cee G E SOLID STATE DL deff 37501 oo17a27 3 3875081 G E SOLID STATE " O1E 17327 DiIyv-7?27~-27 ; Dartington Power Transistors File Number 1153 TIP100, TIP101, TIP102 8-Ampere N-P-N Darlington _Power Transistors 60, 80, and 100 Volts, 80 Watts TERMINAL DESIGNATIONS Gain of 1000 at3A E a Features: = c (FLANGE) | [eee - = Operates from !C without predriver @ Low leakage at high temperature r a TOP VIEW 8 9205-39969 = Power switching = Audio amplifiers = Hammer drivers * Series and shunt regulators JEDEC TO-220AB Applications: The RCA-TIP100, TIP101 and TIP102 are monolithic n-p-n silicon Darlington transistors designed for low- and medium- frequency power applications. The construction of these devices provides good forward-bias second-breakdown capability; their high gain makes it possible for them to be driven directly from integrated circuits. These devices are supplied in the JEDEC TO-220AB (VER- SAWATT) plastic package. sacs -2ase7 Fig. 1 Schematic diagram for all types. MAXIMUM RATINGS, Adsolute-Maximum Values: TIP100 TIP101 TIP102 Vegan ee BO ao 100 v Vogoltush 2 ee 80 100 Vv Vego: . . . . . . . . . C . . . . _ 6 __ Vv Vo ee ecient Beene A lom Be mares 1B tenet A Ig ee A Pr: Te upto 26C . rn 80 __., Ww To sbove 26C . . . . . . , Derate linearly et 0.64 W/C Tag TJ Se mes BB 10 180 ee At distance > 1/8 in. (3.17 mm) from cese for 10 emsx, 235 % = 329 C8 69 F-106G E SOLID STATE Ol DE ff 3875081 oou7azea s ff 3875081 GE SOLID STATE OTE 47328 DT= 33-29 ~ Darlington Power Transistors *TIP100, TIP101, TIP102 ELECTRICAL CHARACTERISTICS, At Case Temperature (To) = 25C TEST CONDITIONS LIMITS CHARAC- Voltage Current TERISTIC Vide Adc TIP100 TIP101 TIP102 UNITS Vcel Vee} ic Ig | Min. | Max. | Min. | Max. | Min. | Max. lego 60 - 50 - - - - 0 80 - - - 50 - - lg=0 100 - fe - |- 50 BA 30 0 - 50 - - - _ IcEO 40 0 - - - 50 ~ - 50 0 - - - - - 50 leso 5 0 - 8 - 8 - 8 | mA Vceolsus) 0.03b | 9 60 - 80 ~ 100 - v h 4 3b 1000} 20,000] 1000} 20,000] 1000 | 20,000 FE 4 gb 200} | 200] 200 | - Vee 4 gb ~ 28 | - 2B) - 2.8 36 Io.006 | 2 - 2 - 2 v Vcelsat) sbloos | - | 25 | | 26 | - | 265 VF ~10 - 28 | - 2.8 | - 2.8 tye 8 | 0.08 | 0.035 typ. 0.035 typ. 0.035 typ. te 8 |0.08 0.35 typ. 0.35 typ. 0.35 typ. 5 te 8 |o.08d| 1.8 typ. 1.8 typ. 1.8 typ. H tS 8 10.084 | 2.45 typ. 2.45 typ. 2.45 typ. IS/y t=0.15s non-| 40 2 - 2 - 2 - A rep, pulse Ra Jc - 1,56 | 1.56{ - 1.56} C/W | Vp value. 5 Pulsed: Pulse duration * 300 us, duty factor < 2%. 8 Vog =40V tig, . lpo: eh e CURRENT DERATING 27 CONSTANT AGE APPUES ONLY TO THE DISSIPATION- theres PORTION AND. THE Teyp -LIMITED OF MAXIMUM OPERATING AREA cgnve, OO NOT OERATE THE SPECIFIED VALUE FOR Ie ee Si o% D CURRENT AT SPECIFIED VOLTAGE es PERCENTAGE OF MAXIMUM DISSIPATION AT Ter 28C OR PERCENTAGE OF RATED Sy Ts 1 T OC FORWARD-CURRENT TRANSFER RATIO t t + 2 oUF WO 125 80S 0 CASE TEMPERATURE (Tp}C a2e8-20696A1 Fig. 2 Derating curve for all types. 330. CURRENT (Tg)~A 928-3027 Fig. 3 Typical de-beta characteristics for all typas. 0870 FeilG E SOLID STATE OL deff sa7sos. on1zaeq 7 I 3875081 GE SOLID STATE Qie 17329 D T-3B33-29 . Darlington Power Transistors TIP100, TIP101, TIP102 CASE TEMPERATURE( To } 25C Bieaz i Hi # (CURVES MUST BE DERATED = LINEARLY WITH INCREASE pate IN TEMPERATURE) Dio t, ' iL y, o E z Ww a 3 4 Vee ce . ro2 t a g * FOR SINGLE 3 a NONREP ETITIVE a PULSE oI Vogo (MAX): GOV (TIPIOO} Voeo (MAX): 80 (TIPION Vogo [MAX.)# 100V(TIPIO2) EB EEE psy 4 6 al 2 ie} we 4 60! 2 100 COLLECTOR~ TO-EMITTER VOLTAGE (Vog) V do 92CM-31I25R1 Fig. 4 ~ Maximum operating areas for all types { Te= 25C), Veg! 40v oureyt ro F OSCILLOSCOPE we TM CTEXTROHIN MODEL Ba ae TIME Res No S454, ae INPUT OR EQUIVALENT) 3 INPUT WAVE FORM curonetics purse | Tay GENERATOR NOCEL No PG-3I, OR = EQuIVALENT Ba coemeggg ON = = "CONDITION PULSE OURATION . Rg*200 Ro 20 ws POSITIVE VOLTAGE 20 ps NEGATIVE VOLTAGE REP AATEs 200 Hy Sy * Ip, AND [gz ARE MEASUREO WITH TEXTROMX CURRENT ag PROBE PEOIS AND TYPE 34 AMPLIFIER, OR EQUIVALENT 3g 3 sesame 8 we hy a mtn - Fig. & Circuit used to measure saturated switching TURN=ON wire when TURN-OFF times. TIME - TIME QUIPUT WAVE FORM 428 99681 Fig. 6 Phase relationship between input current and output current showing reference points for specification of switching times. 331 0871 F-12