Version 4 SHEET 1 5112 20352 WIRE -864 -144 -880 -144 WIRE -736 -144 -864 -144 WIRE 240 -144 -736 -144 WIRE 880 -144 240 -144 WIRE -736 -64 -736 -144 WIRE -880 -48 -880 -144 WIRE 880 16 880 -144 WIRE -880 32 -880 16 WIRE -736 32 -736 0 WIRE 240 32 240 -144 WIRE 544 80 496 80 WIRE 640 80 608 80 WIRE 736 80 720 80 WIRE 800 80 736 80 WIRE 832 80 800 80 WIRE -96 96 -144 96 WIRE 0 96 -32 96 WIRE 112 96 80 96 WIRE 176 96 112 96 WIRE 192 96 176 96 WIRE 496 96 496 80 WIRE 736 96 736 80 WIRE -480 112 -720 112 WIRE -144 112 -144 96 WIRE -480 192 -480 112 WIRE -480 192 -544 192 WIRE 112 192 112 160 WIRE 112 192 -144 192 WIRE 176 192 176 176 WIRE 176 192 112 192 WIRE 240 192 240 96 WIRE 240 192 176 192 WIRE 496 192 496 176 WIRE 736 192 736 160 WIRE 736 192 496 192 WIRE 800 192 800 160 WIRE 800 192 736 192 WIRE 880 192 880 80 WIRE 880 192 800 192 WIRE -720 208 -720 112 WIRE -544 208 -544 192 WIRE -480 208 -480 192 WIRE 240 272 240 192 WIRE 880 272 880 192 WIRE -544 320 -544 272 WIRE -480 320 -480 288 WIRE -480 320 -544 320 WIRE -720 336 -720 288 WIRE -480 384 -480 320 WIRE -528 400 -624 400 WIRE -528 448 -592 448 WIRE 240 464 240 352 WIRE 560 464 240 464 WIRE 880 464 880 352 WIRE 880 464 560 464 WIRE 560 496 560 464 WIRE -592 512 -592 448 WIRE -720 528 -720 416 WIRE -480 528 -480 464 WIRE -720 640 -720 608 WIRE -720 656 -720 640 FLAG -720 640 0 FLAG -720 416 T1 FLAG -880 32 0 FLAG -864 -144 Vplus FLAG -720 336 0 FLAG -480 528 0 FLAG -592 512 0 FLAG -624 400 T1 FLAG 560 496 0 FLAG -736 32 0 SYMBOL Misc\\SCR 224 32 R0 SYMATTR InstName U1 SYMATTR Value TYN1225 SYMBOL Misc\\SCR 864 16 R0 SYMATTR InstName U2 SYMATTR Value TYN1225 SYMBOL voltage -720 512 R0 WINDOW 3 -16 193 Left 2 WINDOW 123 0 0 Left 2 WINDOW 39 0 0 Left 2 SYMATTR Value PULSE(-1 {on} 5µ 1n 1n 60u 100u 2) SYMATTR InstName V2 SYMBOL res 160 80 R0 SYMATTR InstName R10 SYMATTR Value 10k SYMBOL res 784 64 R0 SYMATTR InstName R11 SYMATTR Value 10k SYMBOL cap 720 96 R0 SYMATTR InstName C3 SYMATTR Value 10n SYMBOL cap 96 96 R0 SYMATTR InstName C4 SYMATTR Value 10n SYMBOL cap -896 -48 R0 SYMATTR InstName C6 SYMATTR Value 220n SYMBOL ind2 -128 208 R180 WINDOW 0 36 80 Left 2 WINDOW 3 36 40 Left 2 SYMATTR InstName L1 SYMATTR Value {Ltest} SYMBOL ind2 512 192 R180 WINDOW 0 36 80 Left 2 WINDOW 3 36 40 Left 2 SYMATTR InstName L2 SYMATTR Value {Ltest} SYMBOL res 96 80 R90 WINDOW 0 0 56 VBottom 2 WINDOW 3 32 56 VTop 2 SYMATTR InstName R1 SYMATTR Value 10 SYMBOL res 736 64 R90 WINDOW 0 0 56 VBottom 2 WINDOW 3 32 56 VTop 2 SYMATTR InstName R5 SYMATTR Value 10R SYMBOL ind2 -496 304 M180 WINDOW 0 36 80 Left 2 WINDOW 3 36 40 Left 2 SYMATTR InstName L4 SYMATTR Value {Ltest} SYMBOL voltage -720 192 R0 WINDOW 123 0 0 Left 2 WINDOW 39 0 0 Left 2 SYMATTR InstName V1 SYMATTR Value 5V SYMBOL sw -480 480 M180 SYMATTR InstName S1 SYMATTR Value MySwitch SYMBOL diode -528 272 R180 WINDOW 0 24 64 Left 2 WINDOW 3 24 0 Left 2 SYMATTR InstName D1 SYMBOL diode -96 112 R270 WINDOW 0 32 32 VTop 2 WINDOW 3 0 32 VBottom 2 SYMATTR InstName D2 SYMBOL diode 544 96 R270 WINDOW 0 32 32 VTop 2 WINDOW 3 0 32 VBottom 2 SYMATTR InstName D3 SYMBOL ind2 224 368 M180 WINDOW 0 36 80 Left 2 WINDOW 3 36 40 Left 2 SYMATTR InstName L5 SYMATTR Value 4µ SYMBOL ind2 896 256 M0 SYMATTR InstName L6 SYMATTR Value 4µ SYMBOL diode -720 0 R180 WINDOW 0 24 64 Left 2 WINDOW 3 24 0 Left 2 SYMATTR InstName D4 TEXT -1088 136 Left 2 !.tran 1m TEXT 3256 232 Left 2 !* File : standard_sensitive_scr_pspice.LIB \n* Revision : 6.2 \n* Date : October 10th,2011\n*\n**********************************************************************\n* Please Read Carefully:\n*Information in this document is provided solely in connection with ST products. STMicroelectronics NV and its subsidiaries (“ST”) reserve the\n*right to make changes, corrections, modifications or improvements, to this document, and the products and services described herein at any\n*time, without notice.\n*All ST products are sold pursuant to ST’s terms and conditions of sale.\n*Purchasers are solely responsible for the choice, selection and use of the ST products and services described herein, and ST assumes no\n*liability whatsoever relating to the choice, selection or use of the ST products and services described herein.\n*No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted under this document. If any part of this\n*document refers to any third party products or services it shall not be deemed a license grant by ST for the use of such third party products\n*or services, or any intellectual property contained therein or considered as a warranty covering the use in any manner whatsoever of such\n*third party products or services or any intellectual property contained therein.\n*UNLESS OTHERWISE SET FORTH IN ST’S TERMS AND CONDITIONS OF SALE ST DISCLAIMS ANY EXPRESS OR IMPLIED\n*WARRANTY WITH RESPECT TO THE USE AND/OR SALE OF ST PRODUCTS INCLUDING WITHOUT LIMITATION IMPLIED\n*WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS\n*OF ANY JURISDICTION), OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT.\n*UNLESS EXPRESSLY APPROVED IN WRITING BY AN AUTHORIZED ST REPRESENTATIVE, ST PRODUCTS ARE NOT\n*RECOMMENDED, AUTHORIZED OR WARRANTED FOR USE IN MILITARY, AIR CRAFT, SPACE, LIFE SAVING, OR LIFE SUSTAINING\n*APPLICATIONS, NOR IN PRODUCTS OR SYSTEMS WHERE FAILURE OR MALFUNCTION MAY RESULT IN PERSONAL INJURY,\n*DEATH, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE. ST PRODUCTS WHICH ARE NOT SPECIFIED AS "AUTOMOTIVE\n*GRADE" MAY ONLY BE USED IN AUTOMOTIVE APPLICATIONS AT USER’S OWN RISK.\n*Resale of ST products with provisions different from the statements and/or technical features set forth in this document shall immediately void\n*any warranty granted by ST for the ST product or service described herein and shall not create or extend in any manner whatsoever, any\n*liability of ST.\n*ST and the ST logo are trademarks or registered trademarks of ST in various countries.\n*Information in this document supersedes and replaces all information previously supplied.\n*The ST logo is a registered trademark of STMicroelectronics. All other names are the property of their respective owners.\n*© 2008 STMicroelectronics - All rights reserved\n*STMicroelectronics group of companies\n*Australia - Belgium - Brazil - Canada - China - Czech Republic - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan -\n*Malaysia - Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States of America\n*www.st.com \n**********************************************************************\n* \n***********************************************************************\n* Thyristor PSpice Models *\n***********************************************************************\n* Note :\n*\n* This thyristor model simulates:\n* -Igt MAX of the specification\n* -Il Typ of the specification\n* -Ih Typ of the specification\n* -VDRM\n* -VRRM\n* -Power dissipation is realistic and correspond to a typical SCR\n*\n* All these parameters are constant, and don't vary neither \n* with temperature nor other parameters. \n*\n* For a correct SCR behavior, the "Maximum step size" must be below \n* or equal 20µs.\n*\n*\n*$\n.subckt SCR_ST A K G PARAMS:\n+ Vdrm=400v \n+ Igt=20ma\n+ Ih=6ma \n+ Rt=0.01\n*\n* Vdrm : Repetitive forward off-state voltage\n* Ih : Holding current \n* Igt : Gate trigger current \n* Rt : Dynamic on-state resistance\n*\n*****************\n* Power circuit *\n*****************\n*\n****************\n*Switch circuit*\n****************\n* Q1 & Q2 Conduction\nS_S3 A Plip1 positive 0 Smain\n*RS_S3 positive 0 1G\nD_DAK1 Plip1 Plip2 Dak \nR_Rlip Plip1 Plip2 1k\nV_Viak Plip2 K DC 0 AC 0 \n*\n**************\n*Gate circuit*\n**************\nR_Rgk G K 10G \nD_DGKd G Pg2 Dgk \nV_Vig Pg2 K DC 0 AC 0 \nR_Rlig G Pg2 1k \n*******************\n*Interface circuit*\n*******************\n* positive pilot\nR_Rp Controlp positive 2.2 \nC_Cp 0 positive 1u \nE_IF15OR3 Controlp 0 VALUE {IF( ( (V(CMDIG)>0.5) | (V(CMDILIH)>0.5) |\n+ (V(CMDVdrm)>0.5) ),400,0 )}\n* \n******************\n* Pilots circuit *\n******************\n******************\n* Pilot Gate *\n******************\nE_IF1IG CMDIG 0 VALUE {IF( ( I(V_Vig) ) > Igt ,1,0 )}\n*\n******************\n* Pilot IHIL *\n******************\n*\nE_IF10IL inIL 0 VALUE {IF( ((I(V_Viak))>2.5*Igt),1,0 )}\nE_IF5IH inIH 0 VALUE {IF( ((I(V_Viak))>(Ih/3)),1,0 )} \n*\n* Flip_flop IHIL\nE_IF6DIHIL SDIHIL 0 VALUE {IF(\n+ (V(inIL)*V(inIH)+V(inIH)*(1-V(inIL))*(V(CMDILIH)) )>0.5,1,0)}\nC_CIHIL CMDILIH 0 1n \nR_RIHIL SDIHIL CMDILIH 1K \nR_RIHIL2 CMDILIH 0 100Meg \n******************\n* Pilot VDRM *\n******************\nE_IF8Vdrm inVdrm 0 VALUE {IF( (ABS(V(A)-V(K))>(Vdrm*1.3)),1,0 )}\nE_IF9IHVDRM inIhVdrm 0 VALUE {IF( I(V_Viak)>(Vdrm*1.3)/1.2meg\n+ ,1,0)}\n* Flip_flop VDRM\nE_IF7DVDRM SDVDRM 0 VALUE {IF(\n+ (V(inVdrm)+(1-V(inVdrm))*V(inIhVdrm)*V(CMDVdrm) )>0.5,1,0)}\nC_CVdrm CMDVdrm 0 1n \nR_RVdrm SDVDRM CMDVdrm 100 \nR_RVdrm2 CMDVdrm 0 100Meg \n****************\n* Switch Model *\n****************\n.MODEL Smain VSWITCH Roff=1.2meg Ron={Rt} Voff=0 Von=100\n****************\n* Diodes Model *\n****************\n.MODEL Dak D( Is=3E-12 Cjo=5pf) \n.MODEL Dgk D( Is=1E-16 Cjo=50pf Rs=5 Bv=12V Ibv=100uA) \n.ends \n*\n*********************************************************************\n* SCR PSpice Library *\n*********************************************************************\n*********************************************************************\n* Standard SCRs *\n*********************************************************************\n*\n*$\n.subckt BTW68-800 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=50ma\n+ Ih=75ma \n+ Rt=0.0085\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt BTW68-600 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=50ma\n+ Ih=75ma \n+ Rt=0.0085\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt BTW68-1200 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=1200v \n+ Igt=50ma\n+ Ih=75ma \n+ Rt=0.0085\n* 2010 / ST / Rev 0\n.ends\n*$\n.subckt BTW69-1200 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=1200v \n+ Igt=80ma\n+ Ih=150ma \n+ Rt=0.0085\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt BTW69-800 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=80ma\n+ Ih=150ma \n+ Rt=0.0085\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt BTW69-600 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=80ma\n+ Ih=150ma \n+ Rt=0.0085\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt BTW67-1000 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=1000v \n+ Igt=80ma\n+ Ih=150ma \n+ Rt=0.0085\n* 2010 / ST / Rev 0\n.ends\n*$\n.subckt BTW67-600 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=80ma\n+ Ih=150ma \n+ Rt=0.0085\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt XL0840 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=400v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.6\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt X0405N A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=50ua\n+ Ih=5ma \n+ Rt=0.1\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt X0405M A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=50ua\n+ Ih=5ma \n+ Rt=0.1\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt X0402N A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.1\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt X0402M A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.1\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt X0205N A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=50ua\n+ Ih=5ma \n+ Rt=0.2\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt X0205M A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=50ua\n+ Ih=5ma \n+ Rt=0.2\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt X0202M A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.2\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt X00602 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.245\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt X00619 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.245\n* 2010 / ST / Rev 0\n.ends\n*$\n.subckt TYN606 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=15ma\n+ Ih=30ma \n+ Rt=0.06\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN816 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=25ma\n+ Ih=40ma \n+ Rt=0.023\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN812T A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=5ma\n+ Ih=15ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN812 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=15ma\n+ Ih=30ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN840 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=35ma\n+ Ih=75ma \n+ Rt=0.01\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN640 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=35ma\n+ Ih=75ma \n+ Rt=0.01\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN825 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=40ma\n+ Ih=50ma \n+ Rt=0.014\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN1225 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=1200v \n+ Igt=40ma\n+ Ih=50ma \n+ Rt=0.014\n* 2/2011 / ST / Rev 9\n.ends\n*$\n.subckt TYN625 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=40ma\n+ Ih=50ma \n+ Rt=0.014\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TXN625 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=40ma\n+ Ih=50ma \n+ Rt=0.014\n* 2011 / ST / Rev 0\n.ends\n*$\n.subckt TYN616 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=25ma\n+ Ih=40ma \n+ Rt=0.023\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN612T A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=5ma\n+ Ih=15ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN612 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=15ma\n+ Ih=30ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN612M A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=5ma\n+ Ih=20ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN608 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=15ma\n+ Ih=30ma \n+ Rt=0.046\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN810 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=15ma\n+ Ih=30ma \n+ Rt=0.035\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN610 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=15ma\n+ Ih=30ma \n+ Rt=0.035\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN1012T A K G\nX1 A K G SCR_ST params:\n+ Vdrm=1000v \n+ Igt=5ma\n+ Ih=15ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TYN1012 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=1000v \n+ Igt=15ma\n+ Ih=30ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TS820-600 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.046\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TS420-600 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.09\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TS1220-600 A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN815-800B A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=15ma\n+ Ih=40ma \n+ Rt=0.046\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN815-600B A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=15ma\n+ Ih=40ma \n+ Rt=0.046\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN805-600B A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=5ma\n+ Ih=25ma \n+ Rt=0.046\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN2540-800G A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=40ma\n+ Ih=50ma \n+ Rt=0.014\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN2540-600G A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=40ma\n+ Ih=50ma \n+ Rt=0.014\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN1625-600G A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=25ma\n+ Ih=40ma \n+ Rt=0.023\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN1625-1000G A K G\nX1 A K G SCR_ST params:\n+ Vdrm=1000v \n+ Igt=25ma\n+ Ih=40ma \n+ Rt=0.023\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN1515-600B A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=15ma\n+ Ih=40ma \n+ Rt=0.025\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN1215-800H A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=15ma\n+ Ih=40ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN1215-800G A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=15ma\n+ Ih=30ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN1215-800B A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=15ma\n+ Ih=40ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN1205T-600B A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=5ma\n+ Ih=15ma \n+ Rt=0.03\n* 2010 / ST / Rev 0\n.ends\n*$\n.subckt TN1215-600H A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=15ma\n+ Ih=40ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN1215-600G A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=15ma\n+ Ih=30ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt TN1215-600B A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=15ma\n+ Ih=40ma \n+ Rt=0.03\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt P0118M A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=5ua\n+ Ih=5ma \n+ Rt=0.6\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt P0118D A K G\nX1 A K G SCR_ST params:\n+ Vdrm=400v \n+ Igt=5ua\n+ Ih=5ma \n+ Rt=0.6\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt P0111M A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=25ua\n+ Ih=5ma \n+ Rt=0.6\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt P0111D A K G\nX1 A K G SCR_ST params:\n+ Vdrm=400v \n+ Igt=25ua\n+ Ih=5ma \n+ Rt=0.6\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt P0102M A K G\nX1 A K G SCR_ST params:\n+ Vdrm=600v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.6\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt P0102D A K G\nX1 A K G SCR_ST params:\n+ Vdrm=400v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.6\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt P0102BL A K G\nX1 A K G SCR_ST params:\n+ Vdrm=200v \n+ Igt=200ua\n+ Ih=6ma \n+ Rt=1\n* 2008 / ST / Rev 0\n.ends\n*$\n.subckt X0202N A K G\nX1 A K G SCR_ST params:\n+ Vdrm=800v \n+ Igt=200ua\n+ Ih=5ma \n+ Rt=0.2\n* 2008 / ST / Rev 1\n.ends\n*$ TEXT 184 -240 Left 2 !.model MySwitch SW(Ron=.1 Roff=1Meg Vt=0 Vh=-.5 ) TEXT -1104 176 Left 2 !.param on 1 TEXT -128 -192 Left 2 !.ic V(Vplus)=650V TEXT -1168 80 Left 2 !.param Ltest=500u TEXT -432 304 Left 2 !K1 L4 L1 1. TEXT 80 312 Left 2 !K2 L5 L6 .6