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    IRF9640 EQUIVALENT Search Results

    IRF9640 EQUIVALENT Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    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
    TMP89FS62BUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/P-LQFP44-1010-0.80-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS60BUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/P-LQFP64-1010-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FM82DUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP48-P-0707-0.50D Visit Toshiba Electronic Devices & Storage Corporation

    IRF9640 EQUIVALENT Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    1RF520

    Abstract: 1RFP460 1RFP150 IRF9540 equivalent irfp450 equivalent 1rfbc20 IRF9640 equivalent 1RFP054 1RFPG50 IRFP260 equivalent
    Text: International HEXFET Power MOSFETs I ö R Rectifier HEX Size Part Number VDS Recommended Source Bonding Wire RDS on Die Outline Figure m|s mm Equivalent Device Type HEXFET® Die 2 IRFC420 500 3 D9 8 0.2 *> IRFCC20 600 4.4 DIO 8 0.2 1RFBC20 2 IRFCE20 800


    OCR Scan     		IRFC420 IRFCC20 IRFCE20 IRFCF20 IRFCG20 1RFC034 IRFC120 IRFCG50 IRFCC40 IRFC460 1RF520 1RFP460 1RFP150 IRF9540 equivalent irfp450 equivalent 1rfbc20 IRF9640 equivalent 1RFP054 1RFPG50 IRFP260 equivalent PDF

    IRC540 equivalent

    Abstract: IRFC9034 irfc9024 IRFC9230 IRLC140 IRFC9220 IRLC120 IRF9540 equivalent IRF9640 equivalent IRL530 equivalent
    Text: H EXFET International Power MOSFETs Table I. HEXFET III Die Continued HEX Size Part Number VDS RDS(on) Max Die (1) Outline Figure S Ö H R e C t if ie r Recomm. Source Bonding Wire mils I Equivalent Device mm type P-Channel HEXFETs 1 1 1 2 2 2 3 3 3 4 4


    OCR Scan     		IRFC9014 IRFC9110 IRFC9210* IRFC9024 IRFC9120 IRFC9220* IRFC9034 IRFC9130 IRFC9230 IRFC9044 IRC540 equivalent IRLC140 IRFC9220 IRLC120 IRF9540 equivalent IRF9640 equivalent IRL530 equivalent PDF

    IRC540 equivalent

    Abstract: IRF9540 equivalent IRL530 equivalent IRF9640 equivalent IRLC140 IRLC120 IRFC9034 irfc9120 IRFC9110 IRLC034
    Text: I n t e r n a t i o n a l R e c t i f ie r n sa H HEXFET Power MOSFETS HEX Sia PartNumber Recommended Source Bonding Win mis mm Vos R0S on M" Die Olitine Rgurt -60 -100 -200 -60 -100 -200 -60 -100 -200 -100 -200 0.500 1.200 3.000 0.280 0.600 1.500 0.140


    OCR Scan     		IRFC9014 IRFC9110 IRFC9210* IRFC9024 IRFC9120 IRFC9220* IRFC9034 IRFC9130 IRFC9230 IRFC9140 IRC540 equivalent IRF9540 equivalent IRL530 equivalent IRF9640 equivalent IRLC140 IRLC120 IRLC034 PDF

    irf1010e equivalent

    Abstract: irfp250n equivalent IRF744 equivalent IRFP260n equivalent IRF9540N equivalent IRF730A equivalent IRFBE30 equivalent irfp260n IRF4905 equivalent IRFU9120 equivalent
    Text: International Rectifier MOSFETs MOSFETs Continued HEXFETª Power MOSFETs Ñ TO-220AB (continued) N-Channel (continued) Mfr.Õs Type IRFZ24N* IRF1010E* IRFZ44E* IRFZ34E* IRFZ14* IRF2807* IRF3710* IRF1310N* IRF540N* IRF530N* IRF520N* IRF510* IRF3415* IRF640N


    Original     		O-220AB O-220 IRFZ24N* IRFIZ24N IRFD024 IRF1010E* IRFI1310N IRFD014 IRFZ44E* IRFI540N irf1010e equivalent irfp250n equivalent IRF744 equivalent IRFP260n equivalent IRF9540N equivalent IRF730A equivalent IRFBE30 equivalent irfp260n IRF4905 equivalent IRFU9120 equivalent PDF

    FL110

    Abstract: LL110 irf7408 lr014 IRC540 equivalent IRL1Z14G IRFC024 IRFBE30 equivalent IRFCG50 irfbc10lc
    Text: H EXFET Other Products from IR SOT-89 N-Channel V BR q s s Drain-to-Source ROS(on) Part Breakdown On-State Number Voltage Resistance (Volt) (Ohms) IRFS1Z0 100 Power MOSFETs Surface Mount Iq Continuous Drain Current 25°C (Amps) 2.4 0.82 Iq Continuous RthJAMax P d @ T c = 25°C Case


    OCR Scan     		OT-89 OT-89 IRCC044 IRCC140 IRCC240 IRCC244 IRCC340 IRCC440 IRCC054 FL110 LL110 irf7408 lr014 IRC540 equivalent IRL1Z14G IRFC024 IRFBE30 equivalent IRFCG50 irfbc10lc PDF

    Untitled

    Abstract: No abstract text available
    Text: LT6118 Current Sense Amplifier, Reference and Comparator with POR Features Description Current Sense Amplifier – Fast Step Response: 500ns – Low Offset Voltage: 200µV Maximum – Low Gain Error: 0.2% Maximum n Internal 400mV Precision Reference n Internal Comparator


    Original     		LT6118 500ns 400mV LT6700 LT6108 LT6119 LT6109 6118f PDF

    2n2700

    Abstract: No abstract text available
    Text: LT6119-1/LT6119-2 Current Sense Amplifier, Reference and Comparators with POR Description Features Current Sense Amplifier – Fast Step Response: 500ns – Low Offset Voltage: 200µV Maximum – Low Gain Error: 0.2% Maximum n Internal 400mV Precision Reference


    Original     		LT6119-1/LT6119-2 500ns 400mV 10-Lead LT6700 LT6109 LT6118 LT6108 2n2700 PDF

    2n2700

    Abstract: LT6108-2 LT6108-1 control motor dc 6v LT6108HDCB-2 rs-540sh Mabuchi Motor 12v
    Text: LT6108-1/LT6108-2 High Side Current Sense Amplifier with Reference and Comparator FEATURES DESCRIPTION Current Sense Amplifier – Fast Step Response: 500ns – Low Offset Voltage: 125µV Maximum – Low Gain Error: 0.2% Maximum n Internal 400mV Precision Reference


    Original     		LT6108-1/LT6108-2 500ns 400mV OT-23 610812fa 2n2700 LT6108-2 LT6108-1 control motor dc 6v LT6108HDCB-2 rs-540sh Mabuchi Motor 12v PDF

    2N2700

    Abstract: Mabuchi 12V Motor CMH25234B Mabuchi Motor 12v control motor dc 6v LT6108HMS8-1 Mabuchi Motor LTC6992-1 IRF9640 LT6108IMS8-2
    Text: LT6108-1/LT6108-2 High Side Current Sense Amplifier with Reference and Comparator FEATURES DESCRIPTION Current Sense Amplifier – Fast Step Response: 500ns – Low Offset Voltage: 350µV Maximum – Low Gain Error: 0.2% Maximum n Internal 400mV Precision Reference


    Original     		LT6108-1/LT6108-2 500ns 400mV LT6106 OT-23 LT6107 LT6109 LT6700 2N2700 Mabuchi 12V Motor CMH25234B Mabuchi Motor 12v control motor dc 6v LT6108HMS8-1 Mabuchi Motor LTC6992-1 IRF9640 LT6108IMS8-2 PDF

    2N2700

    Abstract: CMH25234B IRF9640 equivalent control motor dc 6v MABUCHI RS-540SH 513K Mabuchi Motor CMH25 LT6109-2 LTC6246
    Text: LT6109-1/LT6109-2 High Side Current Sense Amplifier with Reference and Comparators DESCRIPTION FEATURES Current Sense Amplifier – Fast Step Response: 500ns – Low Offset Voltage: 125µV Maximum – Low Gain Error: 0.2% Maximum n Internal 400mV Precision Reference


    Original     		500ns 400mV 10-Lead LT6109-1/LT6109-2 OT-23 610912fa 2N2700 CMH25234B IRF9640 equivalent control motor dc 6v MABUCHI RS-540SH 513K Mabuchi Motor CMH25 LT6109-2 LTC6246 PDF

    2N2700

    Abstract: Mabuchi Motor 12v Mabuchi 12V Motor A50M LT6109-1 LTC6994-1 IRF9640 dc motor control circuit LT6109 LT6109-2
    Text: LT6109-1/LT6109-2 High Side Current Sense Amplifier with Reference and Comparators DESCRIPTION FEATURES Current Sense Amplifier – Fast Step Response: 500ns – Low Offset Voltage: 350µV Maximum – Low Input Bias Current: 300nA Maximum n Internal 400mV Precision Reference


    Original     		LT6109-1/LT6109-2 500ns 300nA 400mV 700ns 10-Lead LT6105 LT6106 OT-23 LT6107 2N2700 Mabuchi Motor 12v Mabuchi 12V Motor A50M LT6109-1 LTC6994-1 IRF9640 dc motor control circuit LT6109 LT6109-2 PDF

    Untitled

    Abstract: No abstract text available
    Text: LT6109-1/LT6109-2 High Side Current Sense Amplifier with Reference and Comparators DESCRIPTION FEATURES n n n n n n n n Current Sense Ampliier – Fast Step Response: 500ns – Low Offset Voltage: 350µV Maximum – Low Input Bias Current: 300nA Maximum Internal 400mV Precision Reference


    Original     		LT6109-1/LT6109-2 500ns 300nA 400mV 700ns 10-Lead LT6105 LT6106 OT-23 LT6107 PDF

    Untitled

    Abstract: No abstract text available
    Text: LT6108-1/LT6108-2 High Side Current Sense Amplifier with Reference and Comparator FEATURES n n n n n n n n DESCRIPTION Current Sense Ampliier – Fast Step Response: 500ns – Low Offset Voltage: 350µV Maximum – Low Gain Error: 0.2% Maximum Internal 400mV Precision Reference


    Original     		LT6108-1/LT6108-2 500ns 400mV LT6106 OT-23 LT6107 LT6109 LT6700 PDF

    IRF540 n-channel MOSFET

    Abstract: GES 9515 irf740,irf840 IRC540 equivalent RTV3140 IRF540 mosfet with maximum VDS 30 V IRF540 p-channel MOSFET IRLC120 AN964 IRFC9140R
    Text: I R , „-riJ- L . ,», IGBT, HEXFET, HEXSense and Logic Level Die in t e r n a t io n a l - INTERNATIONAL R E C T I F I E R StE D • QD102tib ? ■ IGBTs, HEXFET, HEXSENSE and LOGIC LEVEL HEXFET DIE ^ - q/-OS~ International Rectifier now support Die and Wafer sales from their European Headquarters at Oxted, England.


    OCR Scan     		QD102t IRF540 n-channel MOSFET GES 9515 irf740,irf840 IRC540 equivalent RTV3140 IRF540 mosfet with maximum VDS 30 V IRF540 p-channel MOSFET IRLC120 AN964 IRFC9140R PDF

    1RFZ40

    Abstract: 1RF150 MTP25N10E mth7n50 Transistor MTP35N06E BUZ80a equivalent buz90 equivalent MTP40N06M MFE9200 MTH7N50
    Text: MOTOROLA SC X S T R S /R IME D | F b3b?2S4 Q O fl' iB n 1 | J l 9 / - 6 0 Selection by Package The product listed in Tables t through 22 have been com­ piled on an IBM or compatible personal computer disk for quick selection of product. This versatile disk may be obtained


    OCR Scan     		DK101/D. 0020-frJ 1RFZ40 1RF150 MTP25N10E mth7n50 Transistor MTP35N06E BUZ80a equivalent buz90 equivalent MTP40N06M MFE9200 MTH7N50 PDF

    car subwoofer amplifier schematic circuit diagram

    Abstract: CAR SUBWOOFER 200W AMP car 12 volts amplifier mosfet 200w rms 12v subwoofer car amp circuits 12v 50 watt subwoofer shan circuit diagram 12v 200W subwoofer CIRCUIT DIAGRAM subwoofer 1000 watts amplifier subwoofer Amplifier 200w schematic diagrams 12v subwoofer amp circuits IRF9640 LT1210
    Text: LINEAR TECHNOLOGY AUGUST 1996 IN THIS ISSUE . . . COVER ARTICLE Safe Hot Swapping Using the LTC 1421 . 1 Robert Reay and James Herr VOLUME VI NUMBER 3 Safe Hot Swapping Using the LTC1421 by Robert Reay and James Herr Issue Highlights . 2


    Original     		LTC1421 LTC1433/LTC1434: LTC1343 LTC1344 DB-25 S-191 1-800-4-LINEAR car subwoofer amplifier schematic circuit diagram CAR SUBWOOFER 200W AMP car 12 volts amplifier mosfet 200w rms 12v subwoofer car amp circuits 12v 50 watt subwoofer shan circuit diagram 12v 200W subwoofer CIRCUIT DIAGRAM subwoofer 1000 watts amplifier subwoofer Amplifier 200w schematic diagrams 12v subwoofer amp circuits IRF9640 LT1210 PDF

    IRFZ44G

    Abstract: IRF840G IRFZ34G IRFBC30G IRF9540G IRF640G IRFBC40G IRFP140 equivalent transistor 9721 transistor IRFP140N
    Text: Quarterly Reliability Report for HEXFET Assembly IRGB Number 8 January 1999 Prepared by QA Services Page 1 of 60 Contents Prepared by QA Services 1 Introduction 2 Reliability Information 3 Environmental Test Results 4 Environmental Test Conditions/Schematics


    Original     		IRFIZ34N IRFIZ44N IRFIZ48N IRFI1010N IRFI520N IRFI530N IRFI1310N IRLI3705N IRLIZ24N IRLIZ44N IRFZ44G IRF840G IRFZ34G IRFBC30G IRF9540G IRF640G IRFBC40G IRFP140 equivalent transistor 9721 transistor IRFP140N PDF

    5000 watt subwoofer amplifier circuit diagram

    Abstract: 5000 watt subwoofer amplifier image AN8739 car subwoofer amplifier schematic circuit diagram mosfet 5000 watt subwoofer circuit diagram subwoofer Amplifier 200w schematic diagrams 200w subwoofer preamp diagram CAR SUBWOOFER 200W AMP 2.1 surrounding amplifer subwoofer circuit 800 watt subwoofer circuit diagram
    Text: Application Note 87 November 2000 Linear Technology Magazine Circuit Collection, Volume V Data Conversion, Interface and Signal Conditioning Products Richard Markell, Editor INTRODUCTION Application Note 87 is the fifth in a series that excerpts useful circuits from Linear Technology magazine to preserve them for posterity. This application note highlights


    Original     		AN87-124 an87f 5000 watt subwoofer amplifier circuit diagram 5000 watt subwoofer amplifier image AN8739 car subwoofer amplifier schematic circuit diagram mosfet 5000 watt subwoofer circuit diagram subwoofer Amplifier 200w schematic diagrams 200w subwoofer preamp diagram CAR SUBWOOFER 200W AMP 2.1 surrounding amplifer subwoofer circuit 800 watt subwoofer circuit diagram PDF

    IRF5905

    Abstract: MOSFET IRF 9732 transistor equivalent irf510 IRF3710 equivalent IRFz44n equivalent IRF 9732 irf2807 equivalent IRF3205 application IRD110 HTGB
    Text: TABLE OF CONTENTS EXECUTIVE SUMMARY i 1.0 INTRODUCTION 1-1 2.0 USING HEXFET RELIABILITY INFORMATION 2-1 3.0 THE MATRIX QUALIFICATION PHILOSOPHY 3.1 CRITICAL HEXFET ATTRIBUTES FOR CONSIDERATION IN MATRIX QUALIFICATION 3.2 CROSS REFERENCE FOR ALL PART TYPES


    Original     		O-220/D2PAK IRF5905 MOSFET IRF 9732 transistor equivalent irf510 IRF3710 equivalent IRFz44n equivalent IRF 9732 irf2807 equivalent IRF3205 application IRD110 HTGB PDF

    equivalent data book of 10N60 mosfet

    Abstract: MC14016CP GD4511 an-6466 CX 2859 SMD 74AC14 spice 6120* harris HCF4018be 7028 SMD Transistor spice irfbc40
    Text: $5.00 S E M I C O N D U C T O R TECHNICAL ASSISTANCE Harris Marketing Support Services HMSS , 1-800-4HARRIS HMSS provides world-class service to customers requiring information on all products offered by Harris Semiconductor. Ask Harris Marketing Support Services for answers concerning:


    OCR Scan     		1-800-4HARRIS equivalent data book of 10N60 mosfet MC14016CP GD4511 an-6466 CX 2859 SMD 74AC14 spice 6120* harris HCF4018be 7028 SMD Transistor spice irfbc40 PDF

    sumida 94V-0

    Abstract: inverter using irfz44n MOSFET IRF9430 IRF7414 irfp460 dc welding circuit diagram IRFP264 inverter circuits IRFP450 inverter Three phase inverter using irfp450 mosfet Diagram Sumida ul94v-0 inverter IRF 544 N MOSFET
    Text: International Rectifier The IGBT SIP & HEXPak Navigator Effective 8 September, EXISTING Products NEW Products UPCOMING Products POTENTIAL Products released to production in last 6-9 months to be released within next 3-4 months no current plans. see bus.mgmt.


    Original     		IRFK2D054 IRFK2F054 CPV362M4U CPV363M4U CPV364M4U CPV362M4F CPV363M4F CPV364M4F CPV362M4K CPV363M4K sumida 94V-0 inverter using irfz44n MOSFET IRF9430 IRF7414 irfp460 dc welding circuit diagram IRFP264 inverter circuits IRFP450 inverter Three phase inverter using irfp450 mosfet Diagram Sumida ul94v-0 inverter IRF 544 N MOSFET PDF

    PA 0016 PIONEER

    Abstract: Pioneer PA 0016 transistors br 6822 MPF104 I9951D Johnson motor 2 607 022 013 2SK109 equivalent V01000J DG5043CK IRF4431
    Text: CT^Siliconix in c o rp o ra te d Introduction Siliconix designs and manufactures semiconductor products that bridge the interface gap between real-world analog signals and the digitally operated microprocessor. Depending on the application, Siliconix provides both discrete


    OCR Scan     		J-23548 K28742 PA 0016 PIONEER Pioneer PA 0016 transistors br 6822 MPF104 I9951D Johnson motor 2 607 022 013 2SK109 equivalent V01000J DG5043CK IRF4431 PDF

    SSP35n03

    Abstract: bc417 ksh200 equivalent 2N5457 equivalent ss8050 equivalent 1N34 equivalent FQP50N06 equivalent bd139 equivalent 2N5458 equivalent 2N3563 equivalent
    Text: Cross Reference Guide Industry 1.5KE100A 1.5KE100CA 1.5KE10A 1.5KE10CA 1.5KE110A 1.5KE110CA 1.5KE11A 1.5KE11CA 1.5KE120A 1.5KE120CA 1.5KE12A 1.5KE12CA 1.5KE130A 1.5KE130CA 1.5KE13A 1.5KE13CA 1.5KE150A 1.5KE150CA 1.5KE15A 1.5KE15CA 1.5KE160A 1.5KE160CA 1.5KE16A


    Original     		5KE100A 5KE100CA 5KE10A 5KE10CA 5KE110A 5KE110CA 5KE11A 5KE11CA 5KE120A 5KE120CA SSP35n03 bc417 ksh200 equivalent 2N5457 equivalent ss8050 equivalent 1N34 equivalent FQP50N06 equivalent bd139 equivalent 2N5458 equivalent 2N3563 equivalent PDF

    20N15

    Abstract: 35n05 mje13002 to92 ur3060 AN803 motorola 2N6823 isolated dc-dc mc34063 mje12007 Motorola Switchmode 1 special
    Text: C O N TE N TS Page What Everyone Should Know About Switching Power Supplies In tro du ctio n. Comparison w ith Linear Regulations.


    OCR Scan     		PDF