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    MAX495 EQUIVALENT Search Results

    MAX495 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

    MAX495 EQUIVALENT Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    an163

    Abstract: car battery charger MAX495 MAX797 switchmode transformer
    Text: BATTERY MANAGEMENT Application Note 163: Oct 12, 1995 Battery Charger Delivers 2.5A With >96% Efficiency Battery chargers are usually designed without regard for efficiency, but the heat generated by lowefficiency chargers can present a problem. For those applications, the charger of Figure 1 delivers 2.5A


    Original     		PDF MAX495: MAX797: com/an163 an163 car battery charger MAX495 MAX797 switchmode transformer

    AN-851

    Abstract: AN851 APP851 MAX495 MAX797 battery charger
    Text: Maxim > App Notes > BATTERY MANAGEMENT Keywords: Battery Charger Delivers 2.5A With >96% Efficiency Oct 12, 1995 APPLICATION NOTE 851 Battery Charger Delivers 2.5A With >96% Efficiency Battery chargers are usually designed without regard for efficiency, but the heat generated by low-efficiency


    Original     		PDF com/an851 MAX495: MAX797: AN851, APP851, Appnote851, AN-851 AN851 APP851 MAX495 MAX797 battery charger

    AN-851

    Abstract: battery charger AN851 MAX797 car battery charger APP851 MAX495 switch-mode transformer Battery Charger Switching High Current Battery Charger
    Text: Maxim > App Notes > Battery management Keywords: battery charger, buck-mode switching regulator, synchronous rectifier, charge pump, charging efficiency Oct 12, 1995 APPLICATION NOTE 851 Battery charger delivers 2.5A with > 96% efficiency Abstract: This design note shows how a circuit with modified feedback paths transforms a switch-mode power supply into a highly


    Original     		PDF MAX797, MAX495 MAX797 com/an851 AN851, APP851, Appnote851, AN-851 battery charger AN851 car battery charger APP851 switch-mode transformer Battery Charger Switching High Current Battery Charger

    LMC6482 equivalent

    Abstract: LMC662 equivalent LMC6032 equivalent LMC6434 LMC660 equivalent TS970 LMC6032 MC33202 TS924 "pin compatible" OP284 TS921
    Text: + Rail to Rail Amplifier Process Technology + ST utilizes BiCMOS fabrication technology for many of its Rail to Rail Operational Amplifiers. BiCMOS technology allows for the integration of traditional bipolar and CMOS technologies within the same integrated circuit. In addition to the BiCMOS amplifiers, ST also offers Rail to Rail families in traditional CMOS.


    Original     		PDF technologyLMV358 LMV324 LMV821 LMV822 LMV824 LPV321 LPV358 LPV324 TS921 TS922 LMC6482 equivalent LMC662 equivalent LMC6032 equivalent LMC6434 LMC660 equivalent TS970 LMC6032 MC33202 TS924 "pin compatible" OP284 TS921

    tsc4429

    Abstract: TSC7660 TSC7107 TSC7106 TSC7109 TSC7117 TSC1426 TSC7650 tsc4427 lt1174
    Text: Code Key: PU – PP – FE – SP – Plug-In Upgrade Pin-for-Pin Compatible Functional Equivalent Similar Part AMCC MAXIM S3005 S3006 S3017 S3023 S3024 S3025 S3026 S3027 S3028B S3033 S3040 S3043 S3044 S3047 S3049 S3050 MAX3690 MAX3680 MAX3690 MAX3675 MAX3675


    Original     		PDF S3005 S3006 S3017 S3023 S3024 S3025 S3026 S3027 S3028B S3033 tsc4429 TSC7660 TSC7107 TSC7106 TSC7109 TSC7117 TSC1426 TSC7650 tsc4427 lt1174

    TRANSISTOR SUBSTITUTION 1993

    Abstract: Transistor Substitution Data Book MAX1771 WSL-2512-R025 MAX4005 MAX440 equivalent telefunken asic laser diode mosfet triggering circuit max761 Pin-for-Pin Compatible MAX2101
    Text: Volume Seventeen NEWS BRIEFS Maxim and Linear settle law suit 2 IN-DEPTH ARTICLES Power supplies for Pentium , PowerPC™, and beyond 3 New ICs boost video performance 8 DESIGN SHOWCASE NEW PRODUCTS Draw 150mW of isolated power from off-hook phone line 16


    Original     		PDF 12-bit 150mW 500Msps, MAX100/101) 300Msps MAX555) MAX306 500mA MAX603/604) TRANSISTOR SUBSTITUTION 1993 Transistor Substitution Data Book MAX1771 WSL-2512-R025 MAX4005 MAX440 equivalent telefunken asic laser diode mosfet triggering circuit max761 Pin-for-Pin Compatible MAX2101

    TSC7660

    Abstract: tsc4429 TSC7117 TSC7106 tsc7650 tsc7107 lt1174 TSC7109 TLV2274 transistor mc331
    Text: Code Key: PU – Plug-In Upgrade PP – Pin-for-Pin Compatible FE – Functional Equivalent SP – Similar Part Industry Cross-Reference Guide CODE AMCC MAXIM S3005 S3006 S3017 S3023 S3024 S3025 S3026 S3027 S3028B S3033 S3040 S3043 S3044 S3047 S3049 S3050


    Original     		PDF S3005 S3006 S3017 S3023 S3024 S3025 S3026 S3027 S3028B S3033 TSC7660 tsc4429 TSC7117 TSC7106 tsc7650 tsc7107 lt1174 TSC7109 TLV2274 transistor mc331

    MAX767CAP

    Abstract: No abstract text available
    Text: 19-0224; Rev 3; 7/00 ANUAL N KIT M EET IO T A U EVAL TA SH WS DA FOLLO 5V-to-3.3V, Synchronous, Step-Down Power-Supply Controller _Features The MAX767 is a high-efficiency, synchronous buck controller IC dedicated to converting a fixed 5V supply


    Original     		PDF MAX767 1-0003A MAX767 127mm 004in. 20-PIN MAX767CAP

    MAx192 equivalent

    Abstract: MAX192 MAX467 MAX547 MAX662A MAX1480 automatic off 12V battery charging by power scr 100MHz high-frequency generator maxim MAX038 notes Function Generator IC MAX038 with 20 pins
    Text: Volume Sixteen NEWS BRIEFS Maxim-Tektronix Deal Complete 2 IN-DEPTH ARTICLE New RS-232 ICs feature 1µA supply current, ±15kV ESD protection, and 3V operation 3 DESIGN SHOWCASE Dual, VOUT DAC consumes miniscule power 9 10 12 14 16 Allpass network shifts 90° over wide frequency range


    Original     		PDF RS-232 15-bit, MAX110/111) 10-bit, 13-bit MAX192) MAX547) MAX458/459) MAX467­ MAX47A1 MAx192 equivalent MAX192 MAX467 MAX547 MAX662A MAX1480 automatic off 12V battery charging by power scr 100MHz high-frequency generator maxim MAX038 notes Function Generator IC MAX038 with 20 pins

    MAX5302

    Abstract: 2N3904 MAX495 MAX5302CUA MAX5302EUA MAX873 Nippon capacitors
    Text: 19-1559; Rev 0; 10/99 Low-Power, 12-Bit Voltage-Output DAC with Serial Interface The MAX5302 combines a low-power, voltage-output, 12-bit digital-to-analog converter DAC and a precision output amplifier in an 8-pin µMAX package. It operates from a single +5V supply, drawing less than 280µA of


    Original     		PDF 12-Bit MAX5302 MAX5302 2N3904 MAX495 MAX5302CUA MAX5302EUA MAX873 Nippon capacitors

    MAX495 equivalent

    Abstract: Nippon capacitors
    Text: 19-1559; Rev 0; 10/99 Low-Power, 12-Bit Voltage-Output DAC with Serial Interface The MAX5302 combines a low-power, voltage-output, 12-bit digital-to-analog converter DAC and a precision output amplifier in an 8-pin µMAX package. It operates from a single +5V supply, drawing less than 280µA of


    Original     		PDF 12-Bit MAX5302 MAX5302 MAX495 equivalent Nippon capacitors

    MBR0502l

    Abstract: automatic change over switch circuit diagram step down transformer schematic diagram converter input 12v to 24v 4a computer smps circuit diagram step down transformer 30v step down transformer 200mA step down transformer 12v circuit diagram for 24V automatic battery charger block diagram of cath lab
    Text: 19-0221; Rev 2; 4/96 NUALS KIT MA ATION U EET L H A S V A E W DAT FOLLO Step-Down Controllers with Synchronous Rectifier for CPU Power _Features ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ 96% Efficiency 4.5V to 30V Input Range


    Original     		PDF 150kHz/300kHz MAX796CPE MAX796CSE MAX796C/Dice* MAX797ESE MAX797MJE MAX799CPE MAX799ESE MAX799MJE MAX799CSE MBR0502l automatic change over switch circuit diagram step down transformer schematic diagram converter input 12v to 24v 4a computer smps circuit diagram step down transformer 30v step down transformer 200mA step down transformer 12v circuit diagram for 24V automatic battery charger block diagram of cath lab

    FMMT619CT

    Abstract: MAX4135 MAX4501 MAX4514 MAX6301 MAX6314 MAX2XX ERIE TECHNOLOGICAL Baknor Electronics Industries Erie Technological Products
    Text: Volume Twenty-Four NEWS BRIEFS Maxim reports increased revenues and earnings 2 IN-DEPTH ARTICLE Charge pumps shine in portable designs 3 DESIGN SHOWCASE NEW PRODUCTS Turnkey power-supply solutions power Pentium Pro µPs 12 Low-power circuit reduces VCC audio ripple by 40dB


    Original     		PDF 10/12-bit, MAX117/118) MAX1247/1249) MAX4117/4118) MAX4135 MAX4501 MAX4514 MAX1600 MAX1603 MAX1601 FMMT619CT MAX6301 MAX6314 MAX2XX ERIE TECHNOLOGICAL Baknor Electronics Industries Erie Technological Products

    Nippon capacitors

    Abstract: No abstract text available
    Text: 19-1562; Rev 0; 10/99 10-Bit Voltage-Output DAC in 8-Pin µMAX Features The MAX5304 combines a low-power, voltage-output, 10-bit digital-to-analog converter DAC and a precision output amplifier in an 8-pin µMAX package. It operates from a single +5V supply, drawing less than 280µA of


    Original     		PDF 10-Bit MAX5304 MAX5304 Nippon capacitors

    TTL 7414

    Abstract: MAX767CAP CTX03 FULL WAVE mosfet RECTIFIER CIRCUITS MAX767 MAX767RCAP MAX767SCAP MAX767TCAP P54C
    Text: 19-0224; Rev 3; 7/00 ANUAL N KIT M EET IO T A U EVAL TA SH WS DA FOLLO 5V-to-3.3V, Synchronous, Step-Down Power-Supply Controller _Features The MAX767 is a high-efficiency, synchronous buck controller IC dedicated to converting a fixed 5V supply


    Original     		PDF MAX767 300kHz 1-0003A 127mm 004in. 20-PIN MAX767 TTL 7414 MAX767CAP CTX03 FULL WAVE mosfet RECTIFIER CIRCUITS MAX767RCAP MAX767SCAP MAX767TCAP P54C

    MAX767CAP

    Abstract: No abstract text available
    Text: 19-0224; Rev 3; 7/00 ANUAL N KIT M EET IO T A U EVAL TA SH WS DA FOLLO 5V-to-3.3V, Synchronous, Step-Down Power-Supply Controller _Features The MAX767 is a high-efficiency, synchronous buck controller IC dedicated to converting a fixed 5V supply


    Original     		PDF MAX767 300kHz 1-0003A 127mm 004in. 20-PIN MAX767 MAX767CAP

    Mtd75n03HDL

    Abstract: CTX03 MOS 4015 WSL-2512-R020 FULL WAVE mosfet RECTIFIER CIRCUITS MAX767CAP "Power Supply Controller" 10a h-bridge driver 10SA100M lr2010-01-r025
    Text: 19-0224; Rev 2; 8/94 ual Man et t i he nK atio Data S u l a Ev llows Fo 5V-to-3.3V, Synchronous, Step-Down Power-Supply Controller The MAX767 is a high-efficiency, synchronous buck controller IC dedicated to converting a fixed 5V supply into a tightly regulated 3.3V output. Two key features set


    Original     		PDF MAX767 300kHz 1-0003A 127mm 004in. 20-PIN MAX767 Mtd75n03HDL CTX03 MOS 4015 WSL-2512-R020 FULL WAVE mosfet RECTIFIER CIRCUITS MAX767CAP "Power Supply Controller" 10a h-bridge driver 10SA100M lr2010-01-r025

    MAX5304

    Abstract: MAX5304CUA MAX5304EUA pin configuration NPN transistor 2N3904 5v VOLTAGE DEPENDENT RESISTOR aT commands Nippon capacitors
    Text: 19-1562; Rev 0; 10/99 10-Bit Voltage-Output DAC in 8-Pin µMAX Applications Digital Offset and Gain Adjustment Features ♦ 10-Bit DAC with Configurable Output Amplifier ♦ +5V Single-Supply Operation ♦ Low Supply Current 0.28mA Normal Operation 2µA Shutdown Mode


    Original     		PDF 10-Bit MAX5304CUA MAX5304EUA MAX5304 MAX5304 MAX5304CUA MAX5304EUA pin configuration NPN transistor 2N3904 5v VOLTAGE DEPENDENT RESISTOR aT commands Nippon capacitors

    MAX5354CUA

    Abstract: 5.1 dac 8 pin 4v power supply converter MAX5354 MAX5354CPA MAX5354EPA MAX5354EUA MAX5354MJA
    Text: 19-1167; Rev 0; 12/96 10-Bit Voltage-Output DAC in 8-Pin µMAX _Features The MAX5354 combines a low-power, voltage-output, 10-bit digital-to-analog converter DAC and a precision output amplifier in an 8-pin package. The amplifier’s


    Original     		PDF 10-Bit MAX5354 21-0036D MAX5354CUA 5.1 dac 8 pin 4v power supply converter MAX5354CPA MAX5354EPA MAX5354EUA MAX5354MJA

    2N3904

    Abstract: Nippon capacitors
    Text: 19-1562; Rev 0; 10/99 10-Bit Voltage-Output DAC in 8-Pin µMAX Applications Digital Offset and Gain Adjustment Features ♦ 10-Bit DAC with Configurable Output Amplifier ♦ +5V Single-Supply Operation ♦ Low Supply Current 0.28mA Normal Operation 2µA Shutdown Mode


    Original     		PDF 10-Bit MAX5304 MAX5304 2N3904 Nippon capacitors

    MAX797

    Abstract: MAX796 MAX796CPE MAX796CSE MAX796EPE MAX796ESE MAX799 MBR0502l
    Text: 19-0221; Rev 3a; 11/97 UALS IT MAN TION K A ET U E L H A S A EV W DAT FOLLO Step-Down Controllers with Synchronous Rectifier for CPU Power The MAX796/MAX797/MAX799 high-performance, stepdown DC-DC converters with single or dual outputs provide main CPU power in battery-powered systems.


    Original     		PDF MAX796/MAX797/MAX799 300kHz MAX797ESE MAX797MJE MAX799CPE MAX799ESE MAX799MJE MAX799CSE MAX799C/D MAX799EPE MAX797 MAX796 MAX796CPE MAX796CSE MAX796EPE MAX796ESE MAX799 MBR0502l

    Untitled

    Abstract: No abstract text available
    Text: 19-1559; Rev 0; 10/99 Low-Power, 12-Bit Voltage-Output DAC with Serial Interface Features The MAX5302 combines a low-power, voltage-output, 12-bit digital-to-analog converter DAC and a precision output amplifier in an 8-pin µMAX package. It operates from a single +5V supply, drawing less than 280µA of


    Original     		PDF 12-Bit MAX5302 MAX5302

    buffer op-amp catalogue

    Abstract: MAX4106 MAX195 MAX410 MAX4104 MAX4256 High Voltage Linear Amplifier ultrasound Low Noise Op Amps equivalent AB-098 MAX4107 equivalent
    Text: A/D and D/A CONVERSION/SAMPLING CIRCUITS AMPLIFIER AND COMPARATOR CIRCUITS Application Note 702: Mar 16, 2000 Choosing The Optimum Buffer/ADC Combination For Your Application This article helps the designer of a data converter system to select the proper input buffer to achieve


    Original     		PDF com/an702 buffer op-amp catalogue MAX4106 MAX195 MAX410 MAX4104 MAX4256 High Voltage Linear Amplifier ultrasound Low Noise Op Amps equivalent AB-098 MAX4107 equivalent

    Untitled

    Abstract: No abstract text available
    Text: 19-1562; Rev 0; 10/99 10-Bit Voltage-Output DAC in 8-Pin µMAX The output amplifier’s inverting input is available to the user, allowing specific gain configurations, remote sensing, and high output-current capability. This makes the MAX5304 ideal for a wide range of applications,


    Original     		PDF 10-Bit MAX5304 16-bit MAX5304