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    TRANSISTOR 2N2222 AU Search Results

    TRANSISTOR 2N2222 AU Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TTC5886A Toshiba Electronic Devices & Storage Corporation NPN Bipolar Transistor / hFE=400~1000 / VCE(sat)=0.22V / tf=120ns Visit Toshiba Electronic Devices & Storage Corporation
    TTA2097 Toshiba Electronic Devices & Storage Corporation PNP Bipolar Transistor / hFE=200~500 / VCE(sat)=-0.27V / tf=60ns Visit Toshiba Electronic Devices & Storage Corporation
    XPQR8308QB Toshiba Electronic Devices & Storage Corporation N-ch MOSFET, 80 V, 350 A, 0.00083 Ω@10V, L-TOGL Visit Toshiba Electronic Devices & Storage Corporation
    XPQ1R00AQB Toshiba Electronic Devices & Storage Corporation N-ch MOSFET, 100 V, 300 A, 0.00103 Ω@10V, L-TOGL Visit Toshiba Electronic Devices & Storage Corporation
    TK190U65Z Toshiba Electronic Devices & Storage Corporation MOSFET, N-ch, 650 V, 15 A, 0.19 Ohm@10V, TOLL Visit Toshiba Electronic Devices & Storage Corporation

    TRANSISTOR 2N2222 AU Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    IRFBC30AF

    Abstract: HV9906 DC DC converter 400V lighting traffic light controller 2N2222 NPN Transistor features OFF-LINE SWITCH MODE TRANSFORMERS NPN transistor 2n2222 8uF 400V advantages of 1N4007 HV9906P
    Text: Product Summary Sheet HV9906 FlexSwitch Simple Off-Line/PFC & >9V DC/DC Switcher NPN Bipolar Transistor Array or Matched 2N2222 1N4007 D1 D2 12VDC to 400VDC or 65VAC to 280VAC D4 D3 C1 0.047uF 400V D6 MURS160 L2 15uH C3 0.033uF D7 MURS160 C4 Optional Q1 +


    Original     		PDF HV9906 2N2222 1N4007 MURS160 047uF 033uF 12VDC 400VDC 65VAC IRFBC30AF HV9906 DC DC converter 400V lighting traffic light controller 2N2222 NPN Transistor features OFF-LINE SWITCH MODE TRANSFORMERS NPN transistor 2n2222 8uF 400V advantages of 1N4007 HV9906P

    2n2222 national semiconductor

    Abstract: national 2n2222 2n2222 npn transistor 2N2222 NPN Transistor features 2N2222 transistor Remote Controlled Fan Regulator application 2n2222 2N2222 circuit Datasheet 2N2222 transistor temperature controlled fan regulator
    Text: 204014_App.Brief#114.qxd 5/15/02 9:22 AM Page 1 Application Brief Autonomous Fan Control For Processor Systems Using The LM85 Application Brief 114 Emmy Denton A system error can be determined by polling the LM85’s status registers. The LM85 includes high and low-limit


    Original     		PDF com/pf/LM/LM85 2n2222 national semiconductor national 2n2222 2n2222 npn transistor 2N2222 NPN Transistor features 2N2222 transistor Remote Controlled Fan Regulator application 2n2222 2N2222 circuit Datasheet 2N2222 transistor temperature controlled fan regulator

    2N2222 circuit

    Abstract: 2n2222 PIC12C671 2n2222 TRANSISTOR power transistor 2n2222 data sheet book TRANSISTOR 2N2222 Transistor 2N2222 OF transistor 2N2222 2N2222 transistor datasheet DATA SHEET OF transistor 2N2222
    Text: SIMPLE CIRCUIT Using a PIC12C671 To Create a High Voltage, Low Current, Programmable Switch Power Supply Author: field through the diode into the 220 µF capacitor. The voltage across the capacitor is then sampled back to the A/D. Based on the feedback, the duty cycle of the


    Original     		PDF PIC12C671 2N2222 2N2222. PIC12C671 2N2222 DS40160A/MP 092-page 2N2222 circuit 2n2222 TRANSISTOR power transistor 2n2222 data sheet book TRANSISTOR 2N2222 Transistor 2N2222 OF transistor 2N2222 2N2222 transistor datasheet DATA SHEET OF transistor 2N2222

    TRANSISTOR 2N2222

    Abstract: 2200uf capacitor NPN transistor 2n2222 AN180 IRFS23N15D MJD340 X80000 DC-DC Converters 0.25W 2N2222 circuit 2200uf 35v SM series
    Text: Using the X80070 in an Advanced TCA Application Application Note December 1, 2004 AN180.0.0 Author: Carlos Martinez Introduction This application note describes one possible implementation of an Advanced TCA PICMG 3.x power supply control. This particular implementation shows the power on control of one


    Original     		PDF X80070 AN180 TRANSISTOR 2N2222 2200uf capacitor NPN transistor 2n2222 IRFS23N15D MJD340 X80000 DC-DC Converters 0.25W 2N2222 circuit 2200uf 35v SM series

    transistor equivalents for 2n2222a

    Abstract: AAT3685 Transistor 2N2222 usb adp ic 2N2222 NPN Transistor features 2N2222 equivalent of 2n2222 2n2222 equivalent transistor AAT3585 2N2222 z parameters
    Text: AN-119 AAT3685 Application Note Automatic Detection of USB Port vs. Wall Adapter Power Introduction The AAT3685 is a versatile Lithium-ion/polymer Li-ion/poly battery charge control IC capable of charging singlecell Li-ion/poly batteries at constant current rates up to 1A. The AAT3685 also utilizes an automatic charge reduction technique, allowing the device to safely operate from USB port power sources for charging batteries. In addition, this unique charger IC has the capability to be programmed for two discrete constant current charge levels.


    Original     		PDF AN-119 AAT3685 AN-119 transistor equivalents for 2n2222a Transistor 2N2222 usb adp ic 2N2222 NPN Transistor features 2N2222 equivalent of 2n2222 2n2222 equivalent transistor AAT3585 2N2222 z parameters

    power supply IRF830 APPLICATION

    Abstract: 220 ac voltage regulator without transformer an9101 250VAC CAP FAN REGULATOR HV-2405E IRF830 equivalent Gould 2608 MOSFET IGBT THEORY AND APPLICATIONS SCHEMATIC POWER SUPPLY irf840 TRANSISTOR mosfet IRF840
    Text: Harris Semiconductor No. AN9217.2 Harris Intelligent Power April 1994 HIGH CURRENT OFF LINE POWER SUPPLY Author: Don LaFontaine Introduction Overview Design Engineers are constantly pushed to reduce the space and cost of the power supply in their systems. For


    Original     		PDF AN9217 HV-2405E AN9101 power supply IRF830 APPLICATION 220 ac voltage regulator without transformer 250VAC CAP FAN REGULATOR IRF830 equivalent Gould 2608 MOSFET IGBT THEORY AND APPLICATIONS SCHEMATIC POWER SUPPLY irf840 TRANSISTOR mosfet IRF840

    2N2222A motorola

    Abstract: 2n2222 motorola 2N2219A MOTOROLA motorola 2N2219 2N2219 MOTOROLA motorola 2n2222 motorola 2N2219A equivalent transistor 2N2222 motorola 2N2222A 2n2222
    Text: MOTOROLA Order this document by 2N2219/D SEMICONDUCTOR TECHNICAL DATA General Purpose Transistors COLLECTOR 3 2 BASE LAST SHIP 21/03/00 2N2219 2N2219A* 2N2222 2N2222A* NPN Silicon *Motorola Preferred Devices 1 EMITTER MAXIMUM RATINGS Symbol 2N2219 2N2222 2N2219A


    Original     		PDF 2N2219/D 2N2219 2N2219A* 2N2222 2N2222A* 2N2219A 2N2222A 2N2219 2N2222A motorola 2n2222 motorola 2N2219A MOTOROLA motorola 2N2219 2N2219 MOTOROLA motorola 2n2222 motorola 2N2219A equivalent transistor 2N2222 motorola 2N2222A 2n2222

    Q1 2N2222

    Abstract: transistor 2n2222 transistor 2n2222 datasheet 2N2222 chip ls1 loud speaker speaker 2N2222 circuit ISD4000 2n2222 Datasheet 2N2222 transistor
    Text: Application Information for ChipCorder Products APPLICATIONS BRIEF #21A — SINGLE TRANSISTOR 3V SPEAKER DRIVER FOR ISD4000 SERIES DEVICES Unlike other single chip devices from ISD, the ISD4000 series does not have a speaker driver onchip. This application brief shows a circuit diagram


    Original     		PDF ISD4000 2N2222 2N2222 ISD4000 Q1 2N2222 transistor 2n2222 transistor 2n2222 datasheet 2N2222 chip ls1 loud speaker speaker 2N2222 circuit Datasheet 2N2222 transistor

    MIL-S-19500

    Abstract: 2902n TRANSISTOR 2n697 2N3700 DIE MIL-S-19500 FOR POWER LINE TRANSISTOR 2N497 2N497 JAN 2n2222 jan 2N657 2N910 JAN
    Text: Winter 1997-1998 Microsemi's Watertown division received QPL Status on the following transistor part types in August 1997. PART TYPE 2N497 & S 2N498 & S 2N656 & S 2N657 & S 2N696 & S 2N697 & S 2N1131 & L 2N1132 & L 2N718A 2N1613 & L 2N720A 2N1893 & S 2N1711 & S


    Original     		PDF 2N497 2N498 2N656 2N657 2N696 2N697 2N1131 2N1132 2N718A 2N1613 MIL-S-19500 2902n TRANSISTOR 2n697 2N3700 DIE MIL-S-19500 FOR POWER LINE TRANSISTOR 2N497 2N497 JAN 2n2222 jan 2N657 2N910 JAN

    power supply IRF830 APPLICATION

    Abstract: MOSFET irf830 FOR 50HZ SWITCHING APPLICATIONS Flyback Switching Power Supply AN9217 HV-2405E High Current Off Line Power Supply AN9101 1N4007 50Hz bridge rectifier diode IRF830 equivalent HV-2405E irf840 rf 2N2222
    Text: No. AN9217.2 Application Note April 1994 HIGH CURRENT OFF LINE POWER SUPPLY Author: Don LaFontaine Introduction Overview Design Engineers are constantly pushed to reduce the space and cost of the power supply in their systems. For supplies between 2W and 6W that can operate over the


    Original     		PDF AN9217 HV-2405E power supply IRF830 APPLICATION MOSFET irf830 FOR 50HZ SWITCHING APPLICATIONS Flyback Switching Power Supply AN9217 HV-2405E High Current Off Line Power Supply AN9101 1N4007 50Hz bridge rectifier diode IRF830 equivalent irf840 rf 2N2222

    fan regulator using remote control

    Abstract: 2N2222 circuit 2n2222 npn transistor hysteresis PWM techniques LM85 2N2222 national 2n2222 national semiconductor 3LM85 AN-1260 2N2222 NPN Transistor features
    Text: National Semiconductor Application Note 1260 Emmy Denton September 2002 To lower cost, many embedded processor systems include a hardware monitor for rudimentary system diagnostics. This helps ensure that the right person is sent to fix the problem with proper replacement parts. The system diagnostics include detection of power supply over/under voltage, system


    Original     		PDF

    2n2222

    Abstract: 2N2222 NPN Transistor features transistor 2N2222 PHILIPS 2N2222A 0612 2N2222 circuit 2n2222 iv C2N2222A for transistor 2N2222 ST 2n2222 transistor 2N2222
    Text: DISCRETE SEMICONDUCTORS DATA SHEET M3D125 2N2222; 2N2222A NPN switching transistors Product specification Supersedes data of September 1994 File under Discrete Semiconductors, SC04 1997 May 29 Philips Semiconductors Product specification NPN switching transistors


    Original     		PDF M3D125 2N2222; 2N2222A 2N2907A. MAM264 SCA54 117047/00/02/pp8 2n2222 2N2222 NPN Transistor features transistor 2N2222 PHILIPS 2N2222A 0612 2N2222 circuit 2n2222 iv C2N2222A for transistor 2N2222 ST 2n2222 transistor 2N2222

    zero elevation and zero suppression level transmit

    Abstract: No abstract text available
    Text: XTR101 SBOS146A − OCTOBER 1986 − REVISED AUGUST 2004 Precision, Low Drift 4-20mA TWO-WIRE TRANSMITTER FEATURES D INSTRUMENTATION AMPLIFIER INPUT: − Low Offset Voltage, 30µV max − Low Voltage Drift, 0.75µV/°C max − Low Nonlinearity, 0.01% max D TRUE TWO-WIRE OPERATION:


    Original     		PDF XTR101 SBOS146A 4-20mA XTR101 4-20mA, zero elevation and zero suppression level transmit

    NPN transistor 2n2222 beta value

    Abstract: 2N2222 transistor output curve B550 TRANSISTOR static characteristic for 2n2222 transistor 2N2907 NPN Transistor transistor k 2021 beta transistor 2N2222 2n2222 h parameter values 2N2222 transistor curve 2n2222 iv
    Text: EL2021C EL2021C Monolithic Pin Driver Features General Description  Wide range of programmable analog output levels  0 5 Ampere output drive with external transistors  Programmable Slew Rate  Low overshoot with large capacitive loads-stable with 500 pF


    Original     		PDF EL2021C EL2021 NPN transistor 2n2222 beta value 2N2222 transistor output curve B550 TRANSISTOR static characteristic for 2n2222 transistor 2N2907 NPN Transistor transistor k 2021 beta transistor 2N2222 2n2222 h parameter values 2N2222 transistor curve 2n2222 iv

    fan regulator using remote control

    Abstract: 2n2222 npn transistor national 2n2222 temperature controlled fan regulator 2n2222 national semiconductor 2N2222 die 2N2222 2N2222 circuit LM85 2N2222 national
    Text: National Semiconductor Application Note 1260 Emmy Denton March 2004 To lower cost, many embedded processor systems include a hardware monitor for rudimentary system diagnostics. This helps ensure that the right person is sent to fix the problem with proper replacement parts. The system diagnostics include detection of power supply over/under voltage, system


    Original     		PDF

    XTR101

    Abstract: No abstract text available
    Text: XTR101 SBOS146A − OCTOBER 1986 − REVISED AUGUST 2004 Precision, Low Drift 4-20mA TWO-WIRE TRANSMITTER FEATURES D INSTRUMENTATION AMPLIFIER INPUT: − Low Offset Voltage, 30µV max − Low Voltage Drift, 0.75µV/°C max − Low Nonlinearity, 0.01% max D TRUE TWO-WIRE OPERATION:


    Original     		PDF XTR101 SBOS146A 4-20mA XTR101 4-20mA,

    Untitled

    Abstract: No abstract text available
    Text: XTR101 SBOS146A − OCTOBER 1986 − REVISED AUGUST 2004 Precision, Low Drift 4-20mA TWO-WIRE TRANSMITTER FEATURES D INSTRUMENTATION AMPLIFIER INPUT: − Low Offset Voltage, 30µV max − Low Voltage Drift, 0.75µV/°C max − Low Nonlinearity, 0.01% max D TRUE TWO-WIRE OPERATION:


    Original     		PDF XTR101 SBOS146A 4-20mA XTR101 4-20mA,

    TTC 103 thermistor

    Abstract: thermistor ttc 103 zero elevation and zero suppression TTC 103 resistance to Current Converter 0-20mA load sell transducer 4-20ma Amplifier type t thermocouple lm129-6.9v thermistor 10k 25c XTR101BG
    Text: XTR101 SBOS146A − OCTOBER 1986 − REVISED AUGUST 2004 Precision, Low Drift 4-20mA TWO-WIRE TRANSMITTER FEATURES D INSTRUMENTATION AMPLIFIER INPUT: − Low Offset Voltage, 30µV max − Low Voltage Drift, 0.75µV/°C max − Low Nonlinearity, 0.01% max D TRUE TWO-WIRE OPERATION:


    Original     		PDF XTR101 SBOS146A 4-20mA DIP-14 XTR101 4-20mA, TTC 103 thermistor thermistor ttc 103 zero elevation and zero suppression TTC 103 resistance to Current Converter 0-20mA load sell transducer 4-20ma Amplifier type t thermocouple lm129-6.9v thermistor 10k 25c XTR101BG

    Untitled

    Abstract: No abstract text available
    Text: XTR101 SBOS146A − OCTOBER 1986 − REVISED AUGUST 2004 Precision, Low Drift 4-20mA TWO-WIRE TRANSMITTER FEATURES D INSTRUMENTATION AMPLIFIER INPUT: − Low Offset Voltage, 30µV max − Low Voltage Drift, 0.75µV/°C max − Low Nonlinearity, 0.01% max D TRUE TWO-WIRE OPERATION:


    Original     		PDF XTR101 SBOS146A 4-20mA XTR101 4-20mA,

    Untitled

    Abstract: No abstract text available
    Text: XTR101 SBOS146A − OCTOBER 1986 − REVISED AUGUST 2004 Precision, Low Drift 4-20mA TWO-WIRE TRANSMITTER FEATURES D INSTRUMENTATION AMPLIFIER INPUT: − Low Offset Voltage, 30µV max − Low Voltage Drift, 0.75µV/°C max − Low Nonlinearity, 0.01% max D TRUE TWO-WIRE OPERATION:


    Original     		PDF XTR101 SBOS146A 4-20mA XTR101 4-20mA,

    TTC 103 thermistor

    Abstract: zero elevation and zero suppression 2N2222 npn small signal current gain TTC 103 thermistor ttc 103 4-20mA transmitter for a bridge type transducer pin configuration transistor 2N2222 bridge transducer 4-20ma transmitter load sell transducer 4-20ma 2N2222 NPN Transistor features
    Text: XTR101 SBOS146A − OCTOBER 1986 − REVISED AUGUST 2004 Precision, Low Drift 4-20mA TWO-WIRE TRANSMITTER FEATURES D INSTRUMENTATION AMPLIFIER INPUT: − Low Offset Voltage, 30µV max − Low Voltage Drift, 0.75µV/°C max − Low Nonlinearity, 0.01% max D TRUE TWO-WIRE OPERATION:


    Original     		PDF XTR101 SBOS146A 4-20mA DIP-14 XTR101 4-20mA, TTC 103 thermistor zero elevation and zero suppression 2N2222 npn small signal current gain TTC 103 thermistor ttc 103 4-20mA transmitter for a bridge type transducer pin configuration transistor 2N2222 bridge transducer 4-20ma transmitter load sell transducer 4-20ma 2N2222 NPN Transistor features

    Untitled

    Abstract: No abstract text available
    Text: XTR101 SBOS146A − OCTOBER 1986 − REVISED AUGUST 2004 Precision, Low Drift 4-20mA TWO-WIRE TRANSMITTER FEATURES D INSTRUMENTATION AMPLIFIER INPUT: − Low Offset Voltage, 30µV max − Low Voltage Drift, 0.75µV/°C max − Low Nonlinearity, 0.01% max D TRUE TWO-WIRE OPERATION:


    Original     		PDF XTR101 SBOS146A 4-20mA XTR101 4-20mA,

    type j thermocouple

    Abstract: design the 4-20mA transmitter for a thermistor using XTR
    Text: XTR101 SBOS146A − OCTOBER 1986 − REVISED AUGUST 2004 Precision, Low Drift 4-20mA TWO-WIRE TRANSMITTER FEATURES D INSTRUMENTATION AMPLIFIER INPUT: − Low Offset Voltage, 30µV max − Low Voltage Drift, 0.75µV/°C max − Low Nonlinearity, 0.01% max D TRUE TWO-WIRE OPERATION:


    Original     		PDF XTR101 SBOS146A 4-20mA XTR101 4-20mA, type j thermocouple design the 4-20mA transmitter for a thermistor using XTR

    Untitled

    Abstract: No abstract text available
    Text: XTR101 SBOS146A − OCTOBER 1986 − REVISED AUGUST 2004 Precision, Low Drift 4-20mA TWO-WIRE TRANSMITTER FEATURES D INSTRUMENTATION AMPLIFIER INPUT: − Low Offset Voltage, 30µV max − Low Voltage Drift, 0.75µV/°C max − Low Nonlinearity, 0.01% max D TRUE TWO-WIRE OPERATION:


    Original     		PDF XTR101 SBOS146A 4-20mA XTR101 4-20mA,