UFRSO, oy ay D Notes: 1 1. 10-32 UNF3A threads H 16 2. Full threads within 2 1/2 + threads Standard Polarity: Stud is Cathode Dim. Inches Millimeter Minimum Maximum Minimum Maximum Notes A - -- -- -- 1 B 424 437 10.77. 11.10 Cc ~-- 505 --- 12.82 D 600 .800 15.24 20.32 E 422 .453 10.72 11.50 Fo 075 175 1.91 4.44 G --- .405 -- 10.29 H 163 .189 4.15 4.80 2 J .100 310 2. 54 7.87 MM --- 350 8.89 Dia. N .020 .065 510 1.65 P _.070 .100 1.78 2.54 Dia. E . A Reverse Polarity: Stud tis Anode DO203AA (D04) Microsemi Catalog Working Peak Peak Reverse Number Reverse Voltage Voltage UFR3010* 100V 100V e Ultra Fast Recovery Rectifier UFRSO15* 150V 150V 175C Junction Temperature UFR3020* UFR3120* 200V 200V Vy C p UFR3130* 300V 300V VRRM 100 to 800V UFR3140* 400V 400V . epee UFR3150* 500V 500V High Reliability UFR3260* 600V 600V 30 Amps current rating UFR3270* 700V 700V et : UFR3280" BOOV BOOV RR 35 to 60 nsec maximum *Add Suffix R For Reverse Polarity Electrical Characteristics UFR30 _UFR31 UFR32 Average forward current lF(AV) 30A 30A 30A Square wave, RaJC = 1.8C/W Case Temperature Te 127C 110C 107C Maximum surge current IFSM 500A 400A 300A 8.3 ms, half sine, TJ = 175C Max peak forward voltage VFM .975V.1.25s1.35V IFM = 30A: Ty = 25C* Max reverse recovery time tRR 35 ns 50ns 60 ns 1/2A, 1A, 1/4A, Tu = 25C Max peak reverse current IRM 1.0 mA VRRM, TJ = 125C Max peak reverse current IRM 15 A VRRM, TJ = 25C Typical Junction Capacitance Cy 140 pF 115 pF 100 pF VR = 10V, f = 1Mhz, WJ = 25C *Pulse test: Pulse width 300 usec, Duty cycle 2% Thermal and Mechanical Characteristics Storage temp range Operating junction temp range Max thermal resistance Typical thermal resistance Typical thermal resistance (greased) Mounting torque Weight TSTG 65C to 175C TJ 65C to 175C R eJC 1.8C/W Junction to Case R @JC 1.3C/W Junction to Case Recs 0.4C/W Case to sink 12-15 inch pounds 0.2 ounces (6.0 grams) typical e LAWRENCE 6 Lake Street Lawrence, MA 01841 MICFOSEIM| RGR ttt 05-07-07 Rev. 2 FAX: (978) 689-0803 www.microsemi.comUFRSO Figure 1 Figure 3 Typical Forward Characteristics Typical Junction Capacitance 1000 1000 800 600 600 400 Le 400 1 200 & 100 80 200 C 60 & 4 100 S 20 80 5 60 > 10 0.1 0.5 1.0 5.0 10 50 100 40 Reverse Voltage Volts Figure 4 2 Forward Current Derating 2 20 175 < 2 5 8.0 a Kn, ae 155 NY NY 3 6.0 AR 2 8 145 x "| 2 N 5 8 NWN 5 4.0 135 KN a 2 g NNO 3 = 125 8 < N\ 5 2.0 e N\ = @ 115 2 3 b | and! 0 10 = 105 60P | 90 120/180| OC 0 2 6 10 14 #18 22 26 0 10 20 30 40 50 Instantaneous Forward Voltage Volts Average Forward Current Amperes Figure 2 Figure 5 Typical Reverse Characteristics Maximum Forward Power Dissipation 10 2 2% DC = 59 Y < E 1.0 l 0s 180 | YY I 2 o 2 120' 5 B og we t 2 609 8 a Wl, @ .O1 oS 15 7 @ 6 U7 g 2 10 LZ U7 ~ .001 E oO | 8 5 > x oS = oot = 0 0 40 80 120 160 200 0 10 20 30 40 50 Reverse Voltage Volts Average Forward Current Amperes 05-07-07 Rev. 2UF RST Figure 1 Figure 3 Typical Forward Characteristics Typical Junction Capacitance 1000 1000 800 600 600 400 Le 400 1 200 & 100 80 200 C 60 & 4 100 S 20 80 2 60 > 10 0.1 0.5 1.0 5.0 10 50 100 40 Reverse Voltage Volts Figure 4 2 20 Forward Current Derating 2 175 < o I 3 160 _ 10 6 SN 5 8.0 2 145 S& 3 6.0 e RN P 3 130 SQW = 4.0 NIN 2 2 115 N N n = 3 = 100 5 2.0 e 5 g 8 Zio 3 4 o90% |h2otiso| oC 0 2 6 10 14 #18 22 26 0 10 20 30 40 50 Instantaneous Forward Voltage Volts Average Forward Current Amperes Figure 2 Figure 5 Typical Reverse Characteristics Maximum Forward Power Dissipation 10 2 70 < = 60 = 1.0 L = 00 DC 3 a a 40 A fa on oO = 2 120 180 | ~ 8 50 , wt ZL Q : 2 60 @ = 5 3 on TY a A ~ 001 "| 8 10 SF ay (25C S F .0001 = 0 0 100 200 300 400 500 0 10 20 30 40 50 Reverse Voltage Volts Average Forward Current Amperes 05-07-07 Rev. 2UF RSZ Figure 1 Figure 3 Typical Forward Characteristics Typical Junction Capacitance 1000 1000 800 600 600 400 Le 400 1 200 & 100 80 200 C 60 & 4 100 S 20 80 2 60 > 10 0.1 0.5 1.0 5.0 10 50 100 40 Reverse Voltage Volts Figure 4 2 20 Forward Current Derating 2 175 < 2 5 8.0 2145 SN 3 6.0 . KN IN NANA A. 2 @ 150 Sa = 4.0 NNSA YK 5 3 115 NN - : Nw 3 = 100 ~ 5 2.0 e = z 85 % 3 0 2 6 10 14 #18 22 26 0 10 20 30 40 50 Instantaneous Forward Voltage Volts Average Forward Current Amperes Figure 2 Figure 5 Typical Reverse Characteristics Maximum Forward Power Dissipation 10 2 70 So < = 60 = 1.0 L 2 De 04 g Of E B40 129 180} a oo ~ 30 ae 7% | QO . o @ = S 2 VI @ 001 E | 8 10 2 x F .0001 = 0 0 200 400 600 800 1000 0 10 20 30 40 50 Reverse Voltage Volts Average Forward Current Amperes 05-07-07 Rev. 2