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Part Manufacturer Description Datasheet BUY
TTL-LOGIC-DATABOOK Texas Instruments TTL-LOGIC-DATABOOK visit Texas Instruments
TPS1110DR Texas Instruments Single P-channel Logic-Level MOSFET 8-SOIC visit Texas Instruments
TPS1110D Texas Instruments Single P-channel Logic-Level MOSFET 8-SOIC visit Texas Instruments
CSD75211W1723 Texas Instruments 4.5A, 20V, 0.07ohm, P-CHANNEL, Si, POWER, MOSFET, 1.70 X 2.30 MM, HALOGEN FREE AND ROHS COMPLIANT, WAFER LEVEL-12 visit Texas Instruments
UC2710T Texas Instruments Complementary High Current MOSFET Driver 5-TO-220 -40 to 85 visit Texas Instruments
UC2710TG3 Texas Instruments Complementary High Current MOSFET Driver 5-TO-220 -40 to 85 visit Texas Instruments

logic level complementary MOSFET

Catalog Datasheet MFG & Type PDF Document Tags

tl494 inverter

Abstract: DS0026 power mosfet driver MOSFET input stage transistor drives a 2.5mA current source load. With a logic "1" input, the maximum quiescent supply current is 8 mA. Logic "0" input level signals reduce quiescent current to 0.4 mA maximum , TC426 TC427 TC428 1.5A DUAL HIGH-SPEED POWER MOSFET DRIVERS 2 FEATURES GENERAL , (Logic "0" or "1") . 1µA s TTL/CMOS Input Compatible s Available in Inverting and , are dual CMOS high-speed drivers. A TTL/CMOS input voltage level is translated into a rail-to-rail
TelCom Semiconductor
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DS0026 tl494 inverter DS0026 power mosfet driver tl494 dc to ac inverters tl494 dc to ac inverter tl494 mosfet tl494 inverter circuit MMH0026 TC426/TC427/TC428 1N4001

TC426CPA

Abstract: EST. TL494 The input voltage level changes the no-load or quies cent supply current. The N-channel MOSFET input , supply current is 8 mA. Logic "0" input level signals reduce quiescent current to 0.4 mA maximum. Minimum , Semiconductor, Inc. elCom TC426 TC427 TC428 1.5A DUAL HIGH-SPEED POWER MOSFET DRIVERS , .1.5A High Output Voltage S w in g . VDD - 25mV GND + 25mV Low Input Current (Logic "0" or , level is translated into a rail-to-rail output voltage level swing. The CMOS output is within 25 mV of
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TC426CPA EST. TL494 TL494 pinout TC426EPA TL494 tc427cpa
Abstract: MOSFET input stage transistor drives a 2.5mA current source load. With a logic "1" input, the maximum quiescent supply current is 8 mA. Logic â'0" input level signals reduce quiescent current to 0.4 mA , ¡eluom Semiconductor, Inc. TC426 TC427 TC428 1.5A DUAL HIGH-SPEED POWER MOSFET DRIVERS , . A TTL/CMOS input voltage level is translated into a raii-to-rail output voltage level swing. The , /TC427/TC428 ideal power MOSFET drivers, line drivers, and DC-to-DC converter building blocks. Input -
OCR Scan
TC1426/ TC4426/27/28 TC4426A/27A/28A

logic level complementary MOSFET

Abstract: in te r rii Complementary Pairs 9 PAGE 9-3 9-13 9-23 Power M O SFE T Products Complementary Pairs Data Sheets RF1K49092 RF1K49224 RF3V49092, RF3S49092SM 3.5A/2.5A, 12V, 0.050/0.130 Ohm, Logic Level, Complementary LittleFETTM Power MOSFET. . 3.5A/2.5A, 30V, 0.060/0.150 Ohms, Complementary LittleFETTM Power MOSFET. 20A/10A, 12V, 0.060/0.140 Ohm, Logic Level, Complementary Power M OSFET. 9 COMPLEMEN TARY PAIRS 9-1 1-8 8 8 -IN T E R S IL or 3 2 1 -7 2
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logic level complementary MOSFET

d 5287 transistor

Abstract: TC426CPA load. With a logic "1" input, the maximum quiescent supply current is 8 mA. Logic "0" input level , Semiconductor, Inc. ¡eluom TC426 TC427 TC428 1.5A DUAL HIGH-SPEED POWER MOSFET DRIVERS , .1.5A High Output Voltage S w in g . V d d - 25mV GND +25mV Low Input Current (Logic "0" , level is translated into a rail-to-rail output voltage level swing. The CMOS output is within 25mV of , drivers, line drivers, and DC-to-DC converter building blocks. Input logic signals may equal the power
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d 5287 transistor MOSFET DRIVER ic pin-8 converter ic tl494 mosfet tl494 dc to ac
Abstract: . Logic "0â' input level signals reduce quiescent current to 0.4 mA maximum. Minimum power dissipation , WTELEDYNE COMPONENTS TC426 TC427 TC428 DUAL HIGH-SPEED POWER MOSFET DRIVERS FEATURES , (Logic "0" or "1"). 1 |xA â  TTL/CMOS Input Compatible â  Available in Inverting and , are dual CMOS high-speed drivers. A TTL/CMOS input voltage level is translated into an output voltage level swing equaling the supply. The CMOS output will be within 25 mV of ground or positive -
OCR Scan
623SWT5

TC426CPA

Abstract: tc428 equivalent gnd IN b COMPLEMENTARY NC = NO INTERNAL CONNECTION DUAL HIGH-SPEED POWER MOSFET DRIVERS , voltage level changes the no-load or quies cent supply current. The N-channel MOSFET input stage , is 8 mA. Logic "0" input level signals reduce quiescent current to 0.4 mA maximum. Minimum power , WTELEDYNE COMPONENTS TC426 TC427 TC428 DUAL HIGH-SPEED POWER MOSFET DRIVERS FEATURES , . 1.5A High Output Voltage Swing.Vdd- 25 mV GND+25 mV Low Input Current (Logic "0"
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tc428 equivalent TC428COA TC427E TC426 equivalent dc ac inverter mosfet

VN0300L equivalent

Abstract: FET pair n-channel p-channel MOSFET performs a vital "high-side" switch task that the n-channel simply cannot equal. Used as a high-side switch, a p-channel MOSFET in a totem-pole arrangement with an n-channel MOSFET will simulate a high-current, high-power CMOS (complementary MOS) arrangement. Although the p-channel MOSFET cannot , more acceptable logic format, add an n-channel MOSFET (Figure 3). Using an n-channel MOSFET in this , higher inter-electrode capacitances. Consequently, a truly complementary pair-a p-channel and an
Temic Semiconductors
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AN804 2N7000 VP2020L TN0200T VN0300L equivalent FET pair n-channel p-channel FET P-Channel Switch 2N7000 MOSFET mosfet discrete totem pole CIRCUIT 2n7000 complement TP0610 VP0300L VN0300L TP0610L

70611

Abstract: FET pair n-channel p-channel CMOS (complementary MOS) arrangement. Although the p-channel MOSFET cannot complement the n-channel , complementary pair-a p-channel and an n-channel device that match in all parameters-is impossible. The , same polarity as the MOSFET's drain voltage. To turn on, the n-channel MOSFET requires a positive gate-source voltage, whereas the p-channel MOSFET requires a negative gate-source potential. Yet, despite its shortcomings, the p-channel MOSFET performs a vital "high-side" switch task that the n-channel
Vishay Siliconix
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TP0101T 70611 mosfet discrete totem pole drive CIRCUIT 2n7000+complement Logic Level p-Channel Power MOSFET equivalent of 2n7000 P-CHANNEL TO 9939DY 9942DY 9928DY VN2010L TP0610T

2n7000 complement

Abstract: mosfet discrete totem pole drive CIRCUIT performance as a complementary pair. During switching, a MOSFET's source voltage must remain fixed, as any , (Figure 1b). To return gate control to a more acceptable logic format, add an nchannel MOSFET (Figure 4 , LevelShifter Simplifies Driving From Logic Using an nchannel MOSFET in this way simplifies the gate drive , . Consequently, a truly complementary paira pchannel and an nchannel device that match in all parametersis , polarity as the MOSFET's drain voltage. To turn on, the nchannel MOSFET requires a positive gatesource
Temic Semiconductors
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2n7000 equivalent TO226AA oxner ttl driver mosfet Si9939DY Si9942DY 9958DY TP0202T TN0201T 2N7002

FET pair n-channel p-channel

Abstract: FET P-Channel Switch CMOS (complementary MOS) arrangement. Although the p-channel MOSFET cannot complement the n-channel , logic format, add an n-channel MOSFET (Figure 4). VDD 15 V P-Channel VDD ­ ILrD TTL N-Channel , An N-Channel Level-Shifter Simplifies Driving From Logic Using an n-channel MOSFET in this way , Figure 6. High-Voltage Complementary Pair Driven by Logic-Compatible MOSFET Siliconix 21-Jun-94 3 , geometries with correspondingly higher inter-electrode capacitances. Consequently, a truly complementary
Temic Semiconductors
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logic level complementary MOSFET switch mosfet power P-Channel N-Channel CIRCUIT Power MOSFET p-Channel n-channel dual TP0610 series 2N7000 FET Logic Level N-Channel Power MOSFET

4000 series CMOS Logic ICs

Abstract: TTL 74ALS :1 ; LOW logic :0 VIH(min) ­ High Level Input Voltage VIL(max) ­ Low Level Input Voltage VOH(min , Connect to VCC(+5V) through a 1-k resistor or to GND to produce for a constant-output logic level ­ Tied , fabrication processes · C-MOS (complementary MOS) ­ Use both P- and N-channel MOSFET ­ Increase , Department 32 dce 2011 Complementary MOS Logic · CMOS Inverter 9/7/2011 ©2011, CE Department 33 dce 2011 Complementary MOS Logic · CMOS NAND Gate 9/7/2011 ©2011, CE
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4000 series CMOS Logic ICs TTL 74ALS CMOS 4000 Series family TTL nand gate 74 Series Logic ICs TTL SERIES 74AS 4000B 74HC/74HCT

dc motor speed control tl494

Abstract: DS0026 power mosfet driver TC426 TC427 TC428 1.5A Dual High-Speed Power Mosfet Drivers FEATURES GENERAL DESCRIPTION , (Logic "0" or "1") . 1µA s TTL/CMOS Input Compatible s Available in Inverting and , are dual CMOS high-speed drivers. A TTL/CMOS input voltage level is translated into a rail-to-rail output voltage level swing. The CMOS output is within 25mV of ground or positive supply. The low , drive qualities make the TC426/TC427/TC428 ideal power MOSFET drivers, line drivers, and DC-to-DC
Microchip Technology
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dc motor speed control tl494 inverter tl494 Power Supply TL494 tc428 application tl494 inverter converter SG1524 application TC426/7/8-7 DS21415A

tl494 inverter circuit

Abstract: TC427CPA N-channel MOSFET input stage transistor drives a 2.5mA current source load. With a logic "1" input, the maximum quiescent supply current is 8 mA. Logic "0" input level signals reduce quiescent current to , 1.5A DUAL HIGH-SPEED POWER MOSFET DRIVERS TC426 TC426 TC427 TC427 TC428 TC428 1.5A DUAL HIGH-SPEED POWER MOSFET DRIVERS FEATURES GENERAL DESCRIPTION s High-Speed Switching (CL = 1000pF , Swing . VDD ­ 25mV GND +25mV s Low Input Current (Logic "0" or "1") .
TelCom Semiconductor
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TC428CP data sheet tl494 tl494 converter tl494 equivalent DRIVERS high-speed power MOSFET DRIVERS high-speed power MOSFET for dc to dc converter

TC426

Abstract: TC427CPA STAGE The input voltage level changes the no-load or quiescent supply current. The N-channel MOSFET , quiescent supply current is 8 mA. Logic "0" input level signals reduce quiescent current to 0.4mA maximum , TC426 TC427 TC428 1.5A Dual High-Speed Power Mosfet Drivers FEATURES GENERAL DESCRIPTION , (Logic "0" or "1") . 1µA s TTL/CMOS Input Compatible s Available in Inverting and , are dual CMOS high-speed drivers. A TTL/CMOS input voltage level is translated into a rail-to-rail
TelCom Semiconductor
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TC428CPA TC426IJA TC1426 TC426COA tc427cp D-82152

irf540n irf640

Abstract: IRF630 complementary RFP4N06 RFP3055 RFP40N10 RFP45N06 RFP50N05 RFP4N100 RFP50N06 RFP70N03 RFP70N06 N-CHANNEL LOGIC LEVEL N-CHANNEL LOGIC LEVEL MOSFETs S HP4410DY HP4936DY HPLR3103 HPLU3103 HUF76105DK8 , RFP15P06 RFP30P05 RFP30P06 RFP60P03 RFP8P05 RFP8P06E RFP8P10 P-CHANNEL LOGIC LEVEL P-CHANNEL LOGIC LEVEL MOSFETs RF1K49093 RFT2P03L RFD8P06LE RFD8P06LESM RFP8P06LE RFD10P03L RFD10P03LSM , MOSFET Selection Trees Power MOSFET Products N-CHANNEL MOSFETs N-CHANNEL STANDARD GATE MOSFETs
Intersil
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IRF510N IRFR110N IRFU120N irf540n irf640 IRF630 complementary IRF840 complementary irf630 irf640 IRF730 complementary irfp460 complementary BUZ11 BUZ71 BUZ71A BUZ72A HRF3205 HRF3205S

Intersil dc-dc buck converter

Abstract: Synchronous-Rectified Buck Converter replacing the rectifier with a MOSFET. The resultant voltage drop across the MOSFET is smaller than the , schematics with synchronous rectification. The upper MOSFET conducts to transfer energy from the input and the lower MOSFET conducts to circulate inductor current. The control block regulates the output , the lower MOSFET. Repartitioning the control and power functions as shown in Figure 1B improves the converter performance. Integrating the upper and lower MOSFETs, their drive and steering logic, provides
Intersil
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HIP5010 HIP5011 Intersil dc-dc buck converter Synchronous-Rectified Buck Converter TB332 ISO9000

pwm schematic buck converter

Abstract: Severns drive and steering logic, provides precise control of the MOSFET switching. This TechBrief describes , the addition of a Schottky rectifier across the lower MOSFET. Introduction Synchronous , with a MOSFET. The resultant voltage drop across the MOSFET is smaller than the forward voltage drop , synchronous rectification. The upper MOSFET conducts to transfer energy from the input and the lower MOSFET , signal and causes the MOSFETs to switch complementary to one another. Using this approach with a
Harris Semiconductor
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pwm schematic buck converter Severns schematic buck converter 10A dc-dc converter buck converter inductor switching mosfet 1-800-4-HARRIS

smw14n50f

Abstract: cd4000 logic devices , Figures 4a and 4b, a CD4000 series CMOS logic device was used to drive the power MOSFET gate , complementary n- and p-channel Si9942DY LITTLE FOOT device can be used to drive inductive loads such as motors , considerable expense. LITTLE FOOT devices such as the complementary n- and p-channel Si9942DY substantially , capacitive power MOSFET gates at the high frequencies used in modern designs. For example, by using an , MOSFET parameters that are important when driving inductive and capacitive loads and shows
Vishay Siliconix
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AN801 smw14n50f cd4000 logic devices Si9100 oscilloscope

smw14n50f

Abstract: FLYBACK CLAMPING DIODE examples, Figures 4a and 4b, a CD4000 series CMOS logic device was used to drive the power MOSFET gate. V , maintaining complete compatibility with existing surface-mount technology. The complementary n- and , . LITTLE FOOT devices such as the complementary n- and p-channel Si9942DY substantially increase the , power MOSFET gates at the high frequencies used in modern designs. For example, by using an Si9942DY to , range of CMOS switchmode ICs. This application note describes the basic MOSFET parameters that are
Temic Semiconductors
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FLYBACK CLAMPING DIODE cmos little logic CD4000 series BSC 27 flyback siliconix an801
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