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    VOLTAGE DOUBLER INTRODUCTION Search Results

    VOLTAGE DOUBLER INTRODUCTION Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    DF2B5M4ASL Toshiba Electronic Devices & Storage Corporation TVS Diode (ESD Protection Diode), Bidirectional, +/-3.6 V, SOD-962 (SL2) Visit Toshiba Electronic Devices & Storage Corporation
    DF2B6M4ASL Toshiba Electronic Devices & Storage Corporation TVS Diode (ESD Protection Diode), Bidirectional, +/-5.5 V, SOD-962 (SL2) Visit Toshiba Electronic Devices & Storage Corporation
    DF2B5PCT Toshiba Electronic Devices & Storage Corporation TVS Diode (ESD Protection Diode), Bidirectional, +/-3.6 V, SOD-882 (CST2) Visit Toshiba Electronic Devices & Storage Corporation
    DF2B7PCT Toshiba Electronic Devices & Storage Corporation TVS Diode (ESD Protection Diode), Bidirectional, +/-5.5 V, SOD-882 (CST2) Visit Toshiba Electronic Devices & Storage Corporation
    TPD4207F Toshiba Electronic Devices & Storage Corporation Intelligent power device 600V (High voltage PWM DC brushless motor driver) Visit Toshiba Electronic Devices & Storage Corporation

    VOLTAGE DOUBLER INTRODUCTION Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    Voltage Doubler application

    Abstract: voltage doubler Schottky Doubler application of voltage doubler Microwave detector diodes detector diode chip diode agilent 5964-4236E
    Text: Schottky Diode Voltage Doubler Application Note 956-4 Circuit Description Figure 1 shows a simple voltage doubler circuit that was assembled in Agilent Package 60 and tested at 2 GHz. In this version of the doubler, opposite polarity chips are needed. The


    Original     		PDF 5964-4236E Voltage Doubler application voltage doubler Schottky Doubler application of voltage doubler Microwave detector diodes detector diode chip diode agilent 5964-4236E

    Voltage Doubler application

    Abstract: application of voltage doubler Schottky Doubler Voltage Doubler introduction rf power detector voltage doubler 5964-4236E stub tuner matching 5082-0023
    Text: Schottky Diode Voltage Doubler Application Note 956-4 Circuit Description Figure 1 shows a simple voltage doubler circuit that was assembled in HP Package 60 and tested at 2 GHz. In this version of the doubler, opposite polarity chips are needed. The shunt chip


    Original     		PDF 5964-4236E Voltage Doubler application application of voltage doubler Schottky Doubler Voltage Doubler introduction rf power detector voltage doubler 5964-4236E stub tuner matching 5082-0023

    Voltage Doubler application

    Abstract: application of voltage doubler Schottky Doubler Microwave detector diodes microwave detector diode 5082-0009 stub tuner matching
    Text: hH Schottky Diode Voltage Doubler Application Note 956-4 Circuit Description Figure 1 shows a simple voltage doubler circuit that was assembled in HP Package 60 and tested at 2 GHz. In this version of the doubler, opposite polarity chips are needed. The shunt chip


    Original     		PDF 5964-4236E Voltage Doubler application application of voltage doubler Schottky Doubler Microwave detector diodes microwave detector diode 5082-0009 stub tuner matching

    Voltage Doubler

    Abstract: application of voltage doubler LMX2350 Voltage Doubler application Frequency Doubler use diode AN-1119 power factor load pump National Semiconductor AN
    Text: INTRODUCTION Today’s wireless applications demand lower operating voltages. A voltage doubler provides a means of obtaining a wider VCO tuning range at lower voltages. This paper discusses the considerations that need to be made when using a voltage doubler. Specific test results are shown for a


    Original     		PDF LMX2350 Voltage Doubler application of voltage doubler Voltage Doubler application Frequency Doubler use diode AN-1119 power factor load pump National Semiconductor AN

    application of voltage doubler

    Abstract: Voltage Doubler LMX2350 AN-1119 rf power detector voltage doubler
    Text: INTRODUCTION Today’s wireless applications demand lower operating voltages. A voltage doubler provides a means of obtaining a wider VCO tuning range at lower voltages. This paper discusses the considerations that need to be made when using a voltage doubler. Specific test results are shown for a


    Original     		PDF LMX2350 application of voltage doubler Voltage Doubler AN-1119 rf power detector voltage doubler

    TC1219

    Abstract: TCM828
    Text: AN63 Design Alternatives to the TC682 for Performing Inverting Voltage Doubler Functions Author: DUAL TCM828 IMPLEMENTATION Patrick Maresca, Microchip Technology, Inc. INTRODUCTION Creating a negative DC bias voltage from a positive DC supply often is required in battery-powered portable handheld instruments


    Original     		PDF TC682 TCM828 TCM828. TCM828, TCM828s DS00804A TC1219

    TC1219

    Abstract: TCM828
    Text: AN804 Design Alternatives to the TC682 for Performing Inverting Voltage Doubler Functions Author: DUAL TCM828 IMPLEMENTATION Patrick Maresca, Microchip Technology, Inc. INTRODUCTION Creating a negative DC bias voltage from a positive DC supply often is required in battery-powered portable handheld instruments


    Original     		PDF AN804 TC682 TCM828 TCM828. TCM828, TCM828s tha00 DS00804A* TC1219

    36V Li-Ion battery

    Abstract: TCM829 TC1219 TCM828 PIC 1684 TC1220 TC2682 TC682 AN804 TC1142
    Text: AN804 Design Alternatives to the TC682 for Performing Inverting Voltage Doubler Functions Author: DUAL TCM828 IMPLEMENTATION Patrick Maresca, Microchip Technology, Inc. INTRODUCTION Creating a negative DC bias voltage from a positive DC supply often is required in battery-powered portable handheld instruments


    Original     		PDF AN804 TC682 TCM828 D-81739 DS00804A* DS00804A-page 36V Li-Ion battery TCM829 TC1219 PIC 1684 TC1220 TC2682 AN804 TC1142

    TCM828

    Abstract: TCM829 TC1219 AN804 TC1142 TC1220 TC682 DS21360 microchip inverter application notes
    Text: M AN804 Design Alternatives To The TC682 For Performing Inverting Voltage Doubler Functions Author: TRADITIONAL TC682 IMPLEMENTATION Pat Maresca Microchip Technology Inc. Figure 1 shows a circuit implementation using Microchip Technology's TC682 to generate the -10V


    Original     		PDF AN804 TC682 TC682 TC682. DK-2750 D-85737 NL-5152 TCM828 TCM829 TC1219 AN804 TC1142 TC1220 DS21360 microchip inverter application notes

    AN489 Analysis and Basic Operation of the MC1495

    Abstract: analog multiplier MC1496 MC1494 MC1495 equivalent balanced modulator MC1496 mc1495
    Text: MC1494 Linear Four-Quadrant Multiplier The MC1494 is designed for use where the output voltage is a linear product of two input voltages. Typical applications include: multiply, divide, square root, mean square, phase detector, frequency doubler, balanced


    Original     		PDF MC1494 AN489 Analysis and Basic Operation of the MC1495 analog multiplier MC1496 MC1495 equivalent balanced modulator MC1496 mc1495

    balanced modulator MC1496 operation theory

    Abstract: balanced modulator MC1496 theory balanced modulator MC1496 MC1456 AN489 AN489 Analysis and Basic Operation of the MC1495 AN489 MC1495 MC1494 Product detector MC1496 MC1494P
    Text: ON Semiconductort MC1494 Linear Four-Quadrant Multiplier The MC1494 is designed for use where the output voltage is a linear product of two input voltages. Typical applications include: multiply, divide, square root, mean square, phase detector, frequency doubler,


    Original     		PDF MC1494 MC1494 r14525 MC1494/D balanced modulator MC1496 operation theory balanced modulator MC1496 theory balanced modulator MC1496 MC1456 AN489 AN489 Analysis and Basic Operation of the MC1495 AN489 MC1495 Product detector MC1496 MC1494P

    MC14564

    Abstract: MC1456 AN489 Analysis and Basic Operation of the MC1495
    Text: ON Semiconductort MC1494 Linear Four−Quadrant Multiplier The MC1494 is designed for use where the output voltage is a linear product of two input voltages. Typical applications include: multiply, divide, square root, mean square, phase detector, frequency doubler,


    Original     		PDF MC1494 r14525 MC1494/D MC14564 MC1456 AN489 Analysis and Basic Operation of the MC1495

    analog multiplier MC1496

    Abstract: AN489 Analysis and Basic Operation of the MC1495 MC1456 AN489 application note AN489 balanced modulator MC1496 operation theory balanced modulator MC1496 theory AN-489 MC1495 MC1494
    Text: Order this document by MC1494/D MC1494 Linear Four-Quadrant Multiplier The MC1494 is designed for use where the output voltage is a linear product of two input voltages. Typical applications include: multiply, divide, square root, mean square, phase detector, frequency doubler, balanced


    Original     		PDF MC1494/D MC1494 MC1494 MC1494/D* analog multiplier MC1496 AN489 Analysis and Basic Operation of the MC1495 MC1456 AN489 application note AN489 balanced modulator MC1496 operation theory balanced modulator MC1496 theory AN-489 MC1495

    fusistor ptc

    Abstract: ELECTRONIC BALLAST DIAGRAM for PL-C 26W cfl ballast schematic diagram Electronic Ballast 236 1N4007 1206 UBA2024B Self-Oscillating Half-Bridge Driver E20 core G24q-3 ELECTRONIC BALLAST circuit DIAGRAMs
    Text: AN10966 UBA2024B CFL ballast up to 120 V AC without voltage doubler Rev. 1 — 13 December 2010 Application note Document information Info Content Keywords UBA2024B, CFL, integrated half-bridge driver with integrated switches, lighting Abstract Application note for NXP Semiconductors UBA2024B CFL driver running


    Original     		PDF AN10966 UBA2024B UBA2024B, fusistor ptc ELECTRONIC BALLAST DIAGRAM for PL-C 26W cfl ballast schematic diagram Electronic Ballast 236 1N4007 1206 Self-Oscillating Half-Bridge Driver E20 core G24q-3 ELECTRONIC BALLAST circuit DIAGRAMs

    automatic change over switch circuit diagram

    Abstract: 3 phase automatic change over switch circuit diagram schematic diagram smps 500w smps 500w half bridge 240v automatic change over switch circuit diagram schematic diagram Power supply 500w 220V Automatic Voltage Regulator schematic manual change over switch circuit diagram smps circuit diagram of 300W computer smps circuit diagram
    Text: APPLICATION NOTE  AN AUTOMATIC LINE VOLTAGE SWITCHING CIRCUIT VAJAPEYAM SUKUMAR THIERRY CASTAGNET ABSTRACT The voltages found in line sockets around the world vary widely. Power supply designers have, most often, overcome this problem by the use of a doubler/bridge switch that can double the


    Original     		PDF

    automatic change over switch circuit diagram

    Abstract: 3 phase automatic change over switch circuit diagram 500w power amplifier circuit diagram schematic diagram smps 500w circuit diagram of smps 500w schematic diagram Power supply 500w 220V Automatic Voltage Regulator schematic 240v automatic change over switch circuit diagram smps circuit diagram of 300W 220v 300w ac regulator circuit
    Text: AN389 APPLICATION NOTE AN AUTOMATIC LINE VOLTAGE SWITCHING CIRCUIT ABSTRACT The voltages found in line sockets around the world vary widely. Power supply designers have, most often, overcome this problem by the use of a doubler/bridge switch that can double the 120V nominal line and


    Original     		PDF AN389 automatic change over switch circuit diagram 3 phase automatic change over switch circuit diagram 500w power amplifier circuit diagram schematic diagram smps 500w circuit diagram of smps 500w schematic diagram Power supply 500w 220V Automatic Voltage Regulator schematic 240v automatic change over switch circuit diagram smps circuit diagram of 300W 220v 300w ac regulator circuit

    SOT115J

    Abstract: No abstract text available
    Text: ACA2786 1 GHz, 25 dB Gain CATV Power Doubler Amplifier PRELIMINARY DATA SHEET - Rev 1.0 FEATURES • 25 dB Gain • 40 MHz to 1 GHz Operating Range • 0.5 dB Gain Flatness • 24 V Supply • Supply Current: 430 mA Typ. • Very Low Distortion & Noise • Robust Design and Insensitive to Voltage


    Original     		PDF ACA2786 OT-115J ACA2786 SOT115J

    SOT-115J

    Abstract: ACA2788 SOT115J
    Text: ACA2788 1 GHz, 28 dB Gain CATV Power Doubler Amplifier PRELIMINARY DATA SHEET - Rev 1.0 FEATURES • 28 dB Gain • 40 MHz to 1 GHz Operating Range • 0.5 dB Gain Flatness • 24 V Supply • Supply Current: 430 mA Typ. • Very Low Distortion & Noise • Robust Design and Insensitive to Voltage


    Original     		PDF ACA2788 OT-115J ACA2788 SOT-115J SOT115J

    ADP3607-5

    Abstract: walt Kester Voltage Converters ADM660 ADM8660 ADP3603 ADP3604 ADP3605
    Text: SWITCHED CAPACITOR VOLTAGE CONVERTERS SECTION 4 SWITCHED CAPACITOR VOLTAGE CONVERTERS Walt Kester, Brian Erisman, Gurjit Thandi INTRODUCTION In the previous section, we saw how inductors can be used to transfer energy and perform voltage conversions. This section examines switched capacitor voltage


    Original     		PDF ADP3607-5 1N5817 ADP3607-5 walt Kester Voltage Converters ADM660 ADM8660 ADP3603 ADP3604 ADP3605

    Astable Multivibrator 3.3V

    Abstract: LTC3891 low power astable multivibrator ic DN493 high voltage doubler circuit "bias control" ldo NDS331N boost 5v to 48v
    Text: Bootstrap Biasing of High Input Voltage Step-Down Controller Increases Converter Efficiency Design Note 493 Goran Perica and Victor Khasiev Introduction High voltage buck DC/DC controllers such as the LTC3890 dual output and LTC3891 (single output) are popular in


    Original     		PDF LTC3890 LTC3891 LPS5030-334ML MBR0520 FMMT2222ATA TN0200K DN493 LTC3890/LTC3891 dn493f Astable Multivibrator 3.3V LTC3891 low power astable multivibrator ic high voltage doubler circuit "bias control" ldo NDS331N boost 5v to 48v

    MC1594

    Abstract: balanced modulator MC1496 theory MC1495L MC1494L
    Text: MOTOROLA MC1494 MC1594 SEMICONDUCTOR TECHNICAL DATA Linear Four-Quadrant Multiplier The M C 1494/1594 is designed for use where the output voltage is a linear product of two input voltages. Typical applications include: multiply, divide, square root, mean square, phase detector, frequency doubler, balanced


    OCR Scan     		PDF MC1494/1594 MC1594 balanced modulator MC1496 theory MC1495L MC1494L

    Untitled

    Abstract: No abstract text available
    Text: M M O T O R O L A Linear Four-Q uadrant M ultiplier The MC1494 is designed for use where the output voltage is a linear product o f tw o input voltages. Typical applications include: multiply, divide, square root, mean square, phase detector, frequency doubler, balanced


    OCR Scan     		PDF MC1494

    diode 1NU

    Abstract: analog multiplier MC1496 MC1456 MC1495 equivalent
    Text: M M O T O R O L A — — — Linear Four-Q uadrant M ultiplier The MC1494 is designed for use where the output voltage is a linear product of tw o input voltages. Typical applications include: multiply, divide, square root, mean square, phase detector, frequency doubler, balanced


    OCR Scan     		PDF MC1494 diode 1NU analog multiplier MC1496 MC1456 MC1495 equivalent

    c103 TRANSISTOR equivalent

    Abstract: TRANSISTOR c105 c105 TRANSISTOR MK1210 transistor c107 m c103 m TRANSISTOR C102 M transistor c107 TRANSISTOR equivalent c102 TRANSISTOR triac C105
    Text: 1 Introduction Increasingly power supplies used in applications such as home appliance, office automation,communications and industrial area need to operate on the main AC line 100V and 200V as products are manufactured for global markets. Traditionally power supplies have been designed to operate on either 100V


    OCR Scan     		PDF 200VAC 2606C 95-220V 200uA c103 TRANSISTOR equivalent TRANSISTOR c105 c105 TRANSISTOR MK1210 transistor c107 m c103 m TRANSISTOR C102 M transistor c107 TRANSISTOR equivalent c102 TRANSISTOR triac C105