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    EQUIVALENT CIRCUIT USING FET NATIONAL SEMICONDUCTOR Search Results

    EQUIVALENT CIRCUIT USING FET NATIONAL SEMICONDUCTOR Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TMP89FS60AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP64-P-1010-0.50E Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS63AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP52-P-1010-0.65 Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS60BFG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/P-LQFP64-1414-0.80-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS63BUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/P-LQFP52-1010-0.65-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS62AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP44-P-1010-0.80A Visit Toshiba Electronic Devices & Storage Corporation

    EQUIVALENT CIRCUIT USING FET NATIONAL SEMICONDUCTOR Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    P8208

    Abstract: MMSD4148 LM5020 MMSD4148 VISHAY C4532X7R1E106M ILHP-5050FD-222
    Text: National Semiconductor LM5020 June 2006 1.0 Design Specifications Inputs Outputs #1 VinMin=6 Vout1=20 VinMax=20 Iout1=5 2.0 Design Description The LM5020 is employed here to design a Boost power supply where the input voltage rail is stepped up to create the


    Original     		PDF LM5020 LM5020 CSP-9-111S2) CSP-9-111S2. P8208 MMSD4148 MMSD4148 VISHAY C4532X7R1E106M ILHP-5050FD-222

    LH0002

    Abstract: LH0002 equivalent digital clock using lm741 LH0063 LM741 audio amplifiers LH0032 LH0033 AN227 AN-227 AN-227 national
    Text: National Semiconductor Application Note 227 October 1, 1979 INTRODUCTION The LH0002, LH0033 and LH0063 are wide-band, high current, unity gain buffer amplifiers. They are intended for use alone or in closed-loop combination with op amps to drive coaxial cables and capacitive or other high-current loads. Features and characteristics of these buffers are summarized in


    Original     		PDF LH0002, LH0033 LH0063 AN-227 LH0002 LH0002 equivalent digital clock using lm741 LM741 audio amplifiers LH0032 AN227 AN-227 AN-227 national

    LM5020

    Abstract: NSC03 Vitramon 35MV330WX MBRS360 VJ0805Y474KXXAT DO5022P-223 SI4894DY CRCW08054990FRT6
    Text: National Semiconductor LM5020 June 2006 1.0 Design Specifications Inputs Outputs #1 VinMin=12 Vout1=26 VinMax=12 Iout1=1.5 2.0 Design Description The LM5020 is employed here to design a Boost power supply where the input voltage rail is stepped up to create the


    Original     		PDF LM5020 LM5020 CSP-9-111S2) CSP-9-111S2. NSC03 Vitramon 35MV330WX MBRS360 VJ0805Y474KXXAT DO5022P-223 SI4894DY CRCW08054990FRT6

    Led driver 100W schematic

    Abstract: Schematic LED panel display tv low voltage ac led dimmer schematic triac spice model Application TRIAC Light Dimmer with Schematic spice dimmer SCHEMATIC simple dimmer ac dimmer low voltage ac dimmer schematic automatic light dimmer based on temperature
    Text: LED Selection and Driver Design Jeff Perry Senior Manager – WEBENCH Tools National Semiconductor 10/2009 National Semiconductor Corporate Confidential 2009 Overview • Important parameters for selecting LEDs • LED driver selection • Driver design and tradeoffs


    Original     		PDF LM3445 Led driver 100W schematic Schematic LED panel display tv low voltage ac led dimmer schematic triac spice model Application TRIAC Light Dimmer with Schematic spice dimmer SCHEMATIC simple dimmer ac dimmer low voltage ac dimmer schematic automatic light dimmer based on temperature

    LM103 zener

    Abstract: jfet cascode 2N3069 J FET RF Cascode Input 2N3070 FM3954 pierce crystal oscillator 2n4416 jfet HI-FI tone control transistors FM1208
    Text: FET Circuit Applications FET Circuit Applications National Semiconductor Application Note 32 February 1970 Polycarbonate dielectric TL H 6791 – 1 Sample and Hold With Offset Adjustment The 2N4339 JFET was selected because of its low lGSS k100 pA very-low lD(OFF) (k50 pA) and low pinchoff volt-


    Original     		PDF 2N4339 2N4393 2N4393 LM103 zener jfet cascode 2N3069 J FET RF Cascode Input 2N3070 FM3954 pierce crystal oscillator 2n4416 jfet HI-FI tone control transistors FM1208

    LM361 application note

    Abstract: DM74C221 function generator using LM311 LF400 sample and hold application note LF13331 precision Sine Wave Generator AN-294 one shot pulse generator ADC0801
    Text: National Semiconductor Application Note 294 April 1982 Although standard devices e g the LF398 fill most sample and hold requirements situations often arise which call for special capabilities Extended hold times rapid acquisition and reduced hold step are areas which require special circuit techniques to achieve good results The most common


    Original     		PDF LF398) DM74C221 LM361 application note function generator using LM311 LF400 sample and hold application note LF13331 precision Sine Wave Generator AN-294 one shot pulse generator ADC0801

    LH0002 equivalent

    Abstract: LH0002 LH0033 equivalent lh002 6002b IC LM741 6A diode Transistor TL 31 AC datasheet a 6002b op amp transistor current booster circuit LH0033
    Text: National Semiconductor Application Note 227 October 1979 INTRODUCTION The LH0002 LH0033 and LH0063 are wide-band high current unity gain buffer amplifiers They are intended for use alone or in closed-loop combination with op amps to drive co-axial cables and capacitive or other high-current loads


    Original     		PDF LH0002 LH0033 LH0063 LH0002 equivalent LH0033 equivalent lh002 6002b IC LM741 6A diode Transistor TL 31 AC datasheet a 6002b op amp transistor current booster circuit

    LM709 equivalent

    Abstract: square root extractor LM7104 square root extractor using log antilog LM101 LM102 LM709 LM101 disadvantages square root extractor application LM709 Widlar LM101
    Text: The Monolithic Op Amp Monolithic Op Amp Universal Linear Component National Semiconductor Application Note 4 April 1968 Robert J Widlar Apartado Postal 541 Puerto Vallarta Jalisco Mexico C1995 National Semiconductor Corporation TL H 7357 TL H 7357 – 1 Figure 1 Free-running multivibrator


    Original     		PDF C1995 LM101 LM709 equivalent square root extractor LM7104 square root extractor using log antilog LM101 LM102 LM709 LM101 disadvantages square root extractor application LM709 Widlar

    square root extractor

    Abstract: LM101 LM102 LM709 LM709 equivalent Widlar LM101 disadvantages square root extractor using log antilog LM709 AN007357 square root extractor application LM7104
    Text: National Semiconductor Application Note 4 Robert J. Widlar April 1968 Introduction Operational amplifiers are undoubtedly the easiest and best way of performing a wide range of linear functions from simple amplification to complex analog computation. The cost of monolithic amplifiers is now less than $2.00, in large


    Original     		PDF

    HP85024A

    Abstract: HP3325B HP-85024A 9354l AN-1174 SR620 FET probe PLL 02A
    Text: National Semiconductor Application Note 1174 Kern Wong July 2000 Introduction The startup time of a system clock is an important parameter in communication systems and PLL circuits. Whether it is a cell phone, disk drive, or palm communicator, they all shutdown periodically to save power. It is imperative that the


    Original     		PDF

    regulator 17-33

    Abstract: AM503 ESR Tester 3014 LED TDS3014 AN1733 regulator+17-33 AN-1733
    Text: National Semiconductor Application Note 1733 Chester Simpson November 7, 2007 Introduction “steps” quickly enough, the output voltage will change. It is how much the output voltage changes when subjected to a change in load current that defines load transient performance.


    Original     		PDF AN-1733 regulator 17-33 AM503 ESR Tester 3014 LED TDS3014 AN1733 regulator+17-33 AN-1733

    LM709 equivalent

    Abstract: Widlar pins 2N2920 alcohol sensor abstract national semiconductor application note 29 IC OP AMP for Piezoelectric transducers 2N2920 logarithmic applications LM102A op amp transistor current booster circuit LM709
    Text: National Semiconductor Application Note 29 Robert J. Widlar September 2002 Note: National Semiconductor recommends replacing 2N2920 and 2N3728 matched pairs with LM394 in all application circuits. mance is often limited by leakages in capacitors, diodes, analog switches or printed circuit boards, rather than by the


    Original     		PDF 2N2920 2N3728 LM394 LM709 equivalent Widlar pins 2N2920 alcohol sensor abstract national semiconductor application note 29 IC OP AMP for Piezoelectric transducers 2N2920 logarithmic applications LM102A op amp transistor current booster circuit LM709

    MPSA43 equivalent

    Abstract: LB-41 LM103 LM134 MPSA43 LM103 zener LB41
    Text: National Semiconductor Linear Brief 41 June 1978 Increasing interest in battery-operated analog and digital circuitry in recent years has created the need for a micro-power voltage reference. In particular, the reference should draw 10 µA or less and operate from a single 5V supply. These requirements eliminate zener diodes which tend to have unpredictable temperature drift and are noisy at low currents


    Original     		PDF LM103 com959 MPSA43 equivalent LB-41 LM134 MPSA43 LM103 zener LB41

    LB-41

    Abstract: LM103 LM134 MPSA43 LM103 national
    Text: National Semiconductor Linear Brief 41 June 1978 Increasing interest in battery-operated analog and digital circuitry in recent years has created the need for a micro-power voltage reference. In particular, the reference should draw 10 µA or less and operate from a single 5V


    Original     		PDF LM103 LB-41 LM103 LM134 MPSA43 LM103 national

    C2316

    Abstract: VJ1206A102 LM2698 C3216X5R0J106M C3216X7R1E105K LM3411 LP2951 LP2986 OPTOCOUPLER CNY VJ1206A101KXAA
    Text: National Semiconductor LM2698 July 2006 1.0 Design Specifications Inputs Outputs #1 Outputs #2 VinMin=36 Vout1=3.3 Vout2=1.8 VinMax=57 Iout1=2 Iout2=1 2.0 Design Description The LM2698 is used to design a fully isolated forward converter power supply. The output inductor, L1, is augmented


    Original     		PDF LM2698 LM2698 LP2986 CSP-9-111S2) CSP-9-111S2. C2316 VJ1206A102 C3216X5R0J106M C3216X7R1E105K LM3411 LP2951 OPTOCOUPLER CNY VJ1206A101KXAA

    400X

    Abstract: C1995 LB-41 LM103 LM134 MPSA43 LM103 zener
    Text: National Semiconductor Linear Brief 41 June 1978 Increasing interest in battery-operated analog and digital circuitry in recent years has created the need for a micro-power voltage reference In particular the reference should draw 10 mA or less and operate from a single 5V supply


    Original     		PDF LM103 400X C1995 LB-41 LM134 MPSA43 LM103 zener

    IC 7479

    Abstract: LM11 LM11 op amp LM11 national Widlar IC OP AMP for Piezoelectric transducers 7479 at q209 "logarithmic amplifier" LH0032
    Text: National Semiconductor Application Note 242 April 1980 Robert J Widlar Apartado Postal 541 Puerto Vallarta Jalisco Mexico Bob Pease and Mineo Yamatake National Semiconductor Corporation Santa Clara California USA Abstract A new bipolar op amp design has advanced the


    Original     		PDF

    LM11

    Abstract: LM11 op amp LM11 national LM385 1.25V zener Lem Flex current transducer LM11 data picoammeter circuit lm10 de at q209 LM334 equivalent transistor
    Text: National Semiconductor Application Note 242 Robert J. Widlar Bob Pease Mineo Yamatake April 1980 Abstract: A new bipolar op amp design has advanced the state of the art by reducing offset voltage and bias current errors. Its characteristics are described here, indicating an


    Original     		PDF AN-242 LM11 LM11 op amp LM11 national LM385 1.25V zener Lem Flex current transducer LM11 data picoammeter circuit lm10 de at q209 LM334 equivalent transistor

    transistor 3205 equivalent

    Abstract: data sw 3205 microwave Duplexer pdc 140m FET 3205 LM3200 LM3202 LM3203 LM3204 LM3205
    Text: Powering RF Power Amplifiers with Magnetic Buck Converters Mathew Jacob Hello and welcome to today’s National Semiconductor Online Seminar. I’m Michelle Miller and I will be your host. Before we begin, I’d like to go over the operation of your seminar


    Original     		PDF

    Untitled

    Abstract: No abstract text available
    Text: LM3000 Dual Synchronous Emulated Current-Mode Controller General Description Features The LM3000 is a dual output synchronous buck controller which is designed to convert input voltages ranging from 3.3V to 18.5V down to output voltages as low as 0.6V. The two


    Original     		PDF LM3000

    JESD51-5

    Abstract: LM3000 LM3000ASQ LM3000ASQX LM3000SQ LM3000SQX
    Text: LM3000 Dual Synchronous Emulated Current-Mode Controller General Description Features The LM3000 is a dual output synchronous buck controller which is designed to convert input voltages ranging from 3.3V to 18.5V down to output voltages as low as 0.6V. The two


    Original     		PDF LM3000 LM3000 JESD51-5 LM3000ASQ LM3000ASQX LM3000SQ LM3000SQX

    log and antilog amplifier

    Abstract: national linear brief 4 Vishay Ultronix Grand Junction CO Q81 sensistor Widlar anti-log 10E2 570X AN-30 C1995
    Text: National Semiconductor Application Note 30 November 1969 One of the most predictable non-linear elements commonly available is the bipolar transistor The relationship between collector current and emitter base voltage is precisely logarithmic from currents below one picoamp to currents above


    Original     		PDF LM108 log and antilog amplifier national linear brief 4 Vishay Ultronix Grand Junction CO Q81 sensistor Widlar anti-log 10E2 570X AN-30 C1995

    anti-log

    Abstract: sensistor 2N2920 logarithmic applications sensistor Q81 2N3728 log and antilog amplifier Widlar 2N2920 Vishay Ultronix Grand Junction CO Q81 Vishay Q81
    Text: Note: National Semiconductor recommends replacing 2N2920 and 2N3728 matched pairs with LM394 in all application circuits. One of the most predictable non-linear elements commonly available is the bipolar transistor. The relationship between collector current and emitter base voltage is precisely logarithmic from currents below one picoamp to currents above


    Original     		PDF 2N2920 2N3728 LM394 LM108 AN-30 anti-log sensistor 2N2920 logarithmic applications sensistor Q81 log and antilog amplifier Widlar Vishay Ultronix Grand Junction CO Q81 Vishay Q81

    vj0805y103kxac

    Abstract: LM5020 50CV150AX B240 CRCW08051503FRT6 DO3316P-683 SI3458DV
    Text: National Semiconductor LM5020 July 2006 1.0 Design Specifications Inputs Outputs #1 VinMin=20 Vout1=3 VinMax=28 Iout1=0.9 2.0 Design Description This design document describes a circuit for driving very bright high current LEDs, such as Luxeon LEDs, using a peak


    Original     		PDF LM5020 LM5020, CSP-9-111S2) CSP-9-111S2. vj0805y103kxac LM5020 50CV150AX B240 CRCW08051503FRT6 DO3316P-683 SI3458DV