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    1N4005 EQUIVALENT Search Results

    1N4005 EQUIVALENT Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TMP89FS60AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP64-P-1010-0.50E Visit Toshiba Electronic Devices & Storage Corporation
    TMP89FS63AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP52-P-1010-0.65 Visit Toshiba Electronic Devices & Storage Corporation
    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
    TMP89FS62AUG Toshiba Electronic Devices & Storage Corporation 8-bit Microcontroller/Processing Performance Equivalent to a 16-bit MCU/LQFP44-P-1010-0.80A Visit Toshiba Electronic Devices & Storage Corporation

    1N4005 EQUIVALENT Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    MUR1560 equivalent

    Abstract: 1N4936 equivalent MUR1100E equivalent 1N5404 equivalent MUR620CT equivalent mur420 equivalent MUR1620CT equivalent BYV19-45 MUR1660CT equivalent MUR1520 equivalent
    Text: Index and Cross Reference The following table represents an index and cross reference guide for all rectifier devices which are either manufactured directly by ON Semiconductor or for which ON Semiconductor manufactures a suitable equivalent. Where the ON


    Original     		MR852 VHE1401 VHE1402 VHE1403 VHE1404 VHE205 VHE210 MUR1560 equivalent 1N4936 equivalent MUR1100E equivalent 1N5404 equivalent MUR620CT equivalent mur420 equivalent MUR1620CT equivalent BYV19-45 MUR1660CT equivalent MUR1520 equivalent PDF

    tny266 equivalent

    Abstract: 11DQ06 equivalent ee13 ferrite transformer EE13 tdk tny264p tny266 Transformer Construction Parameters tny266 transformer ee13 transformer flyback converter PC817 BOBBIN TRANSFORMER for ee13
    Text: Design Idea DI-61 ® TinySwitch-II 3 W Charger: <200 mW No-load Consumption Application Device Power Output Input Voltage Output Voltage Topology Charger TNY264P 3W 85-265 VAC 5 V, 600 mA Flyback The circuit meets CISPR-22 Class B conducted EMI limits without a Y capacitor, and therefore has very low AC leakage


    Original     		DI-61 TNY264P CISPR-22 PI-3684-082603 PI-3685-082703 tny266 equivalent 11DQ06 equivalent ee13 ferrite transformer EE13 tdk tny266 Transformer Construction Parameters tny266 transformer ee13 transformer flyback converter PC817 BOBBIN TRANSFORMER for ee13 PDF

    TNY266PN

    Abstract: TNY266PN equivalent EE16 10 pin vertical bobbin EE16 transformer core EEL16 transformer EEL16 Power Transformer EE-16 EEL16 transformer 101408 EE16
    Text: DI-34 Design Idea TinySwitch-II 5 W Universal Adapter Application Device Power Output Input Voltage Output Voltage Topology Adapter TNY266PN 5W 85 – 265 VAC 5V Flyback Design Highlights • Simple design: low parts count 23 • <300 mW no-load without transformer bias winding


    Original     		DI-34 TNY266PN EN55022 DI-34 TNY266PN TNY266PN equivalent EE16 10 pin vertical bobbin EE16 transformer core EEL16 transformer EEL16 Power Transformer EE-16 EEL16 transformer 101408 EE16 PDF

    ee13 ferrite transformer

    Abstract: tny266 Transformer Construction Parameters 11DQ06 equivalent TNY266 tny266 transformer EE13 tdk ee13 transformer TDK Ferrite Core PC40 TNY266 Power Integrations tny2* 7 pin
    Text: Design Idea DI-61 TinySwitch-II 3 W Charger: <200 mW No-load Consumption Application Device Power Output Input Voltage Output Voltage Topology Charger TNY264P 3W 85-265 VAC 5 V, 600 mA Flyback The circuit meets CISPR-22 Class B conducted EMI limits without a Y capacitor, and therefore has very low AC leakage


    Original     		DI-61 TNY264P CISPR-22 ee13 ferrite transformer tny266 Transformer Construction Parameters 11DQ06 equivalent TNY266 tny266 transformer EE13 tdk ee13 transformer TDK Ferrite Core PC40 TNY266 Power Integrations tny2* 7 pin PDF

    Power Transformer EE-16

    Abstract: TNY266PN EEL16 core EEL16 transformer EE16 transformer EEL16 transformer TNY266P EE16 ee16 transformer specification NC-2H eel16
    Text: Design Idea DI-34 ® TinySwitch-II 5 W Universal Adapter Application Device Power Output Input Voltage Output Voltage Topology Adapter TNY266P 5W 85-265 VAC 5V Flyback Design Highlights The TinySwitch-II frequency jitter feature and transformer construction allow use of a simple filter L1, L2, C1 and C2


    Original     		DI-34 TNY266P Power Transformer EE-16 TNY266PN EEL16 core EEL16 transformer EE16 transformer EEL16 transformer TNY266P EE16 ee16 transformer specification NC-2H eel16 PDF

    tny264pn

    Abstract: TNY266 Power Integrations ee13 ferrite transformer tny266 Transformer Construction Parameters tny266 transformer TNY266 c5470 11DQ06 equivalent TDK Ferrite Core PC40 core EE13 transformer
    Text: DI-61 Design Idea TinySwitch-II 3 W Charger: <200 mW No-load Consumption Application Device Power Output Input Voltage Output Voltage Topology Charger TNY264PN 3W 85 – 265 VAC 5 V, 600 mA Flyback Design Highlights • Less than 200 mW no-load power consumption for


    Original     		DI-61 TNY264PN CISPR-22 DI-174 tny264pn TNY266 Power Integrations ee13 ferrite transformer tny266 Transformer Construction Parameters tny266 transformer TNY266 c5470 11DQ06 equivalent TDK Ferrite Core PC40 core EE13 transformer PDF

    tny264pn

    Abstract: IC TNY264PN tny266 Transformer Construction Parameters EE13 transformer 5v shield ee13 ferrite transformer TNY266 TNY266 Power Integrations tny266 transformer tny266 equivalent TNY-264pn
    Text: DI-28 Design Idea TinySwitch-II 3 W Charger: <30 mW No-load Consumption Application Device Power Output Input Voltage Output Voltage Topology Charger TNY264PN 3W 85 – 265 VAC 5 V, 600 mA Flyback Design Highlights • Less than 30 mW no-load power consumption for


    Original     		DI-28 TNY264PN CISPR-22 DI-28 tny264pn IC TNY264PN tny266 Transformer Construction Parameters EE13 transformer 5v shield ee13 ferrite transformer TNY266 TNY266 Power Integrations tny266 transformer tny266 equivalent TNY-264pn PDF

    equivalent diode for sb260

    Abstract: TNY276P cc charger circuit EE16 TNY275P ferrite core shield transformer pin connection PI-44 EN55022B DIODE FR107 t1 ee16
    Text: Design Idea DI-118 TinySwitch-III 4.5 W CV/CC Charger with <260 mW No-Load Consumption Application Device Power Output Input Voltage Output Voltage Topology Charger TNY276P 4.5 W 90-265 VAC 5.7 V, 800 mA Flyback Design Highlights • • • • • •


    Original     		DI-118 TNY276P equivalent diode for sb260 TNY276P cc charger circuit EE16 TNY275P ferrite core shield transformer pin connection PI-44 EN55022B DIODE FR107 t1 ee16 PDF

    TNY276PN

    Abstract: TNY276PN equivalent TNY275PN equivalent diode for sb260 TNY275PN equivalent t1 ee16 TNY276P EE16 NC-2H tny275pn application EE16
    Text: DI-118 Design Idea TinySwitch-III 4.56 W CV/CC Charger With <260 mW No-Load Consumption Application Device Power Output Input Voltage Output Voltage Topology Charger TNY276PN 4.56 W 90 - 265 VAC 5.7 V, 800 mA Flyback Design Highlights • Simple, low cost, low parts count CV/CC solution


    Original     		DI-118 TNY276PN EN55022B DI-118 TNY276PN TNY276PN equivalent TNY275PN equivalent diode for sb260 TNY275PN equivalent t1 ee16 TNY276P EE16 NC-2H tny275pn application EE16 PDF

    ee13 ferrite transformer

    Abstract: TDK Ferrite Core PC40 TDK pc40 tny266 equivalent tdk ferrite pc40 tny266 Transformer Construction Parameters 11DQ06 equivalent tny266 transformer cell phone charger TNY266
    Text: Design Idea DI-84 TinySwitch-II 3 W Charger: <30 mW No-load Consumption Application Device Power Output Input Voltage Output Voltage Topology Charger TNY264P 3W 85-265 VAC 5 V, 600 mA Flyback Design Highlights The bias winding should provide enough current to fully


    Original     		DI-84 TNY264P CISPR-22 ee13 ferrite transformer TDK Ferrite Core PC40 TDK pc40 tny266 equivalent tdk ferrite pc40 tny266 Transformer Construction Parameters 11DQ06 equivalent tny266 transformer cell phone charger TNY266 PDF

    PC40EE16-Z

    Abstract: TNY254P TNY254 equivalent TNY254 EE16 core transformer 1N4005 1N4937 1N5230B 2N3904 FR201
    Text: Design Idea DI-8 TM TinySwitch Cellular Phone Adapter POWER INTEGRATIONS, INC. Application Device Power Output Input Voltage Output Voltage Cellular Phone TNY254 3.6 W 85 - 265 VAC 5.2 V ± 6% Design Highlights Topology Flyback These components also provide the necessary filtering to


    Original     		TNY254 PC40EE16-Z TNY254P TNY254 equivalent TNY254 EE16 core transformer 1N4005 1N4937 1N5230B 2N3904 FR201 PDF

    1n5399 equivalent

    Abstract: 1N5408 equivalent 1N5401 equivalent 1N4004 or 1N5404 UF4007 equivalent BY255 equivalent 1n5402 equivalent KBPC2502FP HER305 equivalent 1N4936 equivalent
    Text: PRODUCT NEWS Part number crosses to Semikron's obsolete components Rectron Semiconductor is pleased to offer alernative components against the recent Semikron announcement of obsoleting many different part numbers and/ or series in equivalent or as near as possible package case styles.


    Original     		1N4001 1N4002 1N4003 1N4004 1N4005 1N4006 1N4007 1N4933 1N4934 1N4935 1n5399 equivalent 1N5408 equivalent 1N5401 equivalent 1N4004 or 1N5404 UF4007 equivalent BY255 equivalent 1n5402 equivalent KBPC2502FP HER305 equivalent 1N4936 equivalent PDF

    EE16 bobbin

    Abstract: EE16B equivalent LNK363 schematic diagram of phone charger EE-16B 2 A GLASS PASSIVATED BRIDGE RECTIFIER LNK363 SS14 tip PC817D application example PC40EE16-Z
    Text: Design Example Report Title 3.0 W Charger using LNK363P Specification Input: 85 – 265 VAC Output: 5.0V / 600 mA Application Cell Phone Charger Author Power Integrations Applications Department Document Number DER-62 Date August 24, 2005 Revision 1.0 Summary and Features


    Original     		LNK363P DER-62 EE16 bobbin EE16B equivalent LNK363 schematic diagram of phone charger EE-16B 2 A GLASS PASSIVATED BRIDGE RECTIFIER LNK363 SS14 tip PC817D application example PC40EE16-Z PDF

    TNY264PN

    Abstract: flyback cell phone ac charger TNY266 Power Integrations DI-28 tny266 transformer ee13 ferrite transformer TNY264P tny266 Transformer Construction Parameters tny266 equivalent cell phone charger
    Text: Design Idea DI-28 ® TinySwitch-II 3 W Charger: <30 mW No-load Consumption Application Device Power Output Input Voltage Output Voltage Topology Charger TNY264P 3W 85-265 VAC 5 V, 600 mA Flyback the internal current source at no-load. Other load conditions


    Original     		DI-28 TNY264P CISPR-22 TNY264PN flyback cell phone ac charger TNY266 Power Integrations DI-28 tny266 transformer ee13 ferrite transformer TNY264P tny266 Transformer Construction Parameters tny266 equivalent cell phone charger PDF

    cell phone charger 3.7 V circuit diagram

    Abstract: EF16 TRANSFORMER cell phone charger 3.7 VDC TL431 2.5V TNY266 LTV817A SR206 equivalent flyback cell phone ac charger TOPSWITCH battery charger 2A schematic diagram of phone charger
    Text: Design Example Report Title 3.6W Charger using TNY266P Specification Input: 85 – 264 VAC Output: 5.1V / 700mA Application Cell Phone Charger Author Power Integrations Applications Department Document Number DER-6 Date February 4, 2004 Revision 1.0 Summary and Features


    Original     		TNY266P 700mA I414-9660 17F-3, cell phone charger 3.7 V circuit diagram EF16 TRANSFORMER cell phone charger 3.7 VDC TL431 2.5V TNY266 LTV817A SR206 equivalent flyback cell phone ac charger TOPSWITCH battery charger 2A schematic diagram of phone charger PDF

    mur1650

    Abstract: T4 SOD-123 1N4004 MR2510 1N2069 SES5001 mur420 equivalent CT PR1504 equivalent for fr302 diode mur 460 switch diode A14A surface mount
    Text: MBRB1045 Preferred Device SWITCHMODE Power Rectifier D2PAK Surface Mount Power Package The D2PAK Power Rectifier employs the Schottky Barrier principle in a large metal–to–silicon power diode. State–of–the–art geometry features epitaxial construction with oxide passivation and


    Original     		MBRB1045 VHE205 VHE210 VHE215 VHE220 VHE2401 VHE2402 VHE2403 VHE2404 VHE605 mur1650 T4 SOD-123 1N4004 MR2510 1N2069 SES5001 mur420 equivalent CT PR1504 equivalent for fr302 diode mur 460 switch diode A14A surface mount PDF

    A14F diode

    Abstract: DIODE marking ES2D V352 DC "Transient Voltage Suppressor" diode A14A rg3j 005 SR1002 0010C 357D-01 1N2069
    Text: MURS220T3 Preferred Device Surface Mount Ultrafast Power Rectifiers Ideally suited for high voltage, high frequency rectification, or as free wheeling and protection diodes in surface mount applications where compact size and weight are critical to the system.


    Original     		MURS220T3 VHE205 VHE210 VHE215 VHE220 VHE2401 VHE2402 VHE2403 VHE2404 VHE605 A14F diode DIODE marking ES2D V352 DC "Transient Voltage Suppressor" diode A14A rg3j 005 SR1002 0010C 357D-01 1N2069 PDF

    equivalent components of diode 1N5399

    Abstract: diode ses5001 6A10 BL diode equivalent for fr302 diode equivalent components of diode her104 fe8b diode FE8D gi756 diode A14F diode MUR420 diode
    Text: MBR6045WT SWITCHMODE Power Rectifier The SWITCHMODE power rectifier employs the use of the Schottky Barrier principle with a Platinum barrier metal. This state-of-the-art device has the following features: http://onsemi.com • Dual Diode Construction — Terminals 1 and 3 May Be Connected


    Original     		MBR6045WT VHE205 VHE210 VHE215 VHE220 VHE2401 VHE2402 VHE2403 VHE2404 VHE605 equivalent components of diode 1N5399 diode ses5001 6A10 BL diode equivalent for fr302 diode equivalent components of diode her104 fe8b diode FE8D gi756 diode A14F diode MUR420 diode PDF

    FE16B

    Abstract: mbr3045pt transistor FR102 SOD-123 1N4007 sod-123 BYV43-45 BYV19-45 MUR1660CT equivalent MUR460 BL FEP16DT 0032 mur420 equivalent
    Text: MBRP60035CTL Preferred Device POWERTAP II SWITCHMODE Power Rectifier The SWITCHMODE Power Rectifier uses the Schottky Barrier principle with a platinum barrier metal. This state-of-the-art device has the following features: http://onsemi.com • Dual Diode Construction —


    Original     		MBRP60035CTL VHE205 VHE210 VHE215 VHE220 VHE2401 VHE2402 VHE2403 VHE2404 VHE605 FE16B mbr3045pt transistor FR102 SOD-123 1N4007 sod-123 BYV43-45 BYV19-45 MUR1660CT equivalent MUR460 BL FEP16DT 0032 mur420 equivalent PDF

    DIODE 1n4005

    Abstract: JAN 1N4005 Zener Diode Table 3.3uF 400v 220v to 12v smps circuit current adjustable st viper 100 31 Viper20 application 1N4007 AN1317 ST VIPER 124
    Text: AN1489 Application note VIPower: non isolated power supply using VIPer20 with secondary regulation Introduction Output voltage regulation with adjustable feedback compensation loop is very simple when a VIPer device is used in low cost non-isolated applications. In this paper such a simple


    Original     		AN1489 VIPer20 VIPer20, DIODE 1n4005 JAN 1N4005 Zener Diode Table 3.3uF 400v 220v to 12v smps circuit current adjustable st viper 100 31 Viper20 application 1N4007 AN1317 ST VIPER 124 PDF

    BA100 diode

    Abstract: BA102 AAY20 B2M1-5 1N2528 PH1021 OA210 diode DIODE AA116 BB105 GAZ17
    Text: r im m i if Hill tWIBHHH ElBtlAlEHTS I SIISHIIffl IT 1 . 1. m n t IElHlllS{|iliitltrs|lfl The Grampians Shepherds Bush Road,. London W6 7NF ' ' Although every care is taken with the preparation o f this book the publishers will, not be responsible fo r any


    OCR Scan     		A4/10 A5/62 A5/105 A1000 AA100 AA110 AA111 AA112 AA113 AA114 BA100 diode BA102 AAY20 B2M1-5 1N2528 PH1021 OA210 diode DIODE AA116 BB105 GAZ17 PDF

    FD6666 diode

    Abstract: diode BY100 1N4Q07 BA100 diode BY164 BB139 BAY38 diode aa119 1S184 diode 1N82
    Text: mil UIIAGHRISnCS [M IN IS i SDISlimiS BY B J . B AB A N I la TANDY CORPORATION Although every c are is taken with the p rep aration of this book the p u b lish ers will not be resp on sib le for any e r r o r s that might occur. 1975 I. S. B. N. 0 900162 46 5


    OCR Scan     		A4/10 A5/62 A5/105 A1000 AA100 AA110 AA111 AA112 AA113 AA114 FD6666 diode diode BY100 1N4Q07 BA100 diode BY164 BB139 BAY38 diode aa119 1S184 diode 1N82 PDF

    sx3704

    Abstract: BRC157 BRC-116 Germanium Diode aa143 1n4148 ITT TRANSISTOR BC147 BC107/spice model bf199 BY238 SN76226DN tungsram
    Text: rh is Booklet • • • ue to fluctuations in availability, some types of semiconductors used in Thorn products have >f necessity changed from those originally specified and quoted in service literature. This )lus the fact that some service replacements are


    OCR Scan     		ircD376 BD234 VT854, VT855â VT854* iTT44, BZX79-C24, BZX83-C24, BZX88-C24 sx3704 BRC157 BRC-116 Germanium Diode aa143 1n4148 ITT TRANSISTOR BC147 BC107/spice model bf199 BY238 SN76226DN tungsram PDF

    1N4937 SMD

    Abstract: diode 1n4007 melf smd 2n5401 smd 1n4001 melf diode 1n4007 melf 2n2222a SOT223 1N4148 SOD-80 2n2222a SOT23 1N5819 SOD80 2N2369 SOT-23
    Text: Leaded to Surface Mount Equivalents LEADED SMD CASE COMMENTS 1N 914 CMPD 914 CLL914 CMPD28:i6 CMPD28IÌ8 CMPD7000 BAS28 SOT-23 SOD-80 SOT-23 SOT-23 SOT-23 SOT-143 Single Switching Diode Leadless Switching Diode Dual, Common Anode Dual, Common Cathode Dual, In Series


    OCR Scan     		CLL914 CMPD28 CMPD28I CMPD7000 BAS28 CMPD4448 CLL4448 CMPD41 CLL4150 BAS56 1N4937 SMD diode 1n4007 melf smd 2n5401 smd 1n4001 melf diode 1n4007 melf 2n2222a SOT223 1N4148 SOD-80 2n2222a SOT23 1N5819 SOD80 2N2369 SOT-23 PDF