V Family MGD-BNMM Series A Dual RoHS Features High short circuit capability,self limiting short circuit current (sat) with positive temperature coefficient Fast switching and short tail current Free wheeling diodes with fast and soft reverse recovery Low switching losses Applications Agency Approvals Motor drives Inverter SMPS and UPS Welder AGENCY AGENCY FILE NUMBER Converter Induction Heating E7139 Module Characteristics ( Symbol Parameters Test Conditions Min Typ Max Unit max) Max. Junction Temperature 175 C op Operating Temperature - 15 C T stg Storage Temperature - 5 C V isol Insulation Test Voltage AC, t=1min 3 V CTI Comparative Tracking Index Module case exposed to.1% ammonium chloride solution per UL and IEC standards 35 V Torque Module-to-Sink Recommended (M) 3 5 N m Torque Module Electrodes Recommended (M).5 5 N m Weight 3 g Absolute Maximum Ratings ( Symbol Parameters Test Conditions Values Unit S Collector - Emitter Voltage =5 C V V GES Gate - Emitter Voltage ± V DC Collector Current =5 C 5 A =7 C A M Repetitive Peak Collector Current t p =1ms A P tot Power Dissipation Per 5 W V RRM Repetitive Reverse Voltage =5 C V I F(AV) Average Forward Current =5 C 5 A =7 C A I FRM Repetitive Peak Forward Current t p =1ms A I t =5 C, t=1ms, V R =V 1 A s Life Support Note: Not Intended for Use in Life Support or Life Saving Applications The products shown herein are not designed for use in life sustaining or life saving applications unless otherwise expressly indicated. MGD-BNMM 1 13 Littelfuse, Inc Revised://13
V Family Electrical and Thermal Specifications ( Symbol Parameters Test Conditions Min Typ Max Unit V GE(th) Gate - Emitter Threshold Voltage =V GE, =.ma.9 5..5 V (sat) Collector - Emitter =A, V GE =15V, =5 C 1.5 V Saturation Voltage =A, V GE =15V, =5 C 1. V ES Collector Leakage Current =V, V GE =V, =5 C 1. ma =V, V GE =V, =5 C 5 ma I GES Gate Leakage Current =V,V GE =±15V, =5 C - μa R Gint Intergrated Gate Resistor 1. Ω Q ge Gate Charge =3V, =A, V GE =±15V.3 μc C ies Input Capacitance nf =5V, V GE =V, f =1MHz C res Reverse Transfer Capacitance.7 nf t d(on) Turn - on Delay Time =5 C 11 ns =5 C ns t r Rise Time V CC =3V =5 C 5 ns =5 C ns =A T t d(off) Turn - off Delay Time Vj =5 C 9 ns =5 C 5 ns R G =1.5Ω T t f Fall Time Vj =5 C ns V GE =±15V =5 C 7 ns Turn - on Energy Inductive Load =5 C.1 mj =5 C 3. mj Turn - off Energy =5 C mj =5 C 15 mj I SC Short Circuit Current t psc μs, V GE =15V =5 C,V CC =3V A R thjc Junction-to-Case Thermal Resistance (Per ). K/W V F Forward Voltage I F =A, V GE =V, =5 C 1.55 V I F =A, V GE =V, =5 C 1.5 V I RRM Max. Reverse Recovery Current I F =A, V R =3V 33 A Q rr Reverse Recovery Charge d if /dt=-7a/μs 9. μc E rec Reverse Recovery Energy =5 C 7. mj R thjcd Junction-to-Case Thermal Resistance (Per ). K/W MGD-BNMM 13 Littelfuse, Inc Revised://13
V Family Figure 1: Typical Output Characteristics Figure : Typical Output Characteristics V GE =15V 3 =5 C 3 =5 C =5 C 1 1.. 1. 1....5 1. 1. 5..5 3. 3.5..5 5. Figure 3: Typical Transfer characteristics Figure : Switching Energy vs. Gate Resistor 3 1 =V =5 C =5 C Eon Eoff (mj) 5 3 1 V CC=3V =A =5 C 5 7 9 V GE V 1 11 1 1 1 R G Ω Figure 5: Switching Energy vs. Collector Current Figure : Reverse Biased Safe Operating Area 3 V CC=3V =5 C 1 Eon Eoff (mj) 1 =5 C A 1 3 5 7 MGD-BNMM 3 13 Littelfuse, Inc Revised://13
V Family Figure 7: Forward Characteristics Figure : Switching Energy vs. Gate Resistort 1 I F=A =3V =5 C IF (A) 3 =5 C Erec (mj) 1 =5 C.. 1. 1.. V F V R G Ω 1 Figure 9: Switching Energy vs. Forward Current Figure 1: Transient Thermal Impedance 1 1 =3V =5 C Erec (mj) ZthJC (K/W).1.1.1.1.1.1 1 1 Rectangular Pulse Duration (seconds) MGD-BNMM 13 Littelfuse, Inc Revised://13
V Family Dimensions-Package D Circuit Diagram and Pin Assignment Packing Options Part Number Marking Weight Packing Mode M.O.Q MGD-BNMM MGD-BNMM 3g Bulk Pack 3 Part Numbering System Part Marking System MGD-BNMM PRODUCT TYPE M: Power Module MODULE TYPE G: VOLTAGE RATING : V CURRENT RATING ASSEMBLY SITE WAFER TYPE CIRCUIT TYPE B: x(+fwd) PACKAGE TYPE : A D: Package D MGD-BNMM 5 13 Littelfuse, Inc Revised://13