cht - umgebende Luft < 200 K/W 1) RthA Recommended complementary NPN transistors Empfohlene komplementare NPN-Transistoren BC337 / BC338 Available current gain groups per type Lieferbare Stromverstarkungsgruppen pro Typ BC327-16 BC327-25 BC327-40 BC328-16 BC328-25 BC328-40 120 [%] 100 80 60 40 20 Ptot 0 0 TA 50 100 150 [C] Power dissipation versus ambient temperature ) 1 Verlustleistung in Abh. von d. Umgebungstemp. ) 1 2 1 2 Tested with pulses tp = 300 s, duty cycle 2% - Gemessen mit Impulsen tp = 300 s, Schaltverhaltnis 2% Valid, if leads are kept at ambient temperature at a distance of 2 mm from case Gultig wenn die Anschlussdrahte in 2 mm Abstand vom Gehause auf Umgebungstemperatur gehalten werden http://www.diotec.com/ (c) Diotec Semiconductor AG

cht - umgebende Luft RthA < 200 K/W 1) Recommended complementary NPN transistors Empfohlene komplementare NPN-Transistoren BC337 / BC338 Available current gain groups per type Lieferbare Stromverstarkungsgruppen pro Typ BC327-16 BC327-25 BC327-40 BC328-16 BC328-25 BC328-40 120 [%] 100 80 60 40 20 Ptot 0 0 TA 50 100 150 [C] Power dissipation versus ambient temperature 1) Verlustleistung in Abh. von d. Umgebungstemp.1) 2 1 2 Tested with pulses tp = 300 s, duty cycle 2% - Gemessen mit Impulsen tp = 300 s, Schaltverhaltnis 2% Valid, if leads are kept at ambient temperature at a distance of 2 mm from case Gultig wenn die Anschlussdrahte in 2 mm Abstand vom Gehause auf Umgebungstemperatur gehalten werden http://www.diotec.com/ (c) Diotec Semiconductor AG

inued BC140/141 Discontinued BC160/161 Discontinued BC177/A/B Discontinued BC237 Replaced by BC547B BC237B Replaced by BC547B BC307 Replaced by BC557B BC307B Replaced by BC557B BC327A Replaced by BC327 BC328 Replaced by BC327 BC328-16 Replaced by BC327-16 BC328-25 Replaced by BC327-25 BC328-40 BC327-40 1999 Jun 23 72 equivalent type Philips Semiconductors Small-signal Transistors DISCONTINUED TYPE Replacement list REASON FOR DELETION BC337A BC337 BC338 BC337 BC338-16 BC337-16 BC338-25 BC337-25 BC338-40 BC337-40 BC368-16 BC635-16 BC368-25 BC635-16 BC547A BC546A BC548 BC547 BC548A BC546A BC548B BC547B BC548C BC547C BC549 BC547B BC549B BC547B BC550 BC547B BC550B BC547B BC557A BC556A BC558 BC557 BC558A BC556A BC558B BC557B BC558C BC557C BC559 BC557 BC559A BC556A BC559B BC556B BC560 BC557 BC560B BC556B BC560C BC557C BC617 BC618 BC635-10 BC635-16 BC637-10 BC637-16 BC638 BC640-16 BC640-10 BC640-16 BC808 BC807 BC808-16 BC807-16 BC808-25 BC807-25 BC808-40 BC807-40 BC808W BC807W BC808-16W BC807-16W BC808-2

AL CHARACTERISTICS (TA = 25C unless otherwise noted) (Continued) Characteristic Symbol Min Typ Max 100 100 160 40 -- -- -- -- 630 250 400 -- Unit ON CHARACTERISTICS DC Current Gain (IC = -100 mA, VCE = -1.0 V) hFE -- BC327/BC328 BC327-16/BC328-16 BC327-25/BC328-25 (IC = -300 mA, VCE = -1.0 V) Base-Emitter On Voltage (IC = -300 mA, VCE = -1.0 V) VBE(on) -- -- -1.2 Vdc Collector - Emitter Saturation Voltage (IC = -500 mA, IB = -50 mA) VCE(sat) -- -- -0.7 Vdc Cob -- 11 -- pF fT -- 260 -- MHz SMALL-SIGNAL CHARACTERISTICS Output Capacitance (VCB = -10 V, IE = 0, f = 1.0 MHz) r(t), NORMALIZED EFFECTIVE TRANSIENT THERMAL RESISTANCE Current - Gain -- Bandwidth Product (IC = -10 mA, VCE = -5.0 V, f = 100 MHz) 1.0 0.7 0.5 D = 0.5 0.3 0.2 0.2 0.1 0.1 0.05 0.07 0.02 0.05 P(pk) SINGLE PULSE 0.01 0.03 t1 t2 DUTY CYCLE, D = t1/t2 SINGLE PULSE 0.02 0.01 0.001 JC(t) = (t) JC JC = 100C/W MAX JA(t) = r(t) JA JA = 375C/W MAX D CURVES APPLY FOR POWER PULSE TRAIN SHOWN READ TIME AT t1 TJ(pk) - TC = P(pk) JC(t) 0.002 0

AL CHARACTERISTICS (TA = 25C unless otherwise noted) (Continued) Symbol Characteristic Min Typ Max 100 100 160 40 -- -- -- -- 630 250 400 -- Unit ON CHARACTERISTICS DC Current Gain (IC = -100 mA, VCE = -1.0 V) hFE -- BC327/BC328 BC327-16/BC328-16 BC327-25/BC328-25 (IC = -300 mA, VCE = -1.0 V) Base-Emitter On Voltage (IC = -300 mA, VCE = -1.0 V) VBE(on) -- -- -1.2 Vdc Collector - Emitter Saturation Voltage (IC = -500 mA, IB = -50 mA) VCE(sat) -- -- -0.7 Vdc Cob -- 11 -- pF fT -- 260 -- MHz SMALL-SIGNAL CHARACTERISTICS Output Capacitance (VCB = -10 V, IE = 0, f = 1.0 MHz) r(t), NORMALIZED EFFECTIVE TRANSIENT THERMAL RESISTANCE Current - Gain -- Bandwidth Product (IC = -10 mA, VCE = -5.0 V, f = 100 MHz) 1.0 0.7 0.5 D = 0.5 0.3 0.2 0.2 0.1 0.1 0.05 0.07 0.02 0.05 P(pk) SINGLE PULSE 0.01 0.03 t1 t2 DUTY CYCLE, D = t1/t2 SINGLE PULSE 0.02 0.01 0.001 JC(t) = (t) JC JC = 100C/W MAX JA(t) = r(t) JA JA = 375C/W MAX D CURVES APPLY FOR POWER PULSE TRAIN SHOWN READ TIME AT t1 TJ(pk) - TC = P(pk) JC(t) 0.002 0

50 100 BC327-16 244 BC337-25 TO-92 45 500 625 160 400 100 BC327-25 244 BC337-40 TO-92 45 500 625 250 600 100 BC327-40 244 BC338 TO-92 25 500 625 100 600 100 BC328 244 BC338-16 TO-92 25 500 625 100 250 100 BC328-16 244 BC338-25 TO-92 25 500 625 160 400 100 BC328-25 244 BC338-40 TO-92 25 500 625 250 600 100 BC328-40 244 BC546 TO-92 65 100 500 110 450 100 BC556 261 BC546A TO-92 65 100 500 110 220 100 BC556A 261 BC546B TO-92 65 100 500 200 450 100 BC556B 261 BC547 TO-92 45 100 500 110 800 100 BC557 261 1997 Jul 21 2

BC237A BC547B BC557 BC557 BC237B BC547B BC557A BC556A BC307 BC557B BC557B BC557B BC307B BC557B BC557C BC557C BC327 BC327 BC558B BC557B BC327-16 BC327-16 BC559B BC556B BC327-25 BC327-25 BC559C BC559C BC328 BC327 BC560C BC557C BC328-16 BC327-16 BC618 BC618 BC328-25 BC327-25 BC635 BC635 BC337 BC337 BC636 BC636 BC337-16 BC337-16 BC637 BC637 BC337-25 BC337-25 BC638 BC640-16 BC337-40 BC337-40 BC639 BC639 BC338 BC337 BC640 BC640 BC338-16 BC337-16 BC807-16LT1 BC807-16 BC338-25 BC337-25 BC807-25 BC807-25 BC338-40 BC337-40 BC807-25LT1 BC807-25 BC368 BC368 BC807-40 BC807-40 BC369 BC369 BC807-40LT1 BC807-40 BC373 BC618 BC808-16W BC807-16W BC489A MPSA06 BC817-16LT1 BC817-16 BC490A MPSA56 BC817-25 BC817-25 BC517 BC517 BC817-25LT1 BC817-25 BC546 BC546 BC817-40 BC817-40 BC546B BC546B BC817-40LT1 BC817-40 BC547 BC547 BC818-16W BC817-16W BC547A BC546A BC818W BC817W BC547B BC547B BC846...850 BC846 BC547C BC547C BC846ALT1 BC846A BC548 BC547 BC846AWT1 BC846AW BC548A BC546A BC846BLT1 BC846B BC548B BC547B BC846BWT1 BC

6-TAP Bulk / Ammopack BC327-25 hFE, typ. 250 @ 100 mA BC327-25-BULK or BC327-25-TAP Bulk / Ammopack BC327-40 hFE, typ. 400 @ 100 mA BC327-40-BULK or BC327-40-TAP Bulk / Ammopack BC328-16 hFE, typ. 130 @ 300 mA BC328-16-BULK or BC328-16-TAP Bulk / Ammopack BC328-25 hFE, typ. 200 @ 300 mA BC328-25-BULK or BC328-25-TAP Bulk / Ammopack BC328-40 hFE, typ. 320 @ 300 mA BC328-40-BULK or BC328-40-TAP Bulk / Ammopack Absolute Maximum Ratings Tamb = 25 C, unless otherwise specified Parameter Test condition Collector - emitter voltage Emitter - base voltage Collector current Peak collector current Base current Power dissipation 1) Tamb = 25 C Part Symbol Value Unit BC327 - V CES 50 V BC328 - V CES 30 V BC327 - V CEO 45 V BC328 - V CEO 25 V - VEBO 5 V - IC 800 mA - ICM 1 A - IB 100 mA Ptot 6251) mW Valid provided that leads are kept at ambient temperature at a distance of 2 mm from case. Document Number 85132 Rev. 1.4, 19-May-04 www.vishay.com 1 BC327 / BC328 VISHAY Vishay Semicondu

AL CHARACTERISTICS (TA = 25C unless otherwise noted) (Continued) Characteristic Symbol Min Typ Max 100 100 160 40 -- -- -- -- 630 250 400 -- Unit ON CHARACTERISTICS DC Current Gain (IC = -100 mA, VCE = -1.0 V) hFE -- BC327/BC328 BC327-16/BC328-16 BC327-25/BC328-25 (IC = -300 mA, VCE = -1.0 V) Base-Emitter On Voltage (IC = -300 mA, VCE = -1.0 V) VBE(on) -- -- -1.2 Vdc Collector - Emitter Saturation Voltage (IC = -500 mA, IB = -50 mA) VCE(sat) -- -- -0.7 Vdc Cob -- 11 -- pF fT -- 260 -- MHz SMALL-SIGNAL CHARACTERISTICS Output Capacitance (VCB = -10 V, IE = 0, f = 1.0 MHz) r(t), NORMALIZED EFFECTIVE TRANSIENT THERMAL RESISTANCE Current - Gain -- Bandwidth Product (IC = -10 mA, VCE = -5.0 V, f = 100 MHz) 1.0 0.7 0.5 D = 0.5 0.3 0.2 0.2 0.1 0.1 0.05 0.07 0.02 0.05 P(pk) SINGLE PULSE 0.01 0.03 t1 t2 DUTY CYCLE, D = t1/t2 SINGLE PULSE 0.02 0.01 0.001 JC(t) = (t) JC JC = 100C/W MAX JA(t) = r(t) JA JA = 375C/W MAX D CURVES APPLY FOR POWER PULSE TRAIN SHOWN READ TIME AT t1 TJ(pk) - TC = P(pk) JC(t) 0.002 0

BC337A 240 BC327-16 TO-92 45 500 625 100 250 80 BC337-16 240 BC327-25 TO-92 45 500 625 160 400 80 BC337-25 240 BC327-40 TO-92 45 500 625 250 600 80 BC337-40 240 BC328 TO-92 25 500 625 100 600 80 BC338 240 BC328-16 TO-92 25 500 625 100 250 80 BC338-16 240 BC328-25 TO-92 25 500 625 160 400 80 BC338-25 240 BC328-40 TO-92 25 500 625 250 600 80 BC338-40 240 BC556 TO-92 65 100 500 125 475 100 BC546 270 BC556A TO-92 65 100 500 125 250 100 BC546A 270 BC556B TO-92 65 100 500 220 475 100 BC546B 270 BC557 TO-92 45 100 500 125 800 100 BC547 270 BC557A TO-92 45 100 500 125 250 100 BC547A 270 BC557B TO-92 45 100 500 220 475 100 BC547B 270 BC557C TO-92 45 100 500 420 800 100 BC547C 270 BC558 TO-92 30 100 500 125 800 100 BC548 270 BC558A TO-92 30 100 500 125 250 100 BC548A 270 BC558B TO-92 30 100 500 220 475 100 BC548B 270 BC558C TO-92 30 100 500 420 800 100 BC548C 270 BC559 TO-92 30 100 500 125 800 100 BC549 275 1997 Jul 21 5

33 KSA733 KSA733 KSA733 KSA733 KSA733 KSA733 KSA733 KSA733 KSA733 KSC945 KSC945 KSC945 KSC945 KSA733 KSA703 KSC945 BC307 BC307B BC308 BC308A BC308C BC309 BC309C KSA733 KSC945 KSC945 BC318C KSC945 KSA733 KSA733 BC327 BC327-16 Industry BC327-25 BC327A BC328 BC328-25 BC330 BC332 BC333 BC334 BC335 BC336 BC337 BC337-16 BC337-25 BC337A BC338 BC340 BC341 BC342 BC343 BC347 BC348 BC349 BC350 BC351 BC352 BC358 BC360 BC361 BC368 BC369 BC381 BC382 BC383 BC384 BC385 BC386 BC395 BC396 BC407 BC408 BC409 BC417 BC418 BC419 BC437 BC438 BC439 BC451 BC452 BC453 BC454 BC456 BC467 BC468 BC469 BC512 BC513 BC514 BC516 BC517 Fairchild Closest Equivalent Industry BC327-25 BC327A BC328 BC328-25 KSC945 KSC945 KSC945 KSA733 KSC945 KSA733 BC337 BC337-16 BC337-25 BC337A BC338 KSC1008 KSC1008 KSC1008 KSA708 KSC945 KSC945 KSC945 KSA733 KSA733 KSA733 KSA708 KSA708 KSD261 BC368 BC369 KSC945 KSC945 KSC945 KSC945 KSC945 KSC945 KSC1008 KSA708 KSC945 KSC945 KSC945 KSA733 KSA733 KSA733 KSC945 KSC945 KSC945 KSC945 KSC945 KS

: 9&(2 9 ,& $ +)( 9&( 9 ,& P$ 9&( VDW 9 ,& P$ ,% P$ fT(MHz) 1 -25 -1.5 120-200 -1 -100 -0.5 -800 -80 100 Fig.2 8550SS-D TO-92 PNP 1 -25 -1.5 160-300 -1 -100 -0.5 -800 -80 100 Fig.2 BC328-16 TO-92 PNP 0.625 -25 -0.8 100-250 -1 -100 -0.7 -500 -50 260 Fig.2 BC328-25 TO-92 PNP 0.625 -25 -0.8 160-400 -1 -100 -0.7 -500 -50 260 Fig.2 BC328-40 TO-92 PNP 0.625 -25 -0.8 250-630 -1 -100 -0.7 -500 -50 260 Fig.2 M8550-B TO-92 PNP 0.625 -25 0.8 80-160 -1 -100 -0.5 -800 -80 150 Fig.2 M8550-C TO-92 PNP 0.625 -25 0.8 120-200 -1 -100 -0.5 -800 -80 150 Fig.2 M8550-D TO-92 PNP 0.625 -25 0.8 160-300 -1 -100 -0.5 -800 -80 150 Fig.2 MPS3702 TO-92 PNP 0.625 -25 -0.8 60-300 -5 -50 -0.25 -50 -5 100 Fig.2 S8550-B TO-92 PNP 0.625 -25 -0.5 85-150 -1 -50 -0.6 -500 -50 100 Fig.2 S8550-C TO-92 PNP 0.625 -25 -0.5 120-200 -1 -50 -0.6 -500 -50 100 Fig.2 S8550-D TO-92 PNP 0.625 -25 -0.5 160-300 -1 -50 -0.6 -500 -50 100 Fig.2 S9012-G TO-92 PNP 0.625 -25 -0.5 112-166 -4 -1 -0.6 -500 -50 150 Fig.2 S9012-H TO-92 PNP 0.625 -25 -0.5 144

er & assembly conditions 260C/10s Lot- und Einbaubedingungen MSL N/A Dimensions - Mae [mm] Current gain groups Stromverstarkungsgruppen BC327-16 BC327-25 BC327-40 Recommended complementary NPN transistors Empfohlene komplementare NPN-Transistoren BC328-16 BC328-25 BC328-40 BC337 ... BC338 Maximum ratings 2) Grenzwerte 2) BC327 BC328 Collector-Emitter-volt. - Kollektor-Emitter-Spannung E-B short - VCES 50 V 30 V Collector-Emitter-volt. - Kollektor-Emitter-Spannung B open - VCEO 45 V 25 V Emitter-Base-voltage - Emitter-Basis-Spannung C open - VEBO 5V Ptot 625 mW 3) - IC 800 mA Peak Collector current - Kollektor-Spitzenstrom - ICM 1A Base current - Basisstrom - IB 100 mA Junction temperature - Sperrschichttemperatur Storage temperature - Lagerungstemperatur Tj TS -55...+150C -55...+150C Power dissipation - Verlustleistung Collector current - Kollektorstrom 1 2 3 DC Please note the detailed information on our website or at the beginning of the data book Bitte beachten Sie die detaillierten Hinweise a

lector cut-off current IE = 0; VCB = -20 V; Tj = 150 C - - -5 A IEBO emitter cut-off current IC = 0; VEB = -5 V - - -100 nA hFE DC current gain IC = -100 mA; VCE = -1 V; see Figs 2, 3 and 4 100 - 600 BC327A 100 - 400 BC327-16; BC328-16 100 - 250 BC327-25; BC328-25 160 - 400 BC327-40; BC328-40 250 - 600 40 - - BC327; BC328 hFE DC current gain IC = -500 mA; VCE = -1 V; see Figs 2, 3 and 4 VCEsat collector-emitter saturation voltage IC = -500 mA; IB = -50 mA - - -700 mV VBE base-emitter voltage IC = -500 mA; VCE = -1 V; note 1 - - -1.2 V Cc collector capacitance IE = ie = 0; VCB = -10 V; f = 1 MHz - 10 - pF fT transition frequency IC = -10 mA; VCE = -5 V; f = 100 MHz 80 - - MHz Note 1. VBE decreases by about -2 mV/K with increasing temperature. MBH717 250 handbook, full pagewidth hFE VCE = 5 V 200 150 100 50 0 10-1 1 10 BC327-16; BC328-16. Fig.2 DC current gain; typical values. 1997 Mar 10 4 102 IC (mA) 103 Philips Semiconductors Product specification PNP general purpose transistors BC327; BC327A; B

(4) (Volt) 20 NPN TO-92 PNP Surface Mount SOT-23 SOT-23 NPN GS9012 500 64 202 2N4126 200 120 360 1V / 2mA 500 100 250 1V / 100mA BC818-25 BC808-25 500 160 400 1V / 100mA BC818-40 BC808-40 500 250 600 1V / 100mA BC328-16 800 100 160 250 1V / 300mA BC338-25 BC328-25 800 160 250 400 1V / 300mA BC338-40 BC328-40 800 250 400 630 1V / 300mA GS8050T GS8550T 800 85 300 1V / 100mA BC548A BC558A BC848A BC858A 100 220 5V / 2mA BC548B BC558B BC848B BC858B 100 330 5V / 2mA BC548C BC558C BC848C BC858C 100 600 5V / 2mA BC849B(2) BC859B(2) 100 330 5V / 2mA BC849C(2) BC859C(2) 100 600 5V / 2mA MMBTA13(3) 300 10,000 5V / 100mA MMBTA14(3) 300 20,000 5V / 100mA MPSA13(3) 500 10,000 5V / 100mA MPSA14(3) 500 20,000 5V / 100mA 32 2N3904 2N3906 BCW60A BCW61A 100 120 220 5V / 2mA BCW60B BCW61B 100 180 310 5V / 2mA BCW60C BCW61C 100 250 460 5V / 2mA BCW60D BCW61D 100 380 630 5V / 2mA MMBT3904 MMBT3906 200 100 300 1V / 10mA 2N4401 2N4403 MMBT4401 MMBT4403 600 100 300 1V / 150mA MPS2222A MPS2907A MMBT2222A MMBT2907A 600 100