Ultra Fast Recovery Rectifiers UF 150, 51 & 52 opr Pre? CASE D=DOUBLER 2 CASE A=ANODE CASE C=CATHODE TO-204AA (TO-3) Dim. Inches Millimeter Minimum Maximum Minimum Maximum Notes A _ 875 22,23 Dia. B 290 450 6.55 11.43 c 312 _ 7.92 _ 0 038 043 37 1.09 Dia. E V177 1.197 29.90 30.40 F 655 675 16.64 17S G 420 440 10.67 11.18 H _ 525 _ 13.34 Rad. J 151 161 3.84 4.09 Dia. K 205 225 5.21 3.72 L A35 _ 3.43 M _ 1188 _ 4.78 Rad. UFT3005 UFTI0O10 UFT3015 UFT3020 UFT3250 UFT3260 UFT3270+ UFT3280+ Microsemi Catalog Number UFT3120 UFT3130 UFT3140 UFT3150 Working Peak Reverse Voltage 50V 1O00V 150V 200V 300V 400V 500Vv 600V 700V 800V *Add D, C or A Peak Reverse Voltage 50V 100V 150V 200V 300V 400V S00V 600V 700V a0aVv e Ultra Fast Recovery Rectifier e 175C Junction Temperature *VRRM 50 to 800V High Reliability * 30 Amps current rating *tRR 35 to 60 nsec maximum Electrical Characteristics Per Leg Average forward current Case Temperature (Standars) Te Case Temperature Maximum surge current Max peak forward voltage Max reverse recovery time Typical reverse recovery time ter Max peak reverse current Max peck reverse current Typical Junction Capacitance Reverse) UFT30. _UFT31 IF(AV) 30A 330A 138C 124C Te 115C 95C 'FSM 400A 350A VEM .93V-1.10V tre 35 ns 50 ns 26 ns 36 ns IRM 1.0 mA IRM 15 WA Cy 140 pF 115 pF +*Pulse test: Pulse width 300 usec, Duty cycle 2% FT3. 30A Square wave 122C = Rou = 1.4C /w 90C RQJIC = 2.2C/W 300A 8.3 ms, half sine, TJ = 175C 1.20V IPM = 15A: Wy = 25C 6Ons 1/24, 1A, 1/4A, Td = 25C 50 ns 1/2A, 1A, 1/4A, Te = 25C VRRM, Ty = 125C - RRM, Ty = 25C 100 pF YR = 10V, f = IMhz, TY = 25C Thermal and Mechanical Characteristics Storage temp range Operating junction temp range Max thermal resistance (standard polarity) Typical thermal resistance (standard polarity) Max thermal resistance (reverse polarity) Typical thermal resistance (reverse polarity) Typicai thermal resistance Weight TSTG TJ R eJC R euC Rec R eJc Recs 65C to 200C ~65C to 175C 1.4C/W Junction to Case 1.2C/W Junction to Case 2.2C/W Junction to Case 2.0C/W dunction to Case 0.4C/W = Case to sink 1.0 ounces (28 grams) typical PH: 303-469-2161 FAX: 303-466-3775 Microsemi Corp. Colorado bsUF [30 Figure 1 Figure 3 Typical Forward Characteristics ~ Per Leg Typical Junction Capacitance Per Leg 1000 1000 800 6c0 600 400 ir 400 7 200 8 100 5 80 200 8 60 8 40 100 3 20 80 2 50 2 10 0.1 05 1.0 .0 10 50 100 40 Reverse Voltage Volts Figure 4 8 Forward Current Derating - Standard Potarity Per Leg 6 20 o a 6 175 E 1 < 2 ! 10 z 165 g 8.0 = 155 6.0 r 2 % 145 oS oa z 3 4.0 3 135 = 3 2 125 5 2.0 E 2 25 B s = 1.0 * 105 QO 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 Choracteristics Per Leg Forward Current Derating ~ Reverse Polarity - Per Leg vrs 460 145 130 115 100 Typical Reverse Current mA Maximum Allowable Case Temperature Reverse Voltage Volts 0 10 20 30 40 50 Average Forward Current ~ AmperesUF 130 Figure 6 Forward Current Derating Standard Polarity - Per Leg 35 = ina Nn oe Oo wm o wn oa Moximum Allowable Case Temperature C ow o 0 10 20 30 40 50 Average Forward Current Amperes Figure 7 Forward Current Derating Reverse Polarity Per Leg 35 = i tw ww o wn oe oa oO Maximum Allowable Case Temperature -C oi o 0 10 20 30 40 50 Average Forward Current AmperesInstantaneous Forward Current Amperes Figure 1 Typical Forward Characteristics Per Leg 1000 800 600 400 200 100 80 60 40 20 10 8.0 6.0 4.0 2.0 1,0 QO .2 6 1.0 tnstanteneous Forward Voltage Volts Figure 2 Typical Reverse Characteristics Per Leg Typical Reverse Current ~ mA 54 10 1.0 01 001 -0001 L4 1.8 2.2 UF [31 2.6 0 100 200 Reverse Voltage ~ Volts 300 400 500 Figure 3 Typical Junction Capacitance Per Leg 4000 600 400 200 100 30 60 40 20 Junction Capacitance pF 10 0.1 a5 1.0 5.0 10 50 100 Reverse Voltage Volts Figure 4 Forward Current Derating Standard Polarity Per Leg 175 165 155 145 135 125 115 Maximum Allowable Case Temperature C 105 0 10 20 30 40 350 Average Forward Current - Amperes Figure 5 Forward Current Derating - Reverse Polarity ~ Per Leg 180 ZS eagnyn pf @ ao oOo 3 6 a o Woximum Allowable Case Temperature C > oO 0 10 20 30 40 50 Average Forward Current ~ AmperesUF 131 Figure 6 Forward Current Derating ~ Standard Polarity - Per Leg 70 8 828 8 8 Maximum Allowable Case Temperature -C 3S Q 0 10 20 30 40 50 Average Forward Current ~ Amperes Figure 7 Forward Current Derating - Reverse Polarity Per Leg 70 60 50 40 30 20 10 Maximum Allowable Case Temperature C 0 0 10 20 30 40 50 Average Forward Current ~ AmperesInstantaneous Forward Current - Amperes Figure 1 Typical Forward Characteristics Per Leg 1000 800 600 400 200 400 80 60 = te oS 2 ~% o Oo > 2 fv = So 0 2 6 1.0 Instantaneous Forward Voltage Volts Figure 2 Typical Reverse Characteristics ~ Per Leg Typical Reverse Current mA 10 1.0 .O1 -001 -0001 1.4 1.8 2.2 2.6 0 200 400 Reverse Voltage ~ Voits 600 800 1000 UF 132 Figure 3 Typical Junction Capacitance Per Leg 1000 600 400 200 100 80 60 40 20 Junction Capacitance ~ pF 10 0.1 05 1.0 5.0 10 50 100 Reverse Voltage Volts Figure 4 Forward Current Derating - Standard Polarity - Per Leg 175 = = ~- _ Nn w on n a on wn cn uw Maximum Allowable Case Temperature ~C a _ Q an 0 10 20 30 40 50 Average Forward Current Amperes Figure 5 Forward Current Derating - Reverse Polarity - Per Leg 180 a o rs 3 120 100 wo Oo Qa o Maximum Power Dissipation Watts > oa 0 10 20 30 40 50 Average Forward Current AmperesUF 132 Figure 6 Forward Current Derating ~ Standard Polarity - Per Leg 70 Ny w ~ nm an S o So o eo Maximum Allowable Case Temperature -C S Oo 0 10 20 30 40 50 Average Forward Current Amperes Figure 7 Forward Current Derating Reverse Polarity Per Leg 70 60 50 40 30 20 Maximum Allowable Case Temperature ~C 0 10 20 50 40 50 Average Forward Current - Amperes