g FERRANTI FMMT2222 semiconductors], FMMT2222A NPN Silicon Planar General Purpose Switching Transistors DESCRIPTION These devices are intended for use in small and medium signal amplification applications from d.c. to radio frequencies. Complementary to the FMMT2907 series. are designed specifically for use in thin and thick film hybrid circuits in both industrial and commercial applications. SOT-23 Actual size in inset Encapsulated in the popular SOT-23 package these devices The Ferranti SOT-23 package is formed by transfer moulding a SILICONE plastic specially selected to provide a rugged one piece encapsulation resistant to severe environments. ABSOLUTE MAXIMUM RATINGS Parameter Symbol FMMT2222 | FMMT2222A Unit Collector- Base Voltage Veso 60 75 Volts Collector- Emitter Voltage Veeo 30 40 Volts Emitter-Base Voltage VeBo 5 6 Volts Continuous Collector Current Ic 600 600 mA Power Dissipation atT, 4p = 25C Prot 300 300 mW Operating and Storage Temp. Range -65 to +175 Cc Maximum power dissipation is calculated assuming that the device is mounted on a ceramic substrate measuring 10 x 8 x 0.6 mm.FMMT2222/2222A CHARACTERISTICS (at 25C ambient temperature unless otherwise stated). FMMT2222 | FMMT2222A Parameter Symbo! Unit Conditions Min. | Max. | Min. | Max. Collector-emitter Vv 30 40 _ Vv Io = 10mA breakdown voltage (BR)CEO is =0 Collector-base Vv 60 _ 75 _ Vv ic = 10uA breakdown voltage (R)CBO =0 Emitter-base Vv 5 _ 6 |V ' =10pA breakdown voltage (BRIEBO lc = 0 Collector-emitter lcex _ _ _ 10 | nA Vee = 60V cut-off current Vepiorf) = 3V Collector-base IcBo _ 10 _ _ nA Vea. = 50V cut-off current Ie = 0 _ _ _ 10 nA Veo = 60V p= 10 _ pA 1o8. == 5OV 7 b = 160C ~ | | | 10 | ya Ves a= 60V Ee = 160C Emitter base leno _ _ _ 10 | nA Veg = 3V cut-off current le = Static forward Hee 35 _ 35 _ Ic = 0.1 MA current transfer Voge = 10V* ratio 50 _ 50 _ te = 1mA Voce = 1OV 75 _ 75 _ Ile = 10m VcE= 10V. . 35 _ 35 _ lc =10mA Vee = 10V Tamb = 95C 100 300 100 300 Ic = 150 mA Voce = 10V* 50 50 _ Ic = 150 mA Vee = 1V* 30 _ 40 _ Ic = 500 mA Vog = 10V" Collector-emitter Vee(sat) _ 0.4 _ 0.3 Ic = 150 mA saturation voltage Ig = 15 mA* _ 1.6 1.0 Ic = 500 mA Ig = 50 mA* Base-emitter Ve E(sat) 0.6 2.0 0.6 1.2 Vv Io = 150 mA saturation voltage lg = 15mA* 2.6 2.0 1c = 500 mA Ig = 50 mA* *Measured under pulsed conditions. Pulse width = FMMT2222/2222A, Page 2 300 us. Duty cycle = 2%.CHARACTERISTICS (contd.) FMMT2222/2222A FMMT2222 | FMMT2222A Parameter Symbol Unit Conditions Min. | Max. | Min. | Max, Transition frequency fr 250 300 MHz |} Ic=20mA Voge = 20V f = 100 MHz Output capacitance Cono 8 _ 8 pF Vce = 10V =0 = 140 kHz Input capacitance Cibo _ 30 25 pF Ves an le= f = 140 kHz Noise figure N _ _ _ 4 dB Io = 200 LA Ve = 85V Rg = 2kQ f= 1 kHz Af = 200 Hz SWITCHING CHARACTERISTICS (at 25C ambient temperature). FMMT2222 | FMMT2222A Parameter | Symbol Unit Conditions Typical Maximum Delay time] ty 10 10 ns Vee = 30V, V = 0.5V lo = 150 MA, Iny 15 mA Risetime | t, 25 25 ns (See Fig. 1) Storage t, 225 225 ns Vec = 30V, le = 150 mA time lg, = lg2 = 15mA (See Fig. 2) Fall time t 60 60 ns CIRCUITS FOR MEASURING SWITCHING TIMES DELAY AND RISE TIME Equivalent test circuit Generator Rise Time & 2ns Pulse Widin 200ns Duty Cycle 22% "Ae Oreste g. +30 Scope: Rin > 10kN. Cin &12 pF seasfl Fig. 1 Rise Time 5ns STORAGE TIME AND FALL TIME Equivalent test circuit +30 ~ wer 8100p5 1 i : Int be <Sns eat 0 4 -13-6 INSITE. a fes500ps Duty Cyclen 2% WV Scope: Rig > 100k. Cin 12 0F Rise Time Sns 1 Fig. 2 FMMT2222/2222A, Page 3FMMT2222/2222A DERATING CURVE Prot (enw) 7A -50 25 100 125 19 1795 o 3 50 w AMBIENT TEMPERATURE (C) PACKAGE DETAILS Devices are identified by a numeric-alpha code stamped on the body as follows: FMMT2222 .. a a .. 1B FMMT2222A ve Me .. TP 1,2 max f[ F 4469/8 0,05 min SOT-23 Dimensions in millimetres FMMT2222/2222A, Page 4SOT-23 TRANSISTORS & DIODES PRODUCT LIST AND DEVICE IDENTIFICATION TRANSISTORS TRANSISTORS Reverse Reverse Device Standard Joggle Device Standard Joggle Type marking marking Type marking marking BCV71 K7 K6 BFO31 $2 $3 BCV72 K8 Ko BFO31A s4 $5 Bcw29 C1 c4 BFS20 Gl G4 BCW30 c2 C5 BCW31 D1 D4 BSSE3 T3 T6 BSS64 U3 U6 BCW32 D2 D5 BCW33 53 D6 BSS65 1 L5 BSS66 M6 M8 BCW60A AA - BSS67 M7 Mg BCWE60B AB BSS69 L2 L6 BCW60C AC AR BSS70 L3 L7 BCW60D AD _ BSS79B CE _ BCW61A BA CA BSS79C CF _ BCW61B BB cB BSS82B cL - BCW6IC BC cc BSS82C cM - BCW61D BD cD BCW65A EA ~ BSV52 B2 B4 BCW65B EB - BCW6EC EC _ FMMT-AQ5 1H - BCWE66F EF 7P FMMT-A06 1G - BCW6EG EG 5T FMMT-A12 3w - BCW66H EH - FMMT-A13 1M _ ~ FMMT-A14 1N - BCW67A DA ~ EMMT_A20 ic I BCWE67B OB 7 FMMT-A42 3E 7E BCWEIC DC - FMMT-A43 1E SE BCW68F DF ~ FMMT-A55 2H - BCW68G DG 6T FMMT-A56 2G _ BCW68H DH FMMT-A70 2c - BCW69 H1 H4 FMMT-A92 4E 8E BCW70 H2 H5 FMMT-A93 2E 6E BCW71 K1 K4 FMMT918 3B _ BCW72 K2 K5 FMMT2222 1B 2P BCW89 H3 H6 FMMT2222A 1P 3P FMMT2369 J FMMT2369A P5 - BCX17 TI T4 FMMT2484 4G - BCX18 T2 TS FMMtT2907 2B _ BCX19 ul U4 FMMT2907A 2F 5P BCX20 u2 U5 FMMT3903 IW _ BCX70G AG _ FMMT3904 1A - BCX70H AH - FMMT3905 2w - BCX70J AJ AX Arora a 7 BCX70K AK P9 FMMT4125 zD - BCX71G BG cG FMMT5087 2M 3M BCX71H BH 6P BCX71J BJ J8 HT2 27 - BCX71K BK CK HT3 3T _ H2SOT-23 TRANSISTORS & DIODES SELECTION GUIDE SWITCHING TRANSISTORS (NPN) Ratings hre VcE(sat) fT Type Vcspo | Vceo Ic Prot min/max at Ic/Vce max at = Ic/Ip Typ. Volts | Volts mA mw mA/Volts Volts mA MHz BSS79B 75 40 800 300 40/120 150/10 0.3 150/15 250 BSS79C 76 40 800 300 100/300 150/10 0.3 150/15 250 FMMT2222A 75 40 600 300 100/300 150/10 0.3 150/15 300 BSS66 60 40 100 300 50/150 10/1 0.2 10/1 250 BSS67 60 40 100 300 100/300 10/1 0.2 10/1 300 FMMT2222 60 30 600 300 100/300 150/10 0.4 150/15 250 FMMT2369A 40 15 200 200 40/120 10/1 0.2 10/1 500 FMMT2369 40 15 200 200 40/120 10/1 0.25 10/1 500 BSV52 20 12 100 200 40/120 10/1 0.25 10/1 500 SWITCHING TRANSISTORS (PNP) Ratings hee VccEisat) fr Type Vcso | Vceo Ic Prot | min/max at Ic/VceE max at = Ic/Ip Typ. Volts | Volts mA mw mA/Volts Volts mA MHz BSS82B 60 60 800 300 40/120 150/10 0.4 150/15 200 BSS82C 60 60 800 300 100/300 150/10 0.4 150/15 200 FMMT2907A 60 60 600 300 100/300 150/10 0.4 150/15 200 FMMT2907 60 40 600 300 100/300 150/10 0.4 150/15 200 BSS69 40 40 100 300 50/150 10/1 0.25 10/1 200 BSS70 40 40 100 300 100/300 10/1 0.25 10/1 250 BSS65 12 12 100 200 40/150 30/0.5 0.15 10/1 400 H7