30 Amp Schottky Rectifiers =ST3150 FOTSTOO A F C Dim. Inches Millimeter / + B Minimum Maximum Minimum Maximum Notes | J\ 4 A .390 A15 9.91 10.54 CG 7 B .045 .055 1.14 1.40 + @B D = C 180 199 4.57 4.83 D 245 .-260 6.22 6.60 | E E .550 -650 13.97 16.51 F -139 -161 5.53 4.09 Dia. 123 G -100 135 2.54 3.43 1 Ho == 250 -- 6.35 H BASE J -500 .580 12.70 14.73 | COMMON CATHODE K .190 .210 4.83 5.33 J | L_p L .014 -.022 057 .559 M .080 115 2.03 2.92 N O15 .040 -380 1.02 = P .045 -070 1.14 1.78 =|F-N L , R are R .090 .110 2.29 2.79 K PLASTIC TO-220AB Microsemi Catalog Industry Repetitive Peak Transient Peak @ Schottky barrier rectifier Number Part Number Reverse Voltage Reverse Voltage Guard ring for reverse FST3150 30CTQO50 50V 50V protection @ Reverse energy tested FST3160 S3OCTQO60 60V 60V @ Hiah surae capacit MBR2560CT 9 ge capacity e YRRM 50 to 60 Volts Electrical Characteristics Average Forward Current per pkg. Average Forward Current per leg Maximum Surge Current per leg Max. Peak Forward Voltage per leg Max. Peak Forward Voltage per leg Max. Peak Reverse Current per leg Max. Peak Reverse Current per leg Typical junction capacitance ECAV) 30 Amps IF(AV) 15 Amps IFSM 250 Amps VEM 0.57 Volts VFM 0.73 Volts IRM 15 mA IRM 500 uA G 660 pF Tc = 153C, Square wave, R auc Te 153C, Square wave, ReJc 8.3ms, half sine,Ty = 175C [FM = 15A, TJ = 175C* |IFM = 15A, Tu = 25C* 1.0C/W 2.0C/W VRRM, Td = 125C * VRRM, Tu = 25C VR = 5.0V, J = 25C *Pulse test: Pulse width 300 psec. Duty cycle 2% Thermal and Mechanical Characteristics Storage temp range TSTG 55C to + 175C Operating junction temp range TJ 55C to + 175C Max thermal resistance per leg R@uUC 2.0C/W Junction to case Max thermal resistance per pkg. ROJC 1.0C/W Junction to case Mounting torque Weight 15 inch pounds maximum (632 screw) .06 ounces (1.8 grams) typical COLORADO Mier, rosem 800 Hoyt Street 5 Broomfield, CO. 80020 PH: (303) 469-2161 FAX: (303) 466-3775 www.microsemi.com 11-16-01 Rev. 2FSTSTOO Figure 1 Typical Forward Characteristics Per Leg 1000 800 600 400 200 100 80 60 40 Instantaneous Forward Current Amperes 0 02 04 O06 O08 1.0 1.2 1.4 Instantaneous Forward Voltage Volts Figure 2 Typical Reverse Characteristics Per Leg 100 10 1.0 0.1 .01 Typical Reverse Current iA .001 0 20 40 60 80 100 Reverse Voltage Volts FSTST60 Figure 3 Typical Junction Capacitance Per Leg 10000 Ww L 2000 S 1000 w 8 a oS oO c 2 200 oO > 100 A Oo 1.0 5 10 50 Reverse Voltage Volts Figure 4 Forward Current Derating Per Leg _y ~l on = ~l oS ~ ih 1h iL Lh] / = a Oo = ao on = wo oO = - on Maximum Allowable Case Temperature C 609 9091209 190 DC 0 2 4 6 8 10 12 14 16 18 20 Average Forward Current Amperes = > So Figure 5 Maximum Forward Power Dissipation Per Leg 14 12 10 180P VAAL DC We || |g 2 a" WN, Maximum Power Dissipation Watts 0 2 4 6 8 10 12 14 16 18 20 Average Forward Current Amperes 11-16-01 Rev. 2