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    VOLTAGE SUPERVISORY AUTOMOTIVE ST Search Results

    VOLTAGE SUPERVISORY AUTOMOTIVE ST Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    GCM32ED70J476KE02L
    		Murata Manufacturing Co Ltd Chip Multilayer Ceramic Capacitors for Automotive PDF
    GCM21BC71E106KE36L
    		Murata Manufacturing Co Ltd Chip Multilayer Ceramic Capacitors for Automotive PDF
    GCM32D5C3A472GX01L
    		Murata Manufacturing Co Ltd Chip Multilayer Ceramic Capacitors for Automotive PDF
    GCM32D5C3A682FX01L
    		Murata Manufacturing Co Ltd Chip Multilayer Ceramic Capacitors for Automotive PDF
    GCM32D5C3A822JX01L
    		Murata Manufacturing Co Ltd Chip Multilayer Ceramic Capacitors for Automotive PDF

    VOLTAGE SUPERVISORY AUTOMOTIVE ST Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    MAX690A

    Abstract: MAX690 MAX692 MAX694 MAX805L max690acpa MAX802L
    Contextual Info: 19-4333; Rev 3; 9/93 Microprocessor Supervisory Circuits _Applications Battery-Powered Computers and Controllers Intelligent Instruments Automotive Systems Critical µP Power Monitoring _Features ♦ Precision Supply-Voltage Monitor:


    Original     		MAX690A/MAX802L/MAX805L MAX692A/MAX802M 200ms MAX802L/M) MAX805LESA MAX805LMJA MIL-STD-883. MAX690A MAX690 MAX692 MAX694 MAX805L max690acpa MAX802L PDF

    car sensor ignition

    Abstract: AD5100YRQZ CAR ALTERNATOR active REGULATOR NDT2955 1523 IC circuit diagram CAR ALTERNATOR REGULATOR AD5100 DR331-7-103 MMBZ27VCL RQ-16
    Contextual Info: System Management IC with Factory Programmed Quad Voltage Monitoring and Supervisory Functions AD5100 FEATURES GENERAL DESCRIPTION Qualified for automotive applications 2 device-enabling outputs with 6 factory programmed monitoring inputs see Table 1 Two 30 V monitoring inputs with shutdown control of


    Original     		AD5100 D05692-0-6/10 car sensor ignition AD5100YRQZ CAR ALTERNATOR active REGULATOR NDT2955 1523 IC circuit diagram CAR ALTERNATOR REGULATOR AD5100 DR331-7-103 MMBZ27VCL RQ-16 PDF

    5V voltage regulator PC 2405

    Abstract: MAX6796 MAX6791 MAX6791TP MAX6792TP MAX6793TP MAX6794 MAX6794TP MAX6795TP
    Contextual Info: 19-3875; Rev 0; 11/05 KIT ATION EVALU E L B AVAILA High-Voltage, Micropower, Single/Dual Linear Regulators with Supervisory Functions Features The MAX6791MAX6796 ultra-low-quiescent-current, single-/dual-output linear regulators are ideal for automotive applications. The devices offer a wide 5V to 72V


    Original     		MAX6791 MAX6796 MAX6794 150mA MAX6795/MAX6796 300mA. MAX6796 5V voltage regulator PC 2405 MAX6791TP MAX6792TP MAX6793TP MAX6794TP MAX6795TP PDF

    MAX691A

    Abstract: MAX691 MAX693 MAX693A MAX695 MAX800 MAX800L MAX800M max691acpe
    Contextual Info: Maxim > Products > [Supervisors, Voltage Monitors, Sequencers] [Military/Aerospace] MAX691A, MAX693A, MAX800, MAX800L, MAX800M Microprocessor Supervisory Circuits Industry-Standard, Full-Function µP Supervisor Description The MAX691A/MAX693A/MAX800L/MAX800M microprocessor µP supervisory circuits are pin-compatible upgrades to the MAX691, MAX693, and MAX695.


    Original     		MAX691A, MAX693A, MAX800, MAX800L, MAX800M MAX691A/MAX693A/MAX800L/MAX800M MAX691, MAX693, MAX695. 200ms MAX691A MAX691 MAX693 MAX693A MAX695 MAX800 MAX800L MAX800M max691acpe PDF

    aircraft voltage regulator

    Abstract: speed control using voltage regulator MC33889 SG1002 SG187 MC33889BDW MCZ33889
    Contextual Info: Analog Products Fact Sheet Power Management MC33889 System Basis Chip Lite with Low Speed Fault Tolerant CAN Interface DESCRIPTION An SBC device is a monolithic, IC combining many functions repeatedly found in standard microcontroller-based systems, e.g., protection,


    Original     		MC33889 MC33889FS MC33889BDW/R2 MCZ33889BEG/R2 MC33889DDW/R2 MCZ33889DEG/R2 MC33889FS aircraft voltage regulator speed control using voltage regulator MC33889 SG1002 SG187 MC33889BDW MCZ33889 PDF

    MAX690A

    Abstract: MAX692A MAX802L MAX802M MAX805L Baknor Electronics Industries
    Contextual Info: Maxim > Products > [Supervisors, Voltage Monitors, Sequencers] [Military/Aerospace] MAX690A, MAX692A, MAX802L, MAX802M, MAX805L Microprocessor Supervisory Circuits Industry-Standard, Full-Function uP Supervisor Data Sheet Description The MAX690A/MAX692A/MAX802L/MAX802M/MAX805L reduce the complexity and number of components required for power-supply monitoring and


    Original     		MAX690A, MAX692A, MAX802L, MAX802M, MAX805L MAX690A/MAX692A/MAX802L/MAX802M/MAX805L MS012 MAX690A MAX692A MAX802L MAX802M MAX805L Baknor Electronics Industries PDF

    Lithium Battery Protection Circuit for Battery P

    Abstract: ET-16
    Contextual Info: ADVANCE INFORMATION yuyixiVM All information in this data sheet is preliminary and subject to change. 8/94 In te g ra te d jxP Supervisory M odule w ith Lithium Backup B a tte ry The internal 3V, 125mAh lithium battery connects to the HP supervisory circuit through external pin strapping,


    OCR Scan     		MAX1691 125mAh 250mA A0-A15 UAX1S91 MAX1691 Lithium Battery Protection Circuit for Battery P ET-16 PDF

    Contextual Info: 19-0208, RevO; 10/93 >kl>iX I>kl In te g ra te d Microprocessor Supervisory Moduie w ith Lithium Backup B a ttery The internal +3V 125mAh lithium battery connects to the n-P supervisory circuit through external pin strap­ ping, minimizing battery drain during shipping.


    OCR Scan     		125mAh MAX1691 200ms 16-Pin, PDF

    TPS3306-15-Q1

    Abstract: TPS3306-33-Q1 TPS3306-18-Q1 TPS3306-25-Q1
    Contextual Info: TPS3306Ć15ĆQ1, TPS3306Ć18ĆQ1, TPS3306Ć20ĆQ1, TPS3306Ć25ĆQ1, TPS3306Ć33ĆQ1 DUAL PROCESSOR SUPERVISORY CIRCUITS WITH POWERĆFAIL SGLS241 − MARCH 2004 D Qualification in Accordance With D D D D D D D D D D D D D AEC-Q100† Qualified for Automotive Applications


    Original     		TPS330615Q1, TPS330618Q1, TPS330620Q1, TPS330625Q1, TPS330633Q1 SGLS241 AEC-Q100 TPS3306-15-Q1 TPS3306-33-Q1 TPS3306-18-Q1 TPS3306-25-Q1 PDF

    TPS3306-15-Q1

    Abstract: TPS3306-18-Q1 TPS3306-33-Q1 TPS3306-25-Q1
    Contextual Info: TPS3306Ć15ĆQ1, TPS3306Ć18ĆQ1, TPS3306Ć20ĆQ1, TPS3306Ć25ĆQ1, TPS3306Ć33ĆQ1 DUAL PROCESSOR SUPERVISORY CIRCUITS WITH POWERĆFAIL SGLS241 − MARCH 2004 D Qualification in Accordance With D D D D D D D D D D D D D AEC-Q100† Qualified for Automotive Applications


    Original     		TPS330615Q1, TPS330618Q1, TPS330620Q1, TPS330625Q1, TPS330633Q1 SGLS241 AEC-Q100 TPS3306-15-Q1 TPS3306-18-Q1 TPS3306-33-Q1 TPS3306-25-Q1 PDF

    TPS3306-15-Q1

    Abstract: TPS3306-18-Q1 TPS3306-33-Q1 TPS3306-20-Q1 TPS3306-25-Q1
    Contextual Info: TPS3306Ć15ĆQ1, TPS3306Ć18ĆQ1, TPS3306Ć20ĆQ1, TPS3306Ć25ĆQ1, TPS3306Ć33ĆQ1 DUAL PROCESSOR SUPERVISORY CIRCUITS WITH POWERĆFAIL SGLS241 − MARCH 2004 D Qualification in Accordance With D D D D D D D D D D D D D AEC-Q100† Qualified for Automotive Applications


    Original     		TPS330615Q1, TPS330618Q1, TPS330620Q1, TPS330625Q1, TPS330633Q1 SGLS241 AEC-Q100 TPS3306-15-Q1 TPS3306-18-Q1 TPS3306-33-Q1 TPS3306-20-Q1 TPS3306-25-Q1 PDF

    TPS3306-15-Q1

    Abstract: 618Q1 TPS3306-18-Q1 TPS3306-33-Q1 TPS3306-20-Q1 TPS3306-25-Q1
    Contextual Info: TPS3306Ć15ĆQ1, TPS3306Ć18ĆQ1, TPS3306Ć20ĆQ1, TPS3306Ć25ĆQ1, TPS3306Ć33ĆQ1 DUAL PROCESSOR SUPERVISORY CIRCUITS WITH POWERĆFAIL SGLS241 − MARCH 2004 D Qualification in Accordance With D D D D D D D D D D D D D AEC-Q100† Qualified for Automotive Applications


    Original     		TPS330615Q1, TPS330618Q1, TPS330620Q1, TPS330625Q1, TPS330633Q1 SGLS241 AEC-Q100 TPS3306-15-Q1 618Q1 TPS3306-18-Q1 TPS3306-33-Q1 TPS3306-20-Q1 TPS3306-25-Q1 PDF

    TPS3306-15-Q1

    Abstract: TPS3306-33-Q1 TPS3306-20-Q1 33 1004 counter TPS3306-18-Q1 TPS3306-25-Q1
    Contextual Info: TPS3306Ć15ĆQ1, TPS3306Ć18ĆQ1, TPS3306Ć20ĆQ1, TPS3306Ć25ĆQ1, TPS3306Ć33ĆQ1 DUAL PROCESSOR SUPERVISORY CIRCUITS WITH POWERĆFAIL SGLS241 − MARCH 2004 D Qualification in Accordance With D D D D D D D D D D D D D AEC-Q100† Qualified for Automotive Applications


    Original     		TPS330615Q1, TPS330618Q1, TPS330620Q1, TPS330625Q1, TPS330633Q1 SGLS241 AEC-Q100 TPS3306-15-Q1 TPS3306-33-Q1 TPS3306-20-Q1 33 1004 counter TPS3306-18-Q1 TPS3306-25-Q1 PDF

    LPC935

    Abstract: LPC9351 LPC9321 P89LPC935 80C51 LPC900 P89LPC932A1 PLCC28 TSSOP28 processor 9351
    Contextual Info: NXP 80C51-based microcontrollers LPC9321/LPC9351 8-bit MCUs in 28-pin packages with enhanced Headline RC-oscillator and programmable gain amplifier Designed for highly integrated, low-cost applications requiring advanced peripherals in 28-pin packages, these accelerated microcontrollers deliver performance six times that of standard


    Original     		80C51-based LPC9321/LPC9351 28-pin 28-pin 80C51-based LPC900 80C51 LPC9351 LPC9321 16-bit LPC935 LPC9321 P89LPC935 P89LPC932A1 PLCC28 TSSOP28 processor 9351 PDF

    MAX6897AAZT/V T

    Abstract: MAX6896AALT MAX6897
    Contextual Info: EVALUATION KIT AVAILABLE MAX6895MAX6899 Ultra-Small, Adjustable Sequencing/ Supervisory Circuits General Description Features The MAX6895MAX6899 is a family of small, low-power, voltage-monitoring circuits with sequencing capability. These miniature devices offer tremendous flexibility with


    Original     		MAX6895â MAX6899 MAX6899 MAX6897AAZT/V T MAX6896AALT MAX6897 PDF

    Contextual Info: Freescale Semiconductor, Inc. ANALOG PRODUCTS PC33997 3.3 / 5.0 VOLT SWITCHING POWER SUPPLY An additional 3.3 V output is provided for standby use along with two internally protected low RDS on LDMOS 5.0 V outputs for sensor use. Separate Enable inputs provide main


    Original     		PC33997 PC33997FS/D PDF

    LPC915

    Abstract: LPC916 LPC917 16028 80C51 LPC912 14-One
    Contextual Info: NXP 80C51-based microcontrollers LPC91x Accelerated 8-bit Flash MCUs for high performance and low power These accelerated microcontrollers, available in 14- and 16-pin TSSOP packages, deliver performance six times that of standard 80C51-based MCUs. They are ideal of use in applications


    Original     		80C51-based LPC91x 16-pin 80C51-based 80C51 16-bit TSSOP16 LPC916 LPC915 LPC916 LPC917 16028 LPC912 14-One PDF

    AEC-Q100

    Abstract: Q100 TPS3836E18 TPS3837E18 TPS3838E18 TPS3838E18-Q1
    Contextual Info: ą TPS3836E18ĆQ1 / J25ĆQ1 / H30ĆQ1 / L30ĆQ1 / K33ĆQ1 TPS3837E18ĆQ1 / J25ĆQ1 / L30ĆQ1 / K33ĆQ1, TPS3838E18ĆQ1 / J25ĆQ1 / L30ĆQ1 / K33ĆQ1 NANOPOWER SUPERVISORY CIRCUITS SGLS141 – DECEMBER 2002 D Qualification in Accordance With D D D D D D D D


    Original     		TPS3836E18Q1 J25Q1 H30Q1 L30Q1 K33Q1 TPS3837E18Q1 K33Q1, TPS3838E18Q1 AEC-Q100 Q100 TPS3836E18 TPS3837E18 TPS3838E18 TPS3838E18-Q1 PDF

    TPS3836K33-Q1

    Abstract: TPS3836H30-Q1 TPS3838E18-Q1 TPS3836L30-Q1 TPS3838J25-Q1 TPS3838K33 TPS3836E18-Q1 TPS3837E18-Q1 TPS3836J25-EP TPS3836J25-Q1
    Contextual Info: TPS3836E18-Q1 / J25-Q1 / H30-Q1 / L30-Q1 / K33-Q1 TPS3837E18-Q1 / J25-Q1 / L30-Q1 / K33-Q1, TPS3838E18-Q1 / J25-Q1 / L30-Q1 / K33-Q1 NANOPOWER SUPERVISORY CIRCUITS SGLS141A − DECEMBER 2002 − REVISED JANUARY 2007 D Qualified for Automotive Applications


    Original     		TPS3836E18-Q1 J25-Q1 H30-Q1 L30-Q1 K33-Q1 TPS3837E18-Q1 K33-Q1, TPS3838E18-Q1 TPS3836K33-Q1 TPS3836H30-Q1 TPS3836L30-Q1 TPS3838J25-Q1 TPS3838K33 TPS3836J25-EP TPS3836J25-Q1 PDF

    TPS3836H30-Q1

    Abstract: TPS3836K33-Q1 TPS3836L30-Q1 TPS3838K33 TPS3838E18-Q1 TPS3836J25-EP TPS3836J25-Q1 TPS3838L30-Q1 TPS3838K33-Q1
    Contextual Info: М TPS3836E18-Q1 / J25-Q1 / H30-Q1 / L30-Q1 / K33-Q1 TPS3837E18-Q1 / J25-Q1 / L30-Q1 / K33-Q1, TPS3838E18-Q1 / J25-Q1 / L30-Q1 / K33-Q1 NANOPOWER SUPERVISORY CIRCUITS SGLS141A − DECEMBER 2002 − REVISED JANUARY 2007 D Qualified for Automotive Applications


    Original     		TPS3836E18-Q1 J25-Q1 H30-Q1 L30-Q1 K33-Q1 TPS3837E18-Q1 K33-Q1, TPS3838E18-Q1 TPS3836H30-Q1 TPS3836K33-Q1 TPS3836L30-Q1 TPS3838K33 TPS3836J25-EP TPS3836J25-Q1 TPS3838L30-Q1 TPS3838K33-Q1 PDF

    618Q1

    Abstract: TPS3306-15-Q1 TPS3306-18-Q1 TPS3306-33-Q1 TPS3306-20-Q1 TPS3306-25-Q1
    Contextual Info: TPS3306Ć15ĆQ1, TPS3306Ć18ĆQ1, TPS3306Ć20ĆQ1, TPS3306Ć25ĆQ1, TPS3306Ć33ĆQ1 DUAL PROCESSOR SUPERVISORY CIRCUITS WITH POWER FAIL SGLS241B − MARCH 2004 − REVISED APRIL 2008 D Qualified for Automotive Applications D Dual Supervisory Circuits With Power Fail


    Original     		TPS330615Q1, TPS330618Q1, TPS330620Q1, TPS330625Q1, TPS330633Q1 SGLS241B 100-ms 618Q1 TPS3306-15-Q1 TPS3306-18-Q1 TPS3306-33-Q1 TPS3306-20-Q1 TPS3306-25-Q1 PDF

    TPS3306-33-Q1

    Abstract: TPS3306-18-Q1 TPS3306-15-Q1 TPS3306-25-Q1
    Contextual Info: TPS3306Ć15ĆQ1, TPS3306Ć18ĆQ1, TPS3306Ć20ĆQ1, TPS3306Ć25ĆQ1, TPS3306Ć33ĆQ1 DUAL PROCESSOR SUPERVISORY CIRCUITS WITH POWER FAIL SGLS241B − MARCH 2004 − REVISED APRIL 2008 D Qualified for Automotive Applications D Dual Supervisory Circuits With Power Fail


    Original     		TPS3306Ä SGLS241B 100-ms TPS3306-33-Q1 TPS3306-18-Q1 TPS3306-15-Q1 TPS3306-25-Q1 PDF

    TPS3838E18-Q1

    Contextual Info: ą TPS3836E18ĆQ1 / J25ĆQ1 / H30ĆQ1 / L30ĆQ1 / K33ĆQ1 TPS3837E18ĆQ1 / J25ĆQ1 / L30ĆQ1 / K33ĆQ1, TPS3838E18ĆQ1 / J25ĆQ1 / L30ĆQ1 / K33ĆQ1 NANOPOWER SUPERVISORY CIRCUITS SGLS141 – DECEMBER 2002 D Qualification in Accordance With D D D D D D D D


    Original     		TPS3836E18Q1 J25Q1 H30Q1 L30Q1 K33Q1 TPS3837E18Q1 K33Q1, TPS3838E18Q1 TPS3838E18-Q1 PDF

    TPS3836K33-Q1

    Abstract: TPS3836H30-Q1 TPS3838J25-Q1 TPS3836J25-Q1 TPS3836L30-Q1 TPS3838K33 TPS3838E18-Q1 TPS3836J25-EP TPS3838L30-Q1 TPS3838K33-Q1
    Contextual Info: TPS3836E18-Q1 / J25-Q1 / H30-Q1 / L30-Q1 / K33-Q1 TPS3837E18-Q1 / J25-Q1 / L30-Q1 / K33-Q1, TPS3838E18-Q1 / J25-Q1 / L30-Q1 / K33-Q1 NANOPOWER SUPERVISORY CIRCUITS SGLS141A − DECEMBER 2002 − REVISED JANUARY 2007 D Qualified for Automotive Applications


    Original     		TPS3836E18-Q1 J25-Q1 H30-Q1 L30-Q1 K33-Q1 TPS3837E18-Q1 K33-Q1, TPS3838E18-Q1 TPS3836K33-Q1 TPS3836H30-Q1 TPS3838J25-Q1 TPS3836J25-Q1 TPS3836L30-Q1 TPS3838K33 TPS3836J25-EP TPS3838L30-Q1 TPS3838K33-Q1 PDF