MITSUBISHI HIGH-FREQUENCY RECTIFIER DIODES SR200EH HIGH POWER, HIGH FREQUENCY, STUD TYPE SR200EH OUTLINE DRAWING Dimensions in mm ee CATHODE ~__ | [96.4 i e32MAX k = g 3 TYPE ye NAME z a al M20 x 1.5 ~ ~ ANODE @\F(AV) Average forward current -+++:-**+:+++ 150A @\V/RRM_ Repetitive peak reverse voltage --- + 2000V, 2500V @QrrR_ Reverse recovery charge +*++++++++-180uC Stud type APPLICATION High-power inverters, Fly-wheel diodes in DC choppers, Power supplies as high frequency rectifiers MAXIMUM RATINGS Symbol Parameter 40 50 VRAM reverse 2000 2500 VRSM reverse 2300 2800 DC reverse 1600 2000 Symbo! Parameter Conditions Ratings Unit lE(AMS) RMS forward current 235 A IF(AV) Average forward current f = 60Hz, sine wave @ = 180, Tc = 60C 150 A |FSM Surge forward current One half cycle at 6OHz, non-repetitive 5 kA It Current-squared, time integration | One cycle at 60Hz 1.0 x 105 As Ti Junction temperature 40 ~ +125 C Tstg Storage temperature 40 ~ +150 C _ Terminal screw torque MG terminal, cathode part 1.96 Nem _ Terminal mounting torque 5.49 Nem _ Mounting torque required M20 screw, anode part (Recommended value 29.4) 26.5 ~ 35.3 Nem Weight Standard vaiue 185 g ELECTRICAL CHARACTERISTICS .. Limits . Symbol Parameter Test conditions Min Typ Max Unit IRRM Repetitive peak reverse current | Tj = 125C, VRRM Applied _ 30 mA VFM Forward voltage Tj = 25C, IFM = 750A, Instantaneous measurement _ 5.05 Vv QrRA Reverse recovery charge iFM = TO00A, diF/dt = -30A/us, VR = 150V, _ _ 180 uc Tj = 125C Rth(j-c) Thermal resistance Junction to case = 0.15 CiW Rthic-f) Contact thermat resistance case to fin, greased ~ _ 0.04 Cw 2-6 MITSUBISHI ELECTRIC PERFORMANCE CURVES THERMAL IMPEDANCE (C/W) FORWARD CURRENT (A) CASE TEMPERATURE (C) 130 MAXIMUM FORWARD CHARACTERISTICS 104 7 5 3 2 103 7 5 3 2 Tj = 25C 102 7 5 3 2 1 1055 15 2.5 3.5 4.5 5.5 FORWARD VOLTAGE (V) MAXIMUM THERMAL IMPEDANCE CHARACTERISTIC (JUNCTION TO CASE) te] 35 4 04 62 23 5710 0.14 0.12 0.10 0.08 0.06 0.04 0.02 0 10-3 23 5710223 5710723 57100 TIME (S) ALLOWABLE CASE TEMPERATURE VS. AVERAGE FORWARD CURRENT RESISTIVE, INDUCTIVE LOAD SINGLE-PHASE +40 PQ HALF WAVE, FULL WAVE N P\RECTIFICATION CIRCUIT i N CORSET YA Le DC CIRCUIT X a THREE-PHase __\ N HALE WAVE, ) i iN 50 F FULL WAVE RECTIFICATION CIRCUIT | L_ 70 30 0 50 100 150 200 250 AVERAGE FORWARD CURRENT (A) MITSUBISHI HIGH-FREQUENCY RECTIFIER DIODES POWER DISSIPATION (W) SURGE FORWARD CURRENT (kA) REVERSE RECOVERY CHARGE (iC), REVERSE RECOVERY TIME (uS) SR200EH HIGH POWER, HIGH FREQUENCY, STUD TYPE RATED SURGE FORWARD CURRENT 8 7 6 1 23 5 710 2030 5070100 CONDUCTION TIME (CYCLES AT 60Hz) MAXIMUM POWER DISSIPATION CHARACTERISTICS 0 300 PRESISTIVE, INDUCTIVE LoaD Y pat THREE-PHASE 400 FHALF WAVE, FULL WAVE My RECTIFICATION 300 FCIRCUIT + y ZL y Z 1 WY foc circuit 200 KV fy | || : T T T T TT 1 // SINGLE-PHASE 100 97 HALF WAVE, FULL WAVE LZ RECTIFICATION CIRCUIT ae 0 50 100 150 200 250 AVERAGE FORWARD CURRENT (A) REVERSE RECOVERY CHARGE, REVERSE RECOVERY TIME VS. JUNCTION TEMPERATURE 403 7 flFM = 1000A 5 [dif/dt = -30A/us MAX. 3} VAM = 150V AV. oe 2 GRR 102 IFM ohiF/dt Ma uN 10! MO GN a 19 20 40 60 80 100 120 140 16C JUNCTION TEMPERATURE (C) MITSUBISHI 2-7 ote MSS REVERSE RECOVERY CHARGE (uC), REVERSE RECOVERY TIME (uS) REVERSE RECOVERY CHARGE, REVERSE RECOVERY TIME VS. FORWARD CURRENT 103 7 = -30A/ 5, VRM = 150V 8 Ts 125C , 102 7 JEM dir/dt 5 : 3 Vrw 2 , Irm Mr 101 7 5 3 2 409 107 23 57102 23 5710323 57104 FORWARD CURRENT (A) MITSUBISHI HIGH-FREQUENCY RECTIFIER DIODES REVERSE RECOVERY CHARGE (uC), REVERSE RECOVERY TIME (uS) SR200EH HIGH POWER, HIGH FREQUENCY, STUD TYPE REVERSE RECOVERY CHARGE, REVERSE RECOVERY TIME VS. RATE OF DECREASE OF REVERSE CURRENT 108 zZ vu = MAX. RAM = 150V 3 Ti= 126C AV. 2 Orr 102 7 1FM die/dt 5 at tr v t 3 Tyan ir Le 10) QrR = etre 5 3 AV 5 : trr 10 109 23 5710123 57107 23 57103 RATE OF DECREASE OF REVERSE CURRENT (A/uS) ae ELECTRIC