ALPHANUMERIC INDEX CROSS-REFERENCE (Continued) Motorola Motorola Motorola Motorola industry Direct Similar Page Industry Direct Similar Page Part Number Replacement Replacement Number Part Number Replacement Replacement Number 2N5068 2N5758 3-116 2N5349 2N5339 3-97 2N6069 2N5758 3-116 2N5384 2N6191 3-158 2N5083 2N5339 3-97 2N5385 2N6191 3-168 2N5084 2N5339 3-97 2N5386 2N5038 3-83 2N5085 2N5339 3-97 2N5387 2N6546 3-225 2N5147 2N6191 3-158 2N5388 2N6546 3-225 2N5148 2N5337 3-97 2N5389 2N6546 3-225 2N5149 2N6191 3-158 2N5404 2N6191 3-158 2N5150 2N5337 3-97 2N5405 2N6191 3-158 2N5151 2N6191 3-158 2N5406 2N6191 3-158 2N5152 2N6337 3-97 2N5407 2N6193 3-158 2N5153 2N6191 3-158 2N5408 2N6191 3-158 2N5154 2N5337 3-97 2N5403 2N6193 3-158 2N5157 2N6545 3-221 2N5410 2N6191 3-158 2N5190 2N5190 3-85 2N5411 2N6193 3-158 2N5191 2N5197 3-85 2N5427 2N5428 3-101 2N5192 2N5192 3-85 2N5428 2NS428 3-101 2N5193 2N5193 3-89 2N5429 2N5429 3-101 2N5194 2N5194 3-89 2N5430 2N5430 3-101 2N5195 2N5195 3-89 2N5466 2N6545 3-221 2N5202 2N5428 3-101 2N5467 2N6545 3-221 2N6239 2N6306 3-181 2NS477 2N5339 3-97 2N5240 2N6545 3-221 2N5478 2N5339 3-97 2N5241 2N3902 3-60 2N5479 2N5339 3-97 2N5264 2N6249 3-164 2N5480 2N5339 3-97 2N5284 2N5339 3-97 2N5490 MJE3055T 3-904 2N5285 2N5339 3-97 2N5491 MJE3055T 3-904 2N5286 2N6191 3-158 2N5492 2N6292 3-151 2N5287 2N6191 3-158 2N5493 2N6292 3-151 2N5293 2N6123 3-154 2N5494 MJE3055T 3-904 2N5294 2N6123 3-454 2N5495 MJE3055T 3-904 2N5295 2N6121 3-154 2N5496 2N6292 3-151 2N5296 2N6121 3-154 2N5497 2N6292 3-151 2N5297 2N6122 3-154 2N5508 2N5428 3-101 2NS298 2N6422 3-154 2N5539 2N6379 3-191 2N5301 2N5301 3-93 2N5559 MJ15001 3-710 2N5302 2N5302 3-93 2N5575 2N5685 3-112 2N5302JAN 2N5302JAN 3-93 2N5578 2N5685 3-112 2N5302JTX 2N5302JTX 3-93 2N5598 2N5428 3-101 2N5302JTXV 2N5302JTXV 3-93 2N5600 2N5428 3-101 2N5303 2N5303 3-93 2N5602 2N5428 3-101 2N5303JAN 2N5303JAN 3-93 2N5604 2N5430 3-101 2N5303JTX 2N5303JTX 3-93 2N5606 2N5428 3-101 2N5303STXV IN5303STXV 3-93 2N5610 2N5428 3-101 2N5325 2N5339 3-97 2N5612 2N5430 3-101 2N5333 2N6303 3-32 2N5614 2N3448 3-18 2N5334 2N6337 3-97 2N5616 2N3448 3-18 2N5335 2N5337 3-97 2N5618 2N3448 3-18 2N5336 2N5336 3.97 2N5629 2N5629 3-105 2N5337 2N5337 3-97 2N5630 2N5630 3-105 2N5338 2N5338 3-97 2N5631 2N5631 3-105 2N5339 2N5339 3-97 2N5632 2N5882 3-123 2N5339AN 2N5339JAN 3-97 2N5633 MJ15001 3710 2N5339JTX 2N5339JTX 3-97 2N5634 MJ15001 3-710 2NS5339JTXY 2N5339TXV 3-97 2N5651 2N3585 3-20 2N5344 2N6211 3-161 2N5655 2N5655 3-109 2N5345 2N6212 3-161 2N5656 2N5656 3-109 2N5346 2N5339 3-97 2N5657 2N5657 3-109 2N5347 2N5339 3-97 2N5660 2N3585 3-20 2N5348 2N5339 3-97 2N5661 2N3584 3-20 *Consult Motorola if a direct replacement is necessary. 1-4TABLE 7 PLASTIC TO-225 Type (Formerly TO-126 Type) STYLE 1: STYLE 3: PIN 1. EMITTER PIN 1. BASE 2. COLLECTOR 2. COLLECTOR 3. BASE 3. EMITTER CASE 77-06 Resistive Switching IcCont | VcEOisus) . ts te fr Pp (Case) Amps Volts Device Type hee @lc | as Bs | @ic | MHz | Watts Max Min NPN PNP Min/Max Amp Max Max Amp Min @ 25C 0.3 250 MJE3440 40/160 0.02 15 15 350 MJE3439 40/160 0.02 16 15 05 150 MJE341 25/200 0.05 15 20.8 200 MJE344 30/300 0.05 15 20.8 250 2N5655 30/250 0.1 3.5 typ | 0.24 typ 0.1 10 20 BD157 30/240 0.05 20 300 BD158 30/240 0.05 20 BD232 20 min 0.15 20 MJE340 MJE350 30/240 0.05 20.8 2N5656 30/250 0.1 3.5 typ | 0.24 typ 0.1 10 20 350 2N5657 30/250 0.1 3.5 typ | 0.24 typ 0.1 10 20 BD159 30/240 0.05 20 1 40 2N4921 2N45918 20/100 0.5 0.6 typ | 0.3 typ 0.5 3 30 60 2N4922 2N4919 20/100 0.5 0.6 typ | 0.3 typ 0.5 3 30 80 2N4923 2N4920 20/100 0.5 0.6 typ | 0.3 typ 0.5 3 30 15 45 BD165 BD166 18 min 0.5 6 20 BD135 BD136 40/250 0.15 12.8 BD135.6 BD 136.6 40/100 0.15 12.6 BD135.10 BD 136.10 63/160 0.15 12.5 BD135.16 BD136.16 100/250 0.15 12.5 60 BD167 15 min 0.5 6 20 BD137 BD138 40/250 0.15 12.5 BD137.6 BD138.6 40/100 0.15 12.5 BD137.10 BD138.10 63/160 0.15 12.5 BD137.16 BD138.16 100/250 0.15 12.5 80 BD169 15 min 0.5 20 BD139 BD140 40/250 0.15 12.5 BD139.6 BD140.6 40/100 0.15 12.5 BD139.10 BD 140.10 63/160 0.15 12.5 BD139.16 BD 140.16 100/250 0.15 12.5 300 MJE13002 5/25 1 0.7 1 5 40 400 MJE13003 5/25 1 0.7 1 5 40 2 45 BD234 25 min 1 3 25 60 BD235 BD236 25 min 1 3 25 80 BD237 25 min 1 3 25 100 MJE270## MJE2714#4# 1.5k min 0.12 6 15 3 30 MJE520 MJE370 25 min 1 25 40 MJE180 MJE170 50/250 0.1 0.6 typ | 0.12 typ 0.1 50 12.5 Case 77 (Style 3), # |hfg| @ 1 MHz, ## Darlington (continued)moToRO 2N5655 = SEMICONDUCTOR es 2N5656 = TECHNICAL DATA 2N5657 PLASTIC NPN SILICON HIGH-VOLTAGE NSI POWER TRANSISTOR 0.5 AMPERE . designed for use in line-operated equipment such as audio output amplifiers; low-current, high-voltage converters; and AC line relays POWER TRANSISTORS Excellent DC Current Gain hf = 30-250 @ Ic = 100 mAdc NPN SILICON Current-Gain Bandwidth Product 250-300-350 VOLTS ff = 10 MHz (Min) @ tc = 50 mAdc 20 WATTS Packaged in Thermopad Case for Low Cost *MAXIMUM RATINGS - Rating Symbol |,2N5655 || 2NS656 | 2NS657!| Unit @ Collector-Emitter Voltage VcoEO 250 300 350 Vde Coltector-Base Voltage Voce 275 325 375 Vde Emitter-Base Voltage VEB = _ 6.0 Vdc Collector Current Continuous le 05 . Adc Peak _$ 1.0 __ Base Current Ip 0.25 _ Adc Total Power Dissipation @ Tc = 25C Pp 20 Watts Derate above 25C 0.16 wc Operating and Storage Junction Ty. Tstg -65 to +150 % Temperature Range Lang THERMAL CHARACTERISTICS i Ph LF {Ce Characteristic Symbol Max Unit Qa me 4 J Thermal Resistance, Junction to Case IC 6.25 cw } ! FIGURE 1 POWER DERATING 2 COLLECTOR 3. BASE | a 4 s [402510010 [a @[8 @] noren D2 [4] 0.25 0010 @ [A Ola ] 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982, 2. CONTROLLING DIMENSION: INCH. _ Indicates JEDEC Registered Data tees | } STYLE 1: H PIN 1. EMITTER R oO < zx Pp, POWER DISSIPATION (WATTS) 60 75 100 125 Tc. CASE TEMPERATURE (9C) FIGURE 2 SUSTAINING VOLTAGE TEST CIRCUIT 50 mH Hy RELAY TO SCOPE . + - = 60V 4] CASE 77-06 om F tt _] TO-225AA TYPE Sate Area Limits are indicated by Figures 3 and 4. Both limits are applicable and must be observed, 3-109Ic, COLLECTOR CURRENT (AMP) 2N5655, 2N5656, 2N5657 ELECTRICAL CHARACTERISTICS (Tc = 25C unless otherwise noted) Characteristic | Symbol L Min I Max | Unit ] OFF CHARACTERISTICS Coltector-E mitter Sustaining Voltage VCEO{sus) Vde {lg = 100 mAde linductive), L = 50 mH) 2N5655 250 2N5656 300 2N5657 350 Collector-Emitter Breakdown Voltage V(BRICEO Vde (Wg = 1.0 mAdc, Ig = 0} 2N5655 250 2N5656 300 2N5657 350 Collector Cutoff Current IcEO mAde (VceE = 150 Vdc, Ig = 01 2N5655 - 01 (Vce = 200 Vdc, Ig = 0) 2N5656 - 0.1 (VcE = 250 Vdc, Ig = 0) 2N5657 - 0.1 Collector Cutoff Current IcEX mAdc (VE = 250 Vde, Vepiotf 1.5 Vdc) 2N5655 0.1 (VcE - 300 Vdc, VeBiogt} = 1-5 Vde) 2N5656 - O1 (VcE = 350 Vdc. Vegtoff) = 1.5 Vdc) 2N5657 - 01 (VceE= 150 Vdc, VeBtoft) = 1-5 Vde, Tc = 100C) 2N5655 - 1.0 (VcE = 200 Vdc, VEB(off) = 1.5 Vde, Te = 100C} 2N5656 1.0 (VcE = 250 Vdc, VEB(of#) = 1.5 Vde, Te = 100C} 2N5657 1.0 Coilector Cutoff Current IcB0 uAdc (Veg = 275 Vdc, Ig = 0) 2N5655 - 10 (Vcg = 325 Vde, Ie = 0) 2N5656 : 10 (Veg * 375 Vde, Ie = 0) 2N5657 10 Emitter Cutoff Current lego 10 Adc (VER > 6.0 Vae, Ic = 01 c ON CHARACTERISTICS OC Current Gain (1) hee (ic = 50 mAdc, Veg = 10 Vde) 25 Uc = 100 mAde, Vcg = 10 Vde} 30 250 (ig = 250 mAdc, Veg = 10 Vde} 15 {Ic = 500 mAdc, Veg = 10 Vde) 5.0 Collector-E mitter Saturation Voltage (1) VCE (sat) Vde {tc = 100 mAde, Ig = 10 mAdc} 1.0 (I = 250 mAdc, Ig = 25 mAdc) 2.5 Ue $00 mAde, tg + 100 mAdc} ~ 10 Base-E mitter Voltage (1) Vee - 1.0 Vde (I = 100 made, Voge = 10 Vde) DYNAMIC CHARACTERISTICS Current-Gain - Bandwidth Product (2) fT 10 MHz (Wc - 50 mAdc, Veg - 10 Vdc, f ~ 10 MHz) Output Capacitance Cob - 25 pF (VB = 10 Vde, [= 0, f = 100 kHz) Smal -Signal Current Gain hte 20 (lg = 100 mAdc, Vcg = 10 Vde, f = 1.0 kHz) Indicates JEDEC Registered Data tor 2N5655 Series (1) Pulse Test: Pulse Width < 300 us, Outy Cycles 2 0% (2) t7 is defined as the frequency at which |hgg| extrapolates to unity FIGURE 3 ACTIVE-REGION SAFE OPERATING AREA 10 There are two limitations on the power handting ability of a 10 us transistor: average junction temperature and second breakdown, 05 Safe operating area curves indicate Ic - Veg limits of the transistor 500 us that must be observed for retiable operation; i.e., the transistor must not be subjected to greater dissipation than the curves indicate. 02 Ta= 1500C 1.0 ms The data of Figure 3 is based on TJipx) = 150C; Te is variable depending On conditions. Second breakdown pulse limits 01 are valid for duty cycies to 10% provided Ty(pkyS150C. At high Second case temperatures, thermal limitations will reduce the power that 0.05 | 77 Thermal Limit @ Te = 25C can be handled to values less than the limitations imposed by second - - ~ Bonding Wire Limit breakdown. Curves apply below rated VCEQ 0.02 0.01 20 30040 60 200 400 =-600 Vce. COLLECTOR EMITTER VOLTAGE (VOLTS) 3-110hee, DC CURRENT GAIN V, VOLTAGE (VOLTS) 1, TIME (us) 2N5655, 2N5656, 2N5657 FIGURE 4 CURRENT GAIN -- VcE=10V Ty=+1509C ~ VCE =2.0V +100C 10 2.0 3.0 5.0 7.0 10 20 30 50 70 100 200 300 500 ic, COLLECTOR CURRENT (mA) FIGURE 5 ON VOLTAGES FIGURE 6 CAPACITANCE Tye + VBE(sat) @ Ic/Ig = 10 = VBE @Vce=10V w o =z a E Ss = < o VCE(sat) !C/tp = 10 Ty = +25C Ic/tp = 5.0 10 20 30 50 100 200 300 500 0.1 02 05 #10 20 5.0 10 20 50 100 Ic, COLLECTOR CURRENT (mA) Va, REVERSE VOLTAGE (VOLTS) FIGURE 7 TURN-ON TIME FIGURE 8 TURN-OFF TIME to/lg = 10 Ic/lg = 10 me Veoc= 300V, Vge(off) = 2.0V (2N5656, 2N5657, only) =VCC = 100 V, VeE{ott) = OV a wa = 5 Vec= 100V Vcc = 300 V (Type 2N5656, 2N5657, only} 1000 20 50 10 20 50 100 200 500 10 2.0 5.0 10 20 50 100200 500 Ic, COLLECTOR CURRENT (mA) Ic, COLLECTOR CURRENT (mA) 3-171