DG1E60 PSpice Model (Free SPICE Model)
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DG1E60 PSpice Model (Free SPICE Model)
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DG1E60 PSpice Model (Free SPICE Model)
- 1. All Rights Reserved Copyright (C) Bee Technologies Inc. 2008 - 1 - COMPONENTS: DIODE/ GENERAL PURPOSE RECTIFIER/ STANDARD PART NUMBER: DG1E60 MANUFACTURER: SHINDENGEN Device Modeling Report Bee Technologies Inc.
- 2. All Rights Reserved Copyright (C) Bee Technologies Inc. 2008 - 2 - SPICE MODEL Circuit Configuration *$ * PART NUMBER: DG1E60 * MANUFACTURER: SHINDENGEN * VRM=600, IO=10uA, IFSM=25A * All Rights Reserved Copyright (C) Bee Technologies Inc. 2008 .MODEL DG1E60 D + IS=1.6537E-9 + N=1.7190 + RS=27.613E-3 + IKF=2.8694 + CJO=19.384E-12 + M=.36271 + VJ=.3905 + ISR=0 + BV=600 + IBV=10.000E-6 + TT=3.4281E-6 *$ DG1E60 (1) (2)
- 3. All Rights Reserved Copyright (C) Bee Technologies Inc. 2008 - 3 - DIODE MODEL PARAMETERS PSpice model parameter Model description IS Saturation Current N Emission Coefficient RS Series Resistance IKF High-injection Knee Current CJO Zero-bias Junction Capacitance M Junction Grading Coefficient VJ Junction Potential ISR Recombination Current Saturation Value BV Reverse Breakdown Voltage(a positive value) IBV Reverse Breakdown Current(a positive value) TT Transit Time EG Energy-band Gap
- 4. All Rights Reserved Copyright (C) Bee Technologies Inc. 2008 - 4 - V_V1 0V 0.5V 1.0V 1.5V I(R1) 100mA 1.0A 10A Forward Current Characteristic Circuit Simulation Result Evaluation Circuit D1 DG1E60 R1 0.01m V1 0Vdc 0
- 5. All Rights Reserved Copyright (C) Bee Technologies Inc. 2008 - 5 - 0.1 1 10 0 0.5 1 1.5 ForwardcurrentIF(A) Forward voltage VF (V) Measurement Simulation Comparison Graph Circuit Simulation Result Simulation Result Ifwd (A) Vfwd (V) %Error Measurement Simulation 0.1 0.800 0.800 0.02 0.2 0.835 0.834 -0.08 0.5 0.885 0.886 0.08 1 0.935 0.934 -0.08 2 1.000 1.000 0.00 4 1.100 1.100 0.00
- 6. All Rights Reserved Copyright (C) Bee Technologies Inc. 2008 - 6 - V(N11503) 0V 20V 40V 60V 80V 100V I(V2)/(600V/1u) 1.0p 10p 100p Capacitance Characteristic Circuit Simulation Result Evaluation Circuit D1 DG1E60 V2 0Vdc V1TD = 0 TF = 50ns PW = 5us PER = 10us V1 = 0 TR = 1u V2 = 600V 0
- 7. All Rights Reserved Copyright (C) Bee Technologies Inc. 2008 - 7 - 1 10 100 0 10 20 30 40 50 60 70 80 90 100 JunctioncapacitanceCj(pF) Reverse Voltage VR (V) Measurement Simulation Comparison Graph Circuit Simulation Result Simulation Result Vrev (V) Cj (pF) %Error Measurement Simulation 0.1 17.639 16.993 -3.66 0.2 16.736 16.71 -0.16 0.5 14.342 14.379 0.26 1 12.242 12.211 -0.25 2 10.027 10.041 0.14 5 7.451 7.485 0.46 10 5.839 5.892 0.91 20 4.567 4.617 1.09 50 3.409 3.325 -2.46 100 2.652 2.587 -2.45
- 8. All Rights Reserved Copyright (C) Bee Technologies Inc. 2008 - 8 - Time 4us 8us 12us 16us 20us 24us 28us 32us 36us 40us I(R1) -400mA -300mA -200mA -100mA -0mA 100mA 200mA 300mA 400mA Reverse Recovery Characteristic Circuit Simulation Result Evaluation Circuit Compare Measurement vs. Simulation Measurement Simulation %Error trj us 1.20 1.19 -0.46 0 R1 50 V2TD = 1us TF = 12ns PW = 20us PER = 50us V1 = -9.1V TR = 10ns V2 = 10.8V D2 DG1E60
- 9. All Rights Reserved Copyright (C) Bee Technologies Inc. 2008 - 9 - Reverse Recovery Characteristic Reference Trj = 1.20 (us) Trb= 1.80 (us) Conditions: Ifwd=0.2A,Irev=0.2A, Rl=50 Relation between trj and trb Example