From c1afc67528f436c16a3a476e4bef88466e14753b Mon Sep 17 00:00:00 2001 From: Angelo Rossi Date: Wed, 21 Jun 2023 12:07:40 +0000 Subject: Initial commit. --- benchmarks/rettore2.atp~ | 26 -- benchmarks/sacoi1.dat~ | 1151 ---------------------------------------------- benchmarks/test_001.dat~ | 16 - benchmarks/test_002.dat~ | 32 -- 4 files changed, 1225 deletions(-) delete mode 100644 benchmarks/rettore2.atp~ delete mode 100644 benchmarks/sacoi1.dat~ delete mode 100644 benchmarks/test_001.dat~ delete mode 100644 benchmarks/test_002.dat~ diff --git a/benchmarks/rettore2.atp~ b/benchmarks/rettore2.atp~ deleted file mode 100644 index ed662b3..0000000 --- a/benchmarks/rettore2.atp~ +++ /dev/null @@ -1,26 +0,0 @@ -BEGIN NEW DATA CASE -C -------------------------------------------------------- -C Generated by ATPDRAW aprile, martedì 20, 2021 -C A Bonneville Power Administration program -C by H. K. Høidalen at SEfAS/NTNU - NORWAY 1994-2016 -C -------------------------------------------------------- -C dT >< Tmax >< Xopt >< Copt > - 1.E-6 .1 - 500 1 1 1 1 0 0 1 0 -C 1 2 3 4 5 6 7 8 -C 345678901234567890123456789012345678901234567890123456789012345678901234567890 -/BRANCH -C < n1 >< n2 >< R >< L >< C > -C < n1 >< n2 >< R >< A >< B ><><>0 - XX0001 1.E3 1 -/SOURCE -C < n 1><>< Ampl. >< Freq. >< A1 >< T1 >< TSTART >< TSTOP > -14XX0001 1.E4 50. -1. 100. -/OUTPUT -BLANK BRANCH -BLANK SWITCH -BLANK SOURCE -BLANK OUTPUT -BLANK PLOT -BEGIN NEW DATA CASE -BLANK diff --git a/benchmarks/sacoi1.dat~ b/benchmarks/sacoi1.dat~ deleted file mode 100644 index 35cf0d6..0000000 --- a/benchmarks/sacoi1.dat~ +++ /dev/null @@ -1,1151 +0,0 @@ -BEGIN NEW DATA CASE -C -C -C ------------------------------------------------------------------------------ -C MISCELLANEOUS DATA CARDS -C ------------------------------------------------------------------------------ -C dT >< Tmax >< Xopt >< Copt > - 2.5E-5 1.5 - 500 1 1 1 1 0 0 1 0 -C -C ------------------------------------------------------------------------------ -C BLOCCO TACS -C ------------------------------------------------------------------------------ -TACS HYBRID -C ----- MISURA DELL'ANGOLO GAMMA, CONVERTITORE SUVERETO --------------- -90VYSUVA 10. -90VYSUVB 10. -90VYSUVC 10. -90VDSUVA 10. -90VDSUVB 10. -90VDSUVC 10. -90ELESUV 10. -90MEIO11 10. -90POLOSU 10. -C -98VA1101 =SUVERA.LT.SUVERB -98VA1102 =SUVERA.LT.SUVERC -98VA1103 =SUVERB.LT.SUVERC -98VA1104 =SUVERB.LT.SUVERA -98VA1105 =SUVERC.LT.SUVERA -98VA1106 =SUVERC.LT.SUVERB -98VA1107 =SUVERA.LT.ZERO -98VA1108 =SUVERC.GT.ZERO -98VA1109 =SUVERB.LT.ZERO -98VA1110 =SUVERA.GT.ZERO -98VA1111 =SUVERC.LT.ZERO -98VA1112 =SUVERB.GT.ZERO -C -98VD110153 +VA1101 2.5E-5 -98VD110253 +VA1102 2.5E-5 -98VD110353 +VA1103 2.5E-5 -98VD110453 +VA1104 2.5E-5 -98VD110553 +VA1105 2.5E-5 -98VD110653 +VA1106 2.5E-5 -98VD110753 +VA1107 2.5E-5 -98VD110853 +VA1108 2.5E-5 -98VD110953 +VA1109 2.5E-5 -98VD111053 +VA1110 2.5E-5 -98VD111153 +VA1111 2.5E-5 -98VD111253 +VA1112 2.5E-5 -C -98RE1101 =(VYSUVA.LT.MEIO11).AND.(TIMEX.GT.0.02) -98RE1102 =(ELESUV.LT.VYSUVC).AND.(TIMEX.GT.0.02) -98RE1103 =(VYSUVB.LT.MEIO11).AND.(TIMEX.GT.0.02) -98RE1104 =(ELESUV.LT.VYSUVA).AND.(TIMEX.GT.0.02) -98RE1105 =(VYSUVC.LT.MEIO11).AND.(TIMEX.GT.0.02) -98RE1106 =(ELESUV.LT.VYSUVB).AND.(TIMEX.GT.0.02) -98RE1107 =(VDSUVA.LT.POLOSU).AND.(TIMEX.GT.0.02) -98RE1108 =(MEIO11.LT.VDSUVC).AND.(TIMEX.GT.0.02) -98RE1109 =(VDSUVB.LT.POLOSU).AND.(TIMEX.GT.0.02) -98RE1110 =(MEIO11.LT.VDSUVA).AND.(TIMEX.GT.0.02) -98RE1111 =(VDSUVC.LT.POLOSU).AND.(TIMEX.GT.0.02) -98RE1112 =(MEIO11.LT.VDSUVB).AND.(TIMEX.GT.0.02) -C -98TR1101 =(.NOT.VA1101).AND.VD1101 -98TR1102 =(.NOT.VA1102).AND.VD1102 -98TR1103 =(.NOT.VA1103).AND.VD1103 -98TR1104 =(.NOT.VA1104).AND.VD1104 -98TR1105 =(.NOT.VA1105).AND.VD1105 -98TR1106 =(.NOT.VA1106).AND.VD1106 -98TR1107 =(.NOT.VA1107).AND.VD1107 -98TR1108 =(.NOT.VA1108).AND.VD1108 -98TR1109 =(.NOT.VA1109).AND.VD1109 -98TR1110 =(.NOT.VA1110).AND.VD1110 -98TR1111 =(.NOT.VA1111).AND.VD1111 -98TR1112 =(.NOT.VA1112).AND.VD1112 -C -98IG110158 +RE1101 1.8E4 1.VD1101 -98IG110258 +RE1102 1.8E4 1.VD1102 -98IG110358 +RE1103 1.8E4 1.VD1103 -98IG110458 +RE1104 1.8E4 1.VD1104 -98IG110558 +RE1105 1.8E4 1.VD1105 -98IG110658 +RE1106 1.8E4 1.VD1106 -98IG110758 +RE1107 1.8E4 1.VD1107 -98IG110858 +RE1108 1.8E4 1.VD1108 -98IG110958 +RE1109 1.8E4 1.VD1109 -98IG111058 +RE1110 1.8E4 1.VD1110 -98IG111158 +RE1111 1.8E4 1.VD1111 -98IG111258 +RE1112 1.8E4 1.VD1112 -C -98GI110158 +VD1101 1.8E4 1.IG1101 -98GI110258 +VD1102 1.8E4 1.IG1102 -98GI110358 +VD1103 1.8E4 1.IG1103 -98GI110458 +VD1104 1.8E4 1.IG1104 -98GI110558 +VD1105 1.8E4 1.IG1105 -98GI110658 +VD1106 1.8E4 1.IG1106 -98GI110758 +VD1107 1.8E4 1.IG1107 -98GI110858 +VD1108 1.8E4 1.IG1108 -98GI110958 +VD1109 1.8E4 1.IG1109 -98GI111058 +VD1110 1.8E4 1.IG1110 -98GI111158 +VD1111 1.8E4 1.IG1111 -98GI111258 +VD1112 1.8E4 1.IG1112 -C -98GM110162 +GI1101 TR1101 -98GM110262 +GI1102 TR1102 -98GM110362 +GI1103 TR1103 -98GM110462 +GI1104 TR1104 -98GM110562 +GI1105 TR1105 -98GM110662 +GI1106 TR1106 -98GM110762 +GI1107 TR1107 -98GM110862 +GI1108 TR1108 -98GM110962 +GI1109 TR1109 -98GM111062 +GI1110 TR1110 -98GM111162 +GI1111 TR1111 -98GM111262 +GI1112 TR1112 -C -98TRA11Y =(TR1101+TR1102+TR1103+TR1104+TR1105+TR1106)/DELTAT -98GM11_Y61+GM1106 +GM1101 +GM1102 +GM1103 +GM1104 99.GM1105GAM11Y -98GAM11Y58 +TRA11Y 1. 1.NT1106UNITY -98NT1106 =(.NOT.TR1106).EQ.1 -98TRA11D =(TR1107+TR1108+TR1109+TR1110+TR1111+TR1112)/DELTAT -98GM11_D61+GM1112 +GM1107 +GM1108 +GM1109 +GM1110 99.GM1111GAM11D -98GAM11D58 +TRA11D 1. 1.NT1112UNITY -98NT1112 =(.NOT.TR1112).EQ.1 -98ALFAR 63+GM11_Y +GM11_D -1. -C -90SUVERA -90SUVERB -90SUVERC -C -C ------- MISURA DELLA TENSIONE MEDIA (50HZ), SBARRE DI COMMUTAZIONE --------- -98VACM11 =SQRT(SUVERA*SUVERA+SUVERB*SUVERB+SUVERC*SUVERC)/400.E3 -33VACM11ALFAR -C -C ------- PLL (PER LA GFU), LATO SUVERETO ----------------------------------- -98OMEG11 =2.*PI* 50. -98IGA11 =(2*SUVERA-SUVERB-SUVERC)/(SQRT(6.)*400.E3) -98IGB11 =(SUVERB-SUVERC)/(SQRT(2.)*400.E3) -88ERR11 =IGA11*COS(P11PLL)+IGB11*SIN(P11PLL) - 1ERIN11 +ERR11 10. - 1. - 1. - 0ERPP11 +ERR11 50. -98RES11 =PHD11.LE.(2*PI-2*W11*DELTAT) -98P11PLL58 +W11 1. 1.RES11 ZERO - 0W11 +ERPP11 +ERIN11 +OMEG11 1. 301.6 452.4 - 0PHD11 +P11PLL 1. -77P11PLL 1.57 -C 33P##PLL -C 33W## -C ------------------ INNESCO DEI TIRISTORI ---------------------------------- -90UCTD11 -11GRD11 .017453292 -98VAD11 = SIN(P11PLL-(UCTD11+30)*GRD11) -98VBD11 = SIN(P11PLL-(UCTD11+150)*GRD11) -98VCD11 = SIN(P11PLL-(UCTD11-90)*GRD11) -C ------------------------------------------------- -98VAY11 = SIN(P11PLL-UCTD11*GRD11) -98VBY11 = SIN(P11PLL-(UCTD11+120)*GRD11) -98VCY11 = SIN(P11PLL-(UCTD11-120)*GRD11) -98DS1101 = VAY11.GT.VCY11.AND.VAY11.GT.VBY11.AND.TIMEX.GT. 0.0 -98DS1102 = VCY11.LT.VAY11.AND.VCY11.LT.VBY11.AND.TIMEX.GT. 0.0 -98DS1103 = VBY11.GT.VCY11.AND.VBY11.GT.VAY11.AND.TIMEX.GT. 0.0 -98DS1104 = VAY11.LT.VCY11.AND.VAY11.LT.VBY11.AND.TIMEX.GT. 0.0 -98DS1105 = VCY11.GT.VAY11.AND.VCY11.GT.VBY11.AND.TIMEX.GT. 0.0 -98DS1106 = VBY11.LT.VCY11.AND.VBY11.LT.VAY11.AND.TIMEX.GT. 0.0 -C ------------------------------------------------- -98DS1107 = VAD11.GT.VCD11.AND.VAD11.GT.VBD11.AND.TIMEX.GT. 0.0 -98DS1108 = VCD11.LT.VAD11.AND.VCD11.LT.VBD11.AND.TIMEX.GT. 0.0 -98DS1109 = VBD11.GT.VCD11.AND.VBD11.GT.VAD11.AND.TIMEX.GT. 0.0 -98DS1110 = VAD11.LT.VCD11.AND.VAD11.LT.VBD11.AND.TIMEX.GT. 0.0 -98DS1111 = VCD11.GT.VAD11.AND.VCD11.GT.VBD11.AND.TIMEX.GT. 0.0 -98DS1112 = VBD11.LT.VCD11.AND.VBD11.LT.VAD11.AND.TIMEX.GT. 0.0 -C -C -C ----- MISURA DELL'ANGOLO GAMMA, CONVERTITORE CODRONGIANOS -------------------- -90VYCODA 10. -90VYCODB 10. -90VYCODC 10. -90VDCODA 10. -90VDCODB 10. -90VDCODC 10. -90POLOCO 10. -90MEIO21 10. -90ELECOD 10. -C -98VA2101 =CODROA.LT.CODROB -98VA2102 =CODROA.LT.CODROC -98VA2103 =CODROB.LT.CODROC -98VA2104 =CODROB.LT.CODROA -98VA2105 =CODROC.LT.CODROA -98VA2106 =CODROC.LT.CODROB -98VA2107 =CODROA.LT.ZERO -98VA2108 =CODROC.GT.ZERO -98VA2109 =CODROB.LT.ZERO -98VA2110 =CODROA.GT.ZERO -98VA2111 =CODROC.LT.ZERO -98VA2112 =CODROB.GT.ZERO -C -98VD210153 +VA2101 2.5E-5 -98VD210253 +VA2102 2.5E-5 -98VD210353 +VA2103 2.5E-5 -98VD210453 +VA2104 2.5E-5 -98VD210553 +VA2105 2.5E-5 -98VD210653 +VA2106 2.5E-5 -98VD210753 +VA2107 2.5E-5 -98VD210853 +VA2108 2.5E-5 -98VD210953 +VA2109 2.5E-5 -98VD211053 +VA2110 2.5E-5 -98VD211153 +VA2111 2.5E-5 -98VD211253 +VA2112 2.5E-5 -C -98RE2101 =(VYCODA.LT.MEIO21).AND.(TIMEX.GT.0.02) -98RE2102 =(POLOCO.LT.VYCODC).AND.(TIMEX.GT.0.02) -98RE2103 =(VYCODB.LT.MEIO21).AND.(TIMEX.GT.0.02) -98RE2104 =(POLOCO.LT.VYCODA).AND.(TIMEX.GT.0.02) -98RE2105 =(VYCODC.LT.MEIO21).AND.(TIMEX.GT.0.02) -98RE2106 =(POLOCO.LT.VYCODB).AND.(TIMEX.GT.0.02) -98RE2107 =(VDCODA.LT.ELECOD).AND.(TIMEX.GT.0.02) -98RE2108 =(MEIO21.LT.VDCODC).AND.(TIMEX.GT.0.02) -98RE2109 =(VDCODB.LT.ELECOD).AND.(TIMEX.GT.0.02) -98RE2110 =(MEIO21.LT.VDCODA).AND.(TIMEX.GT.0.02) -98RE2111 =(VDCODC.LT.ELECOD).AND.(TIMEX.GT.0.02) -98RE2112 =(MEIO21.LT.VDCODB).AND.(TIMEX.GT.0.02) -C -98TR2101 =(.NOT.VA2101).AND.VD2101 -98TR2102 =(.NOT.VA2102).AND.VD2102 -98TR2103 =(.NOT.VA2103).AND.VD2103 -98TR2104 =(.NOT.VA2104).AND.VD2104 -98TR2105 =(.NOT.VA2105).AND.VD2105 -98TR2106 =(.NOT.VA2106).AND.VD2106 -98TR2107 =(.NOT.VA2107).AND.VD2107 -98TR2108 =(.NOT.VA2108).AND.VD2108 -98TR2109 =(.NOT.VA2109).AND.VD2109 -98TR2110 =(.NOT.VA2110).AND.VD2110 -98TR2111 =(.NOT.VA2111).AND.VD2111 -98TR2112 =(.NOT.VA2112).AND.VD2112 -C -98IG210158 +RE2101 1.8E4 1.VD2101 -98IG210258 +RE2102 1.8E4 1.VD2102 -98IG210358 +RE2103 1.8E4 1.VD2103 -98IG210458 +RE2104 1.8E4 1.VD2104 -98IG210558 +RE2105 1.8E4 1.VD2105 -98IG210658 +RE2106 1.8E4 1.VD2106 -98IG210758 +RE2107 1.8E4 1.VD2107 -98IG210858 +RE2108 1.8E4 1.VD2108 -98IG210958 +RE2109 1.8E4 1.VD2109 -98IG211058 +RE2110 1.8E4 1.VD2110 -98IG211158 +RE2111 1.8E4 1.VD2111 -98IG211258 +RE2112 1.8E4 1.VD2112 -C -98GI210158 +VD2101 1.8E4 1.IG2101 -98GI210258 +VD2102 1.8E4 1.IG2102 -98GI210358 +VD2103 1.8E4 1.IG2103 -98GI210458 +VD2104 1.8E4 1.IG2104 -98GI210558 +VD2105 1.8E4 1.IG2105 -98GI210658 +VD2106 1.8E4 1.IG2106 -98GI210758 +VD2107 1.8E4 1.IG2107 -98GI210858 +VD2108 1.8E4 1.IG2108 -98GI210958 +VD2109 1.8E4 1.IG2109 -98GI211058 +VD2110 1.8E4 1.IG2110 -98GI211158 +VD2111 1.8E4 1.IG2111 -98GI211258 +VD2112 1.8E4 1.IG2112 -C -98GM210162 +GI2101 TR2101 -98GM210262 +GI2102 TR2102 -98GM210362 +GI2103 TR2103 -98GM210462 +GI2104 TR2104 -98GM210562 +GI2105 TR2105 -98GM210662 +GI2106 TR2106 -98GM210762 +GI2107 TR2107 -98GM210862 +GI2108 TR2108 -98GM210962 +GI2109 TR2109 -98GM211062 +GI2110 TR2110 -98GM211162 +GI2111 TR2111 -98GM211262 +GI2112 TR2112 -C -98TRA21Y =(TR2101+TR2102+TR2103+TR2104+TR2105+TR2106)/DELTAT -98GM21_Y61+GM2106 +GM2101 +GM2102 +GM2103 +GM2104 99.GM2105GAM21Y -98GAM21Y58 +TRA21Y 1. 1.NT2106UNITY -98NT2106 =(.NOT.TR2106).EQ.1 -98TRA21D =(TR2107+TR2108+TR2109+TR2110+TR2111+TR2112)/DELTAT -98GM21_D61+GM2112 +GM2107 +GM2108 +GM2109 +GM2110 99.GM2111GAM21D -98GAM21D58 +TRA21D 1. 1.NT2112UNITY -98NT2112 =(.NOT.TR2112).EQ.1 -98GAMMAI63+GM21_Y +GM21_D -1. -C -90CODROA -90CODROB -90CODROC -C -C ------- MISURA DELLA TENSIONE MEDIA (50HZ), SBARRE DI COMMUTAZIONE --------- -98VACM21 =SQRT(CODROA*CODROA+CODROB*CODROB+CODROC*CODROC)/400.E3 -33VACM21GAMMAI -C -C ------- PLL (PER LA GFU), LATO CODRONGIANOS ----------------------------------- -98OMEG21 =2.*PI* 50. -98IGA21 =(2*CODROA-CODROB-CODROC)/(SQRT(6.)*400.E3) -98IGB21 =(CODROB-CODROC)/(SQRT(2.)*400.E3) -88ERR21 =IGA21*COS(P21PLL)+IGB21*SIN(P21PLL) - 1ERIN21 +ERR21 10. - 1. - 1. - 0ERPP21 +ERR21 50. -98RES21 =PHD21.LE.(2*PI-2*W21*DELTAT) -98P21PLL58 +W21 1. 1.RES21 ZERO - 0W21 +ERPP21 +ERIN21 +OMEG21 1. 301.6 452.4 - 0PHD21 +P21PLL 1. -77P21PLL 1.57 -C 33P##PLL -C 33W## -C ------------------ INNESCO DEI TIRISTORI ---------------------------------- -90UCTD21 -11GRD21 .017453292 -98VAD21 = SIN(P21PLL-(UCTD21+30)*GRD21) -98VBD21 = SIN(P21PLL-(UCTD21+150)*GRD21) -98VCD21 = SIN(P21PLL-(UCTD21-90)*GRD21) -C ------------------------------------------------- -98VAY21 = SIN(P21PLL-UCTD21*GRD21) -98VBY21 = SIN(P21PLL-(UCTD21+120)*GRD21) -98VCY21 = SIN(P21PLL-(UCTD21-120)*GRD21) -98DS2101 = VAY21.GT.VCY21.AND.VAY21.GT.VBY21.AND.TIMEX.GT. 0.0 -98DS2102 = VCY21.LT.VAY21.AND.VCY21.LT.VBY21.AND.TIMEX.GT. 0.0 -98DS2103 = VBY21.GT.VCY21.AND.VBY21.GT.VAY21.AND.TIMEX.GT. 0.0 -98DS2104 = VAY21.LT.VCY21.AND.VAY21.LT.VBY21.AND.TIMEX.GT. 0.0 -98DS2105 = VCY21.GT.VAY21.AND.VCY21.GT.VBY21.AND.TIMEX.GT. 0.0 -98DS2106 = VBY21.LT.VCY21.AND.VBY21.LT.VAY21.AND.TIMEX.GT. 0.0 -C ------------------------------------------------- -98DS2107 = VAD21.GT.VCD21.AND.VAD21.GT.VBD21.AND.TIMEX.GT. 0.0 -98DS2108 = VCD21.LT.VAD21.AND.VCD21.LT.VBD21.AND.TIMEX.GT. 0.0 -98DS2109 = VBD21.GT.VCD21.AND.VBD21.GT.VAD21.AND.TIMEX.GT. 0.0 -98DS2110 = VAD21.LT.VCD21.AND.VAD21.LT.VBD21.AND.TIMEX.GT. 0.0 -98DS2111 = VCD21.GT.VAD21.AND.VCD21.GT.VBD21.AND.TIMEX.GT. 0.0 -98DS2112 = VBD21.LT.VCD21.AND.VBD21.LT.VAD21.AND.TIMEX.GT. 0.0 -C -C ----- MISURA DELL'ANGOLO GAMMA, CONVERTITORE LUCCIANA ----------------------- -90VYLUCA 10. -90VYLUCB 10. -90VYLUCC 10. -90VDLUCA 10. -90VDLUCB 10. -90VDLUCC 10. -90POLOLU 10. -90MEIO31 10. -90ELELUC 10. -C -98VA3101 =LUCCIA.LT.LUCCIB -98VA3102 =LUCCIA.LT.LUCCIC -98VA3103 =LUCCIB.LT.LUCCIC -98VA3104 =LUCCIB.LT.LUCCIA -98VA3105 =LUCCIC.LT.LUCCIA -98VA3106 =LUCCIC.LT.LUCCIB -98VA3107 =LUCCIA.LT.ZERO -98VA3108 =LUCCIC.GT.ZERO -98VA3109 =LUCCIB.LT.ZERO -98VA3110 =LUCCIA.GT.ZERO -98VA3111 =LUCCIC.LT.ZERO -98VA3112 =LUCCIB.GT.ZERO -C -98VD310153 +VA3101 2.5E-5 -98VD310253 +VA3102 2.5E-5 -98VD310353 +VA3103 2.5E-5 -98VD310453 +VA3104 2.5E-5 -98VD310553 +VA3105 2.5E-5 -98VD310653 +VA3106 2.5E-5 -98VD310753 +VA3107 2.5E-5 -98VD310853 +VA3108 2.5E-5 -98VD310953 +VA3109 2.5E-5 -98VD311053 +VA3110 2.5E-5 -98VD311153 +VA3111 2.5E-5 -98VD311253 +VA3112 2.5E-5 -C -98RE3101 =(VYLUCA.LT.MEIO31).AND.(TIMEX.GT.0.02) -98RE3102 =(POLOLU.LT.VYLUCC).AND.(TIMEX.GT.0.02) -98RE3103 =(VYLUCB.LT.MEIO31).AND.(TIMEX.GT.0.02) -98RE3104 =(POLOLU.LT.VYLUCA).AND.(TIMEX.GT.0.02) -98RE3105 =(VYLUCC.LT.MEIO31).AND.(TIMEX.GT.0.02) -98RE3106 =(POLOLU.LT.VYLUCB).AND.(TIMEX.GT.0.02) -98RE3107 =(VDLUCA.LT.ELELUC).AND.(TIMEX.GT.0.02) -98RE3108 =(MEIO31.LT.VDLUCC).AND.(TIMEX.GT.0.02) -98RE3109 =(VDLUCB.LT.ELELUC).AND.(TIMEX.GT.0.02) -98RE3110 =(MEIO31.LT.VDLUCA).AND.(TIMEX.GT.0.02) -98RE3111 =(VDLUCC.LT.ELELUC).AND.(TIMEX.GT.0.02) -98RE3112 =(MEIO31.LT.VDLUCB).AND.(TIMEX.GT.0.02) -C -98TR3101 =(.NOT.VA3101).AND.VD3101 -98TR3102 =(.NOT.VA3102).AND.VD3102 -98TR3103 =(.NOT.VA3103).AND.VD3103 -98TR3104 =(.NOT.VA3104).AND.VD3104 -98TR3105 =(.NOT.VA3105).AND.VD3105 -98TR3106 =(.NOT.VA3106).AND.VD3106 -98TR3107 =(.NOT.VA3107).AND.VD3107 -98TR3108 =(.NOT.VA3108).AND.VD3108 -98TR3109 =(.NOT.VA3109).AND.VD3109 -98TR3110 =(.NOT.VA3110).AND.VD3110 -98TR3111 =(.NOT.VA3111).AND.VD3111 -98TR3112 =(.NOT.VA3112).AND.VD3112 -C -98IG310158 +RE3101 1.8E4 1.VD3101 -98IG310258 +RE3102 1.8E4 1.VD3102 -98IG310358 +RE3103 1.8E4 1.VD3103 -98IG310458 +RE3104 1.8E4 1.VD3104 -98IG310558 +RE3105 1.8E4 1.VD3105 -98IG310658 +RE3106 1.8E4 1.VD3106 -98IG310758 +RE3107 1.8E4 1.VD3107 -98IG310858 +RE3108 1.8E4 1.VD3108 -98IG310958 +RE3109 1.8E4 1.VD3109 -98IG311058 +RE3110 1.8E4 1.VD3110 -98IG311158 +RE3111 1.8E4 1.VD3111 -98IG311258 +RE3112 1.8E4 1.VD3112 -C -98GI310158 +VD3101 1.8E4 1.IG3101 -98GI310258 +VD3102 1.8E4 1.IG3102 -98GI310358 +VD3103 1.8E4 1.IG3103 -98GI310458 +VD3104 1.8E4 1.IG3104 -98GI310558 +VD3105 1.8E4 1.IG3105 -98GI310658 +VD3106 1.8E4 1.IG3106 -98GI310758 +VD3107 1.8E4 1.IG3107 -98GI310858 +VD3108 1.8E4 1.IG3108 -98GI310958 +VD3109 1.8E4 1.IG3109 -98GI311058 +VD3110 1.8E4 1.IG3110 -98GI311158 +VD3111 1.8E4 1.IG3111 -98GI311258 +VD3112 1.8E4 1.IG3112 -C -98GM310162 +GI3101 TR3101 -98GM310262 +GI3102 TR3102 -98GM310362 +GI3103 TR3103 -98GM310462 +GI3104 TR3104 -98GM310562 +GI3105 TR3105 -98GM310662 +GI3106 TR3106 -98GM310762 +GI3107 TR3107 -98GM310862 +GI3108 TR3108 -98GM310962 +GI3109 TR3109 -98GM311062 +GI3110 TR3110 -98GM311162 +GI3111 TR3111 -98GM311262 +GI3112 TR3112 -C -98TRA31Y =(TR3101+TR3102+TR3103+TR3104+TR3105+TR3106)/DELTAT -98GM31_Y61+GM3106 +GM3101 +GM3102 +GM3103 +GM3104 99.GM3105GAM31Y -98GAM31Y58 +TRA31Y 1. 1.NT3106UNITY -98NT3106 =(.NOT.TR3106).EQ.1 -98TRA31D =(TR3107+TR3108+TR3109+TR3110+TR3111+TR3112)/DELTAT -98GM31_D61+GM3112 +GM3107 +GM3108 +GM3109 +GM3110 99.GM3111GAM31D -98GAM31D58 +TRA31D 1. 1.NT3112UNITY -98NT3112 =(.NOT.TR3112).EQ.1 -98GAMMAL63+GM31_Y +GM31_D -1. -C -90LUCCIA -90LUCCIB -90LUCCIC -C -C ------- MISURA DELLA TENSIONE MEDIA (50HZ), SBARRE DI COMMUTAZIONE --------- -98VACM31 =SQRT(LUCCIA*LUCCIA+LUCCIB*LUCCIB+LUCCIC*LUCCIC)/90.E3 -33VACM31GAMMAL -C -C ------- PLL (PER LA GFU), LATO LUCCIANA ------------------------------------ -98OMEG31 =2.*PI* 50. -98IGA31 =(2*LUCCIA-LUCCIB-LUCCIC)/(SQRT(6.)*90.E3) -98IGB31 =(LUCCIB-LUCCIC)/(SQRT(2.)*90.E3) -88ERR31 =IGA31*COS(P31PLL)+IGB31*SIN(P31PLL) - 1ERIN31 +ERR31 10. - 1. - 1. - 0ERPP31 +ERR31 50. -98RES31 =PHD31.LE.(2*PI-2*W31*DELTAT) -98P31PLL58 +W31 1. 1.RES31 ZERO - 0W31 +ERPP31 +ERIN31 +OMEG31 1. 301.6 452.4 - 0PHD31 +P31PLL 1. -77P31PLL 1.57 -C ------------------ INNESCO DEI TIRISTORI ---------------------------------- -90UCTD31 -11GRD31 .017453292 -98VAD31 = SIN(P31PLL-(UCTD31+30)*GRD31) -98VBD31 = SIN(P31PLL-(UCTD31+150)*GRD31) -98VCD31 = SIN(P31PLL-(UCTD31-90)*GRD31) -C ------------------------------------------------- -98VAY31 = SIN(P31PLL-UCTD31*GRD31) -98VBY31 = SIN(P31PLL-(UCTD31+120)*GRD31) -98VCY31 = SIN(P31PLL-(UCTD31-120)*GRD31) -98DS3101 = VAY31.GT.VCY31.AND.VAY31.GT.VBY31.AND.TIMEX.GT. 0.0 -98DS3102 = VCY31.LT.VAY31.AND.VCY31.LT.VBY31.AND.TIMEX.GT. 0.0 -98DS3103 = VBY31.GT.VCY31.AND.VBY31.GT.VAY31.AND.TIMEX.GT. 0.0 -98DS3104 = VAY31.LT.VCY31.AND.VAY31.LT.VBY31.AND.TIMEX.GT. 0.0 -98DS3105 = VCY31.GT.VAY31.AND.VCY31.GT.VBY31.AND.TIMEX.GT. 0.0 -98DS3106 = VBY31.LT.VCY31.AND.VBY31.LT.VAY31.AND.TIMEX.GT. 0.0 -C ------------------------------------------------- -98DS3107 = VAD31.GT.VCD31.AND.VAD31.GT.VBD31.AND.TIMEX.GT. 0.0 -98DS3108 = VCD31.LT.VAD31.AND.VCD31.LT.VBD31.AND.TIMEX.GT. 0.0 -98DS3109 = VBD31.GT.VCD31.AND.VBD31.GT.VAD31.AND.TIMEX.GT. 0.0 -98DS3110 = VAD31.LT.VCD31.AND.VAD31.LT.VBD31.AND.TIMEX.GT. 0.0 -98DS3111 = VCD31.GT.VAD31.AND.VCD31.GT.VBD31.AND.TIMEX.GT. 0.0 -98DS3112 = VBD31.LT.VCD31.AND.VBD31.LT.VAD31.AND.TIMEX.GT. 0.0 -BLANK TACS -C ------------------------------------------------------------------------------ -C BLOCCO MODELS -C ------------------------------------------------------------------------------ -MODELS -INPUT -MM0001 {i(DCCODR)} -MM0002 {v(DCCODR)} -MM0003 {tacs(GAMMAI)} -MM0004 {i(DCSUVE)} -MM0005 {v(DCSUVE)} -MM0006 {i(DCLUCC)} -MM0007 {v(DCLUCC)} -MM0008 {tacs(GAMMAL)} -OUTPUT - UCCAI - UCCAR - UCCAL - IORDEM -MODEL RAD_SUV - --- MODELLO RADDRIZZATORE SUVERETO --- - INPUT IDC,VDC - OUTPUT ALFA,IORDER - DATA VDC_BA{DFLT:200.},IDC_BA{DFLT:1.},KPV{DFLT:63},KIV{DFLT:5247} - TC_IDC{DFLT:0.012},TC_VDC{DFLT:0.00531},IORDEP{DFLT:1.0} - VDCREF{DFLT:1.0},IDCREF{DFLT:1.1},KPI{DFLT:63},KII{DFLT:5247} - VAR IDC_PU,VDC_PU,IDCMED,VDCMED,ALFA,ERRV,ERRV_INT,ERRV_PRO - BETAV,ERRI,ERRI_INT,ERRI_PRO,BETAI,BETA - IORDER,UDINP,VDCOLI - INIT - ---- MISURE - histdef(IDCMED) :=1.0 - histdef(VDCMED) :=1.0 - ---- REGOLATORI - ERRV :=0 - ERRV_PRO :=0 - histdef(ERRV_INT):=163 - ERRI :=0.1 - ERRI_PRO :=0 - histdef(ERRI_INT):=175 - ENDINIT - EXEC - ---- FILTRI GRANDEZZE DC --- - IDC_PU:=IDC/(IDC_BA*1000.) - VDC_PU:=VDC/(VDC_BA*1000.) - LAPLACE(IDCMED/IDC_PU):=(1|S0)/(1|S0+TC_IDC|S1) - LAPLACE(VDCMED/VDC_PU):=(1|S0)/(1|S0+TC_VDC|S1) - ---- VDCOL ---- - UDINP := VDCMED {MIN:0.4,MAX:0.9} - VDCOLI := UDINP*0.9 + 0.19 - IORDER := VDCOLI*IORDEP - ------------------------------------------------------------------------- - - ---- REGOLATORE TENSIONE COSTANTE (modalit?? Constant-Voltage) ---- - ERRV := (VDCREF - VDCMED) - LAPLACE(ERRV_INT/ERRV) {DMIN:90.,DMAX:175.}:=(KIV|S0)/(1|S1) - ERRV_PRO := KPV*(VDCREF - VDCMED) - BETAV := (ERRV_INT + ERRV_PRO) {MIN:90.,MAX:175.} - - ---- REGOLATORE DI CORRENTE (modalit?? CC) ---- - ERRI := (IORDER - IDCMED + 0.1) - LAPLACE(ERRI_INT/ERRI) {DMIN:30.,DMAX:175.} := (KII|S0)/(1|S1) - ERRI_PRO := KPI*(IORDER - IDCMED) - BETAI := (ERRI_INT + ERRI_PRO) {MIN:30.,MAX:175} - - BETA :=MIN(BETAI,BETAV) - ALFA := 180. - BETA - ENDEXEC -ENDMODEL -MODEL INV_COD - ---- MODELLO INVERTER CODRONGIANOS ---- - INPUT IDC,VDC,GAMMA,IORDER - OUTPUT ALFA - DATA VDC_BA{DFLT:200.},IDC_BA{DFLT:1.} - FREQ{DFLT:50},TC_IDC{DFLT:0.0012},TC_VDC{DFLT:0.02} - KPI{DFLT:36},KII{DFLT:3760},KPG{DFLT:0.7506},KIG{DFLT:18.38} - ICODRO{DFLT:0.75} - VAR IDC_PU,VDC_PU,IDCMED,VDCMED,ALFA - BETAIC,ERRI_INT,ERRI_PRO,ERRI - GAMMAN,GAMMIN,ERRG_INT,ERRG_PRO,GNLG,GERRI,BETAIG,G[1..12] - K,INTER,BETAI - INIT - ---- MISURE - histdef(IDCMED) :=0.75 - histdef(VDCMED) :=0.92 - ---- REGOLATORI - ERRI :=0 - ERRI_PRO :=0 - histdef(ERRI_INT):=34. - ERRG_PRO :=0 - histdef(ERRG_INT):=30. - GAMMAN :=22. - GAMMIN :=180 - K :=1 - G[1..12] :=22. - INTER :=0.0 - ENDINIT - EXEC - --- FILTRI --- - IDC_PU:=IDC/(IDC_BA*1000.) - VDC_PU:=VDC/(VDC_BA*1000.) - LAPLACE(IDCMED/IDC_PU):=(1|S0)/(1|S0+TC_IDC|S1) - LAPLACE(VDCMED/VDC_PU):=(1|S0)/(1|S0+TC_VDC|S1) - - ------------------------------------------------------------------------- - --- REGOLATORE CORRENTE (modalita CC) ---- - ERRI := (IORDER*ICODRO - IDCMED) - LAPLACE(ERRI_INT/ERRI) {DMIN:30.,DMAX:90.}:=(KII|S0)/(1|S1) - ERRI_PRO:=KPI*ERRI - BETAIC:=(ERRI_INT + ERRI_PRO) {MIN:30.,MAX:90.} - - - ------------------------------------------------------------------------- - --- REGOLATORE ANGOLO COSTANTE (modalit?? CEA) ---- - GERRI:=15-GAMMAN - GNLG:=MAX(-31,GERRI) - LAPLACE(ERRG_INT/GNLG) {DMIN:30.,DMAX:90.}:=(KIG|S0)/(1|S1) - ERRG_PRO:=KPG*GNLG - BETAIG:=(ERRG_INT + ERRG_PRO) {MIN:30.,MAX:90.} - IF AND(T>0.03,INTER>30) THEN - G[K]:=GAMMA - K:=K+1 - IF K=13 THEN K:=1 ENDIF - GAMMIN:=MIN(G[1],G[2],G[3],G[4],G[5],G[6]) - GAMMAN:=MIN(GAMMIN,G[7],G[8],G[9],G[10],G[11],G[12]) - INTER:=0.0 - ENDIF - INTER:=INTER+TIMESTEP*360*FREQ - - BETAI:=MAX(BETAIC,BETAIG) - ALFA:=180-BETAI - ENDEXEC -ENDMODEL -MODEL INV_LUC - ---- MODELLO INVERTER LUCCIANA ---- - INPUT IDC,VDC,GAMMA,IORDER - OUTPUT ALFA - DATA VDC_BA{DFLT:200.},IDC_BA{DFLT:1.} - FREQ{DFLT:50},TC_IDC{DFLT:0.0012},TC_VDC{DFLT:0.02} - KPI{DFLT:36},KII{DFLT:3760},KPG{DFLT:0.7506},KIG{DFLT:18.38} - ILUCCI{DFLT:0.25} - VAR IDC_PU,VDC_PU,IDCMED,VDCMED,ALFA - BETAIC,ERRI_INT,ERRI_PRO,ERRI - GAMMAN,GAMMIN,ERRG_INT,ERRG_PRO,GNLG,GERRI,BETAIG,G[1..12] - K,INTER,BETAI - INIT - ---- MISURE - histdef(IDCMED) :=0.25 - histdef(VDCMED) :=0.97 - ---- REGOLATORI - ERRI :=0 - ERRI_PRO :=0 - histdef(ERRI_INT):=30. - ERRG_PRO :=0 - histdef(ERRG_INT):=32. - GAMMAN :=15. - GAMMIN :=180 - K :=1 - G[1..12] :=180. - INTER :=0.0 - ENDINIT - EXEC - --- FILTRI --- - IDC_PU:=IDC/(IDC_BA*1000.) - VDC_PU:=VDC/(VDC_BA*1000.) - LAPLACE(IDCMED/IDC_PU):=(1|S0)/(1|S0+TC_IDC|S1) - LAPLACE(VDCMED/VDC_PU):=(1|S0)/(1|S0+TC_VDC|S1) - - ------------------------------------------------------------------------- - --- REGOLATORE CORRENTE (modalita CC) ---- - ERRI := (IORDER*ILUCCI - IDCMED) - LAPLACE(ERRI_INT/ERRI) {DMIN:30.,DMAX:110.}:=(KII|S0)/(1|S1) - ERRI_PRO:=KPI*ERRI - BETAIC:=(ERRI_INT + ERRI_PRO) {MIN:30.,MAX:110.} - - - ------------------------------------------------------------------------- - --- REGOLATORE ANGOLO COSTANTE (modalit?? CEA) ---- - GERRI:=15-GAMMAN - GNLG:=MAX(-31,GERRI) - LAPLACE(ERRG_INT/GNLG) {DMIN:30.,DMAX:90.}:=(KIG|S0)/(1|S1) - ERRG_PRO:=KPG*GNLG - BETAIG:=(ERRG_INT + ERRG_PRO) {MIN:30.,MAX:90.} - IF AND(T>0.03,INTER>30) THEN - G[K]:=GAMMA - K:=K+1 - IF K=13 THEN K:=1 ENDIF - GAMMIN:=MIN(G[1],G[2],G[3],G[4],G[5],G[6]) - GAMMAN:=MIN(GAMMIN,G[7],G[8],G[9],G[10],G[11],G[12]) - INTER:=0.0 - ENDIF - INTER:=INTER+TIMESTEP*360*FREQ - - BETAI:=MAX(BETAIC,BETAIG) - ALFA:=180-BETAI - ENDEXEC -ENDMODEL -USE RAD_SUV AS RAD_SUV -INPUT - IDC:= MM0004 - VDC:= MM0005 -DATA - VDC_BA:= 200. - IDC_BA:= 1. - KPV := 142. - KIV := 7194. - KPI := 43. - KII := 3547. - TC_IDC:= 0.0012 - TC_VDC:= 0.02 -OUTPUT - UCCAR := ALFA - IORDEM:= IORDER -ENDUSE -USE INV_COD AS INV_COD -INPUT - IDC := MM0001 - VDC := MM0002 - GAMMA := MM0003 - IORDER:= IORDEM -DATA - VDC_BA:= 200. - IDC_BA:= 1. - KPI := 50. - KII := 476. - KPG := 0.4506 - KIG := 18.38 - TC_IDC:= 0.0012 - TC_VDC:= 0.02 - ICODRO:= 0.75 -OUTPUT - UCCAI:=ALFA -ENDUSE -USE INV_LUC AS INV_LUC -INPUT - IDC := MM0006 - VDC := MM0007 - GAMMA := MM0008 - IORDER:= IORDEM -DATA - VDC_BA:= 200. - IDC_BA:= 1. - KPI := 65. - KII := 568. - KPG := 0.4506 - KIG := 18.38 - TC_IDC:= 0.0012 - TC_VDC:= 0.02 - ILUCCI:= 0.25 -OUTPUT - UCCAL:=ALFA -ENDUSE -RECORD - INV_COD.GAMMAN AS GAMMAN - INV_COD.BETAIG AS BETAIG - INV_COD.BETAIC AS BETAIC - INV_COD.ERRI AS ERRII - INV_COD.GERRI AS GERRI - INV_COD.ERRI_INT AS ERRI_I - INV_COD.ERRI_PRO AS ERRI_P - INV_COD.ERRG_INT AS ERRI_N - INV_COD.ERRG_PRO AS ERRI_R - RAD_SUV.ERRI AS ERRIR - RAD_SUV.ALFA AS ALFAR - RAD_SUV.IDC_PU AS IDC_PU - RAD_SUV.IDCMED AS IDCMED - RAD_SUV.VDC_PU AS VDC_PU - RAD_SUV.VDCMED AS VDCMED - RAD_SUV.ERRV AS ERRV - RAD_SUV.ERRV_INT AS ERRV_I - RAD_SUV.ERRV_PRO AS ERRV_P - RAD_SUV.ERRI_INT AS ERRI_I - RAD_SUV.ERRI_PRO AS ERRI_P - RAD_SUV.BETAV AS BETAV - RAD_SUV.BETAI AS BETAI - RAD_SUV.BETA AS BETA -ENDMODELS -C 1 2 3 4 5 6 7 8 -C 345678901234567890123456789012345678901234567890123456789012345678901234567890 -BLANK MODELS -C ------------------------------------------------------------------------------ -C BRANCH CARDS -C ------------------------------------------------------------------------------ -C -C ------------------- IMPEDENZE DELLA RETE ----------------------------------- -C < n1 >< n2 >< R >< L >< C > - FONTCAMISRTC 6.4454205.16 1 - FONTCBCODROB 6.4454205.16 0 - FONTCCCODROC 6.4454205.16 0 - FONTSAMISRTS 2.671285.026 1 - FONTSBSUVERB 2.671285.026 0 - FONTSCSUVERC 2.671285.026 0 - FONTLAMISRTL 1.366143.483 1 - FONTLBLUCCIB 1.366143.483 0 - FONTLCLUCCIC 1.366143.483 0 -C ----------------- LINEA DI TRASMISSIONE ------------------------------------ -C < n1 >< n2 >< R >< L >< C > - DCSUVEDCSALI 2.1904 37. 0 - DCSUVE 0.1665 0 - DCSALI 0.1665 0 - DCSALIDCLUCC 1.8621 952.2 0 - DCSALI 21.16 0 - DCLUCC 21.16 0 - DCLUCCDCBONI 9.157 156. 0 - DCLUCC 0.702 0 - DCBONI 0.702 0 - DCBONIDCSANT 0.264 135. 0 - DCBONI 3. 0 - DCSANT 3. 0 - DCSANTDCCODR 5.032 85. 0 - DCSANT 0.3825 0 - DCCODR 0.3825 0 -C ----------------- TRASFORMATORI -------------------------------------------- -C ----------------- Suvereto --------------------------------------------------- - TRANSFORMER XT001A136.E3 0 - 9999 - 1SUVE00 271.68 400. - 2VDSUVAVDSUVB 34.963142.85 - TRANSFORMER XT001A XT001B 0 - 1SUVERB - 2VDSUVBVDSUVC - TRANSFORMER XT001A XT001C 0 - 1SUVERC - 2VDSUVCVDSUVA - TRANSFORMER XT002A136.E3 0 - 9999 - 1SUVERA 271.68 400. - 2VYSUVAXT0004 11.65482.474 - TRANSFORMER XT002A XT002B 0 - 1SUVERB - 2VYSUVBXT0004 - TRANSFORMER XT002A XT002C 0 - 1SUVERC - 2VYSUVCXT0004 -C -------------------- Codrongianos -------------------------------------------- - TRANSFORMER XT005A136.E3 0 - 9999 - 1CODR00 271.68 400. - 2VYCODAXT0006 11.65484.211 - TRANSFORMER XT005A XT005B 0 - 1CODROB - 2VYCODBXT0006 - TRANSFORMER XT005A XT005C 0 - 1CODROC - 2VYCODCXT0006 - TRANSFORMER XT007A136.E3 0 - 9999 - 1CODROA 271.68 400. - 2VDCODAVDCODB 34.963145.86 - TRANSFORMER XT007A XT007B 0 - 1CODROB - 2VDCODBVDCODC - TRANSFORMER XT007A XT007C 0 - 1CODROC - 2VDCODCVDCODA -C --------------------- Lucciana ----------------------------------------------- - TRANSFORMER XT008A13.4E3 0 - 9999 - 1LUCC00 26.612 90. - 2VYLUCAXT0009 24.09 100. - TRANSFORMER XT008A XT008B 0 - 1LUCCIB - 2VYLUCBXT0009 - TRANSFORMER XT008A XT008C 0 - 1LUCCIC - 2VYLUCCXT0009 - TRANSFORMER XT010A13.4E3 0 - 9999 - 1LUCCIA 26.612 90. - 2VDLUCAVDLUCB 72.281173.21 - TRANSFORMER XT010A XT010B 0 - 1LUCCIB - 2VDLUCBVDLUCC - TRANSFORMER XT010A XT010C 0 - 1LUCCIC - 2VDLUCCVDLUCA -C ----------------------------------------------------------------------------- -C FILTRI SUVERETO -C ----------------------------------------------------------------------------- -C ------------------ Passa-alto 2 ordine ------------------------------------ -C < n 1>< n 2>< R >< L >< C > - SUVERAXF002A 0.997 0 - SUVERBXF002B 0.997 0 - SUVERCXF002C 0.997 0 - XF002A 1639.9 0 - XF002B 1639.9 0 - XF002C 1639.9 0 - XF002A 72.498 0 - XF002B 72.498 0 - XF002C 72.498 0 -C ------------------ Doppio accordo ----------------------------------------- - SUVERAXF001A 35.201 0.999 0 - SUVERBXF001B 35.201 0.999 0 - SUVERCXF001C 35.201 0.999 0 - XF001A 17.601 0 - XF001B 17.601 0 - XF001C 17.601 0 - XF001A 1.999 0 - XF001B 1.999 0 - XF001C 1.999 0 -C ----------------------------------------------------------------------------- -C FILTRI CODRONGIANOS -C ----------------------------------------------------------------------------- -C ------------------ Passa-alto 2 ordine ------------------------------------ -C < n 1>< n 2>< R >< L >< C > - CODROAXF004A 0.997 1 - CODROBXF004B 0.997 0 - CODROCXF004C 0.997 0 - XF004A 1639.9 0 - XF004B 1639.9 0 - XF004C 1639.9 0 - XF004A 72.498 0 - XF004B 72.498 0 - XF004C 72.498 0 -C ------------------ Doppio accordo ----------------------------------------- - CODROAXF003A 35.201 0.999 1 - CODROBXF003B 35.201 0.999 0 - CODROCXF003C 35.201 0.999 0 - XF003A 17.601 0 - XF003B 17.601 0 - XF003C 17.601 0 - XF003A 1.999 0 - XF003B 1.999 0 - XF003C 1.999 0 -C ----------------------------------------------------------------------------- -C FILTRI LUCCIANA -C ----------------------------------------------------------------------------- -C ------------------ Passa-alto 2 ordine ------------------------------------ -C < n 1>< n 2>< R >< L >< C > - LUCCIAXF006A 11.315 0 - LUCCIBXF006B 11.315 0 - LUCCICXF006C 11.315 0 - XF006A 144.57 0 - XF006B 144.57 0 - XF006C 144.57 0 - XF006A 6.391 0 - XF006B 6.391 0 - XF006C 6.391 0 -C ------------------ Doppio accordo ------------------------------------------ - LUCCIAXF005A 3.10311.337 0 - LUCCIBXF005B 3.10311.337 0 - LUCCICXF005C 3.10311.337 0 - XF005A 1.552 0 - XF005B 1.552 0 - XF005C 1.552 0 - XF005A 22.674 0 - XF005B 22.674 0 - XF005C 22.674 0 -C ------------------------------------------------------------------------------ -C REATTORI -C ------------------------------------------------------------------------------ - XYZ005XYZ004 7.9E-4 500.0 - XYZ006XYZ007 7.9E-4 500.0 - XYZ015XYZ016 7.9E-4 500.0 -C ------------------------------------------------------------------------------ -C CONVERTITORE 12 IMPULSI SUVERETO -C ------------------------------------------------------------------------------ - ELESUV .001 0 - UCCAR UCTD11 1.E0 0 - UCTD11 1.E0 0 -C ------------------- SNUBBER CIRCUITS --------------------------------------- - VDSUVACV0711 5.E3 0.05 - VDSUVCCV0811 5.E3 0.05 - VDSUVBCV0911 5.E3 0.05 - VDSUVACV1011 5.E3 0.05 - VDSUVCCV1111 5.E3 0.05 - VDSUVBCV1211 5.E3 0.05 - VYSUVACV0111 5.E3 0.05 - VYSUVCCV0211 5.E3 0.05 - VYSUVBCV0311 5.E3 0.05 - VYSUVACV0411 5.E3 0.05 - VYSUVCCV0511 5.E3 0.05 - VYSUVBCV0611 5.E3 0.05 -C --------- RESISTORI DI ACCOPPIAMENTO VALVOLE ------------------------------- - POLOSUCV0711 .0100 - POLOSUCV0911 .0100 - POLOSUCV1111 .0100 - MEIO11CV0811 .0100 - MEIO11CV1011 .0100 - MEIO11CV1211 .0100 - MEIO11CV0111 .0100 - MEIO11CV0311 .0100 - MEIO11CV0511 .0100 - ELESUVCV0211 .0100 - ELESUVCV0411 .0100 - ELESUVCV0611 .0100 -C ------------------------------------------------------------------------------ -C CONVERTITORE 12 IMPULSI CODRONGIANOS -C ------------------------------------------------------------------------------ - UCCAI UCTD21 1.E0 0 - UCTD21 1.E0 0 - ELECOD .001 0 -C ------------------- SNUBBER CIRCUITS --------------------------------------- - VDCODACV0721 5.E3 0.05 - VDCODCCV0821 5.E3 0.05 - VDCODBCV0921 5.E3 0.05 - VDCODACV1021 5.E3 0.05 - VDCODCCV1121 5.E3 0.05 - VDCODBCV1221 5.E3 0.05 - VYCODACV0121 5.E3 0.05 - VYCODCCV0221 5.E3 0.05 - VYCODBCV0321 5.E3 0.05 - VYCODACV0421 5.E3 0.05 - VYCODCCV0521 5.E3 0.05 - VYCODBCV0621 5.E3 0.05 -C --------- RESISTORI DI ACCOPPIAMENTO VALVOLE ------------------------------- - ELECODCV0721 .0100 - ELECODCV0921 .0100 - ELECODCV1121 .0100 - MEIO21CV0821 .0100 - MEIO21CV1021 .0100 - MEIO21CV1221 .0100 - MEIO21CV0121 .0100 - MEIO21CV0321 .0100 - MEIO21CV0521 .0100 - POLOCOCV0221 .0100 - POLOCOCV0421 .0100 - POLOCOCV0621 .0100 -C ------------------------------------------------------------------------------ -C CONVERTITORE 12 IMPULSI LUCCIANA -C ------------------------------------------------------------------------------ - UCCAL UCTD31 1.E0 0 - UCTD31 1.E0 0 - ELELUC .001 0 -C ------------------- SNUBBER CIRCUITS --------------------------------------- - VDLUCACV0731 5.E3 0.05 - VDLUCCCV0831 5.E3 0.05 - VDLUCBCV0931 5.E3 0.05 - VDLUCACV1031 5.E3 0.05 - VDLUCCCV1131 5.E3 0.05 - VDLUCBCV1231 5.E3 0.05 - VYLUCACV0131 5.E3 0.05 - VYLUCCCV0231 5.E3 0.05 - VYLUCBCV0331 5.E3 0.05 - VYLUCACV0431 5.E3 0.05 - VYLUCCCV0531 5.E3 0.05 - VYLUCBCV0631 5.E3 0.05 -C --------- RESISTORI DI ACCOPPIAMENTO VALVOLE ------------------------------- - ELELUCCV0731 .0100 - ELELUCCV0931 .0100 - ELELUCCV1131 .0100 - MEIO31CV0831 .0100 - MEIO31CV1031 .0100 - MEIO31CV1231 .0100 - MEIO31CV0131 .0100 - MEIO31CV0331 .0100 - MEIO31CV0531 .0100 - POLOLUCV0231 .0100 - POLOLUCV0431 .0100 - POLOLUCV0631 .0100 -BLANK BRANCH -C ------------------------------------------------------------------------------ -C SWITCH CARDS -C ------------------------------------------------------------------------------ -C --------------------- INTERRUTTORI PER L'INIZIALIZZAZIONE ------------------ -C --------------------- Sbarre di commutazione ------------------------------- - SUVERAXYZ001 -1.000 20.E-3 1 - SUVERBXYZ002 -1.000 20.E-3 1 - SUVERCXYZ003 -1.000 20.E-3 1 - CODROAXYZ009 -1.000 20.E-3 1 - CODROBXYZ010 -1.000 20.E-3 1 - CODROCXYZ011 -1.000 20.E-3 1 - LUCCIAXYZ012 -1.000 20.E-3 1 - LUCCIBXYZ013 -1.000 20.E-3 1 - LUCCICXYZ014 -1.000 20.E-3 1 -C --------------------- Linea in c.c. ---------------------------------------- - XYZ004POLOCO 0.010 50.00 {SW2} - XYZ016POLOLU 0.010 50.00 {SW2} - POLOSUXYZ006 0.000 50.00 {SW2} - XYZ006XYZ008 -1.000 0.000 {SW4} -C -------------------- INTERRUTTORI DI MISURA PER LA CORRENTE IN LINEA ------ - DCCODRXYZ005 MEASURING 1 - XYZ007DCSUVE MEASURING 1 - DCLUCCXYZ015 MEASURING 1 -C -------------------- INTERRUTTORI DI MISURA PER LA CORRENTE TR ------------ - SUVERASUVE00 MEASURING 1 - CODROACODR00 MEASURING 1 - LUCCIALUCC00 MEASURING 1 - MISRTCCODROA MEASURING 1 - MISRTSSUVERA MEASURING 1 - MISRTLLUCCIA MEASURING 1 -C ----------------------- VALVOLE SUVERETO ---------------------------------- -11VYSUVACV0111 0.0E-6 DS1101 0 -11VYSUVBCV0311 0.0E-6 DS1103 0 -11VYSUVCCV0511 0.0E-6 DS1105 0 -11CV0411VYSUVA 0.0E-6 DS1104 0 -11CV0611VYSUVB 0.0E-6 DS1106 0 -11CV0211VYSUVC 0.0E-6 DS1102 0 -11VDSUVACV0711 0.0E-6 DS1107 0 -11VDSUVBCV0911 0.0E-6 DS1109 0 -11VDSUVCCV1111 0.0E-6 DS1111 0 -11CV1011VDSUVA 0.0E-6 DS1110 0 -11CV1211VDSUVB 0.0E-6 DS1112 0 -11CV0811VDSUVC 0.0E-6 DS1108 0 -C -C ----------------------- VALVOLE CODRONGIANOS ------------------------------ -11VYCODACV0121 555.5E-6 DS2101 0 -11VYCODBCV0321 555.5E-6 DS2103 0 -11VYCODCCV0521 555.5E-6 DS2105 0 -11CV0421VYCODA 555.5E-6 DS2104 0 -11CV0621VYCODB 555.5E-6 DS2106 0 -11CV0221VYCODC 555.5E-6 DS2102 0 -11VDCODACV0721 555.5E-6 DS2107 0 -11VDCODBCV0921 555.5E-6 DS2109 0 -11VDCODCCV1121 555.5E-6 DS2111 0 -11CV1021VDCODA 555.5E-6 DS2110 0 -11CV1221VDCODB 555.5E-6 DS2112 0 -11CV0821VDCODC 555.5E-6 DS2108 0 -C ----------------------- VALVOLE LUCCIANA ---------------------------------- -11VYLUCACV0131 555.5E-6 DS3101 0 -11VYLUCBCV0331 555.5E-6 DS3103 0 -11VYLUCCCV0531 555.5E-6 DS3105 0 -11CV0431VYLUCA 555.5E-6 DS3104 0 -11CV0631VYLUCB 555.5E-6 DS3106 0 -11CV0231VYLUCC 555.5E-6 DS3102 0 -11VDLUCACV0731 555.5E-6 DS3107 0 -11VDLUCBCV0931 555.5E-6 DS3109 0 -11VDLUCCCV1131 555.5E-6 DS3111 0 -11CV1031VDLUCA 555.5E-6 DS3110 0 -11CV1231VDLUCB 555.5E-6 DS3112 0 -11CV0831VDLUCC 555.5E-6 DS3108 0 -BLANK SWITCH -C ------------------------------------------------------------------------------ -C SOURCE CARDS -C ------------------------------------------------------------------------------ -C --------------- SORGENTI PER L'INIZIALIZZAZIONE ---------------------------- -C --------------- Sbarre di commutazione ------------------------------------- -14XYZ001 1 327.69E3 50. +22. 0.0 -1 -14XYZ002 1 327.69E3 50. -98. 0.0 -1 -14XYZ003 1 327.69E3 50. -218. 0.0 -1 -14XYZ009 1 328.57E3 50. -20.0 0.0 -1 -14XYZ010 1 328.57E3 50. -140. 0.0 -1 -14XYZ011 1 328.57E3 50. +100. 0.0 -1 -14XYZ012 1 74.10E3 50. -20.0 0.0 -1 -14XYZ013 1 74.10E3 50. -140. 0.0 -1 -14XYZ014 1 74.10E3 50. +100. 0.0 -1 -C --------------- linea in c.c. ---------------------------------------------- -14XYZ004-1 -750. 0.001 0.0 0.0 {I1} -1 0.015 -12POLOCO-1 750. 0.010 0.0 {I2} 0.0 0.015 -14XYZ016-1 -250. 0.001 0.0 0.0 {I1} -1 0.015 -12POLOLU-1 250. 0.010 0.0 {I2} 0.0 0.015 -14XYZ008 1 200.E3 0.001 0.0 0.0 {S3} -1 0.015 -C --------------- PASSAGGIO ANGOLO DI INNESCO -------------------------------- -60UCCAR -1 10. -60UCCAI -1 10. -60UCCAL -1 10. -C --------------- SORGENTI RETI C.A. ----------------------------------------- -C < n 1><>< Ampl. >< Freq. >< A1 >< T1 >< TSTART >< TSTOP > -14FONTCA 0 323000. 50. -22. -1. 10. -14FONTCB 0 323000. 50. -142. -1. 10. -14FONTCC 0 323000. 50. 98. -1. 10. -14FONTSA 0 327690. 50. 22.5 -1. 10. -14FONTSB 0 327690. 50. -97.5 -1. 10. -14FONTSC 0 327690. 50. 142.5 -1. 10. -14FONTLA 0 70266. 50. 22.5 -1. 10. -14FONTLB 0 70266. 50. -97.5 -1. 10. -14FONTLC 0 70266. 50. 142.5 -1. 10. -BLANK SOURCE - SUVERASUVERBSUVERCCODROACODROBCODROCDCSUVEDCCODRDCLUCCLUCCIALUCCIBLUCCIC diff --git a/benchmarks/test_001.dat~ b/benchmarks/test_001.dat~ deleted file mode 100644 index ab76af7..0000000 --- a/benchmarks/test_001.dat~ +++ /dev/null @@ -1,16 +0,0 @@ -begin new data case - 200.e-6 50.e-3 - 25 1 1 0 0 0 0 -c Bus-->Bus-->Bus-->Bus--><----R<----L<----C 0 -$vintage, 0 -00 load 1.e0 1.e0 1.e0 0 -c blank End of circuit data : -c src load 1.e-3 9999. 0 1 -c blank End of switch data : -c 14src 1. 60. 0 0. -1. 9999. -c blank End of source data : -c src load -c blank End of output requests : -c 194 5. 0.0 50. -4. 4.src load RL Energization Amps -c blank End of Plot Request Data : -c blank End of All Cases : \ No newline at end of file diff --git a/benchmarks/test_002.dat~ b/benchmarks/test_002.dat~ deleted file mode 100644 index bdf7879..0000000 --- a/benchmarks/test_002.dat~ +++ /dev/null @@ -1,32 +0,0 @@ -begin new data case 1 -c ..................................................figure 3.10(b).............: -c Energization of an RL load : -c ----dt<---tmax...............................................................: - 50.e-6 50.e-3 1 -c -Iprnt<--Iplot<-Idoubl<-KssOut<-MaxOut <---Icat : - 15 1 0 0 0 0 1 -c : -c Circuit data.................................................................: -c Bus-->Bus-->Bus-->Bus--><----R<----L<----C : - bus13 22.61 19.72 1 -blank End of circuit data....................................................... -c : -c switch data..................................................................: -c Bus-->Bus--><---Tclose<----Topen<-------Ie : - src load 1.e-3 9999. 0 1 -blank End of switch data........................................................ -c : -c source data..................................................................: -c Bus--><---Tstart<----Tstop -14src 56.34 60. 0 0. -1. 9999. -blank End of source data 1 -c nodal output request data....................................................1 -c Bus-->Bus-->Bus-->Bus-->Bus-->Bus-->Bus-->Bus-->Bus-->Bus-->Bus-->Bus-->Bus--> - src bus13 1 -blank End of output requests.................................................... -c -c plot request data............................................................. - 2Figure 3.10(c) 3.10(d) 1 - 194 5. 0.0 50. -4. 4.src bus13 ener 200MVA.95pfKAmps 1 -blank End of Plot Request Data.................................................. -blank End of All Cases.......................................................... \ No newline at end of file -- cgit v1.2.3