SILICON PNP EPITAXIAL TYPE (PCT PROCESS) 2SAT 02 0 INDUSTRIAL APPLICATIONS Unit in mm 5.1MAX. POWER AMPLIFIER APPLICATIONS. POWER SWITCHING APPLICATIONS. \ 3 FEATURES: a * Low Collector Saturation Voltage O.75MAX. : VCE(gat)=-0.5V (Max.) (Ic=-1A) ctowax i : High Speed Switching Time : tgtg=1.Ous (Typ.) O.60MAX, Wi} 3 2 z + Complementary to 2SC2655. a a MAXIMUM RATINGS = (Ta=25C) CHARACTERISTIC SYMBOL RATING UNIT Collector-Base Voltage VcBo -50 V Collector~Emitter Voltage VcEO -50 Vv Emitter-Base Voltage VEBO -5 v 2 ae meTOR Collector Current I -2 A 3 BASE Collector Power Dissipation Po i 900 mW JEDEC TO 92MOD Junction Temperature Tj 150 Elad = Storage Temperature Range Tstg -55~v150 C TOSHIBA 2 - SJ1A Weight : 0.362 ELECTRICAL CHARACTERISTICS (Ta=25C) CHARACTERISTIC SYMBOL TEST CONDITION MIN. {|TYP. |MAX. | UNIT Collector Cut-off Current TcBo Vcpz-50V, Ip=0 - - Fl.O}; pA Emitter Cut-off Current IgBo Vpepe-5V, Ic=0 - ~ 1.0) vA Collector-Emitter Vv Ic=-10mA, Ip=0 -50 - ~ V Breakdown Voltage (BR) CEO 8 h =-2V,Ic=-0, N 70 - | 240 DC Current Gain FEQ) | Vcr rte 5A (Note) hpE(2) VcE=-2V, Ipe-1.5A 40 - - Collector-Emitter =-1A =-0.05A - - -0.5 V Saturation Voltage VcE(sat) Te Tge-0 Base-Emitter Saturation Voltage YBE(sat) Tce 1A, Igz-0.05A ~ - pi-2 Vv Transition Frequency f- Vcg=-2V, Tc=-0.5A _ 100 = MHz Collector Output Capacitance Cob Vcpz-LOV, Ip=0, f=1MHz - 40} - pF Turn-on Time ton 20 INPUTLB2 ouTPpUT) - | O.1] - NEO Switching Storage Time tstg Ip Tee - 1.0) - us Time Ipy=Ip2=0.05A Fall Time te DUTY CYCLES1% Vag =-sov | 7 0.1 - Note : hpe(l) Classification O : 70%140, Y : 120% 240 137 2SA1020 STATIC CHARACTZERiSTICS OMMON EMITTER Ta=85C a c < ac ot > oD 2 x a * x & & BS s & / 5 = im 4 a = -30 20 1l0 2 c TOR a BASE CURRENT 4 EMITTER 3 Ip (ma) 5 BA 5 eM o> 5 > ) 4 = 0.8 -ik ..6 -~ 10 ~2.4 K.8 a= 2ULEECOTOR CURRENT Ig (a) <= COMMON Ha EMITTER 22 Ta=25C vy r Yop 7 to =1.2 ve COMMON EMITTER a _ 2 1.0 Ta > -S8U < SUMMON EMITTER as 3 Ta=100C 5 -0.8 > al Bs > fa 5 g Be > & -v.6 BO mt H s = a I = s x 0.4 & & eS 3 D 3 -0.2 ica} 4 4 ww oD oO 0 -04 8 -l2 -i6 -20 24 28 0 -04 -08 ~12 -16 -20 24 28 sULLBOTOR cunman * cn) COLLECTOR CURRENT Ig (A) ou 8 hrg Ic a COMMON EMITTER fea Vope2V a 5 a oO u = a & a D QO oO a a1 O03 -1 -3 Tg (A) -a0c0l =O COLLECTOR CURRENT 138 COLLEC TOR~EMITTER SATURATION Ig (a) COLLECTOR CURRENT Ig (A) COLLECTOR CURRENT VOLTAGE Vou(eat) (V) Veor(sat) ~ Ic COMMON EMITTER Ic/ Ig = 20 3 2.0 oO 0.0. 0.005-0.01 -).03 ~O.1 0.3-0.5 -1 COLLECTOR CURRENT Ig CA) Ic - Yor COMMON EMIT Vor e~2V -1L5 1.0 0.5 0 0 0.4 0.8 Le ~L6 BASE-EMITTER VOLTAGE Vpp (V) SAFE OPERATING AREA Ig MAX.\ PULSED )* MAX.(CONTINUOUS ) 2 oO . Oye a = o * SINGLE NONREPETITIVE 0.1 PULSE Ta= 25C CURVES MUST BE DERATED LINEARLY WITH INCREASE IN TEMPSRAT IRE 0.0. O02 ~05 -1 -3 -5 lo 30 50 100 COLLECTOR-EMITTER VOLTAGE Vop (Vv) VBE(sat) Ic 2SA1020 COMMON EMITTER Ig / Ip = 0 SATURATION Vag(sat) ) 25 ioc BASE- EMITTER VOLTAGE 0.1 -0,005-0,01 0,03 O.1 COLLECTOR CUARENT Po Ta = 1600 ~ 800 600 DISSIPATION Po 400 POWER x00 COLLECTOR 80 120 AMBIENT TEMPERATURE oO 40 139 0.3 -0.5 1 Ic (A) 3 160 200 Ta (C)