Microsemi RGP30A 9261 O th Ave. Chatsworth, Ca 91311. THRU Phone: (818) 701-4933 Fax: (818) 701-4939 RG P30M Features Sintered Glass Low Current Leakage Metallurgical Bonded Construction Glass Passivated Cavity Free Junction Capable Of Meeting MIL-S-19500 Environmental Standards Fast Switching Speed For High Efficiency 3 Amp Fast Recovery Silicon Rectifier 50 to 1000 Volts Maxmum Ratngs e Operating Temperature: -65C to +175C e Storage Temperature: -65C to +175C e =Typical Thermal Resistance; 16C/W Junction To Ambient Maximum Maximum DC Microsemi Recurrent Maximum Blocking Part Number | Peak Reverse | RMS Voltage Voltage Voltage RGP30A 50V 35V 50V RGP30B 100V 70V 100V RGP30D 200V 40V 200V RGP30G 400V 280V 400V RGP30J 600V 420V 600V RGP30K 800V 560V 800V RGP30M 1000V 700V 1000V EectricalCharacteristics @ 25C Un ss Otherw ise Specified Average Forward Irv) 3A Ta = 55C Current Peak Forward Surge les 125A | 8.3ms, half sine Current Maximum lem = 3.0A; Instantaneous Ve 1.3V Ta = 25C Forward Voltage Maximum DC Reverse Current At lp 5uA Ty = 25C Rated DC Blocking 100uA | Ty = 125C Voltage Maximum Reverse Recovery Time RGP30A-RGP30G Thr 150ns | |-=0.5A, IR=1.0A, RGP30J 250ns_ | |,,=0.25A RGP30K-RGP30M 500ns Typical Junction Cy 60pF | Measured at Capacitance 1.0MHz, Vpa=4.0V DO-201AD Cathode Mark DIMENSIONS INCHES MM DIM MIN MAX MIN MAX NOTE A = -370 a 9.50 B = -250 a 6.40 Cc .048 .052 1.20 1.30 D 1.000 = 25.40 = Cavity Free Glass Brazed Temp >600C UL Recognized Flame- Passivated Junction tardent Molding Compout Process (UL 94V-0) Co Pd Oe Completely Encapsulated Solder Brazing, Low Brazed Construction Resistance, Excellent Surge Opaque Glass Capabilities a UES Rial Ana! (77 441878_-sODT By A HRRIE (BOAT A OHOHP BT /olorado: (303) 469-2161 MM Watertown: (617) 926-0404 MM Chatsworth: (818) 701-4933 M Sertech Labs: (617) 924-9280 M1 Ireland: (353) 65-40044 M Bombay: (91) 22-832-002 MSC0871.PDF M Hong Kong: (852) 2692-1202 RGP30A thru RGP30M Figure 1 Typical Forward Characteristics 20 Figure 2 Forward Derating Curve 10 6 Amps 1 Amps .06 04 C5)COCSOSCSSCKOS*2SSCSO.SC*S'7S C 02 Average Forward Rectified Current - Amperes .01 4 6 8 410 412 14 versus Volts Instantaneous Forward Current - Amperes versus Instantaneous Forward Voltage - Volts Figure 3 Junction Capacitance 100 60 40 20 pF A 2 4 1 2 4 10 20 40 100 200 400 1000 Volts Junction Capacitance - pF versus Reverse Voltage - Volts M Santa Ana: (714) 979-8220 M Scottsdale: (602) 941-6300 M Colorado: (303) 469-2161 MM Watertown: (617) 926-0404 M Chatsworth: (818) 701-4933 M Sertech Labs: (617) 924-9280 M1 Ireland: (353) 65-40044 M Bombay: (91) 22-832-002 MM Hong Kong: (852) 2692-1202 MSC0871.PDF RGP30A thru RGP30M Figure 4 Peak Forward Surge Current 150 mN NS 100 x 75 Amps 50 25 = 0 1 2 4 6 810 20 40 60 80100 Cycles Peak Forward Surge Current - Amperes versus Number Of Cycles At 60Hz - Cycles Figure 5 Reverse Recovery Time Characteristic And Test Circuit Diagram 50Q 102 +0.5A VY ) = Pulse -0.25 25Vde Generator Note 2 12 Oscilloscope -1.0 Note 1 tem Notes: Set Time Base for 20/100ns/cm 1. Rise Time = 7ns max. Input impedance = 1 megohm, 22pF 2. Rise Time = 10ns max. Source impedance = 50 ohms 3. Resistors are non-inductive M Santa Ana: (714) 979-8220 M Scottsdale: (602) 941-6300 M Colorado: (303) 469-2161 M Watertown: (617) 926-0404 M Chatsworth: (818) 701-4933 M Sertech Labs: (617) 924-9280 M Ireland: (353) 65-40044 M Bombay: (91) 22-832-002 MM Hong Kong: (852) 2692-1202 MSC0871.PDF