Device Modeling Report Insulated Gate Bipolar Transistor
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IGBT Modeling in Simplorer Part Number:Cm600 ha 5f(MITSUBISHI) Device Modeling Report
![IGBT MODEL PARAMETERS
Name Value Default Model description
TYPE_IGBT 2 2 -2:pIGBT -1:pMOSFET 1:nMOSFET 2:nIGBT
TYPE_FWD 2 2 0:no 1:static 2:dynamic including Irr
TYPE_THERM 2 0 0:isotherm 1,2:dynamic 3:dynamic_heat_pin +10:therm2
TYPE_DYN 0 12 0:stat 1:dyn +10:ext_sync +20:gate_driven
VP 4.43 5 FET Pinch-off Voltage @ref.temperature
K 85 10 FET Transfer Constant @ref.temperature
KLM 0 0 FET Channel Length Modulation Factor
A_FET 831.916882m 400m FET Saturation Factor
M_FET 1.294352379 1.2 FET Saturation Exponent
N_FET 2.3 1.7 Exponent of FET Transfer Characteristic of FET
BN 15 15 BJT Current Gain @ref.temperature
M_BJT 3.3 2 BJT Ideality Factor
ISAT_BJT 131.869869u 1n BJT Saturation Current @ref.temperature
RB_BJT 1m 0 BJT Bulk Resistance
RP_BJT 1T 1E+18 BJT Base Shunt
M_FWD 1.82 2 FWD Ideality Factor
ISAT_FWD 2u 1n FWD Saturation Current @ref.temperature
RB_FWD 1.02m 100u FWD Bulk Resistance
CIN0 165n 100n off switch input capacitance [F]
CIN1 275n 100n on switch input capacitance [F]
CR0 5.5n 5n on switch input capacitance [F]
CR1 26n 5n on switch feedback capacitance [F]
CBE 0 0 const. base emitter capacity [F]
CDS 0 0 const. drain source capacity [F]
COUT 5.6n 10n const. output capacity [F]
TAUBE 0 0 minority lifetime of IGBT base [s]
TAUFD 200n 150n minority lifetime of Diode [s]
TAUTAIL 0 100n tail current duration [s]
DETATAIL 10 10 tail current amplitude [0..100]
LC 10n 10n Collector Connector Inductance
RC 46.6032674u 100u Collector Connector Resistance
LG 0 0 Gate Connector Inductance
RG 0 200m Gate Connector Resistance
LAUX 0 0 Internal Emitter Inductance
RAUX 0 0 Internal Emitter Resistance
LE 10n 10n Emitter Connector Inductance
RE 46.6032674u 0 Emitter Connector Resistance
TEMPAMB 0 THETA Ambient Temperature
TEMPJNCTO 0 THETA Junction Temperature at Simulation Start
TNOM 25 125 Reference Temperature
VNOM 100 3k Nominal Collector-Emitter Voltage
INOM 600 3k Nominal Collector Current
SNOM_ON 30Meg 30Meg Nominal On Switch Gate Voltage Slope @VP
SNOM_OFF 30Meg 30Meg Nominal Off Switch Gate Voltage Slope @VP
VGAP 1.11 1.11 Band Gap Voltage
TC_VP 0 -200m Temperature Coefficient of VP0
TC_K 0 -140m Temperature Coefficient of K0
All Rights Reserved Copyright (C) Bee Technologies Inc. 2011](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)
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Device Modeling Report Insulated Gate Bipolar Transistor
- 1. Device Modeling Report COMPONENTS: Insulated Gate Bipolar Transistor (IGBT) PART NUMBER: CM600HA-5F MANUFACTURER: MITSUBISHI Simplorer Model Bee Technologies Inc. All Rights Reserved Copyright (C) Bee Technologies Inc. 2011
- 2. IGBT MODEL PARAMETERS Name Value Default Model description TYPE_IGBT 2 2 -2:pIGBT -1:pMOSFET 1:nMOSFET 2:nIGBT TYPE_FWD 2 2 0:no 1:static 2:dynamic including Irr TYPE_THERM 2 0 0:isotherm 1,2:dynamic 3:dynamic_heat_pin +10:therm2 TYPE_DYN 0 12 0:stat 1:dyn +10:ext_sync +20:gate_driven VP 4.43 5 FET Pinch-off Voltage @ref.temperature K 85 10 FET Transfer Constant @ref.temperature KLM 0 0 FET Channel Length Modulation Factor A_FET 831.916882m 400m FET Saturation Factor M_FET 1.294352379 1.2 FET Saturation Exponent N_FET 2.3 1.7 Exponent of FET Transfer Characteristic of FET BN 15 15 BJT Current Gain @ref.temperature M_BJT 3.3 2 BJT Ideality Factor ISAT_BJT 131.869869u 1n BJT Saturation Current @ref.temperature RB_BJT 1m 0 BJT Bulk Resistance RP_BJT 1T 1E+18 BJT Base Shunt M_FWD 1.82 2 FWD Ideality Factor ISAT_FWD 2u 1n FWD Saturation Current @ref.temperature RB_FWD 1.02m 100u FWD Bulk Resistance CIN0 165n 100n off switch input capacitance [F] CIN1 275n 100n on switch input capacitance [F] CR0 5.5n 5n on switch input capacitance [F] CR1 26n 5n on switch feedback capacitance [F] CBE 0 0 const. base emitter capacity [F] CDS 0 0 const. drain source capacity [F] COUT 5.6n 10n const. output capacity [F] TAUBE 0 0 minority lifetime of IGBT base [s] TAUFD 200n 150n minority lifetime of Diode [s] TAUTAIL 0 100n tail current duration [s] DETATAIL 10 10 tail current amplitude [0..100] LC 10n 10n Collector Connector Inductance RC 46.6032674u 100u Collector Connector Resistance LG 0 0 Gate Connector Inductance RG 0 200m Gate Connector Resistance LAUX 0 0 Internal Emitter Inductance RAUX 0 0 Internal Emitter Resistance LE 10n 10n Emitter Connector Inductance RE 46.6032674u 0 Emitter Connector Resistance TEMPAMB 0 THETA Ambient Temperature TEMPJNCTO 0 THETA Junction Temperature at Simulation Start TNOM 25 125 Reference Temperature VNOM 100 3k Nominal Collector-Emitter Voltage INOM 600 3k Nominal Collector Current SNOM_ON 30Meg 30Meg Nominal On Switch Gate Voltage Slope @VP SNOM_OFF 30Meg 30Meg Nominal Off Switch Gate Voltage Slope @VP VGAP 1.11 1.11 Band Gap Voltage TC_VP 0 -200m Temperature Coefficient of VP0 TC_K 0 -140m Temperature Coefficient of K0 All Rights Reserved Copyright (C) Bee Technologies Inc. 2011
- 3. TC_NFET 0 -800u Temperature Coefficient of N_FET TC_AFET 0 -4 Temperature Coefficient of A_FET TC_MFET 0 5m Temperature Coefficient of M_FET TC_ISAT_BJT 0 -20 Temperature Coefficient of ISAT_BJT TC_M_BJT 0 300u Temperature Coefficient of M_BJT TC_M_FWD 0 3m Temperature Coefficient of M_FWD TC_ISAT_FWD 0 -20 Temperature Coefficient of ISAT_FWD TC_RB_FWD 0 2m Temperature Coefficient of RB_FWD TC_CIN0 0 0 TC of CIN0 CC0_CIN0 1 1 CC0 of CIN0 CC_CIN0 0 0 CC of CIN0 VC0_CIN0 1 1 VC0 of CIN0 VC_CIN0 0 0 VC of CIN0 TC_CIN1 0 0 TC of CIN1 CC0_CIN1 1 1 CC0 of CIN1 CC_CIN1 0 0 CC of CIN1 VC0_CIN1 1 1 VC0 of CIN1 VC_CIN1 0 0 VC of CIN1 TC_TR0 0 0 TC of CR0 CC0_CR0 1 1 CC0 of CR0 CC_CR0 0 0 CC of CR0 VC0_CR0 1 1 VC0 of CR0 VC_CR0 0 0 VC of CR0 SC_CR0 0 0 SC of CR0 TC_CR1 0 0 TC of CR1 CC0_CR1 1 1 CC0 of CR1 CC_CR1 0 0 CC of CR1 VC0_CR1 1 1 VC0 of CR1 VC_CR1 0 0 VC of CR1 SC_CR1 0 0 SC of CR1 TC_TAUFD 0 0 TC of TAUFD CC0_TAUFD 1 1 CC0 of TAUFD CC_TAUFD 0 0 CC of TAUFD VC0_TAUFD 1 1 VC0 of TAUFD VC_TAUFD 0 0 VC of TAUFD SC_TAUFD 0 0 SC of TAUFD VBREAK_CE 500 1T Output Voltage Breakdown VBREAK_GE 50 1T Input Voltage Breakdown IBREAK 2.5k 1Meg Output Current Breakdown TEMPBREAK 300 500 Temperature Breakdown RFAULT_CE 100m 1T Remaining Breakdown Output Resistance RFAULT_GE 1 1T Remaining Breakdown Input Resistance CTHT1 100m 100m 1. thermal transistor capacity RTHT1 4m 4m 1. thermal transistor resistance CTHT2 1 1 2. thermal transistor capacity RTHT2 2m 2m 2. thermal transistor resistance CTHT3 10 10 3. thermal transistor capacity RTHT3 5m 5m 3. thermal transistor resistance CTHT4 100 100 4. thermal transistor capacity RTHT4 1m 1m 4. thermal transistor resistance CTHD1 100m 100m 1. thermal diode capacity RTHD1 4m 4m 1. thermal diode resistance CTHD2 1 1 2. thermal diode capacity RTHD2 2m 2m 2. thermal diode resistance CTHD3 10 10 3. thermal diode capacity RTHD3 500u 500u 3. thermal diode resistance CTHD4 100 100 4. thermal diode capacity RTHD4 100u 100u 4. thermal diode resistance CTHDT 1k 1k common thermal capacity RTHDT 10u 10u common thermal resistance DAMPING 1 1 damping constant SYNC 0 0 Synchronisation Value All Rights Reserved Copyright (C) Bee Technologies Inc. 2011
- 4. Transfer Characteristics Circuit Simulation result Evaluation circuit All Rights Reserved Copyright (C) Bee Technologies Inc. 2011
- 5. Comparison Graph Circuit Simulation Result 1200.0 Measurement Simulation 1000.0 COLLECTOR CURRENT, IC (A) 800.0 600.0 400.0 200.0 0.0 0.00 2.00 4.00 6.00 8.00 10.00 GATE EMITTER VOLTAGE, VGE (V) Simulation Result Test condition : VCE = 10 V VGE (V) IC (A) Error (%) Measurement Simulation 4.8 4.5 4.54 0.89 80 4.75 4.82 1.47 240 5 5.063 1.26 480 5.25 5.29 0.76 830 5.5 5.519 0.35 1200 5.75 5.707 -0.75 All Rights Reserved Copyright (C) Bee Technologies Inc. 2011
- 6. Saturation Characteristics Circuit Simulation result Evaluation circuit All Rights Reserved Copyright (C) Bee Technologies Inc. 2011
- 7. Comparison Graph Circuit Simulation Result 2.000 Measurment Simulation COLLECTOR-EMITTOR SATURATION 1.500 VOLTAGE, VCE(sat) (V) 1.000 0.500 0.000 0 200 400 600 800 1000 1200 COLLECTOR CURRENT, IC (A) Simulation Result Test condition : VGE = 15 V VCE(sat) (V) Ic(A) Error (%) Measurement Simulation 100 0.900 0.88 -2.22 200 1.000 1.03 3.00 500 1.120 1.15 2.68 1000 1.300 1.27 -2.31 1200 1.370 1.32 -3.65 All Rights Reserved Copyright (C) Bee Technologies Inc. 2011
- 8. Output Characteristics Circuit Simulation result Evaluation circuit All Rights Reserved Copyright (C) Bee Technologies Inc. 2011
- 9. Fall Time Characteristics Circuit Simulation result Evaluation circuit IC=600A, VCC=100V Measurement Simulation Error(%) VGE=10V, RG=4.2Ω Td(off) [ns] 1000 1008 0.80 Tf [ns] 500 499.7 -0.06 All Rights Reserved Copyright (C) Bee Technologies Inc. 2011
- 10. Forward Current Characteristic Circuit Simulation Result VF IF Evaluation Circuit All Rights Reserved Copyright (C) Bee Technologies Inc. 2011
- 11. Comparison Graph Circuit Simulation Result 10000 Measurement Simulation EMITTER CURRENT, IF (A) 1000 100 10 0.6 0.8 1 1.2 1.4 1.6 1.8 EMITTER-COLLECTOR VOLTAGE, VEC (V) Simulation Result VEC(V) IDR(A) %Error Measurement Simulation 10 0.73 0.74 1.37 20 0.78 0.775 -0.64 50 0.86 0.85 -1.16 100 0.945 0.935 -1.06 200 1.075 1.06 -1.40 500 1.32 1.3 -1.52 1000 1.62 1.63 0.62 All Rights Reserved Copyright (C) Bee Technologies Inc. 2011
- 12. Diode Reverse Recovery Characteristics Circuit Simulation result Qrr 650.00 500.00 400.00 FWD1.I [A] 300.00 200.00 FWD... 100.00 0 -100.00 -250.00 2.9000m 2.9015m 2.9025m 2.9035m 2.9050m t Evaluation circuit IE=600A, Measurement Simulation %Error diE/dt=-1200A/us Qrr [uC] 9.5 9.331 -1.78 All Rights Reserved Copyright (C) Bee Technologies Inc. 2011