Device Modeling ReportCOMPONENTS:DIODE/ GENERAL PURPOSE RECTIFIER/ PROFESSIONALPART NUMBER: 1N5822MANUFACTURER: ON Semicon...
PSpice model                                                                               Model description parameter    ...
Forward Current Characteristic                                        Reference             All Rights Reserved Copyright ...
Forward Current CharacteristicCircuit Simulation Result                     10A                1.0A               100mA   ...
Comparison GraphCircuit Simulation ResultSimulation Result                                  Vfwd(V)             Vfwd(V)   ...
Capacitance CharacteristicCircuit Simulation Result               1.0n               100p                10p              ...
Comparison GraphCircuit Simulation ResultSimulation Result                                Cj(pF)                  Cj(pF)  ...
Reverse CharacteristicCircuit Simulation Result                                               0A                          ...
Comparison GraphCircuit Simulation ResultSimulation Result                                       Irev(uA)           Vrev(V...
Reverse Characteristic                                                Reference             All Rights Reserved Copyright ...
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SPICE MODEL of 1N5822 (Professional Model) in SPICE PARK

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SPICE MODEL of 1N5822 (Professional Model) in SPICE PARK. English Version is http://www.spicepark.net. Japanese Version is http://www.spicepark.com by Bee Technologies.

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SPICE MODEL of 1N5822 (Professional Model) in SPICE PARK

  1. 1. Device Modeling ReportCOMPONENTS:DIODE/ GENERAL PURPOSE RECTIFIER/ PROFESSIONALPART NUMBER: 1N5822MANUFACTURER: ON Semiconductor Bee Technologies Inc. All Rights Reserved Copyright (C) Bee Technologies Inc. 2005
  2. 2. PSpice model Model description parameter 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 GapEQUIVALENT CUIRCUIT A V_V_I 0Vdc N00040 E6 IN+ OUT+ IN- OUT- EVALUE IN D1 0 1N5822_S I(V_If wd)-V(I_rev ) IF(V(A,K)>0, V(A,K),0) V_If wd IN2 K 0Vdc E1 Vrev Vrev 1 E2 Vr_small E3 I_rev 0 E4 I_rev IN+ OUT+ IN+ OUT+ IN+ OUT+ IN+ OUT+ IN- OUT- V_Irev IN- OUT- R1 IN- OUT- R2 IN- OUT- R3 EVALUE 0Vdc D2 ETABLE EVALUE EVALUE 10MEG 10MEG 10MEG 1N5822_S V(Vrev ) IF(V(A,K)>0, 0,V(A,K)) TABLE = (-0.2,2.0)(0,0) 2.4511e-06*exp(0.10057*(-V(Vrev ))) V(I_rev 0)*V(Vr_small)-(-I(V_Irev )) 0 All Rights Reserved Copyright (C) Bee Technologies Inc. 2005
  3. 3. Forward Current Characteristic Reference All Rights Reserved Copyright (C) Bee Technologies Inc. 2005
  4. 4. Forward Current CharacteristicCircuit Simulation Result 10A 1.0A 100mA 0V 0.5V 1.0V I(X_U1.D_D1) V_V1Evaluation Circuit R1 0.01m V1 0Vdc U1 1N5822_p 0 All Rights Reserved Copyright (C) Bee Technologies Inc. 2005
  5. 5. Comparison GraphCircuit Simulation ResultSimulation Result Vfwd(V) Vfwd(V) Ifwd(A) %Error Measurement Simulation 0.01 0.15 0.16 4.21 0.02 0.18 0.18 1.13 0.05 0.21 0.21 -1.68 0.1 0.23 0.22 -2.41 0.2 0.25 0.25 -1.78 0.5 0.29 0.29 -0.18 1 0.32 0.32 1.10 2 0.37 0.37 -0.41 All Rights Reserved Copyright (C) Bee Technologies Inc. 2005
  6. 6. Capacitance CharacteristicCircuit Simulation Result 1.0n 100p 10p 1.0V 10V 40V I(V2)/(40V/10n) V(N00033)Evaluation Circuit V2 0Vdc V2 = 40 V1 U1 V1 = 0 TD = 0 TR = 10n 1N5822 TF = 10ns PW = 50us PER = 10us 0 All Rights Reserved Copyright (C) Bee Technologies Inc. 2005
  7. 7. Comparison GraphCircuit Simulation ResultSimulation Result Cj(pF) Cj(pF) Vrev(V) %Error Measurement Simulation 1 365.7 368.7 0.8203 2 330.63 332.1 0.4446 5 260.92 255.2 2.1922 10 180.84 181.5 0.3649 20 115.41 112.2 2.7813 40 70 63.17 9.7571 All Rights Reserved Copyright (C) Bee Technologies Inc. 2005
  8. 8. Reverse CharacteristicCircuit Simulation Result 0A 200uA 40V 0V -I(RL) V_V1Evaluation Circuit RL A V_V_I 0Vdc N00040 0.1m E6 IN+ OUT+ IN- OUT- EVALUE IN D1 0Vdc V1 0 1N5822_S I(V_If wd)-V(I_rev ) IF(V(A,K)>0, V(A,K),0) V_If wd IN2 R4 K 0Vdc 1u 0 E1 Vrev Vrev 1 E2 Vr_small E3 I_rev 0 E4 I_rev IN+ OUT+ IN+ OUT+ IN+ OUT+ IN+ OUT+ IN- OUT- V_Irev IN- OUT- R1 IN- OUT- R2 IN- OUT- R3 EVALUE 0Vdc D2 ETABLE EVALUE EVALUE 10MEG 10MEG 10MEG 1N5822_S V(Vrev ) IF(V(A,K)>0, 0,V(A,K)) TABLE = (-0.2,2.0)(0,0) 2.4511e-06*exp(0.10057*(-V(Vrev ))) V(I_rev 0)*V(Vr_small)-(-I(V_Irev )) 0 All Rights Reserved Copyright (C) Bee Technologies Inc. 2005
  9. 9. Comparison GraphCircuit Simulation ResultSimulation Result Irev(uA) Vrev(V) %Error Measurement Simulation 10 36.80 33.67 -8.51 15 46.00 42.38 -7.87 20 56.40 56.82 0.74 All Rights Reserved Copyright (C) Bee Technologies Inc. 2005
  10. 10. Reverse Characteristic Reference All Rights Reserved Copyright (C) Bee Technologies Inc. 2005

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