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CM6/PRO Device Guide

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1. The ADCO800 includes a Digital Simcode model to simulate an ADCO800 Analog to Digital Converter Conversion is performed using a successive approximation technique The minimum and maximum voltage of Vin are determined by the Vref and Vref pins The minimum resolution of the measurable voltage on Vin is determined by the Spice option ADCSTEP by default this is set to 10mV When SC Start Conversion goes from low to high the conversion begins and following a 200ns delay EOC End Of Conversion goes low Each conversion requires 40 clock cycles and the clock frequency must be in the range of 50kHz to 800kHz When conversion is complete EOC is set high Example circuit ADC0800 CKT ADC8 Analog Only Data Converters A D The ADC8 includes a Digital Simcode model to simulate a generic 8 bit Analog to Digital Converter Conversion is performed using a successive approximation technique The minimum and maximum voltage of Vin are determined by the Vref and Vref pins The minimum resolution of the measurable voltage on Vin is determined by the Spice option ADCSTEP by default this is set to 10mV When SC Start Conversion goes from low to high the conversion begins and following a 200ns delay EOC End Of Conversion goes low After lus the conversion is complete and EOC is set high Example circuit ADC8 CKT Amp8 Amp10 Analog Only Linear ICs Buffers Amps This device includes the SPICE data for simulating amplifiers Ampli
2. BC160 16 BC161 16 BC177 BC177A BC177B BC212 BC212B BC213 BC214 BC307 BC307B BC307C BC308C BC309B BC327 BC327 16 BC327 25 BC328 BC328 16 BC328 25 BC369 BC393 BC450 BC450A BC490 BC490A BC556 BC556B BC557 BC557A BC557B BC557C BC558B BC559 BC559B BC559C BC560B BC560C BC636 BC638 BC640 BC807 16 BC807 25 BC807 40 BC856ALTI BC856BLTI BC857ALTI BC857B BC857C BC858ALTI BC858BLT1 BC858CLT1 ECG185 ECG281 BCP52 ECG187 ECG285 BCP53T1 ECG187A ECG288 BCP69T1 ECG189 ECG292 BCW29LT1 ECG19 ECG30 BCW30LT1 ECG193 ECG307 BCW61BLT1 ECG193A ECG32 BCW61CLT1 ECG197 ECG332 BCW61DLT1 ECG21 ECG353 BCW68G ECG211 ECG354 BCW69171 ECG213 ECG355 BCW70171 ECG217 ECG356 BCX17LT1 ECG218 ECG37 BCX18LT1 ECG219 ECG374 BCX71K ECG2306 ECG378 BCY70 ECG2314 ECG38 BCY71 ECG2322 ECG381 BCY72 ECG2329 ECG383 BDB02C ECG234 ECG39 BDB02D ECG2364 ECG391 BDC02D ECG2366 ECG393 BF421 ECG240 ECG395 BF423 ECG242 ECG397 BF492 ECG2429 ECG398 BF493 ECG2431 ECG41 BF493S ECG25 ECG43 BF721 ECG2502 ECG45 BFW43 ECG2509 ECG50 BSP16 ECG2512 ECG55 BSS63LT1 ECG2514 ECG59 BSS74 ECG2516 ECG61 BSS75 ECG2518 ECG68 BSS76 ECG2520 ECG82 BSV16 10 ECG2523 ECG88 D45H8 ECG2525 ECG91 ECG100 ECG2527 ECG93 ECG102 ECG2529 MM4001 ECG102A ECG2531 MMBT200 ECG106 ECG2535 MMBT200A ECG12 ECG2537 MMBT2907A ECG126A ECG2563 MMBT2907LT1 ECG129 ECG2565 MMBT3640 ECG129P ECG2567 MMBT3906 ECG1
3. ST300C02L0 ST300C20L0 ST330C04C0 ST330S10P0 ST300C04C0 5 300502 0 STZZOCO4LO ST330S12P0 ST300C04L0 5 300504 0 STZZOCO6CO ST330S14P0 ST300C06C0 57300506 0 STZZOCO6LO ST330S16P0 ST300C06L0 ST300S08P0 STZZOCOBCO ST380C02C0 ST300C08C0 5 300510 0 ST330C08L0 ST380C04C0 ST300C08L0 ST300S12P0 ST330C10C0 ST380C06C0 ST300C10C0 5 300514 0 5 330 1010 ST380CH02C0 ST300C10L0 57300516 0 STZZ0C12C0 ST380CH04C0 ST300C12C0 57300518 0 ST330C12L0 ST3BOCHO6COX ST300C12L0 ST300S20P0 5 330 14 0 ST700C04L0 ST300C14C0 ST3230C10R0 ST330C14L0 5 700 0610 ST300C14L0 ST3230C12R0 ST330C16C0 ST700C08L0 ST300C16C0 ST3230C14R0 ST330C16L0 ST700C10L0 ST300C16L0 ST3230C16R0 ST330S02P0 ST700C12L0 ST300C18C0 ST3230C18R0 5 330504 0 ST700C14L0 ST300C18L0 ST330C02C0 5 330506 0 Triacs 54 Devices MAC15A6 0200614 0400414 9500413 05025R5 MAC15A8 9200814 0400614 0500414 0600413 MAC210 10 90201015 0400814 9500614 0600414 MAC210 4 0201515 0401015 90500814 0600615 MAC210 6 020153 0401515 9501015 0600815 MAC210 8 Q201E4 Q401E3 Q5015L5 Q6010L5 Q200413 Q2025R5 Q401E4 Q501E3 Q6015L5 Q2004L4 Q4004L3 Q4025R5 Q501E4 Q601E3 Junction Field Fffect Transistors 167 Devices 2N2608 2N3970 2N2609 2N3971 2N3370 2N3972 2N3458 2N4084 2N3459 2N4091 2N3684 2N4092 2N3685 2N4093 2N3686 2N4117 2N3687 2N4117A 2N3821 2N4118 2N3822
4. 10kHz at Vout while OV at Vin would result in 5kHz at Vout and 5V at Vin would result in 15kHz at Vout If the available PLL models do not cover the desired frequency range you can edit one of the models change the parameters and save it with a new name The PLL device can lock on frequencies that are within the range specified by Fc Fr To achieve phase lock Vout is wired to Comp which is one of the phase comparator inputs The other phase comparator input Sig is wired to the incoming reference signal A phase difference in the two signals will cause the phase compare output PC to be high more than it is low which causes the external capacitor to be charged more than it is discharged resulting in a higher input voltage at Vin This increases the frequency at Vout thus bringing the two signals into phase When in the locked state the Vout will lag the input signal Sig by O degrees at the low end of the VCO s frequency range 90 degrees at the center frequency Fc and 180 degrees at the high end The Vin signal is internally connected to the Dem pin through a source follower Thus the demodulated signal can be accessed at the Dem pin so that the Vin pin is not loaded down Example circuit PLL CKT 26 Piezo Buzzer Analog Digital Transducers Sound Device In digital simulation mode the piezo buzzer will send a continuous stream of beeps to the PCs speaker when a low level is applied to its terminal and a high
5. 180NQ045R 121NQ045 181NQ035 121NQ045R 181NQ040 122NQ030 181NQ045 MMSZ13T1 ZPU150 MMSZ15T1 ZPU180 MMSZ16T1 ZPY1 MMSZ18T1 ZPY10 MMSZ20T1 ZPY100 MMSZ22T1 ZPY11 MMSZ24T1 ZPY12 MMSZ27T1 ZPY13 MMSZ2V4T1 ZPY15 MMSZ2V7T1 ZPY16 MMSZ30T1 ZPY18 MMSZ33T1 ZPY20 MMSZ36T1 ZPY22 MMSZ39T1 ZPY24 MMSZ3V3T1 ZPY27 MMSZ3V6T1 ZPY3_9 MMSZ3V9T1 ZPY30 MMSZ43T1 ZPY33 MMSZ47T1 ZPY36 MMSZ4V3T1 ZPY39 MMSZ4V7T1 ZPY4_3 MMSZ51T1 ZPY4 7 MMSZ56T1 ZPY43 MMSZ5V1T1 ZPY47 MMSZ5V6T1 BY 5 1 MMSZ62T1 ZPY5 6 MMSZ68T1 ZPY51 MMSZ6V2T1 ZPY56 MMSZ6V8T1 ZPY6_2 MMSZ75T1 ZPY6_8 MMSZ7V5T1 ZPY62 MMSZ8V2T1 ZPY68 MMSZ9V1T1 ZPY7_5 ZENER ZPY75 ZMU100 ZPY8 2 ZMU120 ZPY82 ZMU150 ZPY9_1 ZMU180 ZPY91 ZPU100 AYIE ZPU120 ZY10 181NQ045R 20FQ035 182NQ030 20FQ040 182NQ030R 20FQ045 183NQ080 20T0035 183NQ100 20T00355 183NQ100R 20TQ040 185NQ015 20TQ045 185NQO15R 20T90045S 188N0060 21FQ035 188NQ060R 21FQ040 189NQ150 21FQ045 189NQ150R 240NQ035 18T0035 240NQ040 18T0035S 240NQ045 18T0040 240NQ045R 18TQ045 241NQ035 18T0045S 241NQ040 19TQ015 241NQ045 19TQ015S 241NQ045R 1N5828 242NQ030 1N5834 242NQ030R 1N6095 243NQ080 1N6096 243NQ100 1N6097 243NQ100R 1N6098 244NQ035 1N6391 244NQ040 1N6392 CircuitMaker PRO only 244NQ045 31DQ10 244NO045R 50H0035 245NQ015 50 0040 245NO015R 50 0045 248NQ060 50SQ080 248NQ060R 50SQ100 249NQ150 50W003F 2
6. 237 227 2276 237 OP227C OP237A 0P237G MAX437 MAX47915 MAX908 MAX4330 MAX4795 MAX922 MAX4332 MAX4793 MAX924 MAX4334 MAX492 MAX934 MAX473 MAX494 MAX941 MAX474 MAX495 MAX942 MAX475 MAX496 MAX944 MAX477 MAX497 MAX975LP MAX47815 MAX498 MAX975HS MAX4785 MAX499 MAX977LP MAX4783 907 MAX977HS MC33284 MMBR901 MRF9011 MC34001 MMBR931 9 31 MC34084 MMBR941 MRF9411 MC34184 MMBR951 MRF947 MMBR521 MRF5711 MRF9511 MMBR571 MRF5812 TCA0372 LMC660B NS MMBT5401 NS LMC662 NS MMBT5551 NS LMC662A NS MMBTA06 NS LMC6762A NS MMBTA42 NS LMC6762B NS MMBTA56 NS LMC6772A NS MMBTA92 NS LMC6772B NS MMBTH10 NS LMC7101A NS MMPQ2222 NS LMC7101B NS MMPQ2369A NS LMC7111A NS MMPQ2907 NS LMC7111B NS MMPQ3904 NS LMC7211A NS MMPQ3906 NS LMC7211B NS MPS5179 NS LMC7221A NS MPSA06 NS LMC7221B NS MPSA42 NS LPC660A NS MPSA56 NS LPC660B NS MPSA92 NS LPC661A NS MPSH10 NS LPC661B NS PN2222A NS LPC662A NS PN2369A NS LPC662B NS PN2907A NS MMBT2222A NS PN4258 NS MMBT2369A NS PZT2222A NS MMBT2907A NS PZT2907A NS MMBT3904 NS PZT3904 NS MMBT3906 NS PZT3906 NS MMBT4258 NS PZTA06 NS MMBT5086 NS PZTA42 NS MMBT5088 NS PZTA56 NS MMBT5179 NS PZTA92 NS Polyfet 27 Devices F1007 F1022 F1008 F1027 F1020 F1072 F1021 F1074 Siliconix 26 Devices Si3441DV Si4431DY Si3454DV Si4435DY Si4410DY Si4936DY Si4412DY Si4947DY F1120 F1174 F1214 F1240 Si4953DY Si6426DQ Si6433DQ Si6435DQ Texas Instruments 16 Devices LP239 LP311
7. 2N4118A 2N3823 2N4119 2N3824 2N4119A 2N3921 2N4220 2N3922 2N4220A 2N3954 2N4221 2N3954A x 2N4221A 243955 2N4222 2N3955A 2N4222Ax 2N3956 2N4223 2N3957 2N4338 2N3958 2N4339 2N3966 2N4340 2N3967 2N4341 2N4381 2N5047 2N4391 2N5078 2N4392 2N5103 2N4393 2N5105 2N4416 2N5114 2N4416A 2N5115 2N4856 2N5116 2N4856A 2N5196 2N4857 2N5197 2N4857A 2N5199 2N4858 2N5358 2N4858A 2N5397 2N4859 2N5398 2N4859A 2N5432 2N4860 2N5433 2N4860A 2N5434 2N4861 2N5452 2N4861A 2N5454 2N5018 2N5457 2N5019 2N5459 2N5020 2N5460 2N5021 2N5484 2N5045 2N5486 2N5046 2N5515 CircuitMaker PRO only 2N5516 2N5517 2N5518 2N5519 2N5520 2N5521 2N5522 2N5523 2N5524 2N5545 2N5556 2N5557 2N5558 2N5565 2N5566 2N5640 2N5668 2N5669 2N5670 2N5902 2N5904 2N5905 2N5906 2N5907 ST700C16L0 ST700C18L0 ST700C20L0 ST700C22L0 ST730C04L0 ST730C06L0 ST730C08L0 ST730C10L0 ST730C12L0 ST730C14L0 ST730C16L0 ST730C18L0 ST780C02L0 ST780C04L0 ST780C06L0 T106A1 T106B1 Q601E4 Q6025R5 Q7004L4 Q7006L5 Q7008L5 Q7010L5 Q7015L5 2N5909 2N5911 2N5912 2N6483 2N6484 2N6485 BF244A BF244B BF244C BF245 BF245A BF245B BF245C BF246A BF246B BF247B BF256B BF256C 401 402 J403 404 405 406 T106C1 T106D1 T106E1 T106F1 T106M1 T107A1 T107B1 T107C1 T107D1 T107E1 T107F1 T107M1 TCR22 2 TCR22 3 TCR22
8. 6CWQO6F 6CWQO9F 6CWQ10F 6F10 6F100 6F120 6F20 6F40 6F60 6F80 TOHF10 70HF100 70HF120 70HF140 70HF160 70HF20 70HF40 70HF60 70HF80 70U10 70U100 70U120 70U140 70U160 70U20 70U40 70U60 70U80 73HF10 73HF100 73HF120 73HF20 73HF40 73HF 60 73HF80 80CNQ035 80CNQ040 80CNQ045 80CNQ045SL 80CNQ045SM 81CNQ035 81CNQ040 81CNQ045 81CNQ045SL 81CNQ045SM 81CNQ050 81CNQ050SL 81CNQ050SM 82CNQ030 82CNQO30SL 82CNQ030SM 83CNQ080 83CNQ100 83CNQ100SL 83CNQ100SM 84CNQ035 84CNQ040 84CNQ045 84CNQ045SL 84CNQ045SM 85CNQ015 85CNQ015SL 85CNQ015SM 85HF10 85HF100 85HF120 85HF140 85HF160 85HF20 85HF40 85HF 60 85HF80 88CNQ060 88HF10 88HF100 88HF120 88HF20 88HF40 88HF 60 88HF80 89CNQ150 SAFO5NPP SAFINPP SAF2NPP SAF4NPP BAS116 BAV170 BAV199 BAV70 BAV74 BAV99 BAW156 BAW56 DIODE FD700 FD777 FDH300 FDH300A FDH333 SD1100C18L FDH3595 SD1100C20C FDH400 SD1100C20L FDH444 SD1100C22C FDH600 SD1100C22L FJT1100 SD1100C24C FUT1101 SD1100C24L FJT1102 SD1100C25C MAD1108 SD1100C25L MAD1109 SD1100C26C MBR1535CT SD1100C26L MBR1545CT SD1100C28C MBR2035CT SD1100C28L MBR2045CT SD1100C30C MBR2080CT SD1100C30L MBR2090CT SD1100C32C MBR2100CT SD1100C32L MBR2535CT SD1500C02L MBR2545CT SD1500C04L MBR3035CT SD1500C06L MBR3035PT SD1500C08L MBR3045CT SD1500C10L MBR3045PT SD1500C12L MBR4045PT SD1500C14L MBR4060PT SD1500C16L MBR6045WT SD1500C18L MBRB1535CTS SD1500C20L MBRB1545CT
9. ECG224 BF959 ECG225 BSP19AT1 ECG227 BSP20ATI ECG228A BSS64LTI ECG229 BSS71 ECG23 BSS72 ECG2300 BSS73 ECG2301 BSV52LT1 ECG2302 BSX20 ECG2303 cv12253 ECG2304 D44H8 ECG2305 ECG10 ECG2307 ECG101 ECG2308 ECG103 ECG2309 ECG103A ECG2310 ECG107 ECG2311 ECG108 ECG2312 ECG11 ECG2313 ECG123 ECG2318 ECG123A ECG2319 ECG123AP ECG2321 ECG124 ECG2323 ECG128 ECG2324 ECG128P ECG2325 ECG13 ECG2327 ECG130 ECG2328 ECG15 ECG233 ECG152 ECG2330 ECG154 ECG2331 ECG157 ECG2333 ECG16 ECG2337 ECG161 ECG2339 ECG162 ECG2347 ECG163A ECG2348 ECG164 ECG2353 ECG165 ECG2354 ECG171 ECG2363 ECG175 ECG2365 ECG18 ECG237 ECG181 ECG238 ECG184 ECG24 CircuitMaker PRO only KBPC101 KBPC601 KBPC102 KBPC602 KBPC104 KBPC604 KBPC106 KBPC606 KBPC108 KBPC608 KBPC110 KBPC610 KBPC6005 MDA2500 ECG26 ECG473 ECG278 ECG474 ECG280 ECG479 ECG283 ECG486 ECG284 ECG487 ECG286 ECG488 ECG287 ECG49 ECG29 ECG51 ECG291 ECG52 ECG295 ECG53 ECG300 ECG54 ECG31 ECG56 ECG311 ECG58 ECG313 ECG60 ECG315 ECG63 ECG316 ECG64 ECG317 ECG69 ECG318 ECG70 ECG319P ECG71 ECG320 ECG72 ECG320F ECG74 ECG321 ECG75 ECG327 ECG76 ECG328 ECG77 ECG331 ECG78 ECG340 ECG79 ECG341 ECG81 ECG342 ECG85 ECG343 ECG86 ECG346 ECG87 ECG36 ECG89 ECG360 ECG90 ECG369 ECG92 ECG373 ECG94 ECG375 ECG95 ECG376 ECG96 ECG377 MJE15030 ECG379 MJE340 ECG382 MM3001 ECG384 MM3725 ECG385 MMBT100 ECG386 MMBT100A EC
10. IRFP054 IRF323 IRF641 IRFD024 IRFF430 IRFK2D150 IRFP064 IRF330 IRF642 IRFD110 IRFF431 IRFK2D250 IRFP140 IRF331 IRF643 IRFD120 IRFF432 IRFK2DC50 IRFP141 IRF332 IRF644 IRFD1Z0 IRFF433 IRFK2DE50 IRFP142 IRF333 IRF644S IRFD210 IRFI1010G IRFK2FO54 IRFP143 IRF420 IRF645 IRFD214 IRFI1310G 2 150 IRFP150 IRF421 IRF646 IRFD220 IRFIS10G IRFK2F250 IRFP240 IRF422 IRF647 IRFD221 IRFI520G IRFK2F350 IRFP241 IRF423 IRF710 IRFD222 IRFI530G IRFK2F450 IRFP242 IRF430 IRF7101 IRFD223 IRFI540G IRFK2FC50 IRFP243 IRF431 IRF7102 IRFD224 IRFI614G IRFK2FE50 IRFP244 IRF432 IRF7103 IRFD310 IRFI620G IRFK3D150 IRFP250 IRF433 IRF710S IRFD311 IRFI624G IRFK3D250 IRFP251 IRF450 IRF720 IRFD312 IRFI630G IRFK3D350 IRFP252 CircuitMaker PRO only 52 IRGPH40M IRGPH50M IRGPH50U IRGVH50F MGW12N120 MGW20N120 MGW30N60 MGY25N120 MGY40N60 PIGBT IRFP253 IRFP254 IRFP260 IRFP264 IRFP340 IRFP344 IRFP350 IRFP350LC IRFP351 IRFP352 IRFP353 IRFP354 IRFP360 IRFP360LC IRFP362 IRFP440 IRFP448 IRFP450 IRFP450LC IRFP451 IRFP452 IRFP453 IRFP460 IRFP460LC IRFP462 IRFPC30 IRFPC40 IRFPC48 IRFPC50 IRFPC50LC IRFPC60LC IRFPE30 IRFPE40 IRFPE50 IRFPF30 IRFPF40 IRFPF50 IRFPG30 IRFPG40 IRFPG42 IRFPG50 IRFPG60 IRFRO14 IRFRO24 IRFR110 IRFR120 IRFR210 IRFR214 IRFR220 IRFR221 IRFR222 IRFR224 IRFR310 IRFR320 IRFR321 IRFR322 IRFR410 IRFR420 IRFR421 IRFR422 IRFRC20 IRFS1Z0 IRFUO14 IR
11. Quad Exclusive OR Gate 4071 Quad 2 Input OR Gate 4072 Dual 4 Input OR Gate 4073 Triple 3 Input AND Gate 40 4075 4076 4077 4078 4081 4082 4085 4086 4093 4094 4104 4502 4505 4508 4510 4511 4512 4514 4515 4516 4517 4518 4519 4520 4522 4526 4531 4532 4539 4543 4555 4556 4585 4731 7400 7401 7402 7403 7404 7405 7406 7407 7408 7409 7410 7411 7412 7413 7414 7415 7416 7417 7420 7421 7422 Triple 3 Input OR Gate Quad D Register 3 State Quad Exclusive NOR Gate 8 Input NOR Gate Quad 2 Input AND Gate Dual 4 Input AND Gate Dual 2 Wide 2 Input AND OR Invert Gate 4 Wide 2 Input AND OR Invert Gate Quad 2 Input NAND Schmitt Trigger 8 Stage Shift and Store Bus Register Quad Low to High Voltage Translator 3 State Strobed Hex Inverter Buffer 64 Bit 1 Bit per Word Random Access Read Write Memory Dual 4 Bit Latch BCD Up Down Counter BCDto 7 Segment Latch Decoder Driver 8 Input Multiplexer 3 State 1 0f 16 Decoder Demultiplexer with Input Latches 1 0f 16 Decoder Demultiplexer with Input Latches Binary Up Down Counter Dual 64 Bit Static Shift Register Dual BCD Counter Quad 2 Input Multiplexer Dual 4 Bit Binary Counter Programmable 4 Bit BCD Down Counter Programmable 4 Bit Binary Down Counter 13 Input Parity Checker Generator 8 Input Priority Encoder Dual 4 Input Multiplexer BCDto 7 Segment Latch Decoder Driver Dual 1 or 4 Decoder Demultiplexer Dual 1 of 4 Decoder Demultip
12. Varactor Varactor A Analog Only Active Components Diodes This device includes the SPICE data for simulating a variable capacitance diode Diodes may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model ME DE Zener Diode Analog Only Active Components Diodes D This device includes the SPICE data for simulating a zener diode Diodes may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model Example circuit PS1 CKT x Fuse Fuse A Thermal Fuse Analog Only Fuses Electronic f Fuses Thermal These devices include the SPICE data for simulating a current fuse Fuses may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit a jo 4 F_ gt V Source Analog Only Analog Power This is a linear frequency controlled voltage source The voltage on the output right hand side is controlled by the frequency of the signal on the input left hand side Double click on the device to change its character istics Adjustable characteristics include VIL VIH and Cycles Volt Ex ample circuit FCVS CKT EC FW Bridge Analog Only Active Components Diodes This device includes the SPICE data for simulating a full wave bridge rectifier Bridges may be
13. and fall times for square waves and the input control voltage vs output frequency point arrays The input control voltage vs output frequency point arrays are used to define a line which when extrapolated determines the frequency produced by any given input voltage By default a 1V DC input produces an 1kHz signal on the output a 2V DC input produces an 2kHz signal on the output etc Example circuit VCO CKT Po V Mathl V Mathl Ref V Math2 V Math2 Ref Analog Only Math Functions Voltage These devices provide direct access to SPICE s nonlinear dependent source math functions They are set up in subcircuit format to provide easy selection of the math functions V Mathl and V Mathl Ref provides access to the single variable voltage functions abs cos sqrt etc V Math2 and V Math2 Ref provides access to the dual variable voltage operations and V Math1 and V Math2 require only a single 38 input for each variable which is then referenced to ground V Mathl Ref and V Math 2 Ref require both and inputs for each variable and provide both a and output Example circuit MATHI CKT ABS V V A B V A B Q Q A d A v Q B A Q B 0 B Window Digital Only Digital O Device This is an animated device which simulates the opening and closing of a window It has a single input OC which opens the window when high and closes it when low or it can be opened or closed by clicking on the window p
14. and in macros Example circuit STEPPER CKT Pulser Digital Only Digital Instrument p The Pulser is a programmable pulse generator Multiple Pulsers may be individually programmed Refer to Chapter 5 Digital Logic Simulation in the user manual to program this device Example circuit SIM CKT PUT Analog Only Active Components Unijunction This device includes the SPICE data for simulating a programmable unijunction transistor PUTs may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit y Reference3 Analog Only Linear ICs References This device includes the SPICE data for simulating a 3 pin programmable reference References may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit 28 Regulator3 Analog Only Linear ICs Regulators This device includes the SPICE data for simulating a 3 pin voltage regulator Regulators may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit IN OUT OM Relays Relays are available in two forms The SPDT Relay is a complete unit containing both the coil and the contacts in a single device Other relay devices are available in separate sections allowing you to create
15. and then enter a SPICE comment of the following form into the SPICE Data field 0 1v 1 10v This comment will make the switch output 1v for a low level and 10v for a high level While digital simulation is running a single click on the switch will cause its output to immediately change states If you click on the switch while running an analog simulation CircuitMaker will ask if you want to rerun the simulation with the switch in the new position To move a switch to a new location you must first drag a selection rectangle over the switch to select it Example circuit SIM CKT jwen LossLessLine Analog Only Transmission Lines SPICE Simulation This device includes the SPICE data for simulating a lossless transmission line Characteristic impedance is specified in the Label Value field Time delay or frequency normalized length are specified in the Spice Data field Example circuit LLTRAN CKT a LossyLine URC Line Analog Only Transmission Lines SPICE Simulation These devices include the SPICE data for simulating lossy and uniform distributed RC transmission lines Specific models may be added by the user 19 MC1496 Analog Only Linear ICs Modulators This device includes the SPICE data for simulating an MC1496 Balanced Modulator Demodulator Devices may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desire
16. in the Analog Simulation chapter The drawback to this method is that the impedance of the secondary winding is not reflected back into the primary The Transformer and CTTransformer devices use this method See Coupled Inductors for more information Note For SPICE to operate properly all nodes in a circuit require a DC path to ground In circuits that use transformers both sides of the transformer need a DC path to ground This can be accomplished in various ways 1 Ground can be connected directly to both sides of the transformer see example circuit PS1 CKT 2 Ground can be connected indirectly to both sides of the transformer through a resistor see example circuit PS2 CKT 3 Enable the RSHUNT option in the Analog Options dialog box which is accessed from the Options menu For in depth information on creating your own SPICE subcircuit trans formers refer to the article Improved Spice model simulates transformer s physical processes EDN Magazine August 19 1993 pg 105 36 Transl Trans2 Trans3 Analog Only Transformers Subcircuit These devices include the SPICE data for simulating a transformer Transformers may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit Example circuits PSI CKT PS2 CKT ale le ale Transformer CITransformer Analog Only Transformers Coupled Inductors These devices include th
17. level is applied to its terminal It contains SPICE data for use in analog mode as a capacitor Example circuit SOUND CKT Plot Var Analog Only Analog SPICE Controls This device provides a list of all of the plot variables for which data has been collected for the circuit Place this device anywhere in the drawing window no wires are needed Click on the device with the Probe Tool then select the variable you wish to plot from the list To view multiple waveforms SHIFT click on the Plot Var device Plot Vari able PNP Darlingl PNP Darling2 PNP Darling3 Analog Only Active Components Darlingtons This device includes the SPICE data for simulating an PNP Darlington Transistor Transistors may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit E PNP Trans B PNP Trans C Analog Only Active Components BJTs Q These devices include the SPICE data for simulating an PNP bipolar junction transistor Transistors may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model Example circuit PUSHPULL CKT 14 27 PROM32 Analog Digital Digital RAM PROM This is a 32 x 8 PROM Multiple PROMs may be individually pro grammed Refer to Chapter 10 Edit Menu in the user manual to program this device PROM data is saved with the circuit
18. of available models or new models may be added by the user Double click on the device to select the desired model Example circuit CSJFAMP CKT 24 N MESFET N MESFET A Analog Only Active Components MESFETs z This device includes the SPICE data for simulating an N channel MESFET GaAsFET MESFETs may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model LO gt H N DMOS 3T N DMOS 3T A N DMOS 4T N DMOS 4T A Analog Only Active Components MOSFETs Depl These devices include the SPICE data for simulating 3 terminal and 4 terminal N channel Depletion Mode MOSFETs MOSFETs may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model ROLE N EMOS 3T N EMOS 3T A N EMOS 4T N EMOS 4T A Analog Only Active Components MOSFETS Enh m These devices include the SPICE data for simulating 3 terminal and 4 terminal N channel Enhancement Mode MOSFETs MOSFETs may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model B 5 6 z N UJT Analog Only Active Components Unijunction This device includes the SPICE data for simulating an N channel unijunction transistor Transistors may be selected from a list of available subcircuits or new subcircuits may be added by the us
19. selected from a list of available subcircuits or 14 new subcircuits may be added by the user Double click on the device to select the desired subcircuit Example circuit PS1 CKT Ground Analog Digital Analog Power Digital Power 0 zero In analog simulation mode this device provides a ground reference node for the circuit Every analog circuit must have a ground reference In digital simulation mode it provides a fixed Low state L Hex Display Analog Digital Displays Digital Only h This is a Hexadecimal 7 Segment Display with a built in decoder It is intended mainly for use in Digital simulation mode It will display a hexadecimal number 0 9 and A F based on the binary code applied to the pins 1 4 Different colors can be selected for each display This device can also be used in Analog simulation mode but the segements will not light up Example circuit SIM CKT 43211 Hex Key Digital Only Digital Input Device H This is a hexadecimal key It will generate the binary code associated with the hexadecimal number displaved on the key After the hex key has been selected single click on the hex number shown in the middle of the device the hex number displaved can be changed in two ways 1 click on the number displayed to increment it or 2 press a hexadecimal key 0 9 and A F on the keyboard Multiple Keys may be used in a circuit only the selected key will accept input from the keyboard Example circui
20. 0 DZ89C33 DZ89C36 DZ89C39 DZ89C3V9 DZ89C43 DZ89C47 DZ89C4V3 DZ89C4V7 DZ89C51 DZ89C56 DZ89C5V1 DZ89C5V6 DZ89C62 DZ89C68 DZ89C6V2 DZ89C6V8 DZ89C75 DZ89C7V5 DZ89C82 DZ89C8V2 DZ89C91 DZ89C9V1 MMBZ3V0T1 252218111 252228111 252238111 252248111 252258111 252268111 252278111 252288111 252298111 252308111 252318111 252328111 252338 111 MMBZ5234BLT1 MMBZ5235BLTI MMBZ5236BLT1 MMBZ5237BLT1 MMBZ5240BLT1 MMBZ5241BLT1 MMBZ5242BLT1 MMBZ5243B MMBZ5244BLT1 MMBZ5245BLT1 MMBZ5246BLT1 MMBZ5247BLT1 MMBZ5248BLT1 MMBZ5249BLT1 MMBZ5250BLT1 MMBZ5251BLT1 MMBZ5252BLT1 MMBZ5253BLT1 MMBZ5254BLT1 MMBZ5255BLT1 MMBZ5256BLT1 MMBZ5257BLT1 MMBZ5258BLT1 MMBZ5258BLT1 MMBZ5259BLT1 MMBZ5259BLT1 MMBZ5260BLT1 MMBZ5261BLT1 MMBZ5262BLT1 MMBZ5263BLT1 MMBZ5264BLT1 MMBZ5265BLT1 MMBZ5266BLT1 MMBZ5267BLT1 MMBZ5268BLT1 MMBZ5269BLT1 MMBZ5270BLT1 MMSZ10T1 MMSZ11T1 MMSZ12T1 Schottky Diodes 185 Devices 10BQ015 122N0030R 10BQ040 123NQ080 10BQ060 123NQ100 10BQ100 123NQ100R 10MQ040 124NQ035 10MQ060 124NQ040 10MQ090 124NQ045 1010035 124NQ045R 10T00355 125NQ015x 1010040 125NQ015R 10TQ045 128NQ060 10700455 128NQ060R 110003 129NQ150 11D004 129NQ150R 110005 1270035 110006 12TQ035S 11DQ09 12T0040 110010 12TQ045 120NQ035 12TQ0458 120NQ040 15MQ040 120NQ045 180NQ035 120NQ045R 180NQ040 121NQ035 180NQ045 121NQ040
21. 09x2 74F13 74F112 74F14 74F112x2 74F20 74F113 14627 74F113x2 74F30 74F125 74F32 7439 74F125x4 74 126 74F126x4 74F132 74F133 74F138 74F139 74F139x2 74F148 74 151 T4FISIA 74F153 74F154 SVCOIL 1to5 2tol 7445 74F157 74F157A 74F158 74F158A 74F160 74F161 74F162 74F163 74F164 74F166 74F168 74F169 74F173 Low power Schottky TIL 128 Devices 741500 741530 74LS01 741 532 141502 741833 741504 741537 741505 741538 741508 741540 741509 741 542 741510 74LS47 741511 741548 741512 741549 741513 741573 141514 T4LS73A 741515 74LS73x2 741520 741574 741521 74LS74x2 741522 741575 741525 741876 TALS26 741876 741527 741576 2 Schottky TTL 3 Devices 745133 745182 74LS83A 741585 741586 741590 7141592 741593 741595 741596 74LS109A 74LS109Ax2 7415112 74LS112x2 7415113 74LS113x2 74LS113A 7415125 74LS126x4 71415132 745280 7415136 7415138 1415139 74LS139x2 74LS147 74LS148 74LS151 74LS153 74LS154 74LS155 74LS156 74LS157 7415158 7415160 7415161 7415162 1415163 71415164 NORMAL 2to1CT 74147 74F174 74F175 74F181 74F182 74F190 74F191 74F192 74F193 74F194 74F195 74F199 74F240 74F241 74LS165 74LS166 74LS168 74LS169 74LS173 74LS174 74LS175 74LS181 7415190 171415191 7415192 71415193 71415194 7415195 1415197 1415199 7415240 71415241 5tol 74148 74 242 74 243 74F244 74F245 74F251 74 251 74F253 74F256 74F257 74 257 7
22. 1 MMBTA14171 ECG2544x ECG262 MMBTA63LT1 ECG2545 ECG263 MMBTA64LT1 ECG2546 ECG264 MPQ6426 2N5207 80RK160 EC113C 2N6237 80RKI80 EC113C3 2N6238 BRX44 EC113D 2N6239 BRX45 EC113D3 2N6240 BRX46 EC113E 2N6241 BRX47 EC113E3 2N6564 BRX49 EC113M 2N6565 BRY55 100 EC113M3 2N681 BRY55 200 MCR100 3 2N682 BRY55 30 MCR100 4 2N683 BRY55 400 MCR100 6 2N684 BRY55 500 MCR100 8 2N685 BRY55 60 MCR102 2N686 BRY55 600 MCR103 2N687 C106A MCR106 2 2N688 C106B MCR106 3 2N689 c106D MCR106 4 2N690 C106F MCR22 2 2N691 C106M MCR22 3 2N692 C149M10 MCR22 4 50RIA10 EC103A MCR22 6 50RIA100 EC103Al MCR22 8 50RIA120 103 2 MCR506 2 50RIA140 EC103A3 MCR506 3 50RIA160 103 MCR506 4 50RIA20 EC103B1 MCR506 6 50RIA40 EC103B2 MCR506 8 50RIA60 EC103B3 MRC106 6 50RIA80 EC103C MRC106 8 70RIA10 EC103C1 50503151 70RIA100 EC103C2 50503152 70RIA120 103 3 50503153 70RIA20 EC103D 51003151 7ORIA40 EC103D1 S1003LS2 TORIA60 EC103D2 S1003LS3 70RIAB0 EC103D3 S19CF 8ORIA10 EC103E 52003151 8ORIA100 EC103E1 52003152 80RIA120 103 2 52003153 80RIA20 EC103E3 54003151 8ORIA40 EC103M 54003152 80RIA60 EC103M1 54003153 8ORIA80 EC103M2 56003151 80RK110 EC103M3 56003152 80RKI100 EC113A 56003153 80RKI120 EC113A3 SCR 80RKI20 EC113B ST110C02C0 80RK140 EC113B3 ST110C04C0 CircuitMaker PRO only MPS6724 MPS6725 MPSA13 MPSA14 MPSA25 MPSA26 MPSA27 MPSA28 MPSA29 MPSA62 MPSA63 MPSA64 MPSA64 MPSA75 MPSA77 ST
23. 110C06C0 ST110C08C0 ST110C10C0 ST110C12C0 ST110C14C0 ST110C16C0 ST110S02POV ST110504POV ST110S06POV ST110S08POV ST110S10POV ST110S12POV ST110S14P0 ST110S16P0 ST1200C04K0 ST1200C06K0 ST1200C08K0 ST1200C10K0 ST1200C12K0 ST1200C14K0 ST1200C16K0 ST1200C18K0 ST1200C20K0 ST1230C04K0 ST1230C06K0 ST1230C08K0 ST1230C10K0 ST1230C12K0 ST1230C14K0 ST1230C16K0 ST1280C02K0 ST1280C04K0 ST1280C06K0 ST180C02C0 ST180C04C0 ST180C06C0 ST180C08C0 ST180C10C0 ST180C12C0 ST180C14C0 ST180C16C0 ST180C18C0 ST180C20C0 5 180502 0 ST180S04POV ST180S06POV 5 180508 0 ST180S10POV MPSW13 MPSW14 MPSW45 MPSW45A MPSW63 MPSW64 NPNI NPN2 NPN3 PNP1 PNP2 PNP3 PZTAl4TI PZTA64T1 TIP141 ST180S12POV ST180S14P0 ST180S16P0 ST180S18P0 ST180S20P0 ST1900C45R0 ST1900C46R0 ST1900C48R0 ST1900C50R0 ST1900C52R0 ST2100C35R0 ST2100C36R0 ST2100C38R0 ST2100C40R0 ST2100C42R0 ST2100C44R0 ST2100C45R0 ST230C02C0 ST230C04C0 ST230C06C0 ST230C08C0 ST230C10C0 ST230C12C0 ST230C14C0 ST230C16C0 ST230S02POV ST230S04P0V ST230S06POV ST230S08POV ST230S10POV ST230S12P0V ST230S14P0 ST230S16P0 ST2600C20R0 ST2600C22R0 ST2600C24R0 ST2600C26R0 ST2600C28R0 ST2600C30R0 ST280C02C0 ST280C04C0 ST280C06C0 ST280CH02C0 ST280CH04C0 ST280CHO6CO ST280S02POV ST280S04P0V ST280S06POV ST300C02C0 STZOOC20C0 sT330C02L0 ST330S08P0
24. 1310S IRF523 IRF740LC IRFF120 IRFIBC30G IRFK4HC50 IRF132 IRF530 IRF740S IRFF121 IRFIBC40G IRFK4HE50 IRF133 IRF530S IRF744 IRFF122 IRFIBC40GLC IRFK4J054 IRF150 IRF540 IRF820 IRFF123 IRFIBE20G IRFK4J150 IRF151 IRF540S IRF820S IRFF130 IRFIBE30G 4 250 IRF152 IRF541 IRF821 IRFF131 IRFIBF20G IRFK4J350 IRF153 IRF542 IRF822 IRFF132 IRFIBF30G 4 450 IRF1740GLC IRF543 IRF823 IRFF133 IRFIP044 IRFK43C50 IRF1840GLC IRF610 IRF830 IRFF210 IRFIP054 IRFK4JE50 IRF220 IRF610S IRF830S IRFF211 IRFIP140 IRFK6H054 IRF221 IRF611 IRF840 IRFF212 IRFIP150 IRFK6H150 IRF222 IRF612 IRF840LC IRFF213 IRFIP240 IRFK6H250 IRF223 IRF613 IRF840S IRFF220 IRFIP244 IRFK6H350 IRF230 IRF614 IRFAC40 IRFF221 IRFIP250 IRFK6H450 IRF231 IRF614S IRFAC42 IRFF222 IRFIP254 IRFK6HC50 IRF232 IRF620 IRFBC10LC IRFF223 IRFIP340 IRFK6J054 IRF233 IRF620S IRFBC20 IRFF230 IRFIP350 IRFK6J150 IRF234 IRF621 IRFBC30 IRFF231 IRFIP440 6 250 235 IRF622 IRFBC40 IRFF232 IRFIP448 IRFK63350 IRF236 IRF623 IRFBC40LC IRFF233 IRFIP450 IRFK6J450 IRF237 IRF624 IRFBC42 IRFF320 IRFIZ14G IRFK6JC50 IRF244 IRF624S IRFBE20 IRFF321 IRFIZ24G IRFLO14 IRF245 IRF630 IRFBE30 IRFF322 IRFIZ34G IRFL110 IRF246 IRF630S IRFBF20 IRFF323 IRFIZ44G IRFL210 IRF247 IRF634 IRFBF30 IRFF420 IRFIZ48G IRFL214 IRF320 IRF634S IRFBG20 IRFF421 IRFK20350 IRFPO44 IRF321 IRF640 IRFBG30 IRFF422 IRFK20450 IRFP048 IRF322 IRF640S IRFDO14 IRFF423 IRFK2D054
25. 229 LT1230 LT1252 CLC449 CLC505 CLC501 CLC522 CLC502 CLC532 EL2360 EL EL2460 EL EL2386 EL EL2539 EL EL2423 EL EL2540 EL EL2424 EL EL400 EL EL2444 EL EL4393 EL EL2445 EL EL5190 EL HA5137 HFA3046 HA5147 HFA3096 HA5190 HFA3127 HA5221 HFA3128 HA5222 IRF9530 LT1253 LTC1051 LT1254 LTC1052 LT1259 LTC1052CS LT1260 LTC1053 LT1354 LTC1150 LT1355 LTC7652 LT1356 OP05 LT1357 OPO5A LT1358 OP05C LT1359 OP05E LT1360 OP07 LT1361 OP07A LT1362 OP07C LT1363 OP07CS8 LT1364 OP07E LT1365 OP15A LTC1047 OP15B LTC1049 OP15C LTC1050 OP15E LTC1050A OP15F 57 OP15G OP16E OP16A OP16F OP16B OP16G OP16C OP27A Maxim 92 Devices MAX406Ac MAX412 MAX406Bc MAX412B MAX406Ad MAX414 MAX406Bd MAX414B MAX407 MAX4100 MAX409A MAX4101 MAX409B MAX4106 MAX417 MAX4107 MAX418 MAX4108 MAX419 MAX4109 MAX410 MAX4112 MAX410B MAX4113 Motorola 49 Devices BFS17 MC1536 LF441 MC1747 LF442 MC3458 LF444 MC4558 LM11 MC4741 LM833 MC33071 LM2904 OP27C OP27E OP27G OP37A MAX4122 MAX4126 MAX4129 MAX4124 MAX4128 MAX4130 MAX4132 MAX4134 MAX4144 MAX4158 MAX4159 MAX4258 MC33072 MC33074 MC33076 MC33077 MC33078 MC33079 OP37C OP37E OP37G OP97 MAX4259 MAX4162 MAX4163 MAX4164 MAX4165 MAX4167 MAX4169 MAX4178 MAX4182 MAX4184 MAX4186 MAX4187 MC33171 MC33172 MC33174 MC33178 MC33179 MC33181 National Semiconductor 182 Devices 2N3904 NS 2N3906 NS 2N5086 NS 2N5088 NS 2N5401 NS 2N5551 NS BSR14 NS BSR15 NS B
26. 24B 1N5367B BZG03C11 BZT52C43 BZX84C43LTI DL4748A 1N4732A 1N5225B 1N5368B BZG03C110 BZT52C47 BZX84C47LT1 DL4749A 1N4733 1N5226B 1N5369B BZG03C12 BZT52C4V3 BZX84C4V3LT1 DL4750A 1N4733A 1N5227B 1N5370B BZG03C120 BZT52C4V7 BZX84C4V7LT1 DL4751A 104734 1N5228B 1N5371B BZG03C13 BZT52C51 BZX84C51LT1 DL4752A 1N4734A 1N5229B 1N5372B BZGO3C130x BZT52C5V1 BZX84CS6LTI DL4753A 1N4735 1N5230B 1N5373B BZG03C15 BZT52C5V6 BZX84CSVILTI DL4754A 1N4735A 1N5231B 1N5374B BZG03C150 BZT52C6V2 BZX84CSV6LTI DL4755A 1N4736 1N5232B 1N5375B BZG03C16 BZT52C6V8 BZX84C62L DL4756A 1N4736A 1N5233B 1N5376B BZG03C160 BZT52C7V5 BZX84C68LTI DL4757A 1N4737 1N5234B 1N5377B BZG03C18 BZT52C8v2 BZX84C V2LT1 DL4758A 1N4737A 1N5235B 1N5378B BZG03C180 BZT52C9V1 BZX84C6V8LT1 DL4759A 1N4738 1N5236B 1N5379B BZG03C20 BZX55C10 BZX84C75LT1 DL4760A 1N4738A 1N5237B 1N5380B BZG03C200 BZX55C11 BZX84C7V5LT1 DL4761A 1N4739 1N5238B 1N5381B BZG03C22 BZX55C12 BZX84C8V2LT1 DL4762A 1N4739A 1N5239B 1N5382B BZG03C220 BZX55C13 BZX84C9V1LT1 DL4763A 1N4740 1N5240B 1N5383B BZG03C24 BZX55C15 BZX85C10 DL4764A 1N4740A 1N5241B 1N5384B BZG03C240 BZX55C16 2 85 11 DL5226B 1N4741 1N5242B 1N5385B BZG03C27 BZX55C18 BZX85C12 DL5227B 1N4741A 1N5243B 1N5386B BZG03C270 BZX55C20 BZX85C13 DL5228B 104742 1N5244B 1N5387B BZG03C30 BZX55C22 BZX85C15 DL5229B 1N4742A 1N5245A 1N5388B BZG03C33 BZX55C24 BZX85C16 DL5230B 1N4743 1N5245B 1N746 BZG03C36 BZX55C27
27. 28 EL EL2044 EL EL2099 EL EL2029 EL EL2045 EL EL2120 EL EL2030 EL EL2070 EL EL2160 EL EL2038 EL EL2071 EL EL2166 EL EL2039 EL EL2073 EL EL2170 EL EL2040 EL EL2074 EL EL2175 EL Harris Semiconductor 39 Devices HA2500 HA2539 HA2502 HA2540 HA2510 HA2541 HA2512 HA2542 HA2520 HA2544 HA2522 HA2548 HA2600 HA2602 HA2620 HA2622 HA2839 HA2840 Linear Technology 168 Devices LF155 LM308A LF155A LM318 LF156 LM318S8 LF156A LT118A LF355 LT318A LF355A LT1001 LF356 LT1002 LF356A LT1001S8 LF412 LT1001A LF412A LT1002A LH2108 LT1006 LH2108A LT1006A LM10C LT1006S8 LM101A LT1007 LM107 LT1007CS LM108 LT1007A LM108A LT1008 LM118 LT1012 LM301A LT1012A LM308 LT1012D 11101258 111013 LT1013A LT1013D LT1014 LT1014A LT1014D LT1022 LT1022A LT1024 LT1024A LT1028 LT1028A LT1028CS LT1037 LT1037A LT1037CS 111055 LT1055A LT105558 CLC425 CLC426 CLC428 EL2176 EL EL2180 EL EL2186 EL EL2190 EL EL2210 EL EL2211 EL EL2223 EL HA2841 HA2842 HA2850 HA5004 HA5020 HA5101 LT1056 LT1056A LT105658 LT1057 LT1057A 10575 LT1058 LT1058A LT1077 LT1078 LT1078A LT1079 LT1079A LT1097 LT1115 LT1122 LT1178 LT1178A LT1179 LT1179A CLC430 CLC432 CLC440 EL2224 EL EL2232 EL EL2242 EL EL2243 EL EL2244 EL EL2245 EL EL2260 EL HA5102 HA5104 HA5112 HAS114 HAS127 LT1190 LT1191 LT1192 LT1195 LT1200 LT1201 LT1202 LT1208 LT1209 LT1217 LT1220 LT1221 LT1223 LT1224 LT1225 LT1226 LT1227 LT1
28. 3 74298 74352 74353 74373 74374 74375 14377 74378 74568 74569 Quad D Flip Flop 4 Bit Arithmetic Logic Unit Lookahead Carry Generator Presettable BCD Decade Up Down Counter Presettable 4 Bit Binary Up Down Counter Presettable BCD Decade Up Down Counter Presettable 4 Bit Binary Up Down Counter 4 Bit Bidirectional Universal Shift Register 4 Bit Parallel Access Shift Register Presettable 4 Bit Binary Ripple Counter 8 Bit Parallel Access Shift Register Octal Inverter Buffer 3 State Octal Buffer 3 State Ouad Inverting Transceiver 3 State Ouad Bus Transceiver 3 State Octal Buffer 3 State Octal Bus Transceiver 3 State BCD to Seven Segment Decoder Driver O C BCD to Seven Segment Decoder Driver w Pullups 8 Input Multiplexer 3 State Dual 4 Input Multiplexer 3 State Dual 4 Bit Addressable Latch Quad 2 Line to 1 Line Data Selector Multiplexer 3 State Quad 2 Line to 1 Line Data Selector Multiplexer 3 State 8 Bit Addressable Latch Quad 2 Input Exclusive NOR Gate O C Octal D Flip Flop 9 Bit Odd Even Parity Generator Checker 4 Bit Full Adder with Fast Carry BCD Decade Counter 4 Bit Binary Ripple Counter Quad 2 Port Register Dual 4 Line to 1 Line Multiplexer Dual 4 Input Multiplexer 3 State Octal Transparent Latch 3 State Octal D Flip Flop 3 State Quad Bistable Latch Octal D Flip Flop with Clock Enable HexD Flip Flop with Clock Enable BCD Decade Up Down Synchronous Counter 3 Stat
29. 3N25E MTP52N06V MMFT3055VL MTD4N20E MTP52NO6VL MMSF5N02HD MTD5N25E MTP55N06Z MMSF5N03HD MTD6N10E MTP5N40E MMSF7NO3HD MTD6N15 MTP 60N06HD MP15N06E MTD6N20E MTP 6N60E MTB10N40E MTD9N10E MTP75NO3HDL MTB15N06V MTDF1NO2HD MTP75N05HD MTB16N25E MTDF1N03HD MTP75NO6HD MTBIN100E MTE125N20E MTP7N20E MTB20N20E MTE215N10E MTP8N50E MTB2N40E MTE30N50E MTP9N25E MTB2N60E MTE53N50E MTSF3N02HD MTB30N06VL MTP10N10E MTSF3N03HD MTB33N10E MTP10N10EL MTV10N100E MTB35N062L MTP10N40E MTV16N50E MTB36N06V MTP12N10E MTV20N50E MTB3N100E MTP15N06V MTV25N50E MTB3N120E MTP15NO6VL MTV32N20E MTB4N80E MTP16N25E MTV32N25E MTB52N06V MTP1N100E MTV6N100E MTB52N06VL MTP1N50E MTW10N100E MTB55N06Z MTP1N60E MTW14N5 0E MTB60N06HD MTP1N80E MTW16N40E MTB6N60E MTP20N06V MTW20N5 0E MTB75NO3HDL MTP20N20E MTW24N40E MTB75NO5HD MTP27N10E MTW32N20E MTB8N50E MTP2N40E MTW32N25E MTB9N25E MTP2N50E MTW35N15E MTD1ON10EL MTP2N60E MTW45N10E MTD12N06EZL MTP3055V MTW6N100E MTD15N06V MTP3055VL MTW7N80E MTD15N06VL MTP30NO6VL MTW8N60E MTD1N50E MTP33N10E MTY100N10E MTDIN60E IRF9Z34 IRFP9241 MMSF3P02HD IRF9Z34S IRFP9242 MMSF3P03HD IRFD9014 IRFP9243 MMSF4P01HD IRFD9024 IRFR9014 MTB23P06V IRFD9110 IRFR9024 MTB2P50E IRFD9113 IRFR9110 MTB30P06V IRFD9120 IRFR9120 MTB50P03HDL IRFD9210 IRFR9210 MTD1P50E IRFD9220 IRFR9220 MTD20PO3HDL IRFI9520G IRFU9014 MTD20P06HDL IRFI9530G IRFU9024 MTD2955V IRFI9540G IRFU9110 MTD5P06V IRFI9620G IRFU9110 MTD6P10E IRFI9630G IRFU9120 MTP12
30. 4 258 74 258 74F259 7415242 7415243 7415244 7415245 7415247 171415248 7415249 7415251 7415253 7415256 7415257 7415258 7415259 7415260 7415266 7415273 7415280 7415283 5tolCT 74199 T4F273 74F280A 74F280B 74F283 74F298 74F352 74F353 74F373 74F374 74F377 74F378 74F568 74F569 7415298 7415352 7415353 7415373 7415374 7415375 7415377 7415378 7415568 7415569 buffer3s buffa3s lssrff lsqdff lsdff lsramlk lsprom32 quad3sta 99 4000 series CMOS 72 Devices 4000 4001 4002 4006 4008 4011 4012 4013 4014 56 4015 4017 4018 4019 4020 4021 4022 4023 4024 4025 4027 4028 4029 4030 4031 4035 4040 4041 4042 4043 4044 4049 4050 4068 4069 4070 4071 4072 4073 4075 4076 4077 4078 4081 4082 4085 4086 4093 4094 4502 4505 4508 4510 4511 4512 4514 4515 4516 4517 4518 4519 4520 4520x2 4522 4526 4531 4532 4539 4543 4555 4556 4585 4731 Vendor Supplied SPICE Models The SPICE models listed on the following pages are for use in CircuitMaker s Analog simulation mode The models in this section were originally supplied by various hardware vendors In some cases the models have been modified slightly to conform to the standard Berkeley SPICE format 1 Comlinear 26 Devices CLC109 CLC404 CLC409 CLC414 CLC111 CLC405 CLC410 CLC415 CLC400 CLC406 CLC412 CLC420 CLC402 CLC407 lantec 47 Devices EL2020 EL EL2041 EL EL2075 EL EL20
31. 4 ECG2569 MMBT404A ECG153 ECG2571 MMBT4126 ECG159 ECG2575 MMBT4258 ECG160 ECG2577 MMBT4403 ECG17 ECG27 MMBT5086 ECG180 ECG28 MMBT5087 CircuitMaker PRO only MSC2295C MSC2404C MSC3130 MSD1328R MSD1819A RT1 MSD1819A ST1 MSD601R MSD601 ST1 MSD602R NPN NZT44H8 NZT651 NZT6714 NZT6715 NZT6717 P2N2222A PBF259 MMBT5401 MMBT5771 MMBT 6520 MMBT8599 MMBTASSLT1 MMBTA56 1 92 MMBTA93LT1 MMBTH81 MMPQ2907 MMPO3467 MMPO3799 MMPO3906 MPQ2906 MPQ2907 MPO2907A MPQ3467 MPQ3762 MPQ3798 MPQ3799 MPQ3906 MPQ7091 MPQ7093 MPS2907 MPS2907A MPS3638 MPS3638A MPS3640 MPS3906 MPS404A MPS4125 MPS4126 MPS4258 MPS536 MPS5771 MPS6523 MPS6562 MPS6651 MPS6652 MPS6726 MPS6727 MPS750 MPS751 MPS8093 MPS8550 MPS8598 MPS8599 PBF259RS PBF259S PN100 PNIOOA PN3563 PN918 PZT3904 PZT651T1 PZTA06 PZTA42 ONPN TN3019A TN3440A TN3725A TN6714A TN6715A TN6717A MPSA55 MPSA56 MPSA70 MPSA92 MPSA93 MPSH81 MPSL51 MPSW51 MPSWS1A MPSW55 MPSW56 MPSW92 MSA1022B MSA1022C MSB1218A RTI MSB1218A STI MSB709R MSB709 STI MSB710 QT1 MSB710R NZT45H8 NZT6726 NZT6728 NZT6729 NZT751 P2N2907A PBF493 PBF493R PBF493RS PBF493S PN200 PN200A PN2907A PN3640 PN4356 PNP PZT2907A PZT3906 PZT751T1 PZTA56 PZTA92 PZTA96 TN2905A TN3467A TN4033A TN6726A TN6728A TN6729A 49 Darlington BJTs 106 Devices 2N6040 ECG215 2N6042 ECG2316 2N6426 ECG2317 2N6427 ECG2326 2N6
32. 4 TCR22 6 TCR22 8 97025R5 0800414 90800615 90800815 9801015 9801515 Q8025R5 J410 411 412 MPF3821 MPF3822 NDF9406 NDF9407 NDF9409 NDF9410 NJFET PJFET U257 U308 U309 U310 u401 U402 U403 u404 U405 U406 U440 u441 51 IGBTs 65 Devices ECG3300 ECG3322 IRGB440U IRGBC40U IRGMC50F IRGPC50K ECG3300 ECG3323 IRGBC20F IRGBF20F IRGMC50U IRGPC50M ECG3301 IRGAC30F IRGBC20S IRGBF30F IRGP420U IRGPC50S ECG3302 IRGAC30U IRGBC20U IRGBH50F IRGP430U IRGPC50U ECG3303 IRGAC40F IRGBC30F IRGIHSOF IRGP440U IRGPF20F ECG3310 IRGAC40U IRGBC30S IRGMC30F IRGPC40F IRGPF30F ECG3311 IRGAC50F IRGBC30U IRGMC30U IRGPC40S IRGPF40F ECG3312 IRGAC50U IRGBC40F IRGMC40F IRGPC40U IRGPF50F ECG3320 IRGB420U IRGBC40S IRGMC40U IRGPC50F IRGPH40F ECG3321 IRGB430U MOSFETs N Channel 682 Devices 2N3796 IRF451 IRF7201 IRFD313 IRFI634G IRFK3D450 2N3797 IRF452 IRF720S IRFD320 IRFI640G IRFK3DC50 2N4351 IRF453 IRF721 IRFD321 IRFI644G IRFK3F150 IRF1010 IRF510 IRF722 IRFD322 IRFI720G IRFK3F250 IRF1010S IRF510S IRF723 IRFD323 IRFI730G IRFK3F350 IRF120 1RF511 IRF730 IRFD420 IRFI734G IRFK3F450 IRF121 IRF512 IRF730S IRFD620 IRFI740G IRFK3FC50 IRF122 IRF513 IRF731 IRFDCIOLC IRFI744G IRFK4H054 IRF123 IRF520 IRF732 IRFF110 IRFI820G IRFK4H150 IRF130 IRF520S IRF733 IRFF111 IRFI830G IRFK4H250 IRF131 IRF521 IRF734 IRFF112 IRFI840G IRFK4H350 IRF1310 IRF522 IRF740 IRFF113 IRFIBC20G IRFK4H450 IRF
33. 400 12 SD400C14C SD400C16C SD400C18C SD400C20C SD400C22C SD400C24Cx SD400N02PV SD400N04PV SD400NO6PV SD400N08PV SD400N10PV SD400N12PV SD400N14PV SD400N16PV SD400N18PC SD400N20PC SD400N22PC SD400N24PC SD500N30PC SD500N32PC SD500N34PC SD500N36PC SD500N38PC SD500N40PC SD500N42PC SD500N44PC SD500N45PC SD600N02PC SD600N04PC SD600N06PC SD600N08PC SD600N10PC SD600N12PC SD600N14PC SD600N16PC SD600N18PC SD600N20PC SD600N22PC SD600N24PC SD600N25PC SD600N26PC SD600N28PC SD600N30PC SD600N32PC SD700C30L SD700C32L SD700C34L SD700C36L SD700C38L SD700C40L SD700C42L SD700C44L SD700C45L SD800C24L SD800C25L SD800C26L SD800C28L SD800C30L SD800C32L SD800C34L SD800C36L SD800C38L SD800C40L SD800C42L SD800C44L SD800C45L SM4001TR SM4002TR SM4003TR SM4004TR SM4005TR SM4006TR SM4007TR 45 Zener Diodes 730 Devices 1N4728 1N4762A 1N5359B 1N969B BZT52C3 BZX84C30LT1 DL4740A 1N4728A 1N4763 1N5360B 1N970B BZT52C30 BZX84C33LT1 DL4741A 104729 1N4763A 1N5361B 1N971B BZT52C33 BZX84C36LT1 DL4742A 1N4729A 1N4764 1N5362B 1N972B BZT52C36 BZX84C39LTI DL4743A 1N4730 1N4764A 1N5363B 1N973B BZT52C39 BZX84C3V LT1 DL4744Ax 1N4730A 1N5221B 1N5364B 1N974B BZT52C3V3 BZX84C3V3LT1 DL4745A 1N4731 1N5222B 1N5365B BZG03C10 BZT52C3V6 BZX84C3V6LT1 DL4746A 1N4731A 1N5223B 1N5366B BZG03C100 BZT52C3V9 BZX84C3V9LT1 DL4747A 1N4732 1N52
34. 427 ECG2343 2N7052 ECG2344 2N7053 ECG2345 BC372 ECG2346 BC373 ECG2349 BC517 ECG2350 BC618 ECG2351 BCV26 ECG2352 BCV27 ECG243 BSP52T1 ECG244 BSP 62T1 ECG245 ECG214 Silicon Controlled Rectifiers 441 Devices 10RIA10 10RIA100 10RIA120 10RIA20 10RIA40 10RIA60 10RIA80 110RKI10 110RKI100 110RKI120 110RKI20 110RKI40 110RKI60 110RKI80 16RIA10 16RIA100 16RIA120 16RIA140 16RIA160 16RIA20 16RIA40 16 6 16RIA80 180RKI100 180RKI20 180RKI40 180RKI60 180RKI80 22RIA10 22RIA100 22RIA120 22RIA140 22RIA160 22RIA20 22RIA40 22RIA60 22RIA80 25RIA10 25RIA100 25RIA120 25RIA140 25RIA160 25RIA20 25RIA40 25RIA60 25RIA80 2N1792 2N1793 50 2N1794 2N1795 2N1796 2N1797 2N1798 2N1799 2N1800 2N1801 2N1802 2N1803 2N1804 2N1805 2N1806 2N1807 2N1909 2N1910 2N1911 2N1912 2N1913 2N1914 2N1915 2N1916 2N2023 2N2024 2N2025 2N2026 2N2027 2N2028 2N2029 2N2030 2N2326 2N3091 2N3092 2N3093 2N3094 2N3095 2N3096 2N3097 2N3098 2N4171 2N5060 2N5061 2N5062 2N5063 2N5064 2N5204 2N5205 2N5206 ECG246 ECG2547 ECG265 ECG247 ECG2548 ECG266 ECG248 ECG2551 ECG267 ECG249 ECG2552 ECG268 ECG250 ECG2553 ECG269 ECG251 ECG2554 ECG272 ECG252 ECG2555 ECG273 ECG253 ECG2556 ECG274 ECG254 ECG2559 ECG275 ECG2540 ECG2560 MMBT6427LT1 ECG2541 ECG258 MMBTA13LT1 ECG2542 ECG26
35. 450DY 514480DY SI4946EY SI4980DY 51633100 51643400 SI6802DQ SI6925DQ SI6926DQ SI6954DQ S19426DY SI9802DY SI9804DY SI9925DY SI9926DY RFG60P03 RFG60P05E RFG60P06E RFP15P05 RFP15P06 RFP30P05 RFP30P06 RFP 60P03 RFP8P06E RFP8P06LE RFT1P06E 513455DV 513457DV SI4425DY SI4925DY SI4948EY SI6332DQ SI6415DQ 51645900 SI6933DO S19424DY SI9803DY SI9934DY 53 Operational Amplifiers 46 Devices LF347 1M324 OPAMP 5 TLO52 TL070 TL081 TL088 LF351 LM348 TL022C TL054 TL071 TL082 TL321 LF353 LM358 TL031 TL060 TL072 TL083 TL322 LF411C LM3900 TL032 TL061 TL074 TL084 UA741 LF412C MC1458 TL034 TL062 TL075 TL085 UA747 LM2902 MC3403 TL044C TL064 TL080 TL087 UA748 LM307 NE5534 TL051 TL066 Voltage Comparators 5 Devices LM111 LP111 LP211 LM339 SWCOMP Crystals 103 Devices 1 000MHZ 6 144MHZ ECS 200 20 1 ECS 35 17 1 ECS 42 12 1 ECS 60 32 1 1 8432MHZ 8 000MHZ ECS 200 20 4 ECS 35 17 4 ECS 42 12 4 ECS 60 32 4 10 000MHZ ECS 3271213 ECS 200 20 7 ECS 35 17 7 ECS 44 20 1 ECS 61 32 1 11 000MHZ ECS 327814 ECS 20 20 1 ECS 35 2 ECS 44 20 4 ECS 61 32 4 12 000MHZ ECS 10 13 1 ECS 20 20 2 ECS36 4322P 8 44 20 7 ECS 61 32 7 15 000MHZ ECS 10 13 2 ECS 21 32 2 ECS 36 18 1 ECS 44 32 2P 5 65 12 1 16 000MHZ ECS 10 8 14 ECS 240 16 4 ECS 36 18 4 ECS 49 20 1 ECS 65 20 4 2 000MHZ ECS110 5201 ECS 240 16 7 ECS 36 20 7 ECS 49 20 4 ECS 73 20 1 2 4576MHZ ECS110 5204 ECS 240 20 1 ECS 37 32 2P ECS 49 20 7 ECS 73 20 4 20 000MHZ ECS110 5207 EC
36. 49NQ150R 50W004F 30B0015 50W005F 30BQ040 50W006F 30BQ060 50WQ09F 30BQ100 50W010F 30FQ035 51 0035 30FQ040 51HQ040 30FQ045 51H0045 30WQ03F 55HQ030X 30WQ04F 60H0080 30W005F 60HQ100 30WQ06F 6TQ035 30WQ09F 6TQ035S 30WQ10F 6T0040 310003 6TQ045 31DQ04 6TO0455 310005 75HQ035 31DQ06 75HQ040 31DQ09 75 0045 ZY100 2Y11 AYILO 2712 ZY120 ZY13 zY130 4Y15 ZY150 ZY16 ZY160 ZY18 ZY180 ZY20 ZY200 ZY22x ZY24 2ZY27 4Y 329 ZY30x Zy33x ZY36x ZY39 ZY4_3 ZY4_7 ZY43 ZY5_1 ZY5_6 ZY51 ZY56x ZY6 2 276 8 ZY62 ZY68 AYI SE ZY 19 ZY8 2 ZY82x 179 14 2914 8050035 8050040 8050045 85 035 85 040 85 045 8 0080 8 00805 8TQ100 8TQ100S 90SQ035 9050040 9050045 95 015 9550015 MBR1035 MBR1045 MBR1635 MBR1645 MBR735 MBR745 MBR7535 MBR7545 SD41 SD51 SKYDIODE 47 Diode Bridge Rectifiers 53 Devices 18DB05 18DB1 18DB10 18DB2 18DB4 18DB6 18DB8 1B020 1B040 1KAB10 1KAB100 1KAB20 1KAB40 1KAB5 1KAB60 1KAB80 2KBB10 2KBB100 2KBB20 2KBB40 2KBB5 2KBB60 2KBB80 2KBP005 2KBP01 2KBP02 2KBPO4 2KBP06 2KBP 08 2KBP10 BRIDGE DF005 DFOI DF02 DF04 DF06 DF08 DF10 KBPC1005 Bipolar Junction Transistors NPN 507 Devices 2N1893 BC368 2N2102 BC394 2N2218A BC489 2N2219 BC489A 2N2219A BC489B 2N2222 BC546A 2N2222A BC546B 2N2270 BC547A 2N2369 BC547B 2N2369A BC547C 2N2484 BC548A 2N2
37. 7 44 1N1187A 1N34 1N462A 1N1188 1N3670A 1N463A 1N1188A 1N3671A 1N4934 1N1189 1N3672A 1N4938 1N1189A 1N3673A 1N5162 1N1190 1N3735 1N5282 1N1190A 1N3736 1N5400 1N1199A 1N3737 1N5401 1N1200A 1N3738 1N5402 1N1201A 1N3739 1N5404 1N1202A 1N3740 1N5406 1N1203A 1N3741 1N5407 1N1204A 1N3742 1N5408 1N1205A 1N3743 1N914 1N1206A 1N3765 1N914A 1N2054 1N3766 1N914B 1N2055 1N3767 1N916 1N2057 1N3768 1N916A 1N2059 1N4001 1N916B 1N2061 1N4002 200CNQ035 1N2064 1N4003 200CNQ040 1N2066 1N4004 200CNQ045 1N2067 1N4005 200HF100PV 1N2068 1N4006 200HF120PV 1N2128A 1N4007 200HF140PV 1N2129A 1N4044 200HF160PV 1N2130 1N4045 200HF20PV 1N2131A 1N4046 200HF40PV 1N2133A 1N4047 200HF 60PV 1N2135A 1N4048 200HF80PV 1N2137A 1N4049 201CMQ045 1N2138A 1N4050 201CNQ035 1N3064 1N4051 201CNQ040 1N3070 1N4052 201CNQ045 1N3085 1N4053 201CNQ050 1N3086 1N4054 203CMQ100 1N3087 1N4055 203CNQ080 1N3088 1N4056 203CNQ100 1N3089 1N4148 208CMQ060 1N3090 1N4149 208CNQ060 1N3091 1N4150 209CMQ150 1N3092 1N4151 209CNQ150 1N3111 1N4152 20CTQ035 1N3208 1N4153 20CTO035S 1N3209 1N4154 20CTO040 1N3210 1N4244 20CTQ045 1N3211 1N4305 20 00455 1N3212 1N4446 21PT10 1N3213 1N4447 21PT20 1N3214 1N4448 21PT40 1N3288A 1N4454 21PT5 1N3289A 1N456 21PT60 1N3290A 1N456A 220CMQ030 1N3291A 1N457 220CNQ025 1N3292B 1N457A 220CNQ030 1N3293A 1N458 224CNQ035 1N3294A 1N458A 224CNQ040 1N3295A 1N459 224CNQ045 1N3296A 1N459A 225CNQ015 CircuitMa
38. 85C68 DL5254B 1N4754A 1N5343B 1N758 BZGO5C6V8 BZX55C7V5 BZX85C6V2 DL5255B 1N4755 1N5344B 1N758A BZGO5C7V5 BZX55C8V2 BZX85C6V8 DL5256B 1N4755A 1N5345B 1N759 BZGO5C8V2 BZX55C9V1 12 85 75 DL5257B 1N4756 1N5346B 1N759A BZGO5C9V1 BZX84C10LT1 BZX85C7V5 DL5258B 1N4756A 1N5347B 1N957B BZT52C10 BZX84C11LT1 BZX85C8V2 DL5259B 1N4757 1N5348B 1N958B BZT52C11 BZX84C12LT1 BZX85C9V1 DL5260B 1N4757A 1N5349B 1N959B BZT52C12 BZX84C13LT1 DL4730A DL5261B 1N4758 1N5350B 1N960B BZT52C13 BZX84C15LT1 DL4731A DL5262B 1N4758A 1N5351B 1N961B BZT52C15 BZX84C16LT1 DL4732A DZ23C10 1N4759 1N5352B 1N962B BZT52C16 BZX84C18LT1 DL4733A DZ23C11 1N4759A 1N5353B 1N963B BZT52C18x BZX84C20LT1 DL4734A DZ23C12 1N4760 1N5354B 1N964B BZT52C20 BZX84C22LT1 DL4735A DZ23C13 1N4760A 1N5355B 1N965B BZT52C22 BZX84C24LT1 DL4736A DZ23C15 1N4761 1N5356B 1N966B BZT52C24 BZX84C27LT1 DL4737A DZ23C16 1N4761A 1N5357B 1N967B BZT52C27 BZX84C2V4LT1 DL4738A DZ23C18 1N4762 1N5358B 1N968B BZT52C2V7 BZX84C2V7LT1 DL4739A DZ23C20 CircuitMaker PRO only 46 DZ23C22 DZ23C24 DZ23C27 DZ23C2V7 DZ23C3 DZ23C30 DZ23C33 DZ23C36 DZ23C39 DZ23C3V3 DZ23C3V6 DZ23C3V9 DZ23C43 DZ23C47 DZ23C4V4 DZ23C4V7 DZ23C51 DZ23C5V1 DZ23C5V6 DZ23C6V2 DZ23C6V8 DZ23C7V5 DZ23C8V2 DZ23C9V1 DZ89C10 DZ89C100 DZ89C11 DZ89C110 DZ89C12 DZ89C120 DZ89C13 DZ89C130 DZ89C15 DZ89C150 DZ89C16 DZ89C160 DZ89C18 DZ89C180 DZ89C20 DZ89C200 DZ89C22 DZ89C24 DZ89C27 DZ89C3
39. 88083 P121 P123 SUP 65P06 20 SUP70N06 14 SUP 75N06 08 TLV235413 TLV235415 ZTX696B ZTX704 ZTX705 ZTX749 ZTX750 ZTX751 ZTX757 ZTX758 ZTX788A ZTX788B ZTX789A ZTX790A ZTX792A ZTX795A ZTX796A ZTX948 ZTX949 ZTX951 ZTX953 ZTX955 ZTX956 ZTX957 ZTX958 ZTX968 59 MICRO ODE ENGINEERING IHE Copyright 1998 MicroCode Engineering Inc 927 West Center Street Orem UT 84057 Phone 801 226 4470 Fax 801 226 6532 www microcode com
40. 895 BC548B 2N2896 BC548C 2N3019 BC635 2N3020 BC637 2N3053 BC639 2N3053A BC817 16LT1 2N3055 BC817 25 2N3500 BC817 40 2N3501 BC818 25 2N3507 BC818 40 2N3700 BC846A 2N3903 BC846ALTI 2N3904 BC846BLT1 2N3947 BC847A 2N4014 BC847ALTI 2N4123 BC847BLT1 2N4124 BC847C 2N4264 BC847CLT1 2N4265 BC848ALTI 2N4400 BC848BLT1 2N4401 BC848CLTI 2N4410 BC849ALTI 2N5088 BC849BLT1 2N5089 BC849C 2N5209 BC850ALTI 2N5210 BC850BLT1 2N5550 BC850CLT1 2N5551 BCP54 2N6431 BCP56 10T1 2N6515 BCP56 16T1 2N6516 BCP56T1 2N6517 BCP68T1 2N930 BCW31 2N930A BCW33 BC140 10 BCW60ALT1 BC140 16 BCW60BLT1 BC141 10 BCW60DLT1 BC141 16 BCW65C BC337 16 BCW71 BC337 25 BCX19LT1 BC337 40 BCX20LT1 BC338 16 BCX70GLT1 BC338 25 BCX70JLT1 BC338 40 BCX70KLT1 48 ECG241 ECG2428 ECG2430 ECG2501 ECG2503 ECG2504 ECG2505 ECG2506 ECG2507 ECG2508 ECG2510 ECG2511 ECG2513 ECG2515 ECG2517 ECG2519 ECG2521 ECG2522 ECG2524 ECG2526 ECG2528 ECG2530 ECG2533 ECG2534 ECG2536 ECG2538 ECG2539 ECG255 ECG2561 ECG2562 ECG2564 ECG2566 ECG2568 ECG2570 ECG2572 ECG2574 ECG2576 ECG2578 ECG2579 ECG2580 ECG2581 ECG2582 ECG2583 ECG2584 ECG2585 ECG2586 ECG2588 ECG2590 ECG2591 ECG2592 ECG2593 ECG2594 ECG2596 ECG2597 ECG2598 BDCO1D ECG186 BDC05 ECG186A BF199 ECG188 BF224 ECG190 BF240 ECG191 BF258 ECG194 BF374 ECG196 BF391 ECG198 BF392 ECG199 BF393 ECG20 BF420 ECG210 BF422 ECG216 BF720 ECG22 BF844
41. Analog Only Passive Components Resistors These devices include the SPICE data for simulating resistor packs The value of the resistors is specified in the Label Value field dill en o HEH Ron Gan Rap man ponp Resistor Resistor A Analog Digital Passive Components Resistors r These devices include the SPICE data for simulating a resistor The value of the resistor is specified in the Label Value field In digital simulation mode when connected directly to a V or a Ground it acts like a standard pull up or pull down resistor Otherwise it acts as an open in digital simulation mode Example circuits ROCKET CKT ANALOG CKT mr TL SemiResistor SemiResistorA Analog Only Passive Components Resistors This device includes the SPICE data for simulating a semiconductor resistor Semiconductor resistors may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit vvv DOH 31 Var Resistor Var ResistorA Analog Only Passive Components Resistors R These devices include the SPICE data for simulating two fixed resistors by setting the following defaults Label Value 10k 4090 Spice Data DA 1 2 4k DB 2 3 6k where the total resistance is 4k 6k 10k The values in the Spice Data field are adjusted automatically by changing the Label Value ka Rocket Analog Digital Digital Output Devices This is an
42. BZX85C18 DL5231B 1N4743A 1N5246B 1N746A BZG03C39 BZX55C2v4 BZX85C20 DL5232B 1N4744 1N5247B 1N747 BZG03C43 BZX55C2V7 BZX85C22 DL5233B 1N4744A 1N5248B 1N747A BZG03C47 BZX55C30 BZX85C24 DL5234B 1N4745 1N5249B 1N748 BZGO3C51 BZX55C33 BZX85C27 DL5235B 1N4745A 1N5250B 1N748A BZG03C56 BZX55C36 BZX85C2V7 DL5236B 1N4746 1N5251B 1N749 BZG03C62 BZX55C39 BZX85C30 DL5237B 1N4746A 1N5252B 1N749A BZG03C68 BZX55C3V0 BZX85C33 DL5238B 104747 1N5253B 1N750 BZG03C75 BZX55C3v3 BZX85C36 DL5239B 1N4747A 1N5254B 1N750A BZG03C82 BZX55C3V6 12 85 39 DL5240B 1N4748 1N5255B 1N751 BZG03C91 BZX55C3V9 BZX85C3V0 DL5241B 1N4748A 1N5256B 1N751A BZG05C10 BZX55C43 BZX85C3V3 DL5242B 1N4749 1N5257B 1N752 BZGO5C11 BZX55C47 BZX85C3V6 DL5243B 1N4749A 1N5258B 1N752A BZGO5C12 BZX55C4v3 BZX85C3V9 DL5244B 1N4750 1N5259B 1N753 BZG05C13 BZX55C4V7 BZX85C43 DL5245B 1N4750A 1N5260B 1N753A BZG05C15 BZX55C51 BZX85C47 DL5246B 1N4751 1N5261B 1N754 BZGO5C3V3 BZX55C56 BZX85C4V3 DL5247B 1N4751A 1N5262B 1N754A BZGO5C3V6 BZX55C5V1 BZX85C4V7 DL5248B 1N4751B 1N5263B 1N755 BZGO5C3V9 BZX55C5V6 BZX85C51 DL5249B 104752 1N5264B 1N755A BZGO5C4V3 BZX55C62 BZX85C56 DL5250B 1N4752A 1N5265B 1N756 BZG05C4V7 BZX55C68 BZX85C5V1 DL5251B 1N4753 1N5266B 1N756A BZGO5CSV1 BZX55C6V2 BZX85C5V6 DL5252B 1N4753A 1N5267B 1N757 BZGO5C5V6 BZX55C6V8 BZX85C62 DL5253B 1N4754 1N5342B 1N757A BZGO5C6V2 BZX55C75 BZX
43. CircuitMaker un 741510 MPSA06 1N4004 o JE Q6004L4 o 7 o o o o o o lmH o INF IRGB420U 12VSPDT ir IRF634S 2N5457 10v JAL Device Library Guide CircuitMaker 6 CircuitMaker PRO Revision C Table of Contents Device Symbols Digital ICs 40 SPICE Models 44 Diodes 44 Zener Diodes 46 Schottky Diodes 47 Diode Bridge Rectifiers 48 Bipolar JunctioanBistors NPN 48 Bipolar JunctivanBistors PNP 49 Darlington BUT Silicon Controlled Rectifiers Triacs JFETS IGBE MOSFET s N channel MOSFET s P channel Operational Amplifiers Voltage Comparators Crystals Vacuum Tubes Transformers Math Functions Relay Coils Contacts Misc Analog Devices 7400 series TTL FAST Low power Schottkey TTL Shottkey TTL 4000 series CMOS Vendor Supplied SPICE Models Comlinear Elantec Harris Semiconductor Lineare hnology Maxim Motorola National Semiconductor Polyfet Siliconix Texas Instruments Zetex Gdadadaqdo ummuuduxXAXXXXUOBBEHGSG S S V Device Symbols The device symbols are stored in two files DEVICE LIB and USER LIB All macro devices created by the user are stored in USER LIB Devices can be selected from the libraries in various ways refer to Chapter 4 Drawing and Editing Schematics in the User Manual Once you have selected a device it will follow the mouse to any position within the drawing window If the portion of the work area w
44. FUO24 IRFU110 IRFU120 IRFU210 IRFU214 IRFU220 IRFU221 IRFU222 IRFU224 IRFU310 IRFU320 IRFU321 IRFU322 IRFU410 IRFU420 IRFU421 IRFU422 IRFUC20 IRFZ14 IRFZ14S IRFZ20 IRFZ24 IRFZ24S IRFZ34 IRFZ34S IRFZ44 IRFZ44S IRFZ46 IRFZ46S IRFZ48 IRFZ48S IRL2203 IRL2203S IRL3705 IRL510 MOSFETs P Channel IRL510S IRL520 IRL520S IRL530 IRL530S IRL540 IRL540S IRL620S IRL630S IRL640S IRL9705S IRLDO14 TRLDO24 IRLD110 IRLD120 IRLI2203G IRLI3705G IRLI520G IRLI530G IRLI540G IRLI620G IRLI630G IRLI640G IRLIZ14G IRLIZ24G IRLIZ34G IRLIZ44G IRLLO14 IRLL110 IRLRO14 IRLRO24 IRLR110 IRLR120 IRLSOZO IRLUO14 TRLUO24 IRLU110 IRLU120 IRLZ14 IRLZ14S IRLZ24 IRLZ24S IRLZ34 IRLZ34S 166 Devices IRF7104 IRF9530S IRF7202 IRF9531 IRF7203 IRF9532 IRF7204 IRF9533 IRF7205 IRF9540 IRF9140 IRF9540S IRF9141 IRF9541 IRF9142 IRF9542 IRF9143 IRF9543 IRF9230 IRF9610 IRF9231 IRF9610S IRF9232 IRF9620 IRF9233 IRF9620S IRF9240 IRF9630 IRF9241 IRF9630S IRF9242 IRF9640 IRF9243 IRF9640S IRF9510 IRF9641 IRF9510S IRF9642 IRF9511 IRF9643 IRF9512 IRF9Z14 IRF9513 IRF9Z14S IRF9520 IRF9224 IRF9520S IRF9Z24S IRLZ44 MTDIN80E MTP35N06ZL IRLZ44S MTD20N03HDL MTP36N06V MMDFINOSE MTD20N06HD MTP3N100E MMDF2N02E MTD20NO6HDL MTP3N120E MMDF3N02HD MTD20N06V MTP3N50E MMDF3NO3HD MTD2N40E MTP3N60E MMDF4NO1HD MTD2N50E MTP4N40E MMFTINIOE MTD3055V MTP4N50E MMFT2NO2EL MTD3055VL MTP4N80E MMFT3055V MTD
45. G387 MMBT2222ALT1 ECG388 MMBT2222LT1 ECG389 MMBT2369ALTI ECG390 MMBT2369LT1 ECG392 MMBT2484LT1 ECG394 MMBT3904 ECG396 MMBT4124 ECG399 MMBT4401 ECG40 MMBT5088 ECG42 MMBT5089 ECG44 MMBT5179 ECG47 MMBT5550LT1 ECG472 MMBT5551 MMBT6428LT1 MMBT6429LT1 MMBT6517 MMBT918 MMBTAOSLTI MMBTA06 MMBTA20LT1 MMBTA42 MMBTA43 MMBTA43LT1 MMBTH10 MMBTH11 MMBTH20 MMBTH24 MMPQ2222 MMPQ2222A MMPQ2369 MMPQ3725 MMPQ3904 MMPQ6842 MPQ2222 MPQ2222A MPQ2369 MPQ2483 MPQ2484 MPQ3725 MPQ3904 MPQ7041 MPQ7042 MPQ7043 MPS2222 MPS2222A MPS2369 MPS2369A MPS2711 MPS2712 MPS2713 MPS2714 MPS3563 MPS3646 MPS3866 MPS3904 MPS4123 MPS4124 MPS5179 MPS650 MPS6507 MPS651 MPS6520 MPS6521 MPS6530 MPS6531 MPS6560 MPS6568A MPS6571 MPS6595 MPS6601 MPS6602 MPS6714 MPS6715 MPS6717 MPS8050 MPS8098 MPS8099 MPS918 MPSAO5 MPSA06 MPSA16 MPSA17 MPSA18 MPSA42 MPSA43 MPSA44 MPSHO4 MPSH10 5 11 5 20 5 24 5 34 MPSLO1 MPSW01 MPSWO1A MPSWO5 MPSWO6 MP SW10 MPSW42 MSC1621 MSC2295B Bipolar Junction Transistors PNP 341 Devices 2N2904 2N2904A 2N2905 2N2905A 2N2906 2N2906A 2N2907 2N2907A 2N2955 2N3244 2N3250 2N3251 2N3251A 2N3467 2N3468 2N3497 2N3546 2N3634 2N3635 2N3636 2N3637 2N3799 2N3905 2N3906 2N3963 2N3964 2N4032 2N4033 2N4036 2N4037 2N4125 2N4126 2N4258 2N4402 2N4403 2N4405 2N4407 2N4931 2N5086 2N5087 2N5087 2N5400 2N5401 2N5771 2N6433 2N6519 2N6520
46. LP2901 LP339 Zetex 169 Devices 2N6715 BC307AP 2N6727 BC308AP 2SA1213 BC337AP 2SC2873 BC338AP BAL74 BC413BP BAL99 BC414BP BAR74 BC415AP BAR99 BC416AP BAS16 BC546BP BAS19 BC547BP BAS20 BC548BP BAS21 BC549BP BC107BP BC550BP BC108BP BC556AP BC109BP BC557AP BC177AP BC558AP BC178AP BC559AP BC182BP BC560AP BC183BP BC846B BC184BP BC847B BC212AP BC848B BC213AP BC849B BC237BP BC850B BC238BP BC856A BC239BP TLC339 TLC352 BC857A BC858A BC859A BC860A BCV72 BCW29 BCW32 BCW60C BCW61A BCW65A BCW66F BCW67A BCW68F BCW69 BCW72 BCW89 BCX38B 70 BCX71G BFQ31 BFS60 FCX458 FCX558 FCX649 L88016 L88081 L88082 Si9434DY SUP60NO6 18 TLV235213 TLV235215 21X239 ZTX239B ZTX320 ZTX321 ZTX337A ZTX338A ZTX450 ZTX454 ZTX455 21X458 21X550 21X558 21X604 ZTX605 21X649 ZTX650 ZTX651 ZTX657 ZTX658 ZTX688B ZTX689B ZTX690B ZTX692B F1260 F2012 22025 2001 F2021 L88008 F2002 F2201S L88012 Si6447DQ Si6955DQ Si9936DY Si6943DQ Si6956DQ Si9947DY Si6946DQ Si6953DQ Si9933DY TLC354 TLC3704 TLC374 TLC3702 TLC372 TLC393 FCX749 FZT758 FMMD6050 FZT788A FMMD914 FZT788B FMMT38B FZT789A FMMT597 FZT790A FMMT918 FZT792A FMMTA20 HD3A FMMTA70 MPSA20 FZT604 ZTX107 FZT605 ZTX107B FZT649 ZTX108 FZT651 ZTX108B FZT657 ZTX109 FZT658 ZTX109B FZT688B ZTX212 FZT689B ZTX212A FZT690B ZTX213 FZT692B ZTX214 FZT694B ZTX214A FZT696B ZTX231A FZT705 ZTX237 FZT749 ZTX237B FZT751 ZTX238 FZT757 ZTX238B ZTX694B L
47. Label Value field In digital simulation mode the lamp will light when one terminal is high and the other terminal is low Each lamp may be a different color LED Analog Digital Displays Diode This is a Light Emitting Diode In digital mode it will light when a low level is applied to its cathode and a high level is applied to its anode Different colors can be selected for each LED This device also includes the SPICE data for simulating an LED LEDs may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit Example circuit OPTO CKT Logic Display Analog Digital Displays Digital Only This is a simple logic state indicator intended for use mainly in Digital simulation mode It has only one pin and indicates whether the state is low display off or high display on Double click on the Logic Display to change its color This device can also be used in Analog simulation mode but it does not light Example circuit LED CKT 18 Logic Switch Analog Digital Switches Digital This is a switch which provides either a Low or a High logic level when in digital simulation mode and two programmable voltage levels while in analog simulation mode When in analog mode the default voltages levels are Ov and 5v To change the voltage levels select the switch by dragging a selection rectangle around it double click on it
48. P10 IRFI9640G IRFU9120 MTP23P06V IRFI9Z14G IRFU9210 MTP2955V IRFI9Z24G IRFU9220 MTP2P50E IRFI9Z34G IRFU9220 MTP30P06V IRFIP9140 MMDF2PO1HD 5 IRFIP9240 MMDF2PO2E MTP5P06V IRFL9014 MMDF2P02HD MTP6P20E IRFL9110 MMDF2P03HD MTSF1P02HD IRFP9140 MMFT2955E MTSF2P02HD IRFP9240 MMSF2P02E PMOS CircuitMaker PRO only MTY14N100E MTY16N80E MTY20N50E MTY25N60E MTY30N50E MTY55N20E NMOS RF1S22N10 RF1S22N10SM RF1S25N06 RF1S25N06SM RF1S40N10 RF1S40N10SM RF1S42N03 RF1S42N03L RF1S42N03LSM RF1S42N03SM RF1S45N02L RF1S45NO2LSM RF1S45N06 RF1S45N06SM RF1S50N06 RF1S50N06SM RF15540 RF1S540SM RF1S640 RF1S640SM RF1S644 RF1S644SM RF1S70N03 RF1S70N03SM RF1S70N06 RF1S70N06SM RFD14N05 RFD14N05SM RFD14N06 RFD14N06SM RFD16N05 RFD16N05SM RFD16N06 RFD16N06SM RFD3055 RFD3055SM RF1S30P05 RF1S30P05SM RF1S30P06 RF1S30P06SM RF1S60P03 RF1S60P03SM RF1S9530 RF1S9530SM RF1S9540 RF1S9540SM RF1S9640 RF1S9640SM RFD15P05 RFD15P05SM RED15P06 RFD15P06SM RFD8P06E RFD8PO6ESM RFD8P06LE RFD8P06LESM RFF60P06 RFG30P05 RFG30P06 RFF 70N06 RFG40N10 RFG45N06 REG50N06 REG70N06 REK70N06 REL1N12 RFLIN15 RFL1N18 REL1N20 RFL2N05 RFL2N06 RFP14N05 REP14N06 RFP22N10 RFP25N05 REP25N06 RFP3055 RFP40N10 RFP42N03 RFP42N03L RFP45N02L RFP45N06 REPSONO6 RFP70N03 REP70N06 SI3442DV 514420DY SI4
49. RAM keep the WE pin high and pull the CS pin low For debugging purposes you can edit the contents of the RAM 4x4 Switch Analog Digital Switches Matrix This is a 4x4 switch matrix Clicking on one of the buttons closes a switch which connects one of the horizontal pins to one of the vertical pins The switch remains closed until another button is clicked If you try to activate the switch while running an analog simulation CircuitMaker will ask if you want to rerun the simulation with the switch in the new position Example circuit 4X4 CKT ElET TE fel fal Aa asa ot Pale 555 Timer Analog Only Linear ICs Timers This device includes the SPICE data for simulating a 555 Timer Timers may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit When creating astable circuits initial conditions will be required on the timing capacitor in order for SPICE to converge on a solution For monostable operation the component model subcircuit should be used rather than the macromodel subcircuit Example circuit 555 CKT AC Outlet AC Plug Analog Only Schematic Connectors Misc These devices are included for schematic purposes however the AC Outlet may be included during Analog simulations Each contact is treated as having a very high shunt resistance 1E 12 to ground eq ADCO800 Analog Only Data Converters A D
50. S 240 20 4 ECS38 59202 ECS498 6201 ECS76 8201 24 000MHZ ECS 120 32 1 5 240 20 7 ECS 39 17 1 ECS 50 20 1 ECS 80 20 1 3 000MHZ ECS129 6184 ECS 24 32 1 ECS 3X8 ECS 50 20 4 ECS98 3201 3 2768MHZ ECS 153 20 4 5 24 32 2 ECS40 3201 ECS 51 20 1 ECS98 3207 3 5795MHZ ECS162 5204 ECS25 6322P ECS 40 20 1 ECS 51 20 4 R145 32 768 3 6864MHZ ECS 18 13 1 ECS 29 4322P ECS 40 20 4 5 52 32 1 R26 32 768 4 000MHZ ECS 18 13 2 ECS 30 32 2 ECS 40 20 7 5 52 32 4 R38 32 768 5 000MHZ ECS196 6201 ECS 32 17 1 ECS 41 20 1 359 9201 RSM200S32 76 6 000MHZ Vacuum Tubes 7 Devices 12AU7 12AX7 5879 6L6GC 6SN7 7199P 7199T Transformers 11 Devices 10tol ltol 1601 1605 2tolcT 5tol 5tolCT 10to1CT 1to10 1to2 2tol Math Functions 63 Devices ABSI ADDI ATANHI COSI LNI SINHI SUBI ABSV ADDV ATANHV COSV LNV SINHV SUBV ABSVR ADDVR ATANHVR COSVR LNVR SINHVR SUBVR ACOSHI ASINHI ATANI DIVI LOGI SINI TANI ACOSHV ASINHV ATANV DIVV LOGV SINV TANV ACOSHVR ASINHVR ATANVR DIVVR LOGVR SINVR TANVR ACOSI ASINI COSHI EXPI MULTI SQRTI UNARYI ACOSV ASINV COSHV EXPV MULTV SORTV UNARYV ACOSVR ASINVR COSHVR EXPVR MULTVR SQRTVR UNARYVR 54 Relay Coils Contacts 5 Devices 120VCOIL 12VCOIL 24VCOIL Misc Analog Devices 17 Devices 10tol ltol 10to1CT 16010 1601 1602 7400 series TTL 9 Devices 7406 7425 7407 7428 FAST 92 Devices 74F00 74F37 74F02 74F40 7404 74774 74F06 74F83 74 07 74F85 74F08 74F86 74 10 74F109 74611 74F1
51. S SD1500C22L MBRB2080CTS SD1500C24L MBRB2090CTS SD150N02PV MBRB2100CTS SD150N04PV MMAD1108 SD150N06PV MMAD1109 SD150N08PV MMBD2835 SD150N10PV MMBD 2836 SD150N12PV MMBD6050 SD150N14PV MMBD6100 SD150N16PV MMBD7000 SD150N18PC MMBD914 SD150N20PC MSD6100 SD150N22PC MSD6150 SD150N24PC SC1500C25L SD150N25PC SC1500C26L SD1700C24K SC1500C28L SD1700C25K SC1500C30L SD1700C26K SD1100C02C SD1700C28K SD1100C02L SD1700C30K SD1100C04C SD1700C32K SD1100C04L SD1700C34K SD1100C06C SD1700C36K SD1100C06L SD1700C38K SD1100C08C SD1700C40K SD1100C08L SD1700C42K SD1100C10C SD1700C44K SD1100C10L SD1700C45K SD1100C12C SD2000C02L SD1100C12L SD2000C04L SD1100C14C SD2000C06L SD1100C14L SD2000C08L SD1100C16C SD2000C10L SD1100C16L SD200N02PV SD1100C18C 50200 04 CircuitMaker PRO only SD200NO6PV SD200N08PV SD200N10PV SD200N12PV SD200N14PV SD200N16PV SD200N18PC SD200N20PC SD200N22PC SD200N24PC SD241 SD300C02C SD300C04C SD300C06C SD300C08C SD300C10C SD300C12C SD300C14C SD300C16C SD300C18C SD300C20C SD300C22C SD300C24C SD300C25C SD300C26C SD300C28C SD300C30C SD300C32C SD300N02PV SD300N04PV SD300N06PV SD300N08PV SD300N10PV SD300N12PV SD300N14PV SD300N16PV SD300N18PC SD300N20PC SD300N22PC SD300N24PC SD300N25PC SD300N26PC SD300N28PC SD300N30PC SD300N32PC SD400C02C SD400C04C SD400C06C SD400C08C 5 400 10 5
52. SR17A NS BSR18A NS BSS63 NS BSS64 NS BSV52 NS LF155 NS LF156 NS LF157 NS LF255 NS LF256 NS LF257 NS LF351 NS LF353 NS LF355 NS LF356 NS LF357 NS LF411 NS LF412 NS LF441A NS LF441B NS LF442A NS LF442B NS LF444A NS 58 LF444B NS LM6262 NS LF451 NS LM6264 NS LF453 NS LM6265 NS LM111 NS LM6317 NS LM118 NS LM6361 NS LM124 NS LM6362 NS LM158 NS LM6364 NS LM218 NS LM6365 NS LM224 NS LM7121 NS LM258 NS LM7131A NS LM2902 NS LM7131B NS LM2904 NS LM7171A NS LM318 NS LM7171B NS LM324 NS LM7301 NS LM358 NS LM741 NS LM6118 NS LMC6001A NS LM6132A NS LMC6001B NS LM6132B NS LMC6022 NS LM6142A NS LMC6024 NS LM6142B NS LMC6032 NS LM6152A NS LMC6034 NS LM6152B NS LMC6035 NS LM6161 NS LMC6036 NS LM6162 NS LMC6041A NS LM6164 NS LMC6041B NS LM6165 NS LMC6042A NS LM6171A NS LMC6042B NS LM6171B NS LMC6044A NS LM6172 NS LMC6044B NS LM6181 NS LMC6061A NS LM6218 NS OP215A OP215C OP215E MAX4212 MAX4216 MAX4220 MAX4223 MAX4224 MAX4225 MAX4226 MAX4227 MAX4228 MAX4278 MAX427 MC33182 MC33184 MC33204 MC33272 MC33274 MC33282 LMC6061B NS LMC6062A NS LMC6062B NS LMC6064A NS LMC6064B NS LMC6081A NS LMC6081B NS LMC6082A NS LMC6082B NS LMC6084A NS LMC6084B NS LMC6462A NS LMC6462B NS LMC6464A NS LMC6464B NS LMC6482A NS LMC6484A NS LMC6492A NS LMC6492B NS LMC6494A NS LMC6494B NS LMC6572A NS LMC6572B NS LMC6574A NS LMC6574B NS LMC6582A NS LMC6582B NS LMC6584A NS LMC6584B NS LMC660A NS OP215G OP227E
53. an be created as macros or by importing Spice compatible subcircuits User defined devices are permanently stored in the library files and can be used just like any other device Refer to Chapter 16 Creating New Devices in the user manual for more informa tion V Analog Digital Analog Power 1 In analog simulation mode this device provides a fully programmable DC power supply It can be programmed for either a positive or negative voltage It always uses the ground node as a reference In digital simulation mode it provides a fixed High state By removing the Spice Data and Spice Prefix the Bus Data can be used to link nodes together Example circuits LOCK CKT ANALOG CKT V CL Analog Only Analog SPICE Controls 1 Wire an IC device to any node that needs IC Initial Conditions programmed Double click on the device and set the Label Value field to the desired initial value Example circuit 555 CKT CI NODESET Analog Only Analog SPICE Controls N Wire a NODESET device to any node that needs Nodeset programmed Double click on the device and set the Label Value field to the desired Nodeset value Example circuit BISTABLE CKT 1K RAM Analog Digital Digital RAM PROM This is a 1024 x 8 Random Access Memory Multiple RAM chips may be used in a single circuit or macro However RAM data is not saved with the circuit or macro Both the CS and WE pins must be pulled low to write into the RAM To read from the
54. ane with the mouse It also contains a single pole double throw switch that is activated when the window is opened or closed Example circuit ALARM CKT Basic Logic Devices Analog Digital Digital the minor class varies Basic logic devices include a variety of common gates and flip flops Most of the gates are provided with their DeMorgan equivalents Example circuit 4X4 CKT Buffers Output will follow the input 3 State Buffers If the output is enabled output will follow the input Inverters If the input is high output will be low AND gates If all inputs high output will be high 2 3 and 4 inputs OR gates If any input high output will be high 2 3 and 4 inputs NAND gates If all inputs high output will be low 2 3 4 and 8 inputs NOR gates If any input high output will be low 2 3 4 and 8 inputs XOR gates If only one input 1s high output will be high 2 inputs XNOR gates If only one input is high output will be low 2 inputs D Flip flops Output follows the input when clock occurs JK Flip flops Output based on J and K inputs when the clock occurs SR Flip flops Output is high when set low when reset 39 Digital ICs Analog Digital Digital ICs by Number the minor class varies CircuitMaker provides a comprehensive library of commonly used Digital integrated circuits Pin names are based on the HE4000 and 74LS00 families as defined by Philips Semiconductors an international manufac turer of integr
55. animated device similar to the Car but with and input pins When a high state is placed on the input and a low state is placed on the input the rocket will fire The reset button on the rocket returns the rocket to its starting position Double click on the rocket to program the travel distance up to 1000 units Different colors can be selected for each rocket This device can also be used in Analog simulation mode but is not animated In this mode a 1kW resistor is placed across the and input pins Example circuit ROCKET CKT E Schottky Analog Only Active Components Diodes This device includes the SPICE data for simulating a schottky diode Diodes may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model p 32 SCOPE Digital Only Digital Instrument T A SCOPE is actually a tool which allows you to look at simulation waveforms as they are charted in the Waveforms window Connect a scope each scope must have a unique name at each point in the circuit where you wish to see the states charted Double click on the device to edit the name SCOPES are also used to identify the connecting nodes when creating a subcircuit drawing for use in exporting a SPICE subcircuit Example circuit SCOPE CKT C SCR Analog Only Active Components SCRs This device includes the SPICE data for simulating an SCR thyristor SCRs m
56. ated circuits The device number listed below indicates the logical function of the device In digital simulation mode the logic function of all families 74xx 74LSxx 74Sxx 74Fxx 74 etc is the same In analog simulation mode the characteristics of each family is unique Characteristics of each part can be adjusted only within the min max and typical databook values Note O C Open Collector outputs 4000 Dual 3 Input NOR Gate and Inverter 4001 Quad 2 Input NOR Gate 4002 Dual 4 Input NOR Gate 4006 18 Stage Static Shift Register 4008 4 Bit Binary Full Adder 4011 Quad 2 Input NAND Gate 4012 Dual 4 Input NAND Gate 4013 Dual D Flip Flop 4014 8 Bit Static Shift Register 4015 Dual 4 bit Static Shift Register 4017 5 Stage Johnson Counter 4018 Presettable Divide by n Counter 4019 Quad 2 Input Multiplexer 4020 14 Stage Binary Counter 4021 8 Bit Static Shift Register 4022 4 Stage Divide by 8 Johnson Counter 4023 Triple 3 Input NAND Gate 4024 7 Stage Binary Counter 4025 Triple 3 Input NOR Gate 4027 Dual JK Flip Flop 4028 1 of 10 Decoder 4029 Synchronous Up Down Binary Decade Counter 4030 Quad Exclusive OR Gate 4031 64 Stage Static Shift Register 4035 4 Bit Universal Shift Register 4040 12 Stage Binary Counter 4041 Quad True Complement Buffer 4042 Quad D Latch 4043 Quad R S Latch 3 State 4044 Quad R S Latch 3 State 4049 HexInverter 4050 Hex Buffer 4068 8 Input NAND Gate 4069 HexInverter 4070
57. ay be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit Example circuit SCR CKT Shockley Schematic Schematic Symbols Diodes This device is included for schematic purposes Signal Gen Analog Only Analog Instruments g This is a fully programmable multifunction analog signal generator which offers a variety of output waveforms Multiple generators may be individually programmed The minimum and maximum amplitudes of the waveform are stored in the Label Value field and by default are displayed above the device symbol Refer to Chapter 6 Analog Mixed Signal Simulation in the user manual to program this device Example circuit ANALOG CKT 1 1V 33 SIP2 SIP3 SIP4 SIP5 SIP6 SIP7 SIP8 SIP10 SIP12 SIP16 SIP20 Schematic Connectors SIP Type These devices are included for schematic purposes KA 1999 AR SS FRS 992397 10000000 Doo 0000 OCD 000000 0000000 STRATI FANN AAA AAA SPDT Switch SPST Switch Analog Digital Switches Toggle S These are functional Single Pole Double Throw and Single Pole Single Throw switches Multiple switches of the same type may be activated simultaneously creating double pole or triple pole switches etc if they have the same label in the Label Value field If you try to activate the switch while running an analog simulation CircuitMaker will ask if you wan
58. character CTRL G bell will send a beep to the PCs speaker and CTRL L form feed will clear the display The background color of the display can be changed The text is always the Device Text color This device can be used in Analog simulation mode as well but no characters will be displayed Example circuit DISPLAY CKT Battery Analog Digital Analog Power b In analog simulation mode this device includes the SPICE data for simulating a DC voltage source The voltage is specified in the Label Value field In digital simulation mode it provides a fixed High state on 222 the pin and a fixed Low state on the CEAMP CKT pin Example circuit jik Buffer Amp Analog Only Linear ICs Buffers Amps This device includes the SPICE data for simulating buffers and amplifiers Buffers amps may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit gt CA 7 Seg CC 7 Seg Analog Digital Displays 7 Segment LEDs These are Common anode and Common cathode 7 Segment LED Dis plays intended mainly for use in Digital simulation mode They will display each of 7 segments plus the decimal point corresponding to the input pins as they are pulled low Different colors can be selected for each display If the Prop Delay for this device is set to greater than 1 the display will remain visible even when power is removed This all
59. d subcircuit Example circuit AMMOD CKT Mono Jack Stereo Jack Phone Jack Phone Plug Schematic Connectors Misc These devices are included for schematic purposes Bus wires may be added internally to the macro to connect two of them together for simula tion Be sure to use a unique bus wire number for each pair of connectors 173719 Multimeter Analog Only Analog Instruments Multimeters can be wired directly into the circuit to measure resistance voltage or current DC voltage and current can only be measured if Operating Point Analysis is enabled To measure DC AVG or AC RMS voltage or current Transient Analysis must be enabled and must simulate enough cycles of transient data to make the measurements meaningful Multiple multimeters may be individually programmed Refer to Chapter 6 Analog Mixed Signal Simulation in the user manual to program this device Example circuit SWITCHES CKT P DCV N IGBT N IGBT A N IGBT B N IGBT C Analog Only Active Components IGBTs These devices include the SPICE data for simulating N channel Insulated Gate Bipolar Transistors Transistors may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model 100 N UFET N JFET A Analog Only Active Components JFETs j This device includes the SPICE data for simulating an N channel junction field effect transistor JFETs may be selected from a list
60. device to select the desired model AB Pentode Pentode H Schematic Active Components Vacuum Tubes These devices are included for schematic purposes S Photo Diode Schematic Optical Devices Sensors This device is included for schematic purposes A Photo NPN Schematic Optical Devices Sensors This device is included for schematic purposes Photo Resist Analog Only Optical Devices Sensors This device includes the SPICE data for simulating a standard resistor The value of the resistor is specified in the Label Value field 25 PLL Analog Only Linear ICs Phase Locked Loops This device includes Digital Simcode and XSpice data for simulating a Phase Locked Loop PLL Double click on the device to select an appro priate model based on the center frequency of the FM signal The center frequency and frequency range of the model is determined by its Fc and Fr parameters respectively The PLL consists of a Voltage Controlled Oscil lator VCO and an XOR phase comparator An external low pass filter is added by wiring a resistor and capacitor to the appropriate pins as shown in the example circuit PLL CKT The VCO outputs a square wave whose frequency corresponds to the input voltage at Vin For example suppose the center frequency Fc is set at 10kHz and the range Fr is set at 5kHz with Vdd and Vss at 5V and OV respectively Then a voltage of 2 5V at Vin would cause an output fre quency of
61. e 4 Bit Binary Up Down Synchronous Counter 3 State 43 SPICE Models The SPICE models listed on the following pages are for use in CircuitMaker s Analog simulation mode The models in this section were created by MicroCode Engineering Inc Those models marked with an asterisk are only available in CircuitMaker PRO i Diodes 785 Devices 100HF100PV 150KS20 100HF120PV 150KS40 100HF140PV 150KS5 100HF160PV 150KS60 100HF20PV 150KS80A 100HF40PV 150L100A 100HF 60PV 150L10A 100HF80PV 150L20A 10CTQ150 150L40A 10CTQ150S 150L5A 12CTQO35 150L60A 12CTQO35S 150L80A 12CTQ040 151CMQ035 12CTQ045 151CMQ 40 12CTQO45S 151CMQ045 12F10 151CNO045 12F100 152CMQ030 12F100B 153CMQ080 12F10B 153CMQ100 12F120 153CNQ100 12F120B 15CTQ035 12F20 15CTQ035S 12F20B 15CTQ040 12F40 15CTQ045 12F40B 15CTQ045S 12F60 160CMQ035 12F60B 160CMQ 40 12F80 160CMQO45 12F80B 160CNO045 130HF100PV 161CMQ035 130HF120PV 161CMQ 40 130HF140PV 161CMQ 45 130HF160PV 161CNQ045 130HF20PV 162CMQ030 130HF40PV 162CNQ030 130HF60PV 163CMQ080 130HF80PV 163CMQ100 150CMQ035 163CNQ100 150CMQ040 168CMQ 60 150 045 16CTQ080 150CNQ045 16 0805 150HF100PV 16CTQ100 150HF120PV 16 1005 150HF 140PV 16F10 150HF160PV 16F100 150HF20PV 16F120 150HF40PV 16F20 150HF60PV 16F40 150HF80PV 16F60 150K100A 16F80 150K10A 1N1183 150K20A 1N1183A 150K30A 1N1184 150K40A 1N1184A 150K5A 1N1185 150K60A 1N1185A 150K80A 1N1186 150KS10 1N1186A 150KS100A 1N118
62. e user manual to program this device Example circuit BUSWIRE CKT DB 9 DB 15 DB 15HD DB 25 13W3 Schematic Connectors DB Type Misc These devices are included for schematic purposes Example circuit DB9 CKT oooooooo oo 12 DC Motor Analog Digital Motors DC In digital simulation mode the DC Motor is an animated device The armature will rotate clockwise when there is a high on the positive terminal and a low on the negative terminal It will rotate counter clockwise when there is a high on the negative terminal and a low on the positive terminal In analog mode the DC Motor is not animated but it acts as an inductor and a resistor in series Example circuit LADDER CKT Diac A Diac B Diac C Diac D Schematic Schematic Symbols Diacs This device is included for schematic purposes Fero Diff Amp7 Diff Amp8 Analog Only Linear ICs Buffers Amps This device includes the SPICE data for simulating differential amplifiers Amplifiers may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit Diode Analog Only Active Components Diodes d This device includes the SPICE data for simulating a junction diode Diodes may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model Example circuit ASTABLE CKT 13
63. e SPICE data for simulating a pair and a trio of coupled inductors Example circuit VTPVVRAMP CKT 3 SIE Triac A Triac B Analog Only Active Components Triacs This device includes the SPICE data for simulating a triac thyristor Triacs may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit Example circuit TRIAC CKT B Triode Triode H Analog Only Active Components Vacuum Tubes This device includes the SPICE data for simulating a vacuum tube triode Triodes may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit Example circuit RIAAAMP CKT 37 Tunnel Schematic Schematic Symbols Diodes This device is included for schematic purposes Vac Diode Vac Diode H Schematic Active Components Vacuum Tubes These devices are included for schematic purposes OG VCO Analog Only Analog Power This device includes XSpice data for simulating a Voltage Controlled Oscillator Output signal can be a sine square or triangle wave Double click on the device to change its characteristics Output frequency is controlled by the input voltage Characteristics which can be adjusted by the user include low and high output voltage levels duty cycle for square and triangle waves rise
64. e user Double click on the device to select the desired model Example circuit CEAMP CKT 149 Op Amp3 Analog Only Linear ICs OPAMPs This device is primarily intended for schematic purposes but it includes SPICE data for simulating an ideal operational amplifier gt Op Amp5 Op Amp5 A Op Amp6 Op Amp6 A Op Amp7 Op Amp7 A Analog Only Linear ICs OPAMPs o These devices include the SPICE data for simulating operational amplifi ers Op amps may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit Example circuit ANALOG CKT 0 Optolsolator Analog Digital Optical Devices Coupler This is an NPN optical isolator In digital mode the LED in this device operates exactly like a regular LED When the LED is on the logic level applied to the NPN transistor s emitter will appear on its collector When the LED is off a 3 state level will appear on the transistor s collector In analog mode the LED does not light but the SPICE subcircuit informa tion will be used for simulation Double click on the device to select the desired subcircuit Example circuits OPTO CKT STEPPER CKT 241 23 P IGBT P IGBT A P IGBT B P IGBT C Analog Only Active Components IGBTs These devices include the SPICE data for simulating P channel Insulated Gate Bipolar Transistors Transistors may be selected from a list of a
65. ent Decoder Driver w Pullups Dual J K Flip Flop Dual D Flip Flop Quad Bistable Latch Dual J K Flip Flop 4 Bit Full Adder 4 Bit Magnitude Comparator Quad 2 Input Exclusive OR Gate Decade Counter Divide by Twelve Counter 4 Bit Binary Ripple Counter 4 Bit Shift Register 5 Bit Shift Register Dual J K Flip Flop Dual J K Positive Edge Trigger Flip Flop Dual J K Edge Triggered Flip Flop Dual J K Edge Triggered Flip Flop Quad Buffer 3 State Quad Buffer 3 State 13 Input NAND Gate Quad 2 Input Exclusive OR Gate O C 1 of 8 Decoder Demultiplexer Dual 1 of 4 Decoder Demultiplexer 10 Line to 4 Line Priority Encoder 8 Input Priority Encoder 8 Input Multiplexer Dual 4 Line to 1 Line Multiplexer 1 of 16 Decoder Demultiplexer Dual 2 Line to 4 Line Decoder Demultiplexer Quad 2 Input Data Selector Multiplexer Quad 2 Input Data Selector Multiplexer Inverting BCD Decade Counter 4 Bit Binary Counter BCD Decade Counter 4 Bit Binary Counter 8 Bit Serial In Parallel Out Shift Register 8 Bit Serial Parallel In Serial Out Shift Register 8 Bit Serial Parallel In Serial Out Shift Register Synchronous BCD Decade Up Down Counter Synchronous 4 Bit Binary Up Down Counter Quad D Flip Flop 3 State HexD Flip Flop 74175 74181 7482 74190 74191 74192 74193 74194 74195 74197 74199 74240 74241 74242 74243 74244 74245 74247 74248 74251 74253 74256 74257 74258 74259 74266 74273 74280 74283 74290 7429
66. er Double click on the device to select the desired subcircuit See also Subcircuits N NC Push button NO Push button SPDT PB Analog Digital Switches Push Button These are Normally Closed Normally Open and Single Pole Double Throw Push Button switches While digital simulation is running the switch may be activated by clicking on it with the left mouse button and will remain in the activated position as long as the mouse button is held down Multiple switches of the same type may be activated simulta neously if they have the same label in the Label Value field These switches cannot be activated while running an analog simulation but simply act as a short or an open Example circuit CARS CKT oe al NLI Source NLV Source Analog Only Analog Power These are nonlinear current and voltage sources Example circuit 741 CKT PA NPN Darlingl NPN Darling2 NPN Darling3 Analog Only Active Components Darlingtons These devices include the SPICE data for simulating an NPN Darlington Transistor Transistors may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit sen 22 NPN Trans B NPN Trans C Analog Only Active Components BJTs q These devices include the SPICE data for simulating an NPN bipolar junction transistor Transistors may be selected from a list of available models or new models may be added by th
67. fiers may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit bb Analog Mux2 Analog Only Linear ICs Buffers Amps This device includes the SPICE data for simulating an analog multiplexer Muxes may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit Antenna Analog Only Schematic Symbols Antennas This device includes an internal 50 ohm resistor to ground The resistance can be changed by editing its Label Value field V ASCII Key Digital Only Digital Input Device A The ASCII Key operates like the Hex Key with one addition A strobe pulse low high low level is generated and appears on the pin labeled S The binary code for any ASCII character can be generated by this device This device simulates a keyboard Example circuit DISPLAY CKT 57654321 ASCII Display Analog Digital Displays Digital Only a This represents a 16X4 LCD display intended mainly for use in Digital simulation mode Up to 4 lines of 16 ASCII characters per line can be displayed on this device The character determined by the binary code applied to pins 1 7 is sent to the display when the level on the CP pin changes from high to low NOTE lt RETURN gt will start a new line lt BACKSPACE gt will delete a previously entered
68. h time the Reset button in the Toolbar is pressed The reset button on the car returns the car to its starting position Double click on the car to program the travel distance up to 1000 units Different colors can be selected for each car This device can also be used in Analog simulation mode but there will be no animation and the Finish output will never go true Example circuit CARS CKT Caution Schematic Schematic Symbols Misc This device is included for schematic purposes A CDA 5 Analog Only Linear ICs Buffers Amps This device includes the SPICE data for simulating current differencing amplifiers Amplifiers may be selected from a list of available subcircuits ornew subcircuits may be added by the user Double click on the device to select the desired subcircuit gt CFA Amp8 Analog Only Linear ICs Buffers Amps This device includes the SPICE data for simulating a current feedback amplifier Amplifiers may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit ep 10 Coax TwinLead TwistedPair Schematic Schematic Symbols Cables These devices are included for schematic purposes SPICE data may be added by the user to simulate the lossless lossy or URC transmission lines aaa Coil 3T Coil 5T Analog Only Passive Components Inductors These devices include the SPICE data for si
69. here you need to position the device is not currently visible move the device to the border of the window and the circuit will automatically scroll To place the device click the mouse and the device will be placed at its present position To cancel placement of the device press the spacebar or double click the mouse Devices can be mirrored and or rotated prior to placing them To rotate a device press the R key or click the right mouse button To mirror a device press the M key The Auto Repeat option in the Options menu determines whether the same device can be placed in the work area multiple times or if you must select each device separately to place it refer to Chapter 12 Options Menu in the User Manual The devices and instruments are described in this section They are classified into the following categories Analog Only only be used in Analog simulation mode Digital Only Can only be used in Digital simulation mode Analog Digital Can be used in either Analog or Digital simulation modes Schematic These devices are intended for drawing schematics and are not functional To assist you in finding the items in the library each of the following device descriptions include the location in the parts browser The location is displayed in the following format Major Device Class Minor Device Class Default Hotkey CircuitMaker is by no means limited to the devices provided in the device library New devices c
70. ion mode the lights do not light Example circuit DISPLAY CKT Terminal Analog Digital Connectors Misc t This is a schematic symbol of a generic connector terminal point It can be used in Analog simulations to connect digital simcode devices to a power bus To do so enter the name of the bus as the name of the Terminal The Terminal can also be used to connect a circuit node to any other circuit node by using giving multiple terminals the same name See Chapter 4 Drawing and Editing Schematics in the user manual 35 Tetrode Tetrode H Schematic Active Components Vacuum Tubes This device includes the SPICE data for simulating a vacuum tube tetrode Tetrodes may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit Example circuit VTPWRAMP CKT Transformers CircuitMaker provides two different types of transformer simulation The first method which most closely represents the functionality of actual transformers uses subcircuits consisting of a voltage controlled voltage supply a current controlled current supply winding resistances and leak age and magnetization inductors The turns ratios for these devices is determined by the voltage and current gains of the supplies The Trans1 Trans2 and Trans3 devices use this method The second method uses coupled mutual inductors This method is described in detail
71. ker PRO only 25CTQ035 25CTQ035S 25CTQ040 25CTQ045 25CTQ045S 25F10 25F100 25F120 25F20 25F40 25F60 25F80 300CNQ035 300CNQ040 300CNQ045 300HF100 300HF120 300HF140 300HF160 300HF20 300HF40 300HF60 300HF80 300U100A 300U10A 300U20A 300U40A 300U60A 300U80A 301CNQ035 301CNQ040 301CNQ045 301CNQ050 3010100 D 3010120 3010140 3010160 3010180 3010200 3010220 301U240 301U250 301U80 D 303CNQ080 303CNQ100 309CNQ150 30CPQ035 30CPQ040 30CPQ045 30CPQ050 30CPQ060 30CPQ080 30CPQ100 30CPQ150 30CTQO35 0355 30CTQO40 30CTQO45 30CTQO45S 30CTQ050 30CTQO50S 30CTQ060 30CTQO60S 32CTQO30 32CTQO30S 400CNQ035 400CNQ040 400CNQ045 401CMQ045 401CNQ035 401CNQ040 401CNQ045 403CMQ100 403CNQ080 403CNQ100 408CMQ060 408CNQ060 409CNQ150 40CDQ035 40CDQ040 40CDQ045 40CPQ035 40CPQ040 40CPQ045 40CPQ050 40CPQ060 40CPQ080 40CPQ100 40HF10 40HF100 40HF120 40HF140 40HF160 40HF20 40HF40 40HF 60 40HF80 440CMQ030 440CNQ030 444CNQ035 444CNQ040 444CNQ045 445CNQO15 45L10 45L100 45 120 45 140 45L160 45L20 45 40 45160 45180 470PDA10 470PDA20 470PDA40 470PDA60 470PDAR10 470PDAR20 470PDAR40 470PDAR60 60CDQ035 60CDQ040 60CDQ045 60CNQ035 60CNQ040 60CNQ045 60CNQ045 60CNQO45SL 60CNQ045SM 61CNQ035 61CNQ040 61CNQ045 61CNQO45SL 61CNQO45SM 62CNQ030 62CNQO30SL 62CNQ030SM 63CNQ080 63CNQ100 63CNQ100SL 63CNQ100SM 6CWQO3F 6CWQO4F 6CWQ05F
72. lease times double click on a coil and then enter a SPICE comment of the following form into the SPICE Data field p 2 r 3 This comment will set the digital simulation mode pickup time to be 2 ticks and the release time to be 3 ticks In analog simulation mode the coil may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model Note No SPICE data is included for the Latch Coil or the Polar Latch Example circuit LADDER CKT Latch Coil Polar Latch Digital Only Relays Coil k These relay coils are similar to those described above with the following exceptions 1 they do not contain SPICE simulation data for use in analog simulation and 2 being latched coils they latch the contacts into the opposite position with a single pulse o SPDT A SPDT B SPDT C SPST NC SPST NO Analog Digital Relays Contacts K These relay contacts can be used in conjunction with any of the relay coils In order to control contacts with a given coil set the Description field to the same string for both the coil and all contacts which the coil should control In analog simulation mode the contacts may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model Example circuit LADDER CKT SP HA RDIP14 RDIP14 A RDIP16 RDIP16 A RSIP10 RSIP10 A RSIP6 RSIP6 A RSIP8 RSIP8 A
73. lexer 4 Bit Magnitude Comparator Quad 64 Bit Static Shift Register Quad 2 Input NAND Gate Quad 2 Input NAND Gate O C Quad 2 Input NOR Gate Quad 2 Input NAND Gate O C Hex Inverter Hex Inverter O C Hex Inverter Buffer Driver O C Hex Inverter Driver O C Quad 2 Input AND Gate Quad 2 Input AND Gate O C Triple 3 Input NAND Gate Triple 3 Input AND Gate Triple 3 Input NAND Gate O C Dual 4 Input NAND Schmitt Trigger Hex Inverter Schmitt Trigger Triple 3 Input AND Gate O C Hex Inverter Buffer Driver O C Hex Buffer Driver O C Dual 4 Input NAND Gate Dual 4 Input AND Gate Dual 4 Input NAND Gate O C 41 7425 7426 7427 7428 7430 7432 7433 7437 7438 7439 7440 7442 7445 7447 7448 7473 7474 7475 7476 7483 7485 7486 7490 7492 7493 7495 7496 74107 74109 74112 74113 74125 74126 74133 74136 74138 74139 74147 74148 74151 74153 74154 74155 74157 74158 74160A 74161A 74162A 74163A 74164 74165 74166 74168 74169 74173 74174 42 Dual 4 Input NOR Gate with Strobe Quad 2 Input NAND Gate O C Triple 3 Input NOR Gate Quad 2 Input NOR Buffer 8 Input NAND Gate Quad 2 Input OR Gate Quad 2 Input NOR Buffer O C Quad 2 Input NAND Buffer Quad 2 Input NAND Buffer O C Quad 2 Input NAND Buffer O C Dual 4 Input NAND Buffer BCD to Decimal Decoder 1 of 10 BCD to Decimal Decoder Driver O C BCD to Seven Segment Decoder Driver O C BCD to Seven Segm
74. mulating an inductor The inductance of the coil is specified in the Label Value field Example circuit RESONANT CKT 000 SM Comparator5 Comparatore Analog Only Linear ICs Comparators These devices include the SPICE data for simulating 5 pin and 6 pin voltage comparators Comparators may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit Lo Le Connector Analog Digital Connectors Misc This device has an internal wire that connects the two sides so it behaves just like a wire during simulation gt Crystal Analog Only Crystals Standard This device includes the SPICE data for simulating a crystal Crystals may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit Example circuit XTAL_OSC CKT 41 11 DAC8 Analog Only Data Converters D A The DACS includes a Digital Simcode model to simulate a generic 8 bit Digital to Analog Converter The minimum and maximum voltage of Vout are determined by the Vref and Vref pins Example circuit DACS CKT Data Seq Analog Digital Digital Instrument The Data Sequencer allows the user to specify up to 32k bytes which can be output in a defined sequence Multiple Data Sequencers may be individu ally programmed Refer to Chapter 5 Digital Logic Simulation in th
75. ows the display to be multiplexed without causing a flash each time the display is addressed This allows the display to better simulate real time operation In a real circuit the flashes are not usually noticeable because of the high repetition rate of the multiplexing circuit These devices can be used in Analog simulation mode as well but the segments will not light up Example circuit DISPLAY CKT V Gnd H abcdefg abodef g Capacitor Polar Cap Var Capacitor Analog Only Passive Components Capacitors c C These devices include the SPICE data for simulating a capacitor The value of the capacitor is specified in the Label Value field It is drawn as a variable capacitor for schematic purposes only Example circuit 555 CKT 4b YE AP SemiCapacitor Analog Only Passive Components Capacitors This device includes the SPICE data for simulating a semiconductor capacitor Semiconductor capacitors may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit 4 Car Analog Digital Digital Output Device This is an animated device with a Start input a Finish output and a Reset button It is intended mainly for use in Digital simulation mode Multiple cars may be placed in the circuit The number of simulation ticks it takes for a car to reach the finish is random for each car A new random number is generated eac
76. rent These devices provide direct access to SPICE s nonlinear dependent source math functions They are set up in subcircuit format to provide easy selection of the math functions I Mathl provides access to the single variable current functions abs cos sqrt etc I Math2 provides access to the dual variable current operations and ABS 1 I A B IDC10 IDC16 IDC20 IDC26 IDC34 IDC36 IDC40 IDC50 Schematic Connectors IDC Type These devices are included for schematic purposes Bus wires may be added internally to the macro to connect two of them together for simula tion Be sure to use a unique bus wire number for each pair of connectors Inductor Var Inductor Analog Only Passive Components Inductors 1 L This device includes the SPICE data for simulating an inductor The inductance of the coil is specified in the Label Value field It is drawn as a variable inductor for schematic purposes only Nn NM 17 Input Output Analog Digital Connectors Misc These are schematic symbols of page connectors in a circuit AN Input and Output devices that have the same name will operate as though they were connected together Double click on the device to edit the name Example circuit INOUTPUT CKT SysClk SysClk Lamp Analog Digital Displays Incandescent This device includes the SPICE data for simulating a resistor in analog mode The value of the resistor is specified in the
77. t LOCK CKT i I Source V Source Analog Digital Analog Power i v In analog simulation mode these are independent DC current and voltage sources Enter the current or voltage in the Label Value field In digital simulation mode they provide a fixed High state on the terminal and a fixed Low state on the terminal the arrow points away from the terminal toward the terminal on the I Source Example circuit 741 CKT YO I gt I Source V gt I Source Analog Only Analog Power These are linear current controlled and voltage controlled current sources The current on the output right hand side is controlled by the current or voltage on the input left hand side Use the Label Value to set the input to output transfer ratio Example circuit 741 CKT 4 e I Switch V gt Switch Analog Only Switches Controlled These devices include the SPICE data for simulating a current controlled and voltage controlled switch Specific models may be added by the user Example circuit SWITCHES CKT I gt V Source V gt V Source Analog Only Analog Power These are linear current controlled and voltage controlled voltage sources The voltage on the output right hand side is controlled by the 16 current or voltage on the input left hand side Use the Label Value to set the input to output transfer ratio Example circuit 741 CKT I Mathl I Math2 Analog Only Math Functions Cur
78. t to rerun the simulation with the switch in the new position Example circuit ALARM CKT za Speaker Analog Digital Transducers Sound Device m digital simulation mode the speaker vvill send a single beep to the PC s speaker when a low level is applied to one of its terminals and a high level is applied to its other terminal It will also send a single beep each time the high and low level are reversed or removed and then applied It contains SPICE data for use in analog mode as a resistor Example circuit SOUND CKT 34 Stepper Analog Digital Digital Output Device This device simulates an eight position stepper motor It is intended mainly for Digital simulation mode It can be connected in unipolar or bipolar mode and can be driven in full or half steps The following tables show how the motor is driven in unipolar mode with the A and B terminals connected to a logic high In analog simulation mode it is not animated but treated as inductors and resistors in series Example circuit STEPPER CKT Half Steps Full Steps uonuloy MII UONEJOY SIMYO IlunoD CW Rotation x Off 3 state 0 Logic Low Stoplight Analog Digital Digital Output Device This device has 3 lights red yellow and green with one input for each light It is intended mainly for use in Digital simulation mode The light will be on when its associated pin is in the high state and off when its pin is in the low state In analog simulat
79. vailable models or new models may be added by the user Double click on the device to select the desired model D P JFET A Analog Only Active Components JFETS J This device includes the SPICE data for simulating a P channel junction field effect transistor 5 may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model 8 P MESFET P MESFET A Analog Only Active Components MESFETS Z These devices include the SPICE data for simulating a P channel MESFET GaAsFET MESFETs may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model H P DMOS 3T P DMOS 3T A P DMOS 4T P DMOS 4T A Analog Only Active Components MOSFETS Depl These devices include the SPICE data for simulating 3 terminal and 4 terminal P channel Depletion Mode MOSFETs MOSFETs may be selected from a list of available models or new models may be added by the user Double click on the device to select the desired model ROLO 24 P EMOS 3T P EMOS 3T A P EMOS 4T P EMOS 4T A Analog Only Active Components MOSFETS Enh M These devices include the SPICE data for simulating 3 terminal and 4 terminal P channel Enhancement Mode MOSFETs MOSFETs may be selected from a list of available models or new models may be added by the user Double click on the
80. your own relays with multiple pairs of contacts By assigning the same text in the Description field of the coil and the contacts the coil can be assigned to switch any number of contacts SPDT Relay Analog Digital Relays Complete This device includes the SPICE data for simulating a Single Pole Double Throw relay Relays may be selected from a list of available subcircuits or new subcircuits may be added by the user Double click on the device to select the desired subcircuit In digital mode it switches the contact connections when a low level is applied to one terminal of the coil and a high level is applied to the other terminal Example circuit ALARM CKT ANRELAY CKT Cirele Polar Coil Rectangle Solenoid Standard Analog Digital Relays Coil k These relay coils can be used in conjunction with any of the relay contacts In order to control contacts with a given coil set the Description field to the same string for both the coil and all contacts which the coil should control In digital simulation mode the coils switch when a low level is applied to one terminal of the coil and a high level is applied to the other terminal The pickup and release times for a coil can be individually programmed 29 The pickup time is the time delay following activation of the coil until the contacts close while the release time is the time following deactivation of the coil until the contacts open To change the pickup and re

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