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    REAL TIME CLOCK WITH INTERNAL OSCILLATOR Search Results

    REAL TIME CLOCK WITH INTERNAL OSCILLATOR Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TB67S539FTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Bipolar Type/Vout(V)=40/Iout(A)=2/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S149AFTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Unipolar Type/Vout(V)=84/Iout(A)=3/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S549FTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Bipolar Type/Vout(V)=40/Iout(A)=1.5/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S589FTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver / Bipolar Type / Vout(V)=50 / Iout(A)=3.0 / CLK input type / VQFN32 Visit Toshiba Electronic Devices & Storage Corporation
    TB67S589FNG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver / Bipolar Type / Vout(V)=50 / Iout(A)=3.0 / CLK input type / HTSSOP28 Visit Toshiba Electronic Devices & Storage Corporation

    REAL TIME CLOCK WITH INTERNAL OSCILLATOR Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    RP5C01

    Abstract: RP5C01A MX-38T RF5C01A RP/RF5C01A
    Text: REAL-TIME CLOCK WITH INTERNAL RAM NO. EK-086-9804 RP/RF5C01A OUTLINE The RP/RF5C01A are real-time clocks for microcomputers that can be connected directly to buses of microcomputers with such CPUs as the 8085A or Z80 and allow setting or reading of the clock with the same procedures as


    Original     		EK-086-9804 RP/RF5C01A RP/RF5C01A RP5C01 RP5C01A MX-38T RF5C01A PDF

    AVR1314: Using the XMEGA Real Time Counter

    Abstract: AVR1314 ir c source code AVR AVR1001 AVR1003 rtc battery monitor
    Text: AVR1314: Using the XMEGA Real Time Counter Features • 16- bit RTC with programmable period and alarm. • Clock source options - Accurate Internal 32 kHz RC oscillator - Ultra Low Power Internal 32 kHz RC oscillator - External 32 kHz crystal oscillator.


    Original     		AVR1314: 047A-AVR-02/08 AVR1314: Using the XMEGA Real Time Counter AVR1314 ir c source code AVR AVR1001 AVR1003 rtc battery monitor PDF

    RC CLOCK Oscillator

    Abstract: No abstract text available
    Text: SC65CA0204 8-Bit MCU FOR REMOTE CONTROLLER WITH RTC MASK TYPE DESCRIPTION The SC65CA0204 is a digital infrared remote controller with real-time clock and temperature measure. The internal RTC module provides the functions of calendar, clock, and leap year auto switchover. Also it has


    Original     		SC65CA0204 SC65CA0204 OP-28-375-1 32KHz. RC CLOCK Oscillator PDF

    C-002RX

    Abstract: VT-200 X1240 X12401
    Text: Preliminary Information X1240 16K 2-Wire RTC Real Time Clock/Calendar with EEPROM FEATURES DESCRIPTION • 2-Wire Interface interoperable with I2C. —400kHz data transfer rate • Secondary Power Supply Input with internal switch-over circuitry. • Year 2000 Compliant


    Original     		X1240 --400kHz X1240 C-002RX VT-200 X12401 PDF

    C-002RX

    Abstract: VT-200 X1240
    Text: Preliminary Information X1240 16K 2-Wire RTC Real Time Clock/Calendar with EEPROM FEATURES DESCRIPTION • 2-wire interface interoperable with I2C —400kHz data transfer rate • Secondary power supply input with internal switch-over circuitry • 2Kbytes of EEPROM


    Original     		X1240 --400kHz --64-byte X1240 C-002RX VT-200 PDF

    CFS-206

    Abstract: X1240 X1240S8
    Text: Preliminary Information X1240 16K 2-Wire RTC Real Time Clock/Calendar with EEPROM FEATURES DESCRIPTION • 2-wire interface interoperable with I2C —400kHz data transfer rate • Secondary power supply input with internal switch-over circuitry • 2Kbytes of EEPROM


    Original     		X1240 --400kHz --64-byte X1240 CFS-206 X1240S8 PDF

    TSSOP footprint

    Abstract: No abstract text available
    Text: Preliminary Information X1240 16K 2-Wire RTC Real Time Clock/Calendar with EEPROM FEATURES DESCRIPTION • 2 Wire Interface Interoperable with I2C —400kHz data transfer rate • Secondary Power Supply Input with Internal Switch-Over Circuitry • Year 2000 Compliant


    Original     		X1240 --400kHz X1240 TSSOP footprint PDF

    DS1270W

    Abstract: DS3070W DS3070W-100 automatica
    Text: Rev 1; 10/06 3.3V Single-Piece 16Mb Nonvolatile SRAM with Clock The DS3070W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3070W 2000-compliant 256-ball E99151. DS1270W DS3070W-100 automatica PDF

    DS3070W

    Abstract: No abstract text available
    Text: Rev 0; 6/06 3.3V Single-Piece 16Mb Nonvolatile SRAM with Clock The DS3070W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3070W 2000-compliant 256-ball E99151. PDF

    Untitled

    Abstract: No abstract text available
    Text: Rev 0; 4/05 3.3V Single-Piece 8Mb Nonvolatile SRAM with Clock The DS3065W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3065W 2000-compliant 256-ball E99151. PDF

    DS1245W

    Abstract: DS3045W DS3045W-100
    Text: Rev 0; 6/05 3.3V Single-Piece 1Mb Nonvolatile SRAM with Clock The DS3045W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3045W 2000-compliant 256-ball E99151. DS1245W DS3045W-100 PDF

    fire alarm

    Abstract: DS1250W DS3050W DS3050W-100
    Text: Rev 0; 4/05 3.3V Single-Piece 4Mb Nonvolatile SRAM with Clock The DS3050W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3050W 2000-compliant 256-ball E99151. fire alarm DS1250W DS3050W-100 PDF

    Untitled

    Abstract: No abstract text available
    Text: Rev 1; 5/06 3.3V Single-Piece 256kb Nonvolatile SRAM with Clock The DS3030W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		256kb DS3030W 2000-compliant 256-ball E99151. PDF

    AM2 Processor Functional Data Sheet

    Abstract: AM3 Processor Functional Data Sheet fire alarm transistor t18 FET DS1265W DS3065W DS3065W-100 TCO100
    Text: Rev 2; 10/06 3.3V Single-Piece 8Mb Nonvolatile SRAM with Clock The DS3065W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3065W 2000-compliant 256-ball E99151. AM2 Processor Functional Data Sheet AM3 Processor Functional Data Sheet fire alarm transistor t18 FET DS1265W DS3065W-100 TCO100 PDF

    K19 FET

    Abstract: DS3065W-100 DS1265W DS3065W
    Text: Rev 0; 4/05 3.3V Single-Piece 8Mb Nonvolatile SRAM with Clock The DS3065W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3065W 2000-compliant 256-ball E99151. K19 FET DS3065W-100 DS1265W PDF

    DS1250W

    Abstract: DS3050W DS3050W-100
    Text: Rev 0; 4/05 3.3V Single-Piece 4Mb Nonvolatile SRAM with Clock The DS3050W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3050W 2000-compliant 256-ball E99151. DS1250W DS3050W-100 PDF

    Untitled

    Abstract: No abstract text available
    Text: Rev 1; 5/06 3.3V Single-Piece 4Mb Nonvolatile SRAM with Clock The DS3050W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3050W 2000-compliant 256-ball E99151. PDF

    DS1245W

    Abstract: DS3045W DS3045W-100
    Text: Rev 2; 10/06 3.3V Single-Piece 1Mb Nonvolatile SRAM with Clock The DS3045W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3045W 2000-compliant 256-ball E99151. DS1245W DS3045W-100 PDF

    DS1250W

    Abstract: DS3050W DS3050W-100
    Text: Rev 2; 10/06 3.3V Single-Piece 4Mb Nonvolatile SRAM with Clock The DS3050W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3050W 2000-compliant 256-ball E99151. DS1250W DS3050W-100 PDF

    DS1230W

    Abstract: DS3030W DS3030W-100
    Text: Rev 2; 10/06 3.3V Single-Piece 256kb Nonvolatile SRAM with Clock The DS3030W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		256kb DS3030W 2000-compliant 256-ball E99151. DS1230W DS3030W-100 PDF

    Untitled

    Abstract: No abstract text available
    Text: Rev 1; 5/06 3.3V Single-Piece 1Mb Nonvolatile SRAM with Clock The DS3045W consists of a static RAM, a nonvolatile NV controller, a year 2000-compliant real-time clock (RTC), and an internal rechargeable manganese lithium (ML) battery. These components are encased in a surface-mount module with a 256-ball BGA footprint.


    Original     		DS3045W 2000-compliant 256-ball E99151. PDF

    Untitled

    Abstract: No abstract text available
    Text: It rui REAL-TIME CLOCK WITH INTERNAL RAM JL NO. EK-086-9804 RP/RF5C01A OUTLINE The RP/RF5C01A are real-time clocks for microcomputers that can be connected directly to buses of microcom­ puters with such CPUs as the 8085A or Z80 and allow setting or reading of the clock with the same procedures as


    OCR Scan     		EK-086-9804 RP/RF5C01A RP/RF5C01A PDF

    MX38T

    Abstract: MX-38T RP5C01 RP5C01A kdsi Denpa mx38 RF5C01A alarm clock circuit 4 digits 40 pin
    Text: It REAL-TIME CLOCK WITH INTERNAL RAM ru i JL NO. EK-086-9804 RP/RF5C01A OUTLINE The RP/RF5C01A are real-time clocks for microcomputers that can be connected directly to buses of microcom­ puters with such CPUs as the 8085A or Z80 and allow setting or reading of the clock with the same procedures as


    OCR Scan     		RP/RF5C01A EK-086-9804 RP/RF5C01A MX38T MX-38T RP5C01 RP5C01A kdsi Denpa mx38 RF5C01A alarm clock circuit 4 digits 40 pin PDF

    MX38T

    Abstract: MX-38T
    Text: It IT REAL-TIME CLOCK WITH INTERNAL RAM JL NO. EK-086-9804 R P /R F 5 C 0 1 A OUTLINE T he RP/RF5C01A are real-time clocks for m icrocom puters th at can be connected directly to bu ses of m icrocom ­ p u ters with such CPUs as th e 8085A or Z80 and allow setting or reading of the clock with the sam e procedures as


    OCR Scan     		EK-086-9804 RP/RF5C01A MX38T MX-38T PDF