* Copyright 2016 Broadcom Limited. All Right Reserved * * HCPL-2430 Spice Macromodel * Rev.A * 05/16 * LSP * * Macro model performance matches the typical datasheet specifications * - SPICE Model is verified by Orcad PSpice at Ta=25^C. Compatible to LTSPICE. * - Macro model performance matches the typical datasheet specifications * - Worst case performance are not modeled. * * Macromodels provided by Broadcom Limited are not warranted * as fully representing all of the specification and operating * characteristics of the product. * * Macromodels are useful for evaluating product performance but they * cannot model exact device performance under all condition, nor are * they intented to replace breadboarding for final verification. ** ********************************************************************** * Pin configuration * 1 2 3 4 5 6 7 8 * | | | | | | | | .subckt hcpl-2430 an1 ca1 ca2 an2 agnd Vo2 Vo1 VCC E1 N009 N010 N007 N008 {CTR} XX2 N009 N010 agnd N005 pdnoc XX1 an1 ca1 N008 N007 xled I1 agnd N005 0.1u XX3 N005 N006 agnd tia E2 N001 agnd VCC agnd 1 XX5 N003 N002 agnd N001 inv XX6 N002 agnd N003 N001 st XX7 N006 agnd N004 VCC st XX4 N004 agnd Vo1 agnd VCC and2 R1 VCC agnd 400 E3 N019 N020 N017 N018 {CTR} XX8 N019 N020 agnd N015 pdnoc XX9 an2 ca2 N018 N017 xled I2 agnd N015 0.1u XX10 N015 N016 agnd tia E4 N011 agnd VCC agnd 1 XX11 N013 N012 agnd N011 inv XX12 N012 agnd N013 N011 st XX13 N016 agnd N014 VCC st XX14 N014 agnd Vo2 agnd VCC and2 R2 VCC agnd 400 .ends hcpl-2430 .subckt pdnoc LOPP LOPN AN CA D1 AN CA PDC G1 CA AN LOPP LOPN 0.0026 V1 LOPN AN 0 .model PDC D RS=1.0E-3 CJO=0.015p M=0.333 VJ=0.75 ISR=100.0E-12 BV=100 TT=10E-12 .ends pdnoc .subckt xled AN CA LOPN LOPP RSERIES AN 5 5 DELECT 5 CA XLEDNOR ELED 6 LOPN 5 CA 1 DOPTIC 6 8 XLEDNORC FPHOTO LOPN 3 VSENSE 1 VSENSE 8 LOPN 0 RL 3 LOPN 0.1 EOUT LOPP LOPN 3 LOPN 60 VSIM LOPN CA 0 Rnl 6 N001 5k Vnl N002 LOPN 0 Fnl 3 LOPN Vnl 1 Dsw N001 N002 DSW .model DSW D Is=1e-4 .model XLEDNOR D IS=330E-21 N=1.33 XTI=3 EG=1.52 BV=4.83 IBV=10u + CJO=35p VJ=.75 M=.3333 FC=.5 TT=10n .model XLEDNORC D IS=330E-21 N=1.33 XTI=3 EG=1.52 BV=4.83 IBV=10u + CJO=0 VJ=.75 M=.3333 FC=.5 TT=0 .ends xled .subckt tia in out agnd G2 agnd out agnd in 0.1 R1 N004 in 25K C1 out in 0.1p D1 P001 in D R2 out N004 25K C2 N005 agnd 0.05p R3 N005 N004 20K D2 N001 P001 D D3 N002 N001 D D4 N003 N002 D D5 out N003 D .ends tia .subckt inv A Y VEE VCC Q1A N006 N003 N005 0 NPNMOD1 R1 N003 VCC 6k R6 N001 VCC 130 R3 N002 VCC 6.4k Q4 N002 N006 N007 0 NPNMOD1 R5 VEE N007 1k Q6 Y N007 VEE 0 NPNMOD1 D1 N004 Y D Q5 N001 N002 N004 0 NPNMOD1 D3 VEE N005 D R2 A N005 50 .MODEL NPNMOD1 NPN IS=2.06E-16 VAF=92.2 NF=1.03 + BF=500 ISE=5.990E-17 + NE=1.1 IKF=9.568E-3 RE=0 RC=0 RB=0 IRB=30.88U + BR=100 ISC=8.844E-16 NR=1.005 VAR=2.872 NC=1.1 IKR=5.201E-3 + CJE=1p MJE=.7278 VJE=.9627 CJC=1P MJC=.3924 VJC=.580 + CJS=1p MJS=.1387 VJS=.3757 FC=.5 XTB=1.52 TR=.116E-10 + XCJC=.35 TF=.116E-10 PTF=46.26 XTF=213.8 VTF=.568 ITF=113.2E-3 .ends inv .subckt st Vi V- Vo V+ Q1 N001 N003 N004 0 NPNMOD2 Q2 Vo N002 N004 0 NPNMOD2 R1 N002 N001 4k R2 V- N002 8k RE V- N004 0.1k RC1 N001 V+ 2.2k RC2 Vo V+ 100k RB N003 Vi 100 .MODEL NPNMOD2 NPN IS=2.06E-17 VAF=92.2 NF=1.01 + BF=500 ISE=5.990E-18 + NE=1.308 IKF=9.568E-3 RE=0 RC=0 RB=0 IRB=30.88U + BR=1000 ISC=8.844E-16 NR=1.005 VAR=2.872 NC=1.1 IKR=5.201E-3 + CJE=0.01P MJE=.7278 VJE=.9627 CJC=0.01P MJC=.3924 VJC=.580 + CJS=0.5P MJS=.1387 VJS=.3757 FC=.5 XTB=1.52 TR=1.5E-8 + XCJC=.35 TF=.116E-10 PTF=46.26 XTF=213.8 VTF=.568 ITF=113.2E-3 .ends st .subckt and2 A B Y VEE VCC Q1A N006 N003 N004 0 NPNMOD1 R1 N003 VCC 6k R6 N001 VCC 130 R3 N002 VCC 1.1k Q4 N002 N006 N010 0 NPNMOD1 R5 VEE N010 1k Q6 N007 N010 N011 0 NPNMOD3 Q5 N001 N002 N005 0 NPNMOD2 D2 VEE N004 D R2 A N004 50 R8 VEE N011 25 D1 N005 N007 D S1 N007 Y N008 N009 SW1 V1 N009 VEE 1.5 R9 N008 B 50 .MODEL NPNMOD1 NPN IS=2.06E-16 VAF=92.2 NF=1.03 + BF=50 ISE=5.990E-17 + NE=1.1 IKF=9.568E-3 RE=0 RC=0 RB=0 IRB=30.88U + BR=100 ISC=8.844E-16 NR=1.005 VAR=2.872 NC=1.1 IKR=5.201E-3 + CJE=1p MJE=.7278 VJE=.9627 CJC=1P MJC=.3924 VJC=.580 + CJS=1p MJS=.1387 VJS=.3757 FC=.5 XTB=1.52 TR=.116E-10 + XCJC=.35 TF=.116E-10 PTF=46.26 XTF=213.8 VTF=.568 ITF=113.2E-3 .MODEL NPNMOD2 NPN IS=2.06E-16 VAF=92.2 NF=0.98 + BF=50 ISE=5.990E-17 + NE=1.1 IKF=9.568E-3 RE=0 RC=0 RB=0 IRB=30.88U + BR=100 ISC=8.844E-16 NR=1.005 VAR=2.872 NC=1.1 IKR=5.201E-3 + CJE=1p MJE=.7278 VJE=.9627 CJC=1p MJC=.3924 VJC=.580 + CJS=1p MJS=.1387 VJS=.3757 FC=.5 XTB=1.52 TR=.116E-11 + XCJC=.35 TF=.116E-11 PTF=46.26 XTF=213.8 VTF=.568 ITF=113.2E-3 .MODEL NPNMOD3 NPN IS=2.06E-13 VAF=92.2 NF=1.03 + BF=50 ISE=5.990E-17 + NE=1.1 IKF=9.568E-3 RE=0 RC=0 RB=0 IRB=30.88U + BR=100 ISC=8.844E-16 NR=1.005 VAR=2.872 NC=1.1 IKR=5.201E-3 + CJE=1p MJE=.7278 VJE=.9627 CJC=1p MJC=.3924 VJC=.580 + CJS=1p MJS=.1387 VJS=.3757 FC=.5 XTB=1.52 TR=.116E-11 + XCJC=.35 TF=.116E-11 PTF=46.26 XTF=213.8 VTF=.568 ITF=113.2E-3 .MODEL SW1 VSWITCH(Ron=100MEG Roff=1m Von=1m Voff=0) .ends and2 .model D D .param CTR=0.5