10 Amp Schottky Rectifier MS1TQ45 A F ~ FC Dim. Inches Millimeter / LJ iH B Minimum Maximum Minimum Maximum Notes | ZL | _ A .390 .415 9.91 10.54 G e) D B .045 .055 1.14 1.40 { a C .180 -190 4.57 4.83 TE D .245 -260 6.22 6.60 E -000 -650 13.97 16.51 F 139 155 3.53 3.94 Dia. | 1 3 G -100 -120 2.54 3.05 H Base H --- .250 --- 6.355 J -500 580 12.70 14.73 | _| _ (Cathode) K 190 210 483 5.33 J L014 025 0.35 0.63 M -080 115 2.03 2.92 4 N .028 .038 0.71 0.96 l- N L IL P = .045 055 1.14 1.40 K 5 M Similar to TO220AC Microsemi Industry Working Peak __ Repetitive Peak Catalog Number Part Number Reverse Voltage Reverse Voltage Schottky Barrier Rectifier SBL10L30 30V 30V Guard Ring Protection 10TQ03 35V 35V Low Forward Voltage MER Mo A0v Aov e 150C Junction Temperature MS1045 MBR745 45V 45V e Reverse Energy Tested MBR1045, 10TQ045 Electrical Characteristics Average forward current Maximum surge current Max peak forward Max peak forward Max peak reverse voltage voltage current Typical junction capacitance | F(AV) 10 Amps | F(AV) 225 Amps VFM .47 Volts VFM .56 Volts IRM 2 mA Cy 575 pF Tc = 115C Square wave, RaJC = 2.5C/W 8.3 ms, half sine,TJ = 150C IFM = 10A: UW = 150C* IFM = 10A: U = 25C# yRRM, TJ = 25 VR = 5.0V,Ty = 25C * Pulse test: Pulse width 300 sisec, Duty cycle 2% Thermal and Mechanical Characteristics Storage temperature range TSTG 55C to 175C Operating junction temp range TJ 59C to 150C Maximum thermal resistance R@JC 2.5C/W Junction to Case Mounting torque 8-12 inch pounds (6-32 screw) Weight .08 ounces (2.3 grams) typical 10-8-04 Rev. 5 COLORADO 800 Hoyt Street Micr frosem mF roomted Co. 80020 PH: (303) 469-2161 FAX: (303) 466-3775 www.microsemi.com Typical Reverse Current mAmperes MS1T045 10-8-04 Rev. 5 Figure 1 a Figure 3 Typical Forward Characteristic Typical Junction Capacitance 1 10,000 800 i. 2000 400 L a 5 1000 200 g & 400 100 S 200 0 5 100 3 60 1.2.3 1 10 100 40 Reverse Voltage Volts Figure 4 2 Forward Current Derating 5 20 oO a 6 150 ! _| < 2 ~~ ' 49 2 140 | 5 8.0 2 Eb = 150 S 6.0 Fe Te, 2 8 120r = ic 2 110 Ss g 3 3 = 100 s 2.0 E 5 3 90 2 = 40 = 80 9074 | [120 11809 DG A 3 5 7 9 | 1.30 1.5 0 3 6 9 12 15 Instantaneous Forward Voltage Volts Average Forward Current Amperes Figure 2 Figure 5 Typical Reverse Characteristics Maximum Forward Power Dissipation 1000 7 LC = 6 J 100 / 5 5 180) A . 120 YY, f 10 2 9 A a 4 2 Y, , 3 2 2 f WA f E Y Ss 1 3 .01 = 0 10 20 30 40 50 0 3 6 9 12 15 Reverse Voltage Volts Average Forward Current Amperes