TIP120,121, NPN POWER DARLINGTON |_TPte2 TRANSISTORS s ANP, 8 WATTS COMPLEMENTARY TO THE TIP125, TIP126, TIP127 High power switching applications, designed for hammer drive, pulse motor drive and inductive load drive applications. Features: High collector power dissipation: Pp = 65W @ TC = 26C . : TYLE TO-220AB High collector current: IC(DC) = 5A (Max.) omnse S. IN INCHES AND (MILLIMETERS) 116 (2.95) High DC current gain: jesse Tot a or La 9861.38) hFE = 1000 (Min.) @ VCE = 3V, IC = 3A 7 7 a x 2656.73) | Complementary to TIP125, TIP126, TIP127 PF mse21| EY ASE ae | fT TL Strain TBE lta, + ee 2a 2018.60) | \ } t +] | | 13013.) fe S010 Te EQUIVALENT CIRCUIT por TERM.1 600(12.7)MIN. COLLECTOR TERM2 ose 3p TERMS reco tcst oot 704 i wot ! sae [eee a aa | +-K 4! a I = 5k = 2000 I { Ww AWA | (tye [term.1 | Terw.2 | Terma | Tas | LeeLee t _-_ [ro-220-ae | ease | coutector | ewmrer | couuector | EMITTER maximum ratings (T, = 25C) (unless otherwise specified) RATING SYMBOL TIP120 TIP121 TIP122 UNITS Collector-Emitter Voltage VcEO 60 80 100 Volts Collector-Base Voltage VcBO 60 80 100 Volts Emitter Base Voltage VEBO 5 5 5 Volts Collector Current Continuous Io 5 5 5 A Peak lom 8 8 8 Base Current Continuous Ip 0.1 0.1 0.1 A Total Power Dissipation @ Ta = 25C Pp 2 2 2 Watts To = 25C 65 65 65 Operating and Storage Junction Temperature Range Ty, TsteG -65 to +150 ~65 to +150 -65 to +150 C thermal characteristics Thermal Resistance, Junction to Ambient Resa 62.5 62.5 62.5 C/W Thermal Resistance, Junction to Case Rec 1.92 1.92 1.92 C/W Maximum Lead Temperature for Soidering Purpose: %" from Case for 5 Seconds Th 260 260 260 C 759electrical characteristics (Tc = 25C) (unless otherwise specified) | CHARACTERISTIC | SYMBOL | MIN {| TYP | MAX | UNIT | off characteristics __ Collector-Emitter Breakdown Voltage TIP120 | VernicEO 60 _ _ Volts (lc = 30mA) TIP121 (CEO) 80 _ _ TIP122 100 _ Collector Cutoff Current (Vop = 80V) | IcBo ~ 200 pA Collector Cutoff Current enve ya Current leBO _ _ 9 mA second breakdown | Second Breakdown with Base Forward Biased | FBSOA [ SEE FIGURE 13 | on characteristics DC Current Gain hrE (Ic = 0.5A, Vcg = 3V) 1000 _ _ (Ig = 3A, Voce = 3V) 1000 Collector-Emitter Saturation Voltage VCE(sat) (Ig = 3A, Ip = 12mA) _ 2 Vv (Io = 5A, Ig = 20MA) _ _ 4 Vv Base-Emitter Voltage VBE(on) (Ic = 3A, VcE = 3V) _ 2.5 Vv switching characteristics Turn-on Time Ic = 3A, RL = 100 ton 1.5 BS - (g1 = -!pe = 12mA Turn-off Time VBE(otf) = -5V tort 8.5 _ COMMON EMITTER Te = 25C 0.8 COLLECTOR CURRENT fc (A) 2 4 6 8 10 COLLECTOR-EMITTER VOLTAGE Voge ) FIG.1 Ic-VcE 14 COLLECTOR CURRENT ig (A) 760 COMMON EMITTER Tg = 100C 05 04 03 02 2 4 6 8. 10 12 14 COLLECTOR-EMITTER VOLTAGE Voge (Vv) FIG.2 Ic-VcECOMMON EMITTER T= 55C 25 3.0 COLLECTOR CURRENT Ig (A) 0 2 4 6 8 10 12 14 COLLECTOR-EMITTER VOLTAGE Vee (V) FIG.3 lo- VCE COMMON EMITTER 6 (o/lg = 250 = ar) o wo COLLECTOR-EMITTER SATURATION VOLTAGE VoEisaty () a 0.03 01 0.3 1 3 10 30 COLLECTOR CURRENT Ic (A) FIG. 5 VCE(sat) -lo COMMON EMITTER Veg = 3V COLLECTOR CURRENT Ic (A) oO 0.4 08 1.2 16 2.0 2.4 28 COLLECTOR-EMITTER VOLTAGE Vge (V) FIG.7 Ilo- VBE . 761 BASE-EMITTER SATURATION VOLTAGE VpE(sat) ) DC CURRENT GAIN fee COLLECTOR-EMITTER SATURATION VOLTAGE 50,000 10,000 3,0002 Vee sat) () 5,000 40 2 an 2 0.03 0.03 0.1 0.1 COMMON EMITTER Vog = 5V 0.3 1 3 10 COLLECTOR CURRENT Io (A) FIG.4 hrE-Ic COMMON EMITTER Io/lg = 250 25 100 03 1 3 10 COLLECTOR CURRENT Ic (A) FIG. 6 VBE(sat) -le COMMON EMITTER ip * 20mA, ig = 5A 0 40 80 120 CASE TEMPERATURE Tc (*C) FIG.8 VCE(sat) - Te 160BASE-EMITTER VOLTAGE Vag (V) MAXIMUM CONTINUOUS COLLECTOR POWER DISSIPATION Pc (W) COMMON EMITTER Vog = 3V ~40 0 40 80 120 CASE TEMPERATURE Te (C) FIG.9 Vpe- Te MAXIMUM CONTINUOUS COLLECTOR POWER DISSIPATION Pc (W) Pin(j-a) = 62.5 CW 20 40 60 80 100 120 AMBIENT (FREE-AIFl) TEMPERATURE Ta (C) FIG.12 Poc-Ta 160 140 40 FIG. 11 MAXIMUM COLLECTOR CURRENT Ic (A) Voo = 20V Rage = 1000 To = 25C SEE FIGURE 2 1 3 10 30 100 UNCLAMPED INDUCTIVE LOAD L (mH) FIG.10 I-L (UNCLAMPED INDUCTIVE LOAD) Ren (j-c) 192C 60 80 100 120 140 160 CASE TEMPERATURE Tc (C) Pc-Tc 20 COLLECTOR CURRENT Ic, (A) 762 10 Ig MAX. (PULSED)* Io MAX. (CONTINUOUS) 0.5 0.3 SINGLE NONREPETITIVE PULSE Te= 25C CURVES MUST BE DERATED LINEARLY WITH INCREASE IN TEMPERATURE. 0.1 1 3 10 30 100 COLLECTOR-EMITTER VOLTAGE Vo (V) FIG. 13 SAFE OPERATING AREA'B MONITOR TUT Voce we ee ee eee MONITOR Ig ba 50% | r 7 10% Bt R I I J AR ! 7: a ! \pe Vin. O WWAr f . 1 | fa (PULSE) \ K, ; | on ott \ \ | 1 ! | Rapa r I ! | | | ! t g g j ~ Ves Veo = 30v {A) The Vx, waveform is obtained by using amplifier circuit and the signal source is supplied by generator with the following characteristics: ty, te < 15ns, ty = 20us, Du = 1% (B) Vin. Regi and Repo are varied to obtain desired base current levels. FIG. 14 SWITCHING TIME MEASUREMENT CIRCUIT TUT ror Stee Inv 1A \ co: VoE Rept \ MONITOR lo Vin o-_wv. (PULSE) Kc __ ave 0 AY L= 100 mH VcER(SUS) Voce 20v VoE(sat) INPUT PULSE WIDTH IS INCREASED UNTIL Icp = 1A. FIG. 15 INDUCTIVE LOAD SWITCHING TEST 763