ES4505C 45 Amp Ultrafast Rectifiers VES4o19C J N R~| [- / C 4 / )- ds |. | 12 3 4 M L L_. F 4 D 1 2 3 K Carte Similar to TO247AD Dim. Inches Millimeter Minimum Maximum Minimum Maximum Notes _ A 185 .209 4.70 5.31 B .087 .102 2.21 2.59 C .059 .098 1.50 2.49 D .040 .055 1.02 1.40 H E .079 .094 2.01 2.39 F 118 133 3.00 3.38 G .016 -031 410 0.78 H .819 .883 20.80 22.4 J .627 650 15.93 16.5 K .215 9.46 _ Typ. L -790 .810 20.07 20.6 M .157 -180 3.99 4.57 N 139 144 3.53 5.66 Dia. P .255 .300 6.48 7.62 Q .170 .210 4.32 5.33 R .080 .110 2.03 2.79 Microsemi Catalog Number Industry Part Number UES4505C 50V UES4510C 100V UES4515C 150V Repetitive Peak Reverse Voltage Transient Peak Reverse Voltage e Ultrafast Recovery Rectifiers VRRM 50-150 Volts 50V 100V @ 150C junction temperature 150V e trr 35nS maximum Electrical Characteristics Average forward current per leg Average forward current per package Maximum surge current per leg Max. peak forward voltage per leg F(AV) 22.5 Amps lF(AV) 45 Amps lFSm 300 Amps VEM .975 Volts To= 116C Tco= 116C 8.3ms, half sine,Ty = 150C IFM = 25A, TU = 25C* Typical peak forward voltage per leg VFM .82 Volts IFM = 25A, TJ = 150C* Max. peak reverse current per leg IRM 15 uA VRRM, TU = 25C Typical peak reverse current per leg IRM 200 uA VRRM, TU = 150C Max. reverse recovery time trr 40 nS 1/2A, 1A, 1/4A Typical junction capacitance per leg Cy 205 pF VR = 10V, Tu = 25C *Pulse test: Pulse width 300 usec. Duty Cycle 2% Thermal and Mechanical Characteristics Storage temp range TSTG 55C to +175C Operating junction temp range TJ 55C to +150C Max thermal resistance per pkg. ReuC 1.5C/W junction to case Max thermal resistance per leg R@uJC 0.75C/W junction to case Mounting torque Weight 8-10 inch pounds (#6 screw) .22 ounces (6.2 grams) typical COLORADO () Microsem a 800 Hoyt Street Broomfield, CO. 80020 PH: (303) 469-2161 FAX: (303) 466-3775 10-28-04 Rev. 1 www.microsemi.comUES4500C UES45019C Figure 1 Figure 3 Typical Forward Characteristics Per Leg Typical Junction Capacitance Per Leg 1000 1000 800 600 500 i. 300 400 1 200 3 100 2 oO 200 & 50 E20 100 % Cc 80 3 40 60 12 (5 1 2 5 10 20 50 100 Reverse Voltage Volts 40 Figure 4 Forward Current Derating Per Leg 20 S 150 2 2 140 ~ < 10 & 130 N i E ~~ a 8. 2 WON 5 @ 120 5 8 N oO @ MN, = 110 4.0 2 So 5 = 100 a 5 90 $8 2.0 4 5 Ss = 80 gor|| fi20P__figoe DC 0 8 16 24 32 40 2 Average Forward Current Amperes = oO 0 4 8 1.2 16 20 24 2.8 Instantaneous Forward Voltage Volts Figure 2 Figure 5 Typical Reverse Characteristics Per Leg Maximum Forward Power Dissipation Per Leg 1000 2 28 6 pe a = / 5 24 07 3 100 ! / J E S 20 ane fy = 5 909 T 10 a 16 OL / ZL 5 Z YY FX 35 1.0 g 12 7 oS = Yo 8 a 8 7 LZ 8 0 E & E 4 7 x 3S .o1 [25 So Ss e 0 40 80 120 160 200 0 8 16 24 32 40 Reverse Voltage Volts Average Forward Current Amperes 10-28-04 Rev. 1