Ultrafast Recovery Modules & 202 UF I2Z200, 207 R Dim. Inches Millimeters G | Min. Max. Min. Max. Notes Baseplate A --- 3.630 -- 92.20 ) $ & gp A=Commen Anode B 0.700 0.800 17.78 20.32 Cc --- 0.630 --- 16.00 at nv wl | F 0120 0.130 3.05 3.30 F 0.490 0.510 12.45 12.95 G 1.375 BSC 34.92 BSC Baseplate N 0.010 ___ 0.25 _ 1/4-20 F Common Cathode Q 0.275 0.290 6.99 7.37 Dia. rr sft opt ore R __3.150 BSC 80.01 BSC i 1 U 0.600 --- 15.24 --- tli \i/ \E il fc V 0.312 0.340 7.92 8.64 H ct aa] Baseplate W 0.180 0.195 4.57 4.95 Dia. | | | i } D=Doubler _.| V |__ Notes: , E Baseplate: Nickel plated copper Microsemi Working Peak Repetitive Peak Catalog Number Reverse Voltage Reverse Voltage UFT20005* 50V 50V UFT20010* 100V 100V e Ultra Fast Recovery UFT20015* 150V 150V e 175C Junction Temperature UFT20020*UFT20120* 200V 200V Vv UFT20130* 300V 300V "RRM 50 to 800 Volts UFT20140* 400V 400V e High surge capacity UFT20150* SO00V 500V . UFT20260* 600V 600V @ 2 X 100 Amp current rating UFT20270* 700V 700V UFT20280* 800V 800V Add Suffix A for Common Anode, D for Doubler Electrical Characteristics UFT200 _UFT201 Average forward current per pkg IF(AV) 200A 200A Average forward current per leg IF(AV) 100A 100A Case Temperature Tc 135C = 120C Maximum surge current per leg IFSM_ = 1500A_~s: 1400A Max peak forward voltage per leg VFM 975V1.25V Max reverse recovery time per leg trr 50ns 70ns Max peak reverse current per leg IRM _ 6.0mA _ Max peak reverse current per leg IRM 5S0uA Typical Junction capacitance Cy 575pF 300pF UFT202 200A Square Wave 100A Square Wave 115C ReJC = 0.5C/W 1200A 8.3ms, half sine, UW = 175C 1.35V IFM = 100A: TU = 25C* 90ns 1/2A, 1A, 1/4A, Ty = 25C VRRM, Tu = 125C VRRM, TJ = 25C 275pF VR = 10V,Ty = 25C *Pulse test: Pulse width 300 usec, Duty cycle 2% Thermal and Mechanical Characteristics Storage temp range TSTG Operating junction temp range TJ Max thermal resistance per leg Reuc Max thermal resistance per pkg Reyc Typical thermal resistance Recs Terminal Torque Mounting base torque (outside holes) Mounting base torque (center hole) center bolt must be torqued first Weight 55C to 175C 55C to 175C 0.5C/W Junction to case 0.25C/W Junction to case 0.08C/W Case to sink 35-50 inch pounds 30-40 inch pounds 8-10 inch pounds 2.8 ounces (75 grams) typical COLORADO 800 Hoyt Street = 2 Broomfield, CO. 80020 iCrosemL 255% FAX: (303) 466-3775 www.microsemi.com 8700 Rev. 1 UF | 200 Figure 1 Figure 3 Typical Forward Characteristics Per Leg Typical Junction Capacitance Per Leg 1000 10000 800 6000 600 4000 Ww 400 L 2000 3 1000 = 200 9 600 & 400 100 S 200 80 e a 60 = 100 0.1 0.5 1.0 5.0 10 50 100 40 Reverse Voltage Volts Figure 4 Forward Current Derating Per Leg g 20 6 175 E 4 wo 5 165 S 10 = SN 5 8.0 3 155 SS SN 8 6.0 e SS 3 B 145 > 5 & N = 4.0 > NN io 3 135 a = IN 3 = 125 x 5 2.0 E = = 115 ~ < na io O14 490 oO 10 = 105 60% 90 1120] 180 De 2 4 6 8 1.0 1.2 1.4 1.6 0 30 60 90 120 150 Instantaneous Forward Voltage Volts Average Forward Current Amperes Figure 2 Figure 5 Typical Reverse Characteristics Per Leg Maximum Forward Power Dissipation Per Leg 10 2 140 3 < 120 I 1.0 c DC | 2 100 4 a 190 | c B 80 1200/7 | Sy 50 aoa o . co) a = 60 5 0 Loe DY i = 001 E Go 3 20 ~ 0001 = 0 0 40 80 120 160 200 0 30 60 90 120 150 Reverse Voltage Volts Average Forward Current Amperes 8-7-00 Rev. 1 UF 1201 Figure 1 Figure 3 Typical Forward Characteristics Per Leg Typical Junction Capacitance Per Leg 1000 1000 800 600 600 400 Ww 400 1 200 8 100 3 80 200 3 60 g 40 100 S 20 80 < 60 = 10 0.1 0.5 1.0 5.0 10 50 100 40 Reverse Voltage Volts Figure 4 Forward Current Derating Per Leg g 20 6 175 4 2 110 aN 5 5 NO 3 6.0 - NS Ww 2 8 145 N So & NX NY 5 40 2 135 NA re 2 3 = 125 vy S 5 2.0 Ee = z 115 ~ < n oO OF 410 = 105 60}]9011/207 180 DC 0 .2 6 1.0 1.4 18 #22 2.6 0 30 60 90 120 150 Instantaneous Forward Voltage Volts Average Forward Current Amperes Figure 2 Figure 5 Typical Reverse Characteristics Per Leg Maximum Forward Power Dissipation Per Leg 10 & 140 3 DC 120 = 1.0 ! c 1809 A I 3 100 1207 7 Wa Ss 4 a WAL E B 60 VN 3 - 60 LiL .01 o VV, a = g 40 MZ Fo E Yy tA _ .001 5 G4 8 E 20 Dy & 3 F .0001 = 0 0 100 200 500 400 500 0 30 60 90 120 150 Reverse Voltage Volts Average Forward Current Amperes 8-7-00 Rev. 1 UF | 202 Figure 1 Figure 3 Typical Forward Characteristics Per Leg Typical Junction Capacitance Per Leg 1000 10000 800 6000 600 4000 Ww 400 L 2000 3 1000 5 800 200 3 600 & 400 100 S 200 80 < 60 > 100 0.1 0.5 1.0 5.0 10 50 100 40 Reverse Voltage Volts Figure 4 Forward Current Derating Per Leg g 20 6 175 4 2 Cc o 3 6.0 O SS 2 B 145 NW co So = 4.0 QO i 3 135 N a N\ N 3 2 125 S 20 . NO E = 115 ~ < na 0} o oO 10 = 105 60 9020 80 DC QO 2 6 1.0 1.4 18 22 2.6 0 30 60 90 120 150 Instantaneous Forward Voltage Volts Average Forward Current Amperes Figure 2 Figure 5 Typical Reverse Characteristics Per Leg Maximum Forward Power Dissipation Per Leg 10 % 140 = DC 2 LZ < 120 5 V4 1.0 | 180 d J) | S 100 spo ea B MAL @ 80 609 VK 7 Soy 50 My g a 40 Lf @ A .001 E 3 20 F- ,0001 = 0 0 200 400 600 800 1000 0 30 60 90 120 150 Reverse Voltage Volts Average Forward Current Amperes 8-7-00 Rev. 1