Schottky MiniMod FST82.30 F A Dim. Inches Millimeter N, 2-PLOS\S | Minimum Maximum Minimum Maximum Notes 1 2 3 Pp ND B E Common Cathode A 1.180 1.195 29.97 350.35 | 12 3 C .027 .037 0.69 0.94 | ot E .350 -570 8.89 9.40 F 1.490 1.510 37.85 58.35 3 G .695 -715 17.65 18.16 we A=Common Anode H .088 .098 2.24 2.49 J -.240 -260 6.10 6.60 3 PINS eq sp at 200 K 115 135 292 3.43 } G L .460 -480 11.68 12.19 kK, C 1 9 8 M .065 .085 1.65 2.16 == J Heesi] 1 | y pepoubier N 151 161 384 409 Dia | TI P .015 .025 0.38 0.64 Note: Baseplate Common with Pin 2 Working Repetitive . . Microsemi Industry Peak Reverse Peak Reverse Schottky Barrier Rectifier Catalog Number Part Number Voltage Voltage Guard Ring Protection @ 2X40 Amperes avg. FST8230* 82CNQ030, A 30V 30V *Add the Suffix A for Common Anode, D for Doubler @ 150C Junction Temperature @ Reverse Energy Tested @ Low Forward Voltage Electrical Characteristics Average forward current per pkg Average forward current per leg Maximum surge current per leg Max repetitive peak reverse 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 reverse current per leg Typical junction capacitance per leg |F(AV) 80 Amps |F(AV) 40 Amps |FSM 800 Amps IR(OV) 2 Amps VFM 0.42 Volts VFM 0.47 Volts IRM 300 mA IRM 5 mA IRM 3 mA CJ 2400 pF Tc = 115C, Square wave, Rec Te = 115C, Square wave, Reuc 8.3 ms, half sine, TJ = 150C f = 1 KHZ, 25C, 1 usec square wave 'FM = 40A: Ty = 150C* TJ = 25C* 125C* 25C 25C = 5.0V, TC = 25C 0.5C/W 1.0C/W *Pulse test: Pulse width 300 usec, Duty cycle 2% Thermal and Mechanical Characteristics Storage temp range Operating junction temp range Max thermal resistance per leg Max thermal resistance per pkg. Typical thermal resistance (greased) Mounting Base Torque Weight TSTG Ty ReJC R@JC Recs 55C to 175C 55C to 150C 1.0C/W Junction to case 0.5C/W Junction to case 0.3C/W Case to sink 10 inch pounds maximum 0.3 ounce (8.4 grams) typical COLORADO Microsemi a =900 Hoyt Street Broomfield, CO. 80020 PH: (303) 469-2161 FAX: (303) 466-3775 www.microsemi.com 2-2-05 Rev. 4FSTO2Z50 Figure 1 Typical Forward Characteristics Per Leg 1000 800 600 400 200 100 80 60 40 Instantaneous Forward Current Amperes 1.0 0 0.2 #04 O06 O8 10 12 1.4 Instantaneous Forward Voltage Volts Figure 2 Typical Reverse Characteristics Per Leg = o oO =] Typical Reverse Current mAmperes 0 10 20 30 Reverse Voltage Volts Figure 3 Typical Junction Capacitance Per Leg 10000 6000 4000 2000 1000 600 400 200 Junction Capacitance pF 100 0.1 0.5 1.0 5.0 10 50 100 Reverse Voltage Volts Figure 4 Forward Current Derating Per Leg 150 =~ 140 | 130 Seo pS oN 120 110 100 90 Maximum Allowable Case Temperature C n0| | 1207 gee | De 80 i 0 12 24 36 48 60 Average Forward Current Amperes Figure 5 Maximum Forward Power Dissipation Per Leg 35 ww o nN on na UU N o sede A SA BA = oO Z N Maximum Power Dissipation Watts a Oo 0 12 24 36 48 60 Average Forward Current Amperes 2-2-05 Rev. 4