2N2156-2N2229 Numerical Index al= MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS S/S = = = ~ Tree | s REPLACE. | PAGE | ice Po |S!) Ts | Vow | Woe | = hee @ let Vceisan @ Ie El fk [2 isl MENT | NUMBER < 3 gl mi8) ~sl8 =\o @25C | SB] C | (volts) | (volts) |S | (min) (max) 5} (volts) = 3 5/2 2N2156 G| P 7-82 LPA 170W | Cc 1110 45 45 5 80 | 160 5.0A 0.1 5.0A 2.0K | E 2N2156A | G] P 7-82 LPA 170W | C {110 45 30 0 80 | 160 5.0A O.1 5.0A 2.0K | E 2N2157 G] P 7-82 LPA 170W | Cc | 110 60 60 Ss 80 | 160 5.0A 0.2 5.0A 2.0K JE 2N2157A 1G P 7-82 LPA 170W | Cc | 110 60 45 O 80 | 160 5.0A O.1 5.0A 2.0K |E 2N2158 |G) P 7-82 ) LPA) 170W)}C }110} 75 75 4S } 80} 160) 5.0A 0.1} 5.04 2.0K JE 2N2158A |G] P 7-82 LPA 170W | C | 110 75 60 0 80 | 160 5.0A 0.1 5.0A 2.0K 1E 2N2159 Gy] P 7-82 LPA 170W | Cc | 110 90 90 $ 80 | 160 5.0A 0.1 5.04 2.0K |E 2N2159A | G] P 7-82 LPA 170W | c | 110 90 65 QO 80 | 160 5.0A 0.1 5.0A 2.0K }E 2N2160 Unijunction Transistor, see Table on Page 1-174 2N2161 S[N HSS 200M | A | 150 55 35 0 60 | 160 10M 1.5 10M 75 /E 2N2162 S| P CHP 150M} Aj 140 30 30 0 14M | T 2N2163 S| P CHP 150M | A | 140 15 15 0 14M | T 2N2164 S|P CHP 150M | A | 140 12 8.0 0 24M | T 2N2165 S| P CHP 150M | A | 140 30 30 0 1OM | T 2N2166 S|P CHP 150M | A | 140 15 15 0 10M | T 2N2167 S| P CHP 150M | A | 140 12 8.0 0 16M | T 2N2168 Gy P HSS 60M | A | 100 20 15 0 50 10M }0.225 10M 2N2169 GyYP HSS 60M | A | 100 45 US 9 40 10M Q.15 10M 2N2170 GiP HSS 60M | A | 100 15 10 oO 20 10M 0.18 10M 2N2171 G|P 6-10 AFA 0.2W | A | 100 50 25 R [110 | 250 20M 120 |E 2N2172 G|P MSS 200M 1A 85 20 15 0 30 | 150 10M 0.2 10M {0.97 |B 5.0M |B 2N2173 |G] P HSS | 240M }A |100] 25 15 |O | 30 200M 0.4 | 200M 2N2175 S|P APA O.1W FA ]175 $6.0 6.0 0 30 20% 10M |T 2N2176 s | P AFA O.1W ]A 1175 | 6.0 6.0 0 30 20% 10M |T 2N2177 s|P AFA O.lW | A | 160 [6.0 6.0 0 15 5.0% 50 |E 8.0M |B 2N2178 S]P AFA O.1lW |A |160 16.0 6.0 0 15 5.0% 50 JE 8.0M |B 2N2180 GyVP HSS 50M | A | 100 15 6.0 o {100 10M 0.08 10M 120 JE 60M |T 2N2181 5 |] P CHP 150M |A | 140 25 25 0 10 5.0M 6.0M |T 2N2182 S| P CHP 150M |A | 140 25 25 0 10 5.0M 6.0M |T 2N2183 S| P CHP 150M 1A 4140 15 10 0 10 5.0M 6.0M |T 22184 SyP CHP 150M fA 4140 45 190 0 10 5 .OM 6.0M 7 T 2N2185 |S]P CHP | 150M |A {140 | 30 30 Jo 6.5M |T 2N2186 S| P CHP 150M |A | 140 30 30 0 6.5M |T 2N2187 |S |P CHP | 150M |A |140 | 30 30 |0 6.5M |T 2N2188 G]P | 2N3323 9-71 RFA 125M | A 85 40 25 oO 40 1160 1.5M 40 |E 60M |T 2N2189 G{P | 2N3323 9-71 RFA 125M [A 85 40 25 0 60 | 180 1.5M 40 |E 102M {T 2N2190 GHP 4 2N3323 9-71 RPA 125M [A 85 60 25 oO 40 +160 1.5M 40 |E 60M |T 2N2191 G | P | 2N3323 9-71 RFA 125M |A 85 60 25 oO 60 | 180 1.5M 60 |E 102M |T 2N2192 S|N 8-106 | HSA g00M |A | 200 60 40 0 | 100 | 300 150M 0.35 150M 2N2192A4 JS |N 8-106 | HSA goomM |A | 206 60 40 oO }|100 | 300 150M 0.25 150M 2N2192B {|S | N 8-106 | HSA 800M |A | 200 60 40 oO {100 | 300 150M 0.18 150M 2N2193 SN 8-106 | HSA 800M {A | 200 80 50 oO 40 1120 150M 0.35 150M 2N2193A |S [N 8-106 | HSA 800M ;A | 200 80 50 0 40 {120 150M 0.25 150M 2N2193B |S | N 8-106 | HSA BOOM FA | 200 80 50 8 40 4120 150M 0.18 150M 2N2194 SIN 8-106 | HSA 800M | A 4200 60 40 0 20 60 150M 0.35 150M 2N2194A |S |N 8-106 | HSA 800M |A {200 60 40 0 20 60 150M 0.25 150M 2N2194B |S | N 8-106 | HSA | 800M ]A [200 | 60 40 |O | 20] 60 | 150M | 0.18 | 150M 2N2195 {SIN 8-106 | HSA | 800M |A | 200 | 45 25 [0 | 20 150M_}| 0.35 | 150M 2N2195A |S |N 8-106 | HSA 800M |A | 200 45 25 oO 20 150M 0.25 150M 2N2195B |S {N 8-106 | HSA 800M |A [200 45 25 Oo 20 150M 0.18 150M 2N2196 SIN LPA 2.0W |A {175 80 60 R 30 90 0,24 2.0 0.24 30 JE 2N2197 S|N LPA 2.0W JA [175 80 60 R 75 | 200 O.2A 2.0 0.2A 30 |E 2N2198 S|N RFA 5.5M |A | 200 80 80 0 35 55 O.1A 6.0 O.2A 4.0M |T 2N2199 GIP RFA 75M {A 3100 15 10 0 19.0 3.0M 20 |E 120M |T 2N2200 GiP RFA 75M j}A {100 15 10 0 19.0 3.0M 120M | T 2N2201 S |N | 2N3738 7-133 | AFA 1.0W ]C 1175 4120 100 oO 25 90 200M 1.7 200M 30 JE 2N2202 S$ |N } 2N3738 7-133 | AFA 1.0W JC 4175 11290 100 9 25 90 200M 1.7 200M 30 4E 2N2203 S| N | 2N3738 7-133 | AFA 1.0W |cC |175 /120 100 0 25 90 200M 1.7 200M 30 JE 2N2204 S | N 1 2N3738 7-133 | AFA 1.0W |C |175 }120 100 0 25 90 200M 1.7 200M 30 |E 2N2205 SIN [2N835 8-54 HSS 1.0W |C 1175 25 12 0 20 10M 0.22 10M 2.0 |E 2N2206 STN | 2N835 8-54 HSS 1.OW |C 1175 25 12 0 40 [120 TOM 0.22 10M 2.0 [E 2N2207 GUP VID | 0.26W }A 75 70 50 R 36 | 370 10M 140M |B 2N2208 GI[P RFC 120M {A 85 40 10 0 15 1,5M 30 1E 2N2209 GIP MSS 150M JA 85 30 12 50 24M 0.15 12M 6,0M )B 2N2210 G }P | 2N2075 7-75 LPA 75w {c |100 |100 65 25 50 5.0A 0.6 L2A 5.0K [E 2N2211 G/P LPA 90W {Cc {100 80 60 Ss 60 |140 1.0A 0.8 2.0A 5.0K [5 2N2212 G|P HPA 100wW fc {110 |120 120 R 50 |120 5.0A 1.0 5.0A 30 JE 10.45M JT 2N2214 SIN HSS | 0.25W |C |150 25 15 0 25 10M 0.2 1OM 200M {T 2N2216 S | P | 2N3498 8-232 | HSA 3.0W |C |200 4150 100 0 25 4120 50M 5.0 50M 50M |T 2N2217 S |N | 2N2218 8-108 | HSA O.8W JA [175 60 30 0 20 60 150M 0.4 150M 250M | T 2N2218 SN 8-108 | HSA 0.8W 7A 1175 60 30 oO 40 |120 150M 0.4 150M 250M |T 2N2218A |S |N 8-114 | HSS | 0.8W JA ]175 | 75 40 |O | 40 |120 70.154 0.3 {0.154 30 |E } 250M |T 2N2219 S|N 8-108 | HSA O.8W TA 1175 60 30 O 4100 | 300 150M 0.4 150M 250M |T 2N2219A |S [N 8-114 | HSS 0.8Ww }A [175 75 40 O j100 ;200 10.154 0.3 [O.15A 50 /E 300M |T 2N2220 S |N | 2N2222 8-108 | HSA O.5W |A [175 60 30 0 20 60 150M 9.4 150M 250M |T 2N2221 Ss |N 8-108 | HSA O.5wWw |A [175 60 30 oO 40 $120 150M 0.4 150M 250M |T 2N2221A [S| N 8-114 } HSS O.5W JA 7175 75 40 oO 40 }120 |0.15A 0.3 [0.154 30 JE 250M |T 2N2222 S|N 8-108 | HSA 0.5W YA 1175 60 30 oO |100 | 300 150M 0.4 150M 250M {T 2N2222A |S {N 8-114 | HSS | O.5W {A J175 | 75 40 {O |100 |300 |0.15A 0.3 [0.154 50 |E | 300M }T 2N2223 SIN 11-6 DFA 500M }A |200 | 100 80 R 50 | 200 10M 1.2 50M 40 /E 50M |T 2N2223A 1S JN 11-6 DFA 500M |A |200 }|100 80 R 50 | 200 LOM 1.2 50M 40 JE 50M |T 2N2224 SiN 8-118 | HSS Q.8W [A 1175 65 40 0 35 |115 10M 0.4 150M 250M |T 2N2225 GIP MSS 200M |A |100 15 4.0 oO 4100 | 300 100M 0.2 50M 25M 1B 2N2226 SEN LPA 150W |C {150 50 50 V 2100 | 500 9.0A 3.5 9.0A 50 |E 7.0K JE 2N2227 S|N LPA 150W |}C 4150 |100 100 Vv {100 | 500 9.0A 3.5 9.0A 50 |E 7.0K |E 2N2228 |S |N LPA | 150W |C ]150 |150 {150 |V |100 |/500 | 9.0A 3.5 | 9.0A 50 JE | 7.0K JE 2N2229 SIN LPA 150W ]C |150 4200 200 V }100 [500 9.04 3.5 9.0A 50 |E 7.0K |E 1-126WA AK WGMWCWQ BC6CDWIK'W''';=).W'WYDQQD} BCWw@CiCK BCWwc 170W By me cTemnGicr2a | Va ) 45V | 60V | 75Vv | 90V = , 0.3 MHz | 70.36 50-100 2N2152 | 2N2153 | 2N2154 | 2N2155 80-160 2N2156 | 2N2157 | 2N2158 | 2N2159 O-AMP ~ HIGH-CURRENT, Veet LOW-SATURATION SWITCH bre ic= 504 O1V _ le = 20 A, Veg == 2 W=5A po= 170M | *7 (heg = 20 min @ te = 50 A} Vea 15V 10-36 40-130 2N2728 PSO" AMP sich Dc Gai h v asv | 6ov | 75V LOW. SATURATION SWITCH cishiaz2v LS Pp = 170W (hg = 15 min @ lc =60A) | Vee 45V 60V 75 fr 0.3 MHz | = ; 1036 60-120 2N4048 | 2N4049 | 2Na050 80-180 2N4051 | 2N4052 | 2N4053 p 6O-AMP bc CAIN LOW-SATURATION SWITCH extshtecoy PME SOV | 45 | OV | 75 Po = 170W {hye = 15 min @ ' = 60 A) Ves 30V 45V 60V 75V f 0.3 MHz eos 60-120 2N4276 | 2N4278 | 2N4280| 2N4282 10-3 80-180 2N4277 | 2N4279 | 2N4281 | 2N4283 6O- AMP HIGH-CURRENT HIGH GAR reWITCH _. be oy [ved 45 | sow | 75v | sv P,=170W (tye = 12 min ic=500) Ves 45V 60V 75V 90V fr 0.3 MHz 7 30-60 MP500 | MP501 | MP502| MP503 | TO-36 50-100 mp5o04 | MP505 | MP506| MP507 p 150-AMP POWER-PAC ASSEMBLY LOW-SATURATION SWITCH ca tbon Vex | _60V 75N P, = 250 W . ~ gy Va = 2.04 Veio 45V 60V 6, = 0.33C/W 7% a ie case 118 (Ox 15 min MP801 MP800 a tTo order units with soider lugs: (TO-41 Case): add the prefix MP" in place of 2N"' (i.e. MP2137). order odd numbered devices (i.e. 2N1163). #Alloy Diffused Epitaxial Process #For epoxy encapsulated PAC add 'A" to device type (i.e. MP801A) 7-102N2137 thru 2N2146 (continued) Power Transistors - INPUT & TRANSFER CHARACTERISTICS DC CURRENT TRANSFER RATIO versus COLLECTOR CURRENT BASE-EMITTER VOLTAGE versus COLLECTOR CURRENT 100 90 80 70 60 50 40 fee, DC CURRENT TRANSFER RATIO 30 20 All Types 12 T Veg v= 2V 1.0 a 5 Qo = 08 us oS <= Pa a o w 6 = 9 E Le | = LL wi 3 o4 ma = 1) 0.2 0 1 2 Ic, COLLECTOR CURRENT (AMPS) Vee =: 2V 2N2142A - 2N2146A 2N2137A - 2N2141A 1 2 Ic, COLLECTOR CURRENT (AMP) 2N2 152 thru 2N2154 (GERMANIUM) 2n2 I 56 thru an21 58 Ves = 45-75 V Ic =30A P, = 170W PNP germanium power transistors for high-power, CASE 5 high-gain applications in high-reliability industrial (TO-36) equipment. MAXIMUM RATINGS . 2N2152 | 2N2153|] 2N2154 . Rating Symbol | 2Nn2156 | 2N2157| 2N2158| Unit Collector-Emitter Voltage Vor oO 30 45 60 Vde Collector-Emitter Voltage Vors 45 60 75 Vde Collector-Base Voltage Vop 45 60 75 Vde Emitter-Base Voltage Vin a5 30 40 Vde Collector Current Ia 30 Adc Total Device Dissipation @ T,, = 25C Py 170 Watts Derate above 25C 0.5 w/c Operating Junction Temperature Range T; -65 to +110 c THERMAL CHARACTERISTICS Characteristic Symbol Max Unit Thermal Resistance , Junction to Case I0 0.5 c/w 7-82Power Transistors 2N2152 thru 2N2154 =2N2156 thru 2N2158 (continued) ELECTRICAL CHARACTERISTICS (Ta = 25C unless otherwise noted) 7 : | Characteristic Symbol | Min] Typ | Max | Unit OFF CHARACTERISTICS Collector -Emitter Breakdown Voltage* BVoro* Vdc I = 1.0 Adc, Ip = 0) 2N2152, 2N2156 30 - - 2N2153, 2N2157 45 - - 2N2154, 2N2158 60 - - Collector-Emitter Breakdown Voltage* BVons* Vde {Tn = 300 mAdc, Vor = 0) 2N2152, 2N2156 45 - - 2N2153, 2N2157 60 - - 2N2154, 2N2158 75 - - Floating Potential VEeBF Vde (V4 = 45 Vde, L, = 0) 2N2152, 2N2156 - - 1.9 CB > E Voz = 60 Vdc, Ih = 0) 2N2153, 2N2157 - - 1.0 Von = 15 Vdc, Ip = 0) 2N2154, 2N2158 - - 1.0 Collector Cutoff Current logo mAdc Vop = 2V, I, = 0) - 0. 08 0.2 Vop = 45 Vdc, Ih = 0) 2N2152,2N2156 - 0.9 4.0 (Vor = 60 Vdc, I, = 0) 2N2153, 2N2157 - 0.9 4.0 Vor = 75 Vde, La = Q) 2N2154, 2N2158 boos 0.9 4.0 = = = 9 - Vag = Vop(max) Ih 0, To 71C) 4.0 15 Emitter Cutoff Current IeBO mAdc (Vig = 25 Vdc, Io = 0) - 0.2 4.0 (Vip = 30 Vdc, I = 0) . 0.2 4.0 Vig = 40 Vdc, Io = 0) - 0.2 4.0 = = = 0 - Vor = Viep(max) Io = 0, To = 71C) 2.7 15 ON CHARACTERISTICS DC Current Gain hog - (Ip = 5.0 Adc, Von = 2 Vdc) 2N2152, 2N2153, 2N2154 50 75 100 2N2156, 2N2157, 2N2158 80 105 160 (Ig = 15 Adc, Vor = 2 Vde) 2N2152, 2N2153, 2N2154 25 47 - 2N2156, 2N2157, 2N2158 40 63 - (lo = 25 Adc, Vop= 2 Vdc) 15 38 - Collector -Emitter Saturation Voltage Vor(sat) Vdc le = 5.0 Adc, I, = 500 mAdc) - 0. 06 0.1 le = 25 Adc, Ip = 2 Adc) - 0. 2 0.3 Base-Emitter On Voltage Vex(on) Vdc (Ip = 5.0 Adc, Ip = 500 mAdc) - 0.65 1.0 (I, = 25 Adc, In = 2 Adc) - 1.0 2.0 SMALL SIGNAL CHARACTERISTICS Common-Emitter Cutoff Frequency fe kHz (Ip = 5.0 Adc, Vor = 6.0 Vdc) 2 2.7 - *To avoid excessive heating of the collector junction, perform these tests with an oscilloscope. 7-83Power Transistors - 2N2152 thru 2N2154, 2N2156 thru 2N2158 (continued) SAFE OPERATING AREAS The Safe Operating Area Curves indicate Ic Vcr limits below which the device will not go into secondary breakdown. Collector load lines for spe- cific circuits must fall within the applicable Safe Area to avoid causing a collector-emitter short. COLLECTOR CURRENT (AMPERES) COLLECTOR CURRENT (AMPERES) 2N2152, 2N2156 Sms ims t (MAX,) 500 ys 2N2152 . 2N2156 250 us 50 us 170-WATT OR LESS DISSIPATION AT 25C CASE TEMPERATURE 0 10 20 30 40 50 COLLECTOR-EMITTER VOLTAGE (VOLTS) 2N2154, 2N2158 30 20 Sms 10 Ims 500 ys 5 250 us 9 50 us OR LESS 170-WATT POWER DISSIPATION AT 25C CASE TEMPERATURE ~ 0.5 0.4 0,3 0.2 0.1 0 10 20 30 40 50 60 70 80 90 COLLECTOR-EMITTER VOLTAGE (VOLTS) (Duty cycle of the excursions make no significant change in these safe areas.) To insure operation below the maximum Ts, the power-temperature derating curve must be observed for both steady State and pulse power conditions. 2N2153. 2N2157 w 8s Sms lms 500 us 250 us ray o wpa 1 TT 50 us 2 T POWER DISSIPATION AT # 25C CASE TEMPERATURE OR LESS - COLLECTOR CURRENT (AMPERES) 0.5 0.4 0.3 0.2 0.1 0 10 20 30 40 50 60 70 COLLECTOR-EMITTER VOLTAGE (VOLTS) POWER-TEMPERATURE DERATING CURVE 475 170 mN 150 IN . \ 100 Pp, POWER DISSIPATION (WATTS) s iN \ 25 Ni 0 10.20 30 40) 50 60s 70s 80s 90-s 100s: 110 To, CASE TEMPERATURE (C) The maximum continuous power is related to maximum junction tempera- ture by the thermal resistance factor. This curve has a value of 170 Watts at case temperatures of 25C and is 0 Watts at 110 C with a linear relation between the two temperatures such that: allowable Pp = 110 - Tc 0.5 7-84Power Transistors 2N2152 thru 2N2154 , 2N2156 thru 2N2158 (continued) le, COLLECTOR CURRENT (AMP) hee, DC FORWARD CURRENT GAIN TYPICAL INPUT AND TRANSFER CHARACTERISTICS COLLECTOR CURRENT versus BASE CURRENT 30 T T Veg = 2V L- 25 KO 2N2156 - 2N2158 Zs . on 4 15 LZ Y. YY | 2N2152 - 2N2154 10 i 0 0 601 06020 (O03 Ok iii |p, BASE CURRENT (AMPS) DC CURRENT GAIN versus COLLECTOR CURRENT Vee 2 160 \ 120 X N 2N2156 - 2N2158 80 J Iw Ne 7 2N2152 - 2N2154 | 40 ] 0 5 10 15 20 25 30 Ie, COLLECTOR CURRENT (AMP) 7-85 Ic, COLLECTOR CURRENT (AMP) Ip, BASE CURRENT (AMP) COLLECTOR CURRENT versus BASE-EMITTER VOLTAGE 30 t Vor =2V 25 V 20 f (ALL TYPES) / S on Ob eee] 0 0.2 04 06 0.8 10 12 Vee, BASE-EMITTER VOLTAGE (VOLTS) BASE CURRENT versus BASE-EMITTER VOLTAGE 07 Vee2V | | . | [ 04 V {ALL TYPES) / ; 0.2 0.1 0 02 0.4 0.6 08 10 12 Vee, BASE-EMITTER VOLTAGE (VOLTS)