TABLE 1 : NPN GENERAL PURPOSE The devices shown in this table are general purpose transistors designed for small and medium signal amplification from d.c. to radio frequencies. Typical application areas include: AUDIO FREQUENCY AMPLIFIERS, DRIVERS and OUTPUT STAGES, OSCILLATORS, AND GENERAL PURPOSE SWITCHES. Max Vceisat) hee Min fr | Prot Max at at at at Type Vcso | Vceo | Ic Tamb Complement le lg Min}Max! Ic le = 25C Vv Voe{[mAI V |mA|mA mA|jMHz|mA | mW ZTX453 120 | 100 }1000} 0.7 |150] 15 | 40 | 200] 150] 150 | 50 | 1000 - ZTX452 100 | 80 |1000} 0.7 1150} 15 | 40 | 150] 150) 150} 50 | 1000 ZTX552 MPSAO6 80 80 | 500]0.25/100} 10 | 50} | 100] 100 | 10 750 MPSA56 BCS5S46P 80 65 | 200|0.25| 10 | 0.5 | 75 | 200] 2 |300*| 10 500 BC556P ZTX451 80 60 {1000)0.35 {150} 15 | 50 | 150] 150} 150 | 50 | 1000 ZTX551 BFS61 80 60 |1000]0.35|150) 15 | 40 | 160} 150; 150 | 50 500 BFS98 MPS2222A 75 45 |800[ 1.0 |500| 50 [100] 300} 150) 300 | 20 500 MPS2907A ZTX304 70 70 |500/0.35; 50) 5 | 50} 300) 10/ 150; 10 300 ZTX504 MPSAO05 60 | 60 |500/0.251100) 10 | 50] | 100} 100! 10 750 - BCY65EP 60 | 60 | 10010.35] 10 |0.25}120| 460} 2 | 125] 10 | 1000 BCY77P BC182P 60 50 | 200/0.25| 10 | 0.5 |100| 480] 2 | 150; 10 300 BC212P ZTX107 60 50 |100/0.1*| 10) 1 |125}500) 2 |350*| 10 300 ZTX212 ZTX450 60 45 |1000|/0.25/150| 15 |100} 300] 150) 150/50 ; 1000 ZTX550 BFS60 60 40 |1000/0.25/150] 15 | 100} 300) 150; 150 | 50 500 BFS97 2N4401 60 40 {6001 0.4 {150} 15 |100| 300 | 150| 250 | 20 500 2N4403 2N4400 60 40 | 600] 0.4 |150| 15 | 50 | 150} 150) 200 | 20 500 2N4402 2N3904 60 40 |200]0.2 | 10] 1 |100) 300} 10) 300; 10 500 2N3906 2N3903 60 40 |200]/0.2 | 10] 1 | 50] 150) 10] 250} 10 500 2N3905 BFS59 60 30 |1000}0.35!150} 15 | 40 | 300) 150} 150 | 50 500 BFS96 MPS2222 60 30 | 800} 1.6 1500] 50 |; 100) 300) 150) 250 | 20 500 MPS2907 BC547P 50 45 | 200|0.25; 10 | 0.5 | 75 | 450) 2 |300*| 10 500 BC557P ZTX382 50 45 | 200|0.25; 10 | 0.5 |100) 850) 2 | 150} 10 350 _ BC107P 50 45 | 200) 0.2 | 10 ) 0.5 |120) 460) 2 | 150} 10 300 BC177P BC237P 50 45 | 200) 0.2 | 10 | 0.5 }120| 460) 2 | 150} 10 300 BC307P ZTX237 50 45 | 200/0.25/ 10 | 0.5 |120| 460) 2 | 150} 10 300 ZTX212 ZTX223 50 30 | 800) 0.3 |100) 10 |100} 450/ 50; 100; 50 500 - ZTX303 45 | 45 |500/0.35} 50] 5 | 50] 300) 10] 150; 10 300 ZTX503 BCY59P 45 | 45 | 2000.35] 10 {0.25/120) 630| 2 | 125] 10 | 10007 BCY79P ZTX238 45 | 30 |200/0.25; 10 | 0.5 |120] 800} 2 | 150] 10 350 ZTX213 ZTX383 45 30 | 200/0.25; 10 | 0.5 |100) 850; 2 | 150] 10 350 - ZTX384 45 30 | 200/0.25] 10 | 0.5 |250)] | 2 | 150} 10 350 _ BC183P 45 30 | 200}0.25| 10 | 0.5 |}100] 850) 2 | 150} 10 300 BC213P ZTX108 45 30 }100]0.1*| 10] 1 |125) 900) 2 |350*; 10 300 ZTX213 2N4123 40 30 | 200}0.3 | 50) 5 | 50] 150) 2 | 250; 10 500 2N4125 ZTX302 35 35 |500/0.25} 50) 5 |100] 300; 10] 150; 10 300 ZTX502 ZTX301 35 35 |500/0.25} 50) 5 | 50] 300) 10] 150; 10 300 ZTX501 BCY58P 32 32 | 200/0.35| 10 }0.25)120) 630] 2 | 125] 10 | 10007 BCY78P BC548P 30 30 | 200/0.25| 10 | 0.5 | 75 | 800) 2 |300*! 10 500 BC558P 2N4124 30 25 1200) 0.3 | 50) 5 1120) 360) 2 | 300} 10 500 2N4126 BC108P 30 20 (200| 0.2 | 10 | 0.5 |}120) 800) 2 | 150] 10 300 BC178P BC238P 30 20 | 200| 0.2 | 10 | 0.5 |} 120] 800) 2 | 150; 10 300 BC308P ZTX300 25 25 1500}0.35| 10} 1 | 50] 300) 10} 150] 10 300 ZTX500 MPSA20 = 40 |100]0.25} 10} 1 | 40} 400] 5 | 1254 5 500 - *Typical TT case = 45CTABLE 2 : PNP GENERAL PURPOSE The devices shown in this table are general purpose transistors designed for small and medium signal amplification from d.c. to radio frequencies. Typical application areas include: AUDIO FREQUENCY AMPLIFIERS, DRIVERS and OUTPUT STAGES, OSCILLATORS, AND GENERAL PURPOSE SWITCHES. Max Vcetsat) hee Min fr | Prot Max at at at at Type Vcso| Vero! Ic Tamb Complement le lp Min |Max le le = 25C Vv VieimA| V [mAimA mA|MHzijmA | mW ZTX552 100 | 100 | 1000] 0.7 |}150/ 15 | 40 | 150] 180/ 150]; 50 | 1000 ZTX452 MPSAS6 80 80 | 500 }0.25/100| 10 | 50} | 100) 100] 10 750 MPSA06 BC556P 80 66 | 200/0.25/ 10 | 0.5 | 75 | 450); 2 |150*| 10 500 BC546P ZTX551 80 60 | 1000/0.35/150] 15 | 50 | 150] 150} 150] 50 | 1000 ZTX451 BFS98 80 60 (1000]0.35/150 | 15 | 40 | 160 | 150| 150 | 50 500 BFS61 ZTX504 70 70 | 500) 0.6 | 50 | 5 | 50 | 300] 10 | 150} 10 300 ZTX304 MPS2907A 60 60 | 600] 1.6 |500 ; 50 | 100} 300) 150] 200 | 50 500 MPS2222A MPSA55 60 60 | 500 /0.25/100 | 10 | 50 | { 100] 100] 10 750 MPSA05 BCY77P 60 60 | 100/0.25] 10 |0.25|120) 460] 2 {180*| 10 | 10007 BCY65EP ZTX212 60 50 | 200]0.25) 10 | 0.5 } 60 |} 400) 2 | 200) 10 500 ZTX107 BC212P 60 50 | 200]; 0.6 |100| 5 | 60 | 400] 2 | 200) 10 300 BC182P ZTX550 60 45 |1000/0.25/150 | 15 |100} 300] 150] 150] 50 | 1000 ZTX450 BFS97 60 40 |1000/0.25|150 | 15 |100) 300/150) 50 |150 | 500 BFS60 MPS2907 60 40 | 600| 1.6 [500 | 50 | 100} 300} 150| 200 | 50 500 MPS2222 BFS96 60 30 |1000]0.35)150 |. 15 | 40 | 300] 150] 150 | 50 500 BFS59 BC557P 50 45 | 2000.25; 10 | 0.5 | 75 | 450) 2 | 150*| 10 500 BC547P BC177P 50 45 | 200} 0.2 | 10 | 0.5 1120; 460) 2 | 130] 10 300 BC107P BC307P 50 45 | 200] 0.2 | 10 | 0.5 {120} 460) 2 |130*} 10 300 BC237P BCY70P 50 40 }20010.5|50 | 5 (100) { 10 | 250! 10 350 _ BCY71P 45 45 | 200/0.5 | 50; 5 |100/ 400} 10] 15 |0.1 350 _ ZTX503 45 45 | 500/0.35/ 50 | 5 | 50 | 300) 10] 150} 10 300 ZTX303 ZTX531 45 45 | 500] 0.7 | 10 | 0.5 | 40 | 120/0.01) 30 |}0.5 | 250 ZTX331 BCY79P 45 45 | 200{0.25] 10 /0.25/120) 460} 2 |180*| 10 | 10007 BCYS59P ZTX213 45 30 | 200)0.25| 10 | 0.5 | 80 |} 550) 2 | 200) 10 500 ZTX108 BC213P 45 30 | 200) 0.6 |100! 5 | 80 |600; 2 | 200] 10 300 BC183P 2N4403 40 40 | 600] 0.4 |150} 15 |100} 300) 150} 200 | 20 500 2N4401 2N4402 40 40 | 600| 0.4 |150] 15 | 50 | 150] 150} 750 20 500 2N4400 2N3906 40 40 | 200/0.25| 10 | 1 [100/300] 10 | 250| 10 500 2N3904 2N3905 40 40 | 2000.25! 10 | 1 | 50 | 150] 10 | 200] 10 500 2N3903 ZTX502 35 35 | 500/0.25| 50 | 5 |100/300) 10 | 150 | 10 300 ZTX302 ZTX501 35 35 | 500/0.25/ 50 7 5 | 50 | 300} 10] 150} 10 300 ZTX301 BCY78P 32 32 | 200|0.25| 10 \0.25/120|630; 2 |180*| 10 | 10007 BCY58P ZTX530 30 30 | 500(0.7 | 10 [0.5 {1001 400|0.1| 30 |0.5 | 250 ZTX330 BC558P 30 30 | 2000.25} 10 | 0.5 | 75 |800) 2 |150*) 10 500 BC548P 2N4125 30 30 | 200} 0.4; 50 | 5 |50]150) 2 | 200/ 10 500 2N4123 BC178P 30 25 | 200] 0.2 | 10 {0.5 {120} 800} 2 | 130] 10 300 BC108P BC308P 30 25 | 200] 0.2 | 10 | 0.5 {120} 800; 2 |130*; 10 300 BC238P BGY72P 30 25 | 200}0.5 } 50 | 3 }100} } 10) 250] 10 350 _ ZTX500 25 25 | 500 10.35) 50 | 5 | 50 | 300} 10 | 150 | 10 300 ZTX300 2N4126 25 25 | 200)0.4}50 | 5 {120/360} 2 | 250| 10 500 2N4124 *Typical TT case = 45C E3TABLE 3 : NPN SWITCHING The transistors in this table are characterised for general medium/high speed switching applications and other application areas, e.g. high speed core driving. Max Vceisat) hee Min fr Max. Switching Times Max at at at at Type Vceo} 'c Complement le | Ig |Min}Max} tc le} ton | tort | Ic Ve[mA| V [mA] mA mA|MHzimA] ns | ns | mA BCY65EP 60 | 100 0.35} 10 |0.25) 120] 460| 2 ) 125] 10) 150 | 800; 10 BCY77P MPS3642 45 | 500 }0.22| 150] 15 | 40 | 120) 150) ; } 14 | 80 | 300 BCY59P 45 | 200 0.35] 10 |0.25/120| 630} 2 | 125] 10) 150) 800) 10 BCY79P ZTX360 40 | 1000] 0.6 | 500] 50 | 25 | 1501560) 200) 50| 40 | 75 | 500 - MPS2222A 40 | 800] 1.0 |500} 50 | 100] 300 | 150} 300 | 20] 35 | 285) 150) MPS2907A 2N4401 40 | 600) 0.4 | 150; 15 | 100) 300 | 150; 250 | 20! 35 | 255; 150; 2N4403 2N4400 40 | 600} 0.4 | 150] 15 | 50 | 150] 150) 200; 20) 35 | 255) 150; 2N4402 2N3904 40 | 200/0.2] 10} 1 |100] 300) 10) 300] 10) 70 | 250) 10 2N3906 2N3903 40 | 200}0.2} 10] 1 | 50] 150] 10| 250} 10| 70 | 225| 10 2N3905 BCY58P 32 | 200 /0.35| 10 |0.25)120| 630) 2 ) 125} 10/150] 800) 10 BCY78P MPS2222 30 | 800| 1.6 |500] 50 | 100} 300 ; 150] 250 | 20) 35 | 285) 150) MPS2907 2N4123 30 | 200/0.3; 50; 5 | 50) 150; 2 | 250) 10/37* | 136*} 10 2N4125 2N4124 ~ | 25 |200}0.31 50] 5 |120| 360] 2 | 300} 10) 37* | 136*| 10 2N4126 MPS706A 20 | 200/0.6/ 10} 1 | 20] 60 | 10| 200) 10} 40 | 75] 10 _ MPS706 20 | 200/0.6| 10} 1 | 20 | 50*| 10] 200} 10; 40 | 75} 10 _ ZTX314 15 |500/0.2! 10} 1 | 40/120} 10] 500] 10] 12 | 18] 10 _ 2Z3X313 15 | 5000.24] 10 | 1 | 40/120} 10} 500] 10} 12 | 18] 10 _ ZTX311 15 |500} | | | 50 | 200} 10} 200] 10 (note 1) - MPS2369A , 15 | 2000.25) 10] 1 | 401}120] 10; ; | 12 | 18] 10 _ MPS2369 15 | 200 |0.25} 10 | 1 | 40/]120] 10; | | 12 | 18] 10 _ ZTX312 12 |500 10.24/10; 1 | 40] | 10| 400; 10; 15 | 201 10 ZTX310 12 |500/0.6| 10} 1 | 20} | 10] 200; 10 (note 2) - *Typical Note 1: tstg = 6Ons. Note 2: tstg =25ns. E4TABLE 4 : PNP SWITCHING The transistors in this table are characterised for general medium/high speed switching applications and other application areas, e.g. high speed core driving. Max Vcetsat) hee Min fy Max. Switching Times Max at . at at at Type Vceo} 'c : Complement le | Ig |Min}Max] Ic le} ton | tort le VoimA}] V jmA] mA mA|MHz}mA ns | ns | mA MPS2907A 60 | 600] 1.6/500) 50 | 100) 300] 150} 200} 50) 50 | 110) 150} MPS2222A BCY77P 60 | 1000.25} 10 |0.25} 120] 460] 2 |180*} 10} 85 | 150} 10 BCY65EP BCY79P 45 | 200|0.25] 10 |0.25] 120} 460) 2 |180*| 10) 85 | 150} 10 BCYS59P 2N4403 40 | 600} 0.4] 150] 15 | 100] 300] 150} 200) 20) 35 | 255 150| 2N4401 2N4402 40 | 600} 0.4| 150] 15 | 50 | 150) 150] 150 | 20) 35 | 255] 150} 2N4400 MPS2907 40 | 600] 1.6 | 500} 50 | 100! 300) 150; 200) 15) 50 | 110) 150; MPS2222 , 2N3906 40 | 200/0.25] 10} 1 |100/ 300} 10 | 250; 10] 70 ; 300| 10 2N3904 2N3905 40 | 200|0.25] 10} 1 | 50] 150] 10 | 200} 10| 70 | 260] 10 2N3903 BCY78P 32 | 200/0.25| 10 |0.25| 120] 630) 2 |180*|.10) 85 | 150] 10 BCY58P 2N4125 30 | 200} 0.4] 50} 5 | 50) 150} 2 | 200] 10) 43* | 155*| 10 2N4123 2N4126 25 | 200} 0.4} 50} 5 1120) 360) 2 | 250| 10) 43* | 155*) 10 2N4124 ZTX510 12 | 200} 0.21 30| 3 | 40] 150] 30 | 400; 30) 60 ; 90 | 30 _ *Typical E5TABLE 5 : NPN LOW NOISE The transistors in this table are characterised for low noise, low level amplification and are ideally suited for audio pre-amplifiers as well as universal applications. Max Vee(sat) Hee Min fy Max. Noise Figure Max at at at at Type Vceo | Ic Mie - Complement le lp Min| Max lc Ic N Ic f Vo{[mAl V [mA|mA mA|MHz|mA}dB | pA} Hz BCY65EP 60 | 1000.35] 10 |0.25) 120; 460) 2 | 125|10 | 6 | 200) 1k BCY77P 2N5209 50 | 50 }0.7] 10 | 1 | 100) 300; 0.4} 30 |0.5| 3 | 200/30~ 15k 2N5086 2N5210 50 | 50]0.7] 10 | 1 | 200) 600} 0.1) 30 }0.5} 2 | 200/30- 15k 2N5087 ZTX331 45 |500/ 0.7/| 10 | 0.5) 40) 120 0.01; 30 (0.57 3* | 10 1k ZTX531 BCSS5OP 45 | 200/0.25| 10 | 0.5 | 200] 800} 2 }300*| 10 | 3 | 200/30- 15k BC560P ZTX382 45 | 200/0.25| 10 | 0.5} 100) 850} 2 | 150 | 10 | 6 | 200/30 15k _ BCY59P 45 | 200|0.35| 10 |0.25) 120) 630) 2 | 125|10 | 6 | 200) 1k BCY79P BC414P 45 | 100/0.25; 10 | 0.5 | 200; 800/ 2 /250*} 10 | 3 | 200/30 15k BC416P 2N3904 40 | 200) 0.2] 10] 1 | 100) 300] 10) 300} 10 | 5 | 200/30 15k 2N3906 2N3903 40 | 200) 0.2) 10] 1 | 50] 150} 10) 250] 10 | 6 | 200/30 15k 2N3905 BCY58P 32 | 200/0.35) 10 |0.25] 120) 630] 2 | 125)10 | 6 | 200} 1k BCY78P ZTX330 30 | 500] 0.7 | 10 | 0.5} 100; 400; 0.1] 30 10.5] 3* | 10 1k ZTX530 BC549P 30 | 2000.25) 10 | 0.5 | 200}; 800} 2 |300*; 10 | 4 | 200/30- 15k BCS59P ZTX239 30 | 200|0.25] 10 | 0.5 | 180) 800| 2 | 150] 10; 4 | 200/30- 15k ZTX214 ZTX383 30 | 200|0.25; 10 | 0.5] 100) 850] 2 | 150/10 | 6 | 200/30- 15k - BC184P 30 | 200/0.25; 10 | 0.5) 250) | 2 | 150] 10 | 4 | 200)30 15k BC214P ZTX384 30 | 2000.25) 10 | 0.5 | 250) | 2 | 150] 10] 4 | 200/30 15k 2N4123 30 | 200) 0.3} 50 | 5 | 50] 150) 2 | 250] 10 | 6 | 200/30- 15k 2N4125 BC413P 30 | 100|0.25] 10 | 0.5] 200) 800) 2 |250*! 10 | 3 | 200/30 15k BC415P ZTX109 30 | 100|)0.1*| 10 | 1 |240) 900; 2 |350*| 10} 4 ; 10 1k ZTX214 2N4124 25 | 200| 0.3] 50) 5 | 120} 360} 2 | 300}10] 5 | 20 /30 15k 2N4126 ZTX114 25 | 2000.35; 10 ;0.1{200; { 2 /350*; 10 |; 3 | 30 Tk BC109P 20 | 50 | 0.2] 10 | 0.5] 180) 800; 2 | 300| 10 | 4 | 200/30- 15k BC179P BC239P 20 | 50 | 0.2] 10 | 0.5] 180) 800; 2 | 150} 10 | 4 | 200}30 15k BC309P *Typical E6TABLE 6 : PNP LOW NOISE The transistors in this table are characterised for low noise, low level amplification and are ideally suited for audio pre-amplifiers as well as universal applications. Max Vceisat) hee Min fy Max. Noise Figure Max at at at at Type Veeo] Ic r Complement lo | Ig jMin} Max} Ic le | Nj le f Vo |mA| V [mAimA mA}MHz|mA | dB | pA Hz BCY77P 60 | 100]0.25] 10 |0.25)/ 120) 460; 2 |180*} 10 | 6 | 200; 1k BCY65EP 2N5086 50 | 50/0.3] 10} 1 |150) 500/0.1) 40 |0.5| 3 | 200/30 15k 2N5209 2N5087 50 | 6010.31 10) 1 |250| 800/0.1; 40 10.5 | 2 | 200|30 15k 2N5210 ZTX531 45 | 500| 0.7] 10 | 0.5 | 40; 120} 0.1) 30 {0.5} 3* |100; 1k ZTX331 BCY71P 45 | 200] 0.5] 50] 5 | 100) 400; 10] 15 |0.1] 2 | 100/30~ 15k BCS560P 45 | 200/0.25) 10 | 0.5}110) 800} 2 |300*| 10 | 2 | 200/30- 15k BC550P BCY79P 45 | 200|0.25| 10 |0.25|120| 460] 2 |180*| 10 | 6 | 200; 1k BCY59P BC416P 45 | 100] 0.3] 10 | 0.5110) 800} 2 |200*| 10 | 2 | 200)30 15k BC414P BCY70P 40 | 200] 0.5] 50} 5 |100) | 10 | 250] 10 | 6 | 100)30 15k _ 2N3906 40 | 200/0.25] 10 | 1 | 100} 300|/ 10 | 250; 10 | 4 | 200)30 15k 2N3904 2N3905 40 | 200/0.25} 10} 1 | 50; 150] 10; 200{ 10 | 5 | 200)30 15k 2N3903 BCY78P 32 | 200/0.25] 10 |0.25/120} 630] 2 ;180*| 10 | 6 |200) 1k BCY58P ZTX530 30 | 500} 0.7] 10 | 0.5 {100} 400/0.1} 30 |0.5) 3* | 100) 1k ZTX330 ZTX214 30 | 200/0.25] 10 | 0.5 | 140) 550; 2 | 200} 10 | 2 | 200/30~ 15k ZTX109 BC559P 30 | 200/0.25] 10 | 0.5 | 110) 800) 2 |300*) 10 | 4 | 200/30 15k BC549P 2N4125 30 | 200] 0.4] 50) 5 | 50) 150; 2 | 200] 10 | 5 | 200)30 15k 2N4123 BC214P 30 | 200] 0.6] 100} 5 | 140) 600] 2 | 200] 10 | 2 | 200)30 15k BC184P BC415P 30 {100} 0.3] 10 | 0.51110] 800] 2 /200*) 10 | 2 | 200/30 15k BC413P BCY72P 25 | 200; 500} 50} 5 |100; | 10 | 250] 10 | 6 | 100/30 ~ 15k _ 2N4126 25 | 200] 0.4] 50] 5 | 120) 360] 2 | 250] 10 | 4 | 200/30 15k 2N4124 BC179P 20 | 50] 0.2] 10 | 0.5 | 180) 800; 2 |130*) 10 | 4 | 200/30- 15k BC109P BC309P 20 | 50 | 0.2] 10 | 0.5 | 180) 800} 2 |130*] 10 | 4 | 200/30 15k BC239P *Typical E7ELECTRICAL CHARACTERISTICS N.P.N. SMALL SIGNAL TRANSISTORS Veso} Vceo| Icao < hee > Vcetsat) fr | Cobo Dice Type Min.} Min. |Max. at Veg @ Ie | Vee le lg | Min. |Max. Geometry Vv v [nA V [Min.|Max.} mA] V |[Max.! mA | mA |MHz! pF BC546A 80 | 65}15 30 | 110] 220) 2 5 | 0.25] 10 |0.5 |3008) 4.5 G1 BC546B 80 | 65115 30 | 200) 450| 2 5 | 0.25] 10 |0.5 {3008} 4.5 G1 BCY65EA | 60 | 60 | 10* 32* | 120) 220) 2 5 | 0.35] 10 /0.25| 125) 6 G1 BC182 60 | 50 | 15 50 | 100/] 480; 2 5 |0.25} 10 |}0.5 | 150] 5 G1 2N3903 60 | 40 | 50f 307 | 50] 150] 10 1 /0.2 | 10 [1.0 | 250) 4 G3 2N3904 60 | 40 | 50f 307 | 100] 300 | 10 1 |0.2 | 10 11.0 | 300) 4 G3 BC107A 50 | 45] 15* 50* |] 120) 220; 2 5 10.2 10 |0.5 | 150] 6 G1 BC107B 50 | 45 | 15* 50* |] 180| 460} 2 5 10.2 10 |0.5 | 150] 6 G1 BC237A 50 | 45 | 15* 50* |] 120) 220; 2 5 10.2 10 /0.5 | 150] 4.5 G1 BC237B 50 | 45 |} 15* 50* |] 180; 460; 2 5 10.2 10 |0.5 | 150] 4.5 G1 BC547A 50 | 45/15 30 | 110; 220; 2 5 |0.25) 10 |0.5 | 3008) 4.5 G1 BC547B 50] 45 | 15 30 | 200/ 450; 2 5 | 0.25} 10 |0.5 | 3008) 4.5 G1 BC550B 50 | 45115 30 | 200} 450; 2 5 | 0.25} 10 |0.5 | 3008) 4.5 G1 BC550C 50 | 45115 30 | 420) 800|] 2 5 |0.25} 10 |0.5 | 3008) 4.5 G1 BCY59A 45 | 45 | 10* 45* | 120} 220; 2 5 | 0.35; 10 |0.25| 125) 6 G1 BCY59B 45 | 45] 10* 45*| 180] 310) 2 5 | 0.35} 10 |0.25) 125) 6 G1 BCY59C 45 | 45 | 10* 45* | 250] 460/ 2 5 | 0.35! 10 |0.25] 125) 6 Gi BCY59D 45 | 45 10* 45* | 380] 630 | 2 5 | 0.35] 10 |0.25| 125] 6 GI 2N930 45 | 45 | 10* 45*| 100) 300/] 0.1] 5 | 1.0 | 10 |0.5 | 300] 8 G1 BC183 45 | 30/15 30 | 100) 850] 2 5 | 0.25] 10 |0.5 | 150] 5 G1 BC184 45 | 30/15 30 | 250; 2 5 |0.25] 10 10.5 | 150/ 5 G1 BCY58A 32 | 32 | 10* 32*| 120] 220| 2 5 |0.35] 10 |0.25| 125; 6 G1 BCY58B 32 | 32 | 10* 32*| 180) 310] 2 5 | 0.35] 10 |0.25] 125) 6 G1 BCY58C 32 | 32 | 10* 32* | 250| 460 | 2 5 | 0.35] 10 |0.25] 125) 6 G1 BCY58D | 32 | 32 | 10* 32* | 380) 630] 2 5 | 0.35] 10 |0.25] 125] 6 G1 BC548A 30 | 30/15 30 | 110] 220) 2 5 10.25) 10 |0.5 | 3008! 4.5 G1 BC548B 30 | 30 | 15 30 | 200] 450/ 2 5 | 0.25) 10 |0.5 | 3008] 4.5 G1 BC548C 30 | 30/15 30 | 420) 800) 2 5 10.25) 10 |0.5 | 3008 4.5 G1 BC549B 30 |} 30 | 15 30 | 200| 450) 2 5 |0.25); 10 |0.5 | 3008 4.5 G1 BC549C 30 | 30/15 30 | 420) 880) 2 5 |0.25} 10 |0.5 | 3008 4.5 G1 BC108A 30 | 20 | 15* 30* | 120) 220) 2 5 10.2 10 10.5 | 150) 6 G1 BC108B 30 | 20 | 15* 30*| 180] 460] 2 5 10.2 |} 10 |0.5 | 150} 6 G1 BC108C 30 | 20 | 15* 30* | 380) 800) 2 5 10.2 10 |0.5 | 150; 6 G1 BC109B 30 | 20 | 15* 30*| 180] 460) 2 5 | 0.2 10 |}0.5 | 150] 6 G1 BC109C 30 | 20 | 15* 30* | 380] 800) 2 5 | 0.2 10 |0.5 | 150] 6 G1 BC238A 30 | 20 | 15* 30* | 120] 220) 2 5 10.2 10 |0.5 | 150] 4.5 G1 BC238B 30 | 20 | 15* 30*| 180} 460) 2 5 10.2 10 |0.5 | 150; 4.5 G1 BC238C 30 } 20 | 15* 30* | 380! 800) 2 5 | 0.2 10 {0.5 | 150 | 4.5 G1 BC239B 30 | 20 | 15* 30*| 180) 460) 2 5 | 0:2 10 {0.5 | 150] 4.5 G1 BC239C 30 | 20 | 15* 30* | 380] 800} 2 5 | 0.2 10 10.5 | 150 | 4.5 G1 Vcetsat), fr and Cop. are parameters which are assembly dependent and figures quoted are those typically achieved on Ferranti assembly lines. Ices at Vces = TIcex at Vce = 8 Typical $D10