.5000 7.5000 1.0200 1.0200 7 1.0200 1.0200 0.0000 63.466 63.466 7.5000 7.5000 1.0200 1.0200 7 1.0200 1.0200 ACTIVITY? 53 Executing activity ALTR ALTR //改变运行条件 PSS/E PROGRAM APPLICATION GUIDE EXAMPLE BASE CASE INCLUDING SEQUENCE DATA TIME = 0.0000 ENTER CHANGE CODE: 0 = NO MORE CHANGES 1 = OUTPUT CHANNEL DATA 2 = CONS 3 = VARS 4 = CRT PLOT CHANNELS 5 = ICONS 6 = SOLUTION PARAMETERS 7 = STATES 8 = CASE HEADING: 0 NETWORK DATA CHANGES (1=YES, 0=NO)? 1 PICK UP NEW SAVED CASE (1=YES, 0=NO)? 0 ENTER CHANGE CODE: 0 = EXIT ACTIVITY 1 = BUS DATA 2 = GENERATOR DATA 3 = BRANCH DATA 4 = 2 WINDING TRANSFORMER DATA 5 = AREA INTERCHANGE DATA 6 = TWO-TERMINAL DC LINE DATA 7 = SOLUTION PARAMETERS 8 = CASE HEADING 9 = SWITCHED SHUNT DATA 10 = IMPEDANCE CORRECTION TABLES 11 = MULTI-TERMINAL DC DATA 12 = ZONE NAMES 13 = INTER-AREA TRANSFER DATA 14 = OWNER NAMES 15 = MACHINE OWNERSHIP DATA 16 = BRANCH OWNERSHIP DATA 17 = FACTS CONTROL DEVICE DATA 18 = 3 WINDING TRANSFORMER DATA 19 = VSC DC LINE DATA: 1 ENTER BUS NUMBER (0 FOR NEW CHANGE CODE, -1 TO EXIT): 101 BUS DATA FOR BUS 101 [NUC-A 21.600]: CODE S H U N T OLD 2 0.00 0.00 CHANGE IT? 1 ENTER CODE, G, B , ,-2E11 NEW 2 0.00 -0.2E+12 AREA VOLT ANGLE X-- NAME --X BASVLT ZONE OWNER OLD 1 1.0200 16.55 NUC-A 21.600 77 11 CHANGE IT? 0 ENTER LOAD ID (CARRIAGE RETURN FOR NEXT LOAD, -1 FOR NEXT BUS): -1 ENTER BUS NUMBER (0 FOR NEW CHANGE CODE, -1 TO EXIT): -1 23 DIAGONAL AND 41 OFF-DIAGONAL ELEMENTS ACTIVITY? 54 Executing activity RUN RUN //继续运行 AT TIME = 0.000 ENTER TPAUSE, NPRT, NPLT, CRTPLT: 0.1,1,1 CHANNEL OUTPUT FILE IS EXAMPLE_CHANNEL.out TIME X- VALUE --X X--------- IDENTIFIER ---------X X- VALUE --X X--------- IDENTIFIER ---------X 0.0000 63.466 ANGL BUS 101 MACH '1 ' 63.466 ANGL BUS 102 MACH '1 ' 3 1.92728E-07 POWR BUS 101 MACH '1 ' 3.8549 POWR BUS 102 MACH '1 ' 5 2.99422E-08 ETRM BUS 101 MACH '1 ' 0.57863 ETRM BUS 102 MACH '1 ' 7 2.99422E-08 VOLT 101 [NUC-A 21.600] 0.57863 VOLT 102 [NUC-B 21.600] 0.0100 63.466 63.466 1.85485E-07 3.6222 2.62304E-08 0.53812 7 2.62304E-08 0.53812 0.0200 63.646 63.562 1.67945E-07 3.3067 2.24092E-08 0.48973 7 2.24092E-08 0.48973 0.0300 64.084 63.802 1.55661E-07 3.1438 2.12352E-08 0.46959 7 2.12352E-08 0.46959 0.0400 64.681 64.141 1.49201E-07 3.0089 1.98796E-08 0.45044 7 1.98796E-08 0.45044 TIME X- VALUE --X X--------- IDENTIFIER ---------X X- VALUE --X X--------- IDENTIFIER ---------X 0.0500 65.450 ANGL BUS 101 MACH '1 ' 64.584 ANGL BUS 102 MACH '1 ' 3 1.42391E-07 POWR BUS 101 MACH '1 ' 2.9037 POWR BUS 102 MACH '1 ' 5 1.90478E-08 ETRM BUS 101 MACH '1 ' 0.43632 ETRM BUS 102 MACH '1 ' 7 1.90478E-08 VOLT 101 [NUC-A 21.600] 0.43632 VOLT 102 [NUC-B 21.600] 0.0600 66.390 65.137 1.38352E-07 2.8226 1.83395E-08 0.42484 7 1.83395E-08 0.42484 0.0700 67.499 65.797 1.35052E-07 2.7601 1.78137E-08 0.41565 7 1.78137E-08 0.41565 0.0800 68.774 66.564 1.32983E-07 2.7124 1.73783E-08 0.40811 7 1.73783E-08 0.40811 0.0900 70.211 67.439 1.31633E-07 2.6775 1.70240E-08 0.40186 7 1.70240E-08 0.40186 TIME X- VALUE --X X--------- IDENTIFIER ---------X X- VALUE --X X--------- IDENTIFIER ---------X 0.1000 71.808 ANGL BUS 101 MACH '1 ' 68.419 ANGL BUS 102 MACH '1 ' 3 1.30934E-07 POWR BUS 101 MACH '1 ' 2.6520 POWR BUS 102 MACH '1 ' 5 1.67206E-08 ETRM BUS 101 MACH '1 ' 0.39659 ETRM BUS 102 MACH '1 ' 7 1.67206E-08 VOLT 101 [NUC-A 21.600] 0.39659 VOLT 102 [NUC-B 21.600] ACTIVITY? 55 Executing activity ALTR ALTR //再次改变状态 PSS/E PROGRAM APPLICATION GUIDE EXAMPLE BASE CASE INCLUDING SEQUENCE DATA TIME = 0.1000 ENTER CHANGE CODE: 0 = NO MORE CHANGES 1 = OUTPUT CHANNEL DATA 2 = CONS 3 = VARS 4 = CRT PLOT CHANNELS 5 = ICONS 6 = SOLUTION PARAMETERS 7 = STATES 8 = CASE HEADING: 0 NETWORK DATA CHANGES (1=YES, 0=NO)? 1 PICK UP NEW SAVED CASE (1=YES, 0=NO)? 0 ENTER CHANGE CODE: 0 = EXIT ACTIVITY 1 = BUS DATA 2 = GENERATOR DATA 3 = BRANCH DATA 4 = 2 WINDING TRANSFORMER DATA 5 = AREA INTERCHANGE DATA 6 = TWO-TERMINAL DC LINE DATA 7 = SOLUTION PARAMETERS 8 = CASE HEADING 9 = SWITCHED SHUNT DATA 10 = IMPEDANCE CORRECTION TABLES 11 = MULTI-TERMINAL DC DATA 12 = ZONE NAMES 13 = INTER-AREA TRANSFER DATA 14 = OWNER NAMES 15 = MACHINE OWNERSHIP DATA 16 = BRANCH OWNERSHIP DATA 17 = FACTS CONTROL DEVICE DATA 18 = 3 WINDING TRANSFORMER DATA 19 = VSC DC LINE DATA: 1 ENTER BUS NUMBER (0 FOR NEW CHANGE CODE, -1 TO EXIT): 101 BUS DATA FOR BUS 101 [NUC-A 21.600]: CODE S H U N T OLD 2 0.00 -0.2E+12 CHANGE IT? 1 ENTER CODE, G, B , ,0 NEW 2 0.00 0.00 AREA VOLT ANGLE X-- NAME --X BASVLT ZONE OWNER OLD 1 0.0000 38.45 NUC-A 21.600 77 11 CHANGE IT? 0 ENTER LOAD ID (CARRIAGE RETURN FOR NEXT LOAD, -1 FOR NEXT BUS): -1 ENTER BUS NUMBER (0 FOR NEW CHANGE CODE, -1 TO EXIT): -1 23 DIAGONAL AND 41 OFF-DIAGONAL ELEMENTS ACTIVITY? 56.Executing activity RUN RUN //继续运行 AT TIME = 0.100 ENTER TPAUSE, NPRT, NPLT, CRTPLT: 3,1,1 CHANNEL OUTPUT FILE IS EXAMPLE_CHANNEL.out TIME X- VALUE --X X--------- IDENTIFIER ---------X X- VALUE --X X--------- IDENTIFIER ---------X 0.1000 71.808 ANGL BUS 101 MACH '1 ' 68.419 ANGL BUS 102 MACH '1 ' 3 4.8153 POWR BUS 101 MACH '1 ' 4.5690 POWR BUS 102 MACH '1 ' 5 0.55671 ETRM BUS 101 MACH '1 ' 0.63136 ETRM BUS 102 MACH '1 ' 7 0.55671 VOLT 101 [NUC-A 21.600] 0.63136 VOLT 102 [NUC-B 21.600] …… ACTIVITY? 57.STOP
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