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    VTM RESISTOR Search Results

    VTM RESISTOR Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    MHR0412SA505M70
    Murata Manufacturing Co Ltd Fixed Resistor, PDF
    MHR0309SA305M70
    Murata Manufacturing Co Ltd Fixed Resistor, PDF
    MHR0409SA106D70
    Murata Manufacturing Co Ltd Fixed Resistor, PDF
    MHR0312SA156D70
    Murata Manufacturing Co Ltd Fixed Resistor, PDF
    MHR0417SA255D20
    Murata Manufacturing Co Ltd Fixed Resistor, PDF

    VTM RESISTOR Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    smd marking m4

    Abstract: SG 94 DIODE SMD smd diode marking sG smd fuse marking 20 D496 D505 V040F033T060 V048F040T050
    Contextual Info: PRELIMINARY DISCONTINUED AS OF JAN 5, 2007 SEE V048F040T050 FOR REPLACEMENT PART NUMBER VTM V040F033T060 V•I Chip – VTM Voltage Transformation Module • 3.3 V V•I Chip Converter • 125°C operation • 60 A 90 A for 1 ms • 1 µs transient response


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    V048F040T050 V040F033T060 V040F033T060 smd marking m4 SG 94 DIODE SMD smd diode marking sG smd fuse marking 20 D496 D505 PDF

    VTM resistor

    Contextual Info: Cube Timers – Series VTM-1 Specification Grade Timing Modules DESIGN FEATURES VTM-1 ♦ On-Delay operating mode ♦ Timing from 1 to 1000 seconds ♦ 1A Solid State SPNO output ♦ Quick connect 1/4" terminals ♦ Universal voltage: 24 to 240 VAC/DC or 12 VDC


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    -1-12D E60363 LR51332 VTM resistor PDF

    Contextual Info: VTM V•I Chip – VTM Voltage Transformation Module TM • 48 V to 1.5 V V•I Chip Converter • 125°C operation • 100 A 150 A for 1 ms • 1 µs transient response V048K015T100 K indicates BGA configuration. For other mounting options see Part Numbering below.


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    V048K015T100 V048K015T100 10/04/10M PDF

    Contextual Info: Not recommended for New Designs Replaced by VTM48EF120T025A00 V048F120T025 V048F120M025 VTM VTM Current Multiplier • 48 V to 12 V V•I Chip™ Converter • 125°C operation TJ • 25 A (37.5 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3


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    VTM48EF120T025A00 V048F120T025 V048F120M025 V048F120T025 PDF

    Contextual Info: PRELIMINARY V048F240T012 VTM V•I Chip – VTM Voltage Transformation Module • 48 V to 24 V V•I Chip Converter • 125°C operation • 12.5 A 18.8 A for 1 ms • 1 µs transient response • High density – 1095 W/in3 • 3.5 million hours MTBF


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    V048F240T012 V048F240T012 PDF

    Contextual Info: PRELIMINARY V048F240T012 VTM V•I Chip – VTM Voltage Transformation Module • 48 V to 24 V V•I Chip Converter • 125°C operation • 12.5 A 18.8 A for 1 ms • 1 µs transient response • High density – 1036 W/in3 • 3.5 million hours MTBF


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    V048F240T012 V048F240T012 PDF

    SG 94 DIODE SMD

    Contextual Info: VTM V•I Chip – VTM Voltage Transformation Module TM • 48 V to 1.5 V V•I Chip Converter • 125°C operation • 90 A 135 A for 1 ms • 1 µs transient response V048K015T090 K indicates BGA configuration. For other mounting options see Part Numbering below.


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    V048K015T090 V048K015T090 10/04/10M SG 94 DIODE SMD PDF

    Contextual Info: USER GUIDE | UG:003 PRM and VTM® Customer Evaluation Boards Contents Page Introduction 1 Board Overview 2 Recommended Hardware 3 Initial Set Up 4 Baseline Test Procedure 4 VTM-CB 7 The Customer Evaluation Boards described in this document are intended to acquaint you with the


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    PDF

    Contextual Info: PRELIMINARY V048F320T009 VTM V•I Chip – VTM Voltage Transformation Module • 48 V to 32 V V•I Chip Converter • 125°C operation • 9.4 A 14.1 A for 1 ms • 1 µs transient response • High density – 1095 W/in3 • 3.5 million hours MTBF


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    V048F320T009 V048F320T009 PDF

    C3225X7R2A225KT5LOU

    Contextual Info: user Guide | UG:014 VI Chip VTM® Evaluation Board Written by: Ankur Patel Applications Engineer August 2013 Contents Page Introduction Introduction 1 This evaluation board offers a convenient means to evaluate the performance of Vicor’s VTM® current multiplier. All evaluation boards include sockets for easy "plug


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    PDF

    Contextual Info: PRELIMINARY V048F320T009 VTM V•I Chip – VTM Voltage Transformation Module • 48 V to 32 V V•I Chip Converter • 125°C operation • 9.4 A 14.1 A for 1 ms • 1 µs transient response • High density – 1095 W/in3 • 3.5 million hours MTBF


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    V048F320T009 V048F320T009 PDF

    Contextual Info: PRELIMINARY V048F240T012 VTM V•I Chip – VTM Voltage Transformation Module • 48 V to 24 V V•I Chip Converter • 125°C operation • 12.5 A 18.8 A for 1 ms • 1 µs transient response • High density – 1036 W/in3 • 3.5 million hours MTBF


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    V048F240T012 V048F240T012 PDF

    JESD22-A-103A

    Abstract: JESD22-A-104B JESD22-A113-B V048K020T080 JESD22-A108B
    Contextual Info: VTM V•I Chip – VTM Voltage Transformation Module TM • 48 V to 2 V V•I Chip Converter • 125°C operation • 80 A 120 A for 1 ms • 1 µs transient response V048K020T080 K indicates BGA configuration. For other mounting options see Part Numbering below.


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    V048K020T080 V048K020T080 09/04/10M JESD22-A-103A JESD22-A-104B JESD22-A113-B JESD22-A108B PDF

    JESD22-A-103A

    Abstract: JESD22-A-104B JESD22-A113-B JESD22-B-107-A V048K480T006 337 BGA footprint
    Contextual Info: PRELIMINARY VTM V048K480T006 V•I Chip – VTM Voltage Transformation Module TM • 48 V to 48 V V•I Chip Converter • 125°C operation • 6.3 A 9.4 A for 1 ms • 1 µs transient response • High density – 1218 W/in3 K indicates BGA configuration. For other


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    V048K480T006 V048K480T006 JESD22-A-103A JESD22-A-104B JESD22-A113-B JESD22-B-107-A 337 BGA footprint PDF

    IPC-9701

    Abstract: "IPC-9701"
    Contextual Info: VTM V•I Chip – VTM Voltage Transformation Module TM • 48 V to 2 V V•I Chip Converter • 125°C operation • 80 A 120 A for 1 ms • 1 µs transient response V048K020T080 K indicates BGA configuration. For other mounting options see Part Numbering below.


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    V048K020T080 V048K020T080 IPC-9701 "IPC-9701" PDF

    JESD22-A-103A

    Abstract: JESD22-A-104B JESD22-A113-B V048K015T090 W9514
    Contextual Info: VTM V•I Chip – VTM Voltage Transformation Module TM • 48 V to 1.5 V V•I Chip Converter • 125°C operation • 90 A 135 A for 1 ms • 1 µs transient response V048K015T090 K indicates BGA configuration. For other mounting options see Part Numbering below.


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    V048K015T090 V048K015T090 09/04/10M JESD22-A-103A JESD22-A-104B JESD22-A113-B W9514 PDF

    Contextual Info: Not recommended for New Designs Replaced by VTM48EF040T050A00 V048F040T050 V048F040M050 VTM VTM Current Multiplier • 48 V to 4 V V•I Chip™ Converter • 125°C operation TJ • 50 A (75.0 A for 1 ms) • 1 µs transient response • High density – 169 A/in3


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    VTM48EF040T050A00 V048F040T050 V048F040M050 V048F040T050 PDF

    IPC-9701

    Contextual Info: VTM V•I Chip – VTM Voltage Transformation Module TM • 48 V to 2 V V•I Chip Converter • 125°C operation • 80 A 120 A for 1 ms • 1 µs transient response V048K020T080 K indicates BGA configuration. For other mounting options see Part Numbering below.


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    V048K020T080 V048K020T080 10/04/10M IPC-9701 PDF

    Contextual Info: PRELIMINARY V048F240T012 VTM V•I Chip – VTM Voltage Transformation Module • 48 V to 24 V V•I Chip Converter • 125°C operation • 12.5 A 18.8 A for 1 ms • 1 µs transient response • High density – 1036 W/in3 • 3.5 million hours MTBF


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    V048F240T012 V048F240T012 PDF

    IN3228

    Abstract: JESD22-A-103A JESD22-A-104B JESD22-A113-B V048K015T100 JESD22-B107
    Contextual Info: VTM V•I Chip – VTM Voltage Transformation Module TM • 48 V to 1.5 V V•I Chip Converter • 125°C operation • 100 A 150 A for 1 ms • 1 µs transient response V048K015T100 K indicates BGA configuration. For other mounting options see Part Numbering below.


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    V048K015T100 V048K015T100 10/04/10M IN3228 JESD22-A-103A JESD22-A-104B JESD22-A113-B JESD22-B107 PDF

    JESD22-A-103A

    Abstract: JESD22-A-104B JESD22-A113-B JESD22-B-107-A V048K120T025
    Contextual Info: PRELIMINARY VTM V048K120T025 V•I Chip – VTM Voltage Transformation Module TM • 48 V to 12 V V•I Chip Converter • 125°C operation • 25 A 37.5 A for 1 ms • 1 µs transient response • High density – 1200 W/in3 K indicates BGA configuration. For other


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    V048K120T025 V048K120T025 JESD22-A-103A JESD22-A-104B JESD22-A113-B JESD22-B-107-A PDF

    VIV0101THJ

    Abstract: 217F D496 D505 VIV0101MHJ
    Contextual Info: VIV0101THJ PRELIMINARY DATASHEET S C NRTL US VTM Transformer TM FEATURES • 48 Vdc – 12 Vdc 10 A VTM Transformer - Operating from standard 48 V or 24 V PRMs • High efficiency >95% reduces system power consumption • High density (801 W/in3) • “Half Chip” V•I Chip package enables surface mount,


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    VIV0101THJ VIV0101THJ 217F D496 D505 VIV0101MHJ PDF

    JESD22-A-103A

    Abstract: JESD22-A-104B JESD22-A113-B JESD22-B-107-A V048K160T015 JESD22-B107
    Contextual Info: PRELIMINARY VTM V048K160T015 V•I Chip – VTM Voltage Transformation Module TM • 48 V to 16 V V•I Chip Converter • 125°C operation • 15.0 A 22.5 A for 1 ms • 1 µs transient response • High density – 974 W/in3 K indicates BGA configuration. For other


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    V048K160T015 V048K160T015 JESD22-A-103A JESD22-A-104B JESD22-A113-B JESD22-B-107-A JESD22-B107 PDF

    JESD22-A-101

    Abstract: JESD22-A-103A JESD22-A-104B JESD22-A113-B JESD22-B-107-A V048K060T040
    Contextual Info: PRELIMINARY VTM V048K060T040 V•I Chip – VTM Voltage Transformation Module TM • 48 V to 6 V V•I Chip Converter • 125°C operation • 40.0 A 60.0 A for 1 ms • 1 µs transient response • High density – 974 W/in3 K indicates BGA configuration. For other


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    V048K060T040 V048K060T040 JESD22-A-101 JESD22-A-103A JESD22-A-104B JESD22-A113-B JESD22-B-107-A PDF