***************************************************************** * OSRAM OS * * PSPICE Library for IR-LEDs * * Version 08/2017 / cj * ***************************************************************** * internet : www.osram-os.com * ***************************************************************** * * * Models provided by OSRAM are not warranted by OSRAM as * * fully representing all the specifications and operating * * characteristics of the semiconductor product to which the * * model relates. The models describe the characteristics of * * typical devices. * * In all cases, the current data sheet information for a given * * device is the final design guideline and the only actual * * performance specification. * * Although models can be a useful tool in evaluating device * * performance, they cannot model exact device performance under * * all conditions, nor are they intended to replace bread- * * boarding for final verification. OSRAM therefore does not * * assume any liability arising from their use. * * OSRAM reserves the right to change models without prior * * notice. * * * ***************************************************************** * * * This library contains models of the following OSRAM * * OSLUX * * SFH4780S SFH4786S SFH4787S SFH4796S * ***************************************************************** * Please read before using the OSRAM PSpice libraries! * * - The typ. IR LED characteristic varies slightly in reality * * - The PSPICe model only simulates electrical behaviour, * * but no optical / light behaviour * * - The models only work at a ambient temperature of 25°C * * - The provided PSpice parameters are calculated values, * * they might not be identical with the real physical values * * - Some of the models only contain information about forward * * bias direction and no other information - please check * ***************************************************************** .subckt SFH_4780S Ano Cath L1 Ano 2 1.1n L2 2 3 1.2n L3 2 4 0.5n C1 2 Cath 0.5p D_LED 3 Cath F3571W D_ESD Cath 4 esd_50v .model F3571W D( + IS = 3.94E-20 + N = 2.619703771 + RS = 0.356385267 + IKF = 0.043791544 + IBV = 1.00E-08 + NBV = 180 + IBVL = 1.00E-07 + NBVL = 10 + BV = 28 + CJO = 1.24E-10 + TT = 2.00E-08 + EG = 1.53 ) .model esd_50v D(IS=3.2e-15 N=1.04 RS=1 IKF=14e-3 BV=50 IBV=1e-9 NBV=8 + IBVL=1e-10 NBVL=1000 CJO=7.71p M=0.23 VJ=0.4 TT=500e-9 FC=0.4) .ends .subckt SFH_4786S Ano Cath L1 Ano 2 1.1n L2 2 3 1.2n L3 2 4 0.5n C1 2 Cath 0.5p D_LED 3 Cath F3571W D_ESD Cath 4 esd_50v .model F3571W D( + IS = 3.94E-20 + N = 2.619703771 + RS = 0.356385267 + IKF = 0.043791544 + IBV = 1.00E-08 + NBV = 180 + IBVL = 1.00E-07 + NBVL = 10 + BV = 28 + CJO = 1.24E-10 + TT = 2.00E-08 + EG = 1.53 ) .model esd_50v D(IS=3.2e-15 N=1.04 RS=1 IKF=14e-3 BV=50 IBV=1e-9 NBV=8 + IBVL=1e-10 NBVL=1000 CJO=7.71p M=0.23 VJ=0.4 TT=500e-9 FC=0.4) .ends .subckt SFH_4787S Ano Cath L1 Ano 2 1.1n L2 2 3 1.2n L3 2 4 0.5n C1 2 Cath 0.5p D_LED 3 Cath F3571W D_ESD Cath 4 esd_50v .model F3571W D( + IS = 3.94E-20 + N = 2.619703771 + RS = 0.356385267 + IKF = 0.043791544 + IBV = 1.00E-08 + NBV = 180 + IBVL = 1.00E-07 + NBVL = 10 + BV = 28 + CJO = 1.24E-10 + TT = 2.00E-08 + EG = 1.53 ) .model esd_50v D(IS=3.2e-15 N=1.04 RS=1 IKF=14e-3 BV=50 IBV=1e-9 NBV=8 + IBVL=1e-10 NBVL=1000 CJO=7.71p M=0.23 VJ=0.4 TT=500e-9 FC=0.4) .ends .subckt SFH_4796S Ano Cath L1 Ano 2 0.1n L2 2 3 0.3n L3 2 4 0.3n C1 2 Cath 1p D_LED 3 Cath F3583W D_ESD Cath 4 esd_5v .model F3583W D( + IS = 5.34E-16 + N = 3.186659616 + RS = 0.272510378 + IKF = 506.7107657 + IBV = 5.00E-10 + NBV = 70 + IBVL = 1.00E-08 + NBVL = 1 + BV = 6 + CJO = 2.95E-10 + TT = 3.50E-08 + EG = 1.46 ) .model esd_5v D(IS=2.9e-15 N=1.1 RS=10 IKF=3e-3 BV=5.5 IBVL=1e-6 NBVL=15 + CJO=61.5p M=0.3 VJ=0.57 TT=100e-9 FC=0.3) .ends