Preview only show first 10 pages with watermark. For full document please download

Mimmg400hb060b6en

   EMBED

Share

Transcript

MIMMG400HB060B6EN 600V 400A IGBT Module RoHS Compliant FEATURES □ High short circuit capability,self limiting short circuit current □ VCE(sat) with positive temperature coefficient □ Fast switching and short tail current □ Free wheeling diodes with fast and soft reverse recovery □ Low switching losses APPLICATIONS □ High frequency switching application □ Medical applications □ Motion/servo control □ UPS systems ABSOLUTE MAXIMUM RATINGS Symbol Parameter TC=25°C unless otherwise specified Test Conditions Values Unit 600 V ±20 V TC=25°C 500 A TC=65°C 400 A tp=1ms 800 A 1070 W TVj=25°C 600 V TC=25°C 500 A TC=65°C 400 A tp=1ms 800 A TVj =125°C, t=10ms, VR=0V 9000 A2 s IGBT VCES Collector - Emitter Voltage VGES Gate - Emitter Voltage IC DC Collector Current ICM Repetitive Peak Collector Current Ptot Power Dissipation Per IGBT TVj=25°C Diode VRRM Repetitive Reverse Voltage IF(AV) Average Forward Current IFRM Repetitive Peak Forward Current 2 It MIMMG400HB060B6EN ELECTRICAL AND THERMAL CHARACTERISTICS Symbol Parameter TC=25°C unless otherwise specified Test Conditions Min. Typ. Max. Unit 4.9 5.8 6.5 V IGBT VGE(th) VCE(sat) Gate - Emitter Threshold Voltage VCE=VGE, IC=6.4mA Collector - Emitter IC=400A, VGE=15V, TVj=25°C 1.45 V Saturation Voltage IC=400A, VGE=15V, TVj=125°C 1.6 V VCE=600V, VGE=0V, TVj=25°C 1 mA VCE=600V, VGE=0V, TVj=125°C 5 mA 400 nA ICES Collector Leakage Current IGES Gate Leakage Current RGint Integrated Gate Resistor Qge Gate Charge Cies Input Capacitance Cres Reverse Transfer Capacitance td(on) Turn - on Delay Time tr Rise Time td(off) Turn - off Delay Time tf Fall Time Eon Turn - on Energy Eoff Turn - off Energy ISC Short Circuit Current RthJC Junction-to-Case Thermal Resistance VCE=0V,VGE±15V, TVj=125°C VCE=300V, IC=400A , VGE=±15V VCE=25V, VGE=0V, f =1MHz -400 1 Ω 4.3 µC 26 nF 0.76 nF VCC=300V,IC=400A, TVj =25°C 120 ns RG =1.5Ω, TVj =125°C 140 ns VGE=±15V, TVj =25°C 60 ns Inductive Load TVj =125°C 75 ns VCC=300V,IC=400A, TVj =25°C 490 ns RG =1.5Ω, TVj =125°C 520 ns VGE=±15V, TVj =25°C 60 ns Inductive Load TVj =125°C 75 ns VCC=300V,IC=400A, TVj =25°C 2.1 mJ RG =1.5Ω, TVj =125°C 3.2 mJ VGE=±15V, TVj =25°C 14 mJ Inductive Load TVj =125°C 17 mJ 1900 A tpsc≤6µS , VGE=15V TVj=125°C,VCC=360V ( Per IGBT) 0.13 K /W Diode IF=400A , VGE=0V, TVj =25°C 1.55 V IF=400A , VGE=0V, TVj =125°C 1.50 V Max. Reverse Recovery Current IF=400A , VR=300V 260 A Qrr Reverse Recovery Charge diF/dt=-4500A/μs 30.0 µC Erec Reverse Recovery Energy TVj=125°C 8.0 mJ RthJCD Junction-to-Case Thermal Resistance ( Per Diode) VF Forward Voltage IRRM 0.24 K /W MIMMG400HB060B6EN NTC SECTOR CHARACTERISTIC VALUES Symbol R25 TC=25°C unless otherwise specified Parameter Test Conditions Resistance Min. TC =25°C B25/50 MODULE CHARACTERISTICS Symbol Parameter Typ. Max. Unit 5 KΩ 3375 K TC=25°C unless otherwise specified Test Conditions Min. Typ. Max. Unit 175 °C TVj max Max. Junction Temperature TVj op Operating Temperature -40 150 °C Tstg Storage Temperature -40 125 °C Visol Insulation Test Voltage CTI Comparative Tracking Index Torque Module-to-Sink Recommended(M6) 3 5 N· m Torque Module Electrodes Recommended(M6) 2.5 5 N· m AC, t=1min 3000 V 350 Weight 200 800 g 800 VGE =15V 640 480 TVj=25°C IC (A) IC (A) 640 320 480 TVj =125°C 320 TVj=125°C 160 0 0 160 1.2 1.6 2.0 2.4 VCE(V) Figure1. Typical Output characteristics IGBT-inverter 0.4 0.8 0 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 VCE(V) Figure2. Typical Output characteristics IGBT-inverter MIMMG400HB060B6EN 60 800 VCC=300V IC=400A VGE=±15V TVj =125°C VCE =20V 50 640 Eon Eoff (mJ) IC (A) TVj =25°C 480 320 TVj =125°C 160 5 40 30 20 0 Eoff 10 14 6 RG(Ω) Figure4. Switching Energy vs. Gate Resistor IGBT-inverter 7 9 10 11 8 VGE(V) Figure3. Typical Transfer characteristics IGBT-inverter 0 2 1000 800 24 600 Eoff IC (A) Eon Eoff (mJ) 6 VCC=300V RG=1.5Ω VGE=±15V TVj =125°C 32 16 Eon 8 0 0 400 RG=1.5Ω VGE=±15V TVj =125°C 200 0 300 400 500 600 700 VCE(V) Figure6. Reverse Biased Safe Operating Area IGBT-inverter 200 400 600 800 IC(A) Figure5. Switching Energy vs. Collector Current IGBT-inverter 0 12 800 Erec (mJ) TVj =125°C 480 320 100 200 IF=400A VCE=300V TVj =125°C 10 640 IF (A) Eon 10 0 8 6 4 160 0 40 TVj =25°C 0 0.8 1.6 1.2 2.0 VF(V) Figure7. Diode Forward Characteristics Diode -inverter 0.4 2 0 0 10 12 8 14 RG(Ω) Figure8. Switching Energy vs. Gate Resistor Diode -inverter 2 4 6 MIMMG400HB060B6EN 1 20 RG=1.5Ω VCE=300V TVj =125°C ZthJC (K/W) Diode 12 8 0.1 IGBT 0.01 4 0 0 0.001 0.001 480 640 800 IF (A) Figure9. Switching Energy vs. Forward Current Diode -inverter 160 320 0.01 0.1 1 10 Rectangular Pulse Duration (seconds) Figure10. Transient Thermal Impedance of Diode and IGBT-inverter 100000 IFGE =25=15V A V VCE=600V TVj =125°C 10000 R (Ω) Erec (mJ) 16 R 1000 100 0 20 60 80 100 120 140 160 TC(°C) Figure11. NTC Characteristics 40 MIMMG400HB060B6EN Figure12. Circuit Diagram Dimensions (mm) Figure13. Package Outline