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    VTM RESISTOR Search Results

    VTM RESISTOR Result Highlights (4)

    Part ECAD Model Manufacturer Description Download Buy
    TMP392A2DRLR
    		Texas Instruments TMP392 dual-channel (hot & warm), resistor-programmable temperature switch Visit Texas Instruments Buy
    TMP392A3DRLR
    		Texas Instruments TMP392 dual-channel (hot & warm), resistor-programmable temperature switch Visit Texas Instruments Buy
    TIPD128
    		Texas Instruments Capacitive Load Drive Verified Reference Design Using an Isolation Resistor Visit Texas Instruments
    TPS2066DGN-1
    		Texas Instruments Current-Limited, Power-Distribution Switches with Output Discharge resistor 8-MSOP-PowerPAD -40 to 85 Visit Texas Instruments Buy

    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


    Original     		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


    Original     		-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.


    Original     		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


    Original     		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


    Original     		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


    Original     		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.


    Original     		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


    Original     		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


    Original     		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


    Original     		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


    Original     		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


    Original     		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.


    Original     		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


    Original     		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.


    Original     		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.


    Original     		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


    Original     		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.


    Original     		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


    Original     		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.


    Original     		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


    Original     		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,


    Original     		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


    Original     		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


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