TIP146TU ,PNP Epitaxial Silicon Darlington TransistorTIP145/146/147TIP145/146/147Monolithic Construction With Built In Base-Emitter Shunt Resistors ..
TIP147 ,Leaded Power Transistor DarlingtonTIP140/141/142TIP145/146/147®COMPLEMENTARY SILICON POWER DARLINGTON TRANSISTORS■ TIP141, TIP142, TI ..
TIP147. ,Leaded Power Transistor DarlingtonAPPLICATIONS 1■ LINEAR AND SWITCHING INDUSTRIALE ..
TIP147FTU ,PNP Epitaxial Darlington TransistorTIP145F/146F/147FTIP145F/146F/147FMonolithic Construction With Built In Base-Emitter Shunt Resistor ..
TIP147FTU ,PNP Epitaxial Darlington TransistorTIP145F/146F/147FTIP145F/146F/147FMonolithic Construction With Built In Base-Emitter Shunt Resistor ..
TIP147T , 80.000W Darlington PNP Plastic Leaded Transistor. 100V Vceo, 10.000A Ic, 1000 hFE. Complementary TIP142TAPPLICATIONS 1■ GENERAL PURPOSE SWITCHING TO-220 ..
TLE6389-2GV50 , Step-Down DC/DC Controller
TLE6389-2GV50 , Step-Down DC/DC Controller
TLE6389G 50-1 ,Step-Down DC/DC ControllerFeatures• Input voltage range from < 5V up to 60V• Output voltage versions: 5V fixed and adjustable ..
TLE6389G 50 ,Step-Down DC/DC ControllerFeatures• Operation from 5V to 60V Input Voltage• 100% Maximum Duty Cycle• Efficiency >90%• Output ..
TLE6389G50 ,Step-Down DC/DC ControllerFunctional descriptionThe TLE6389 step-down DC-DC switching controllers provide high efficiency ove ..
TLE6389G50 ,Step-Down DC/DC ControllerFunctional descriptionThe TLE6389 step-down DC-DC switching controllers provide high efficiency ove ..
TIP146TU
PNP Epitaxial Silicon Darlington Transistor
TIP145/146/147 TIP145/146/147 Monolithic Construction With Built In Base- Emitter Shunt Resistors High DC Current Gain : h = 1000 @ V = -4V, I = -5A (Min.) FE CE C Industrial Use Complement to TIP140/141/142 TO-3P 1 1.Base 2.Collector 3.Emitter PNP Epitaxial Silicon Darlington Transistor Absolute Maximum Ratings T =25°C unless otherwise noted Equivalent Circuit C C Symbol Parameter Value Units V Collector-Base Voltage : TIP145 - 60 V CBO : TIP146 - 80 V B : TIP147 - 100 V Collector-Emitter Voltage : TIP145 - 60 V V : TIP146 - 80 V CEO : TIP147 - 100 V V Emitter-Base Voltage - 5 V R1 EBO R2 I Collector Current (DC) - 10 A C E R18 ≅ kΩ I Collector Current (Pulse) - 15 A R20 ≅ .12kΩ CP I Base Current (DC) - 0.5 A B P Collector Dissipation (T =25°C) 125 W C C T Junction Temperature 150 °C J T Storage Temperature - 65 ~ 150 °C STG Electrical Characteristics T =25°C unless otherwise noted C Symbol Parameter Test Condition Min. Typ. Max. Units V (sus) Collector-Emitter Sustaining Voltage CEO : TIP145 I = - 30mA, I = 0 - 60 V C B : TIP146 - 80 V : TIP147 - 100 V I Collector Cut-off Curren CEO : TIP145 V = - 30V, I = 0 - 2 mA CE B : TIP146 V = - 40V, I = 0 - 2 mA CE B : TIP147 V = - 50V, I = 0 - 2 mA CE B I Collector Cut-off Current CBO : TIP145 V = - 60V, I = 0 - 1 mA CB E : TIP146 V = - 80V, I = 0 - 1 mA CB E : TIP147 V = - 100V, I = 0 - 1 mA CB E I Emitter Cut-off Current V = - 5V, I = 0 - 2 mA EBO BE C h DC Current Gain V = - 4V,I = - 5A 1000 FE CE C V = - 4V, I = - 10A 500 CE C V (sat) Collector-Emitter Saturation Voltage I = - 5A, I = - 10mA - 2 V CE C B I = - 10A, I = - 40mA - 3 V C B V (sat) Base-Emitter Saturation Voltage I = - 10A, I = - 40mA - 3.5 V BE C B V (on) Base-Emitter ON Voltage V = - 4V, I = - 10A - 3 V BE CE C t Delay Time V = - 30V, I = - 5A 0.15 μs D CC C I = -20mA, I = 20mA t Rise Time B1 B2 0.55 μs R R = 6Ω L t Storage Time 2.5 μs STG t Fall Time 2.5 μs F ©2000 Fairchild Semiconductor International Rev. A, February 2000