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    1017 TRANSFORMER Search Results

    1017 TRANSFORMER Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    WB1040-SML Coilcraft Inc Transformer Visit Coilcraft Inc
    AS8426-A Coilcraft Inc Telecom Transformer Visit Coilcraft Inc Buy
    B0727-B Coilcraft Inc Telecom Transformer Visit Coilcraft Inc Buy
    AS8954-A Coilcraft Inc Telecom Transformer Visit Coilcraft Inc
    CR7984-CLD Coilcraft Inc Datacom Transformer Visit Coilcraft Inc

    1017 TRANSFORMER Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    5558

    Abstract: 8522M HP3326A LT5558 MODULATOR ofdm 64-qam HP3326
    Text: QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1017 HIGH LINEARITY DIRECT QUADRATURE MODULATOR LT5558 DESCRIPTION Demonstration circuit 1017 is an I/Q modulator featuring the LT 5558. The LT 5558 is a 600MHz to 1.1GHz direct I/Q modulator designed for high


    Original     		PDF LT5558 600MHz 850MHz, -10dBm 5558 8522M HP3326A LT5558 MODULATOR ofdm 64-qam HP3326

    PFK1

    Abstract: PH350MGJ PH100MLI PH150MG
    Text: 1017-2012:QuarkCatalogTempNew 8/28/12 2:00 PM Page 1017 11 Machine Tool Control Transformers and Accessories C UL R US RoHS B 480/240, 460/230/208, 440/220/200 Primary Voltage, 120/25, 115/24, 110/23 Secondary Voltage — Secondary Fuse Clips Included But Not Installed


    Original     		PDF PH100MBMH PFK1 PH350MGJ PH100MLI PH150MG

    ac control using ir2110 and mosfet

    Abstract: IR2110 APPLICATION CIRCUIT FOR INVERTERS IR2110 driver CIRCUIT FOR INVERTERS 5V power supply using bridge rectifier circuit of 5v from 220 ac without transformer IR2110 equivalent single phase fully controlled rectifier with rl a coupler MOSFET DRIVER application note bridge rectifier single phase 240V AC PVI1050N
    Text: Application Note AN-1017 The PVI - a New Versatile Circuit Element Table of Contents Page The Function Mechanical Specifications .2


    Original     		PDF AN-1017 ac control using ir2110 and mosfet IR2110 APPLICATION CIRCUIT FOR INVERTERS IR2110 driver CIRCUIT FOR INVERTERS 5V power supply using bridge rectifier circuit of 5v from 220 ac without transformer IR2110 equivalent single phase fully controlled rectifier with rl a coupler MOSFET DRIVER application note bridge rectifier single phase 240V AC PVI1050N

    NTC BD-11

    Abstract: SI2333DS LT3480 LTC4099 NTLJS4114N
    Text: LTC4099 Provides Unprecedented Control of USB Power Management and Battery Charger Functions Using I2C Design Note 1017 George H. Barbehenn Introduction The LTC 4099 high efficiency USB power manager and Li-Ion/Polymer battery charger seamlessly manages


    Original     		PDF LTC4099 dn1017 LTC4099, dn1017f NTC BD-11 SI2333DS LT3480 NTLJS4114N

    Untitled

    Abstract: No abstract text available
    Text: Not recommended for New Designs Replaced by VTM48EF120T025A00 V048F120T025 V048F120M025 VTM VTMTM Transformer • 48 V to 12 V V•I ChipTM Converter • 125°C operation TJ • 25 A (37.5 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3


    Original     		PDF VTM48EF120T025A00 V048F120T025 V048F120M025 V048F120T025

    SMD MARKING CODE sg

    Abstract: V048F120T025 D496 D505 V048F120M025 VTM48EF120T025A00 smd fuse marking code H2
    Text: Not recommended for New Designs Replaced by VTM48EF120T025A00 V048F120T025 V048F120M025 VTM VTMTM Transformer • 48 V to 12 V V•I ChipTM Converter • 125°C operation TJ • 25 A (37.5 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3


    Original     		PDF VTM48EF120T025A00 V048F120T025 V048F120M025 V048F120T025 SMD MARKING CODE sg D496 D505 V048F120M025 VTM48EF120T025A00 smd fuse marking code H2

    MAX2044

    Abstract: MAX2029 MAX2031 MAX2039 MAX2041 MAX2042
    Text: 19-1017; Rev 0; 10/07 High-Linearity, 815MHz to 1000MHz Upconversion/ Downconversion Mixer with LO Buffer/Switch Features The MAX2029 high-linearity passive upconverter or downconverter mixer is designed to provide +36.5dBm IIP3, 6.7dB NF, and 6.5dB conversion loss for an 815MHz


    Original     		PDF 815MHz 1000MHz MAX2029 815MHz 570MHz 900MHz MAX2031 MAX2044 MAX2039 MAX2041 MAX2042

    SMD MARKING CODE sg

    Abstract: VTM 48 D496 D505 V048F480M006 V048F480T006
    Text: V048F480T006 V048F480M006 VTM VTMTM Transformer • 48 V to 48 V V•I ChipTM Converter • 125°C operation TJ • 6.3 A (9.4 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2


    Original     		PDF V048F480T006 V048F480M006 V048F480T006 SMD MARKING CODE sg VTM 48 D496 D505 V048F480M006

    MAX2044

    Abstract: MAX2029 MAX2031 MAX2039 MAX2041 MAX2042 970 "pin-compatible"
    Text: 19-1017; Rev 0; 10/07 High-Linearity, 815MHz to 1000MHz Upconversion/ Downconversion Mixer with LO Buffer/Switch Features The MAX2029 high-linearity passive upconverter or downconverter mixer is designed to provide +36.5dBm IIP3, 6.7dB NF, and 6.5dB conversion loss for an 815MHz


    Original     		PDF 815MHz 1000MHz MAX2029 815MHz 570MHz 900MHz MAX2031 MAX2044 MAX2039 MAX2041 MAX2042 970 "pin-compatible"

    VTM 48

    Abstract: D496 D505 V048F480M006 V048F480T006 J1 DIODE
    Text: V048F480T006 V048F480M006 VTM VTMTM Transformer • 48 V to 48 V V•I ChipTM Converter • 125°C operation TJ • 6.3 A (9.4 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2


    Original     		PDF V048F480T006 V048F480M006 V048F480T006 VTM 48 D496 D505 V048F480M006 J1 DIODE

    V048F120T025

    Abstract: D496 D505 V048F120M025
    Text: V048F120T025 V048F120M025 VTM VTMTM Transformer • 48 V to 12 V V•I ChipTM Converter • 125°C operation TJ • 25 A (37.5 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2


    Original     		PDF V048F120T025 V048F120M025 V048F120T025 D496 D505 V048F120M025

    mS25a

    Abstract: ic sc 6200 D496 D505 V048F120M025 V048F120T025 chip transformer
    Text: V048F120T025 V048F120M025 VTM VTMTM Transformer • 48 V to 12 V V•I ChipTM Converter • 125°C operation TJ • 25 A (37.5 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2


    Original     		PDF V048F120T025 V048F120M025 V048F120T025 mS25a ic sc 6200 D496 D505 V048F120M025 chip transformer

    TRANSFORMER 6200

    Abstract: D496 D505 V048F240T012
    Text: V048F240T012 V048F240M012 VTM VTMTM Transformer • 48 V to 24 V V•I ChipTM Converter • 125°C operation TJ • 12.5 A (18.8 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2


    Original     		PDF V048F240T012 V048F240M012 V048F240T012 TRANSFORMER 6200 D496 D505

    V048F320T009

    Abstract: D496 D505 V048F320M009
    Text: V048F320T009 V048F320M009 VTM VTMTM Transformer • 48 V to 32 V V•I ChipTM Converter • 125°C operation TJ • 9.4 A (14.1 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2


    Original     		PDF V048F320T009 V048F320M009 V048F320T009 D496 D505 V048F320M009

    smd diode marking sG

    Abstract: smd marking m4 smd fuse marking 20 VTM 48 D496 D505 V048F320M009 V048F320T009
    Text: V048F320T009 V048F320M009 VTM VTMTM Transformer • 48 V to 32 V V•I ChipTM Converter • 125°C operation TJ • 9.4 A (14.1 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2


    Original     		PDF V048F320T009 V048F320M009 V048F320T009 smd diode marking sG smd marking m4 smd fuse marking 20 VTM 48 D496 D505 V048F320M009

    Untitled

    Abstract: No abstract text available
    Text: V048F120T025 V048F120M025 VTM VTMTM Transformer • 48 V to 12 V V•I ChipTM Converter • 125°C operation TJ • 25 A (37.5 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2


    Original     		PDF V048F120T025 V048F120M025 V048F120T025

    Untitled

    Abstract: No abstract text available
    Text: V048F320T009 V048F320M009 VTM VTMTM Transformer • 48 V to 32 V V•I ChipTM Converter • 125°C operation TJ • 9.4 A (14.1 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2


    Original     		PDF V048F320T009 V048F320M009 V048F320T009

    smd marking m4

    Abstract: smd fuse marking 20 VTM 48 D496 D505 V048F480M006 V048F480T006
    Text: V048F480T006 V048F480M006 VTM VTMTM Transformer • 48 V to 48 V V•I ChipTM Converter • 125°C operation TJ • 6.3 A (9.4 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2


    Original     		PDF V048F480T006 V048F480M006 V048F480T006 smd marking m4 smd fuse marking 20 VTM 48 D496 D505 V048F480M006

    k1507

    Abstract: K1507 MOSFET transistor k1507 transistor cs 9013 Transistor 9013 AP3843GM k-1507 k1507 TRANSISTOR AZ3843 transformer ei28
    Text: Application Note 1017 The Introduction to Green Mode PWM Controller AP384XG Prepared by Lv Shuzhuang System Engineering Department 1. Introduction CS pin 3 In normal operation mode, the input pin receives a voltage proportional to inductor current, and the PWM uses this information to terminate the output


    Original     		PDF AP384XG AP384XG compatibl00 AP3843G FDB7030 20TQ045 2200p k1507 K1507 MOSFET transistor k1507 transistor cs 9013 Transistor 9013 AP3843GM k-1507 k1507 TRANSISTOR AZ3843 transformer ei28

    Untitled

    Abstract: No abstract text available
    Text: 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     		PDF VTM48EF120T025A00 V048F120T025 V048F120M025 V048F120T025

    Untitled

    Abstract: No abstract text available
    Text: V048F240T012 V048F240M012 VTM VTM Current Multiplier • 48 V to 24 V V•I Chip™ Converter • 125°C operation TJ • 12.5 A (18.8 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2


    Original     		PDF V048F240T012 V048F240M012 V048F240T012

    Understanding 300 Baud Modem Specifications

    Abstract: 74vhc942 74VHC943 C1995 MM74HC942 MM74HC943 VA300 distortion factor generator AN-1017 national TMS9
    Text: National Semiconductor Application Note 1017 September 1995 Understanding the specifications commonly used for 300 Baud modems presents a major hurdle for first time modem buyers Not only are some specifications subtle but few standards exist so apparently similar specifications may reflect vastly different performance Understanding the conditions under which a modem is actually tested and how


    Original     		PDF

    Horizontal Transistor TT 2246

    Abstract: Transistor TT 2246 CRT Monitor repair schematic circuit diagram of crt monitor yoke coil hv flyback transformer In400I Diode IN5398 3PDT switch 9 pin true bypass TT 2246 transistor J103 scr
    Text: SERVICE MANUAL CRT Data D isplay TTL Series 5-017-1017 Oct. 27, 1977 Revision C BALL B R O T H E R S R E S E A R C H CO RPO RATIO N ELECTRO NIC DISPLAY DIVISION P.O. B O X 43376»ST. P A U L , M IN N E SO T A 55164» T E L E P H O N E : 612 786-8900»TWX: 910-563-3552


    OCR Scan     		PDF 55164-TELEPHONE: IM1017 TV-15 4-H-75" Horizontal Transistor TT 2246 Transistor TT 2246 CRT Monitor repair schematic circuit diagram of crt monitor yoke coil hv flyback transformer In400I Diode IN5398 3PDT switch 9 pin true bypass TT 2246 transistor J103 scr

    Untitled

    Abstract: No abstract text available
    Text: PREMO A C -D C SERIES: P21S Planar Transformers Third generation o f planar transformers Features -High power planar transformer for AC/DC SM PS. -According UL1950 / EN60950. -UL 94V0 material. -Storage temperature from -20°C to 130°C. -Operating temperature -20°C to 85°C.


    OCR Scan     		PDF UL1950 EN60950. P215FK3DX1 P215FK3DX2 P215FK3DX3