TIOTOROLA SC IXSTRS/R FF 4b DE ese ccs UUdUS eu 6367254 MOTOROLA SC {XSTRS/R F) 96D 80370 _ DT-3BB 9 i : MOTOROLA = SEMICONDUCTOR SEE 2N5344 a TECHNICAL DATA HIGH VOLTAGE POWER PNP SILICON TRANSISTOR 1 AMPERE . han en are eae amplifier applications. ; POWER TRANSISTOR @ High Voltage Rating VcEO = Ic LI @ Fast Switching Time Typically Less Than 550 ns - . PNP SILICON Total @ Vcc = 100 Vde ; @ High Current-Gain-Bandwidth Product 250-300 VOLTS fy = 60 MHz (Min} @ t = 100 mAdc 40 WATTS @ Packaged in the Compact, High-Efficiency TO-213AA Case MAXIMUM RATINGS Rating Symbol Vatue Unit Collector-Emitter Voltage Vogo 250 Vde Collector-Base Voltage Yop 260 Vde Emitter-Base Voltage Yep 5.0 Vde Collector Current Continuous Io 1.0 Ade Base Current Continuous ih 0.5 Adc - U Total Device Dissipation T>) = 28C Py 40 Watts Derate above 25C 228 mw/C Pp [--- 8 | c 1 i Operating and Storage Junction Typ Teg -65 to +200 c ty ff meen ene perature Range TF c { . -dh--p K THERMAL CHARACTERISTICS SEATING PLANE t Characteristic Symbo! Max Unit . STYLE}: Thermal Resistance, Junction to Case IC 4,38 cAV PIN 5 aE ER F | \ CASE: COLLECTOR =~ ' FIGURE 1 POWER-TEMPERATURE DERATING CURVE | Pp, POWER DISSIPATION (WATTS) 0 20 40 80 100 120 140 160 180 200 = Pi 0 Te, CASE TEMPERATURE (C) All JEDEC Dimensions and and Notes Apply. Safe Araa Curves Are Indicated By Figure 5. CASE 80-02 All Limits Are Applicable And Must Be Observed TO-213AA 3-104 oOTIOTOROLA SC LTXSTRS/R FF 2N5344 | 6367254 MOTOROLA SC CXSTRS/R F) I 96D 80371 - 7-33-17 ELECTRICAL CHARACTERISTICS (Tg = 25C unless otherwise noted) Characteristic Fig. No. Symbol Min Max Unit OFF CHARACTERISTICS ; Collector-Emitter Sustaining Voltage (1) 5 VceO(sus) Vde : (lg = 10 mAde, ip = 0) 2N5344 250 - Collector Cutoff Current 10, 12 ICEX pAdc (VcE = 225 Vde, VBEloff) = 1.6 Vde} 2N5344 _ 100 : (VCE = 225 Vdc, VBE (off) = 1.5 Vde, | Tc = 150C) 2N5344 _ 1.0 mAde Collector Cutoff Current _ IcBo mAde (Vcg = Rated Vc, IE = 0) _ 0.1 Emitter Cutoff Current _ lego mAdec (Vpe = 5 0 Vde, Ic = 0) - o1 ON CHARACTERISTICS OC Current Gain (1) 8 hre Uc = 500 mAde, Veg = 5.0 Vde} 25 150 (Ic = 1.0 Ade, Veg = 5.0 Vde) 7.0 a Collector-Emitter Saturation Voltage 9, 11,13 Vce{sat) Vde {I = 1.0 Ade, Ig = 0.2 Adc) _ 3.0 Base-Emitter Saturation Voltage 11,13 VBElsat) Vdc (Ic = 1.0 Ade, Ig = 0.2 Ade} = 1.5 DYNAMIC CHARACTERISTICS Current-GainBandwidth Product fy MHz (Ig = 100 mAdc, Veg = 20 Vdc, f = 10 MHz) _ 60 - Output Capacitance 7 Cob pF (Vop = 10 Vdc, Ie = 0} _ 200 SWITCHING CHARACTERISTICS Turn-On (Vec = 100 Vde, I = 500 mAdc, 2,3 ton _ 200 ns tp1 =!g2 = 50 mAdc) Turn-Off (Voc = 100 Vde, I = 500 mAdc, 2.6 toff _- 700 ns 'B1 = Iga = 50 mAdc) | {1} Pulse Test Pulse Width = 300 ys. Duty Cycle = 2.0% FIGURE 2 ~ SWITCHING TIME TEST CIRCUIT Ves Vec ov 100 V 200 . a 20V .0 uF SCOPE INPUT PULSE ty, 725.0 ns PULSE WIDTH = t.0 ys DUTY CYCLE = 2.0% FIGURE 3 TURN-ON TIME 4000 700 Ig/tg = 10 500 Ty = 259C 300 = 100 200 tr @ Veg = 390 100 70 50 30 ta@ VoB= 20 t, TIME (ns) 10 0.05 0.07 Ot 0.2 0.3 0.5 07 0 tc, COLLECTOR CURRENT (AMP) 3-105ee nee a a ae an a NER A AE SN nn tne ea oe = a eee wets ee ete cask TIOTOROLA SC TXSTRS/7R FF BODE pete reas UWUbUsSee 4 i 6367254 MOTOROLA SC CXSTRS/R F) _- $6D 80372. OD 2N5344 T-33-/9 | FIGURE 4 THERMAL RESPONSE 1.0 07 i E O85 | ai I 2 i < 0.3 : w w 2 02 EE act) =r Be wa 64c = 4.38C/W Max ew ot SINGLE ws PULSE O CURVES APPLY FOR POWER a $0.07 PULSE TRAIN SHOWN 2 0.05 Lo a READ TIME AT ty zr DUTY CYCLE, Tatpk) - Te = Pip) Gc} Ss 003 = = foe Pulse 0,01 Y 0.01 0,02 0.03 0.05 0.1 02 03 OS 1.0 20 30 5.0 10 20 30 50 100 200 300 4500 1000 1, TIME (ms} FIGURE 5 ACTIVE-REGION SAFE OPERATING AREA 1.0 07 0.5 2 os eet , . = There are two limitations on the power handling ability of a E 02 transistor: junction temperature and secondary breakdown, w Safe operating area curves indicate IcVce_ limits of the tran- i = sistor that must be observed for reliable operation; i.e., the tran- S Ot sistor must not be subjected to greater dissipation than the curves oc . 007 indicate. es" The data of Figure & is based on Ty(pk) = 200C; Tg Is var- 3 0.05 iable depending on conditions. Pulse curves are valid for duty 3 cycles of 10% provided Ty(pk} S 200C. Ty(pk) may be calcu- S 0.03 Ty= lated from the data in Figure 4. At high case temperatures, SECONDARY BREAKDOWN LIMITATION thermal limitations will reduce the power that can be handled to 0.02 PULSE DUTY CYGLE =10% values less than the limitations imposed by secondary breakdown, Curves apply rated VCEQ. 0.01 ' 20 3040 50 070100 200 300 400 Vce, COLLECTOR-EMITTER VOLTAGE (VOLTS) FIGURE 6 TURN-OFF TIME FIGURE 7 CAPACITANCES 1000 1000 700 Ty =250C 500 500 300 300 Ty= 25C 200 = 200 z 3 = tf@ Voc = 100V 2 t = 100 = 100 i - Ss er) = tf@ Veg =30 V = 50 pewee So sa s | 30 30 11 = I62 i 20 Ic/ip = 10 20 i ty =ts- HB i io 10 005 0.07 0 02 0.3 oS O7 10 01 0203 05 10 2030 0 10 2030 80 100 Ic, COLLECTOR CURRENT (AMP) Vp REVERSE VOLTAGE {VOLTS}Baer ee TWOTOROLA SC aan mama [ i ' i i wee ees per RTO IXSTRI/R F ee ee Ee 6367254 MOTOROLA SC_(XSTRS/R F) 2N5344 5h peges re54 UUSUS"S b 96D 80373 D T-33-/9- TYPICAL DC CHARACTERISTICS FIGURE 8 DC CURRENT GAIN _ =10V Vce=1.0V bre, DC CURRENT GAIN Vce, COLLECTOR-EMITTER VOLTAGE (VOLTS} 10 2030 50 10 Ic, COLLECTOR CURRENT {mA} 20 30 80 6100 =200 300 500 1000 IGURE 10 EFFECTS OF BASE-EMITTER RESISTANCE 108 107 106 105 104 103 Ree, EXTERNAL BASE-EMITTER RESISTANCE (OHMS) , 102 0 20 40 60 8 100 120 140 = 160 TJ, JUNCTION TEMPERATURE (C) 180 200 10-3 PEURE 12 COLLECTOR CUT-OFF REGION 104 10-5 16-6 Voce = 30V {0-7 Ic, COLLECTOR CURRENT (AMPS) 10-8 6y, TEMPERATURE COEFFICIENTS (mV/C) 10-9 03 02 D4 0 O41 02 43 O04 058 O6 07 VBE, BASE-EMITTER VOLTAGE (VOLTS) 3-107 ON VOLTAGE (VOLTS) FIGURE 9 COLLECTOR SATURATION REGION 1.0 Ty = 2506 08 0.6 0.4 0.2 O01 0203 05 10 2030 50 10 ip, BASE CURRENT (mA) 20 30 50 100 FIGURE 11 ON VOLTAGES 0.8 =.0to 10 0.6 04 02 @ Ic/ig = 0 1 20 30 50 1 20 30 50 100 Ic, COLLECTOR CURRENT {mA} 200 300 500 1000 FIGURE 13 TEMPERATURE COEFFICIENTS APPLIES FOR s HS Ty -55C to +175C 6yg for -2.5 1d 20 3.0 50 10 20 30 50 100 ic, COLLECTOR CURRENT (mA} 200 300 500 1000