MAX13487EESA+T

Manufacturer Part Number: MAX13487EESA+T Manufacturer / Brand: Analog Devices Inc
Part of Description: SoC FPGA MAX13487EESA+T Lead Free Status / RoHS Status: table_img Lead free / RoHS Compliant
Ship From: HK/Shen Zhen Shipment Way: DHL/Fedex/TNT/UPS
Datasheets:

Product parameters

ManufacturerAnalog Devices Inc
RoHSDetails
PackageReel
Package / CaseSOIC-8
Mounting StyleSMD/SMT
BrandAnalog Devices / Maxim Integrated
Maximum Operating Temperature-40 C
Minimum Operating Temperature+85C
SeriesMAX13487E
Factory Pack Quantity2500
Moisture SensitiveYes
Pd – Power Dissipation471 mW
Operating Supply Current4.5 mA
Operating Supply Voltage5 V
Input Voltage4.75 V to 5.25 V
Unit Weight0.007408 oz

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    MAX13487EESA+T Applications:

    Electronic Clocks:

    Used in electronic clock applications to display real-time hours, minutes, and seconds.

     

    Alarm Systems:

    Integrated into alarm systems for time-based scheduling of events, such as arming and disarming alarms at specific times.

     

    Data Logging Systems:

    Applied in data logging systems to timestamp data entries and log events with accurate time information.

     

    Temperature and Humidity Loggers:

    Utilized in temperature and humidity logging devices to record environmental conditions with precise timestamps.

     

    Home Automation:

    Integrated into home automation systems for scheduling and time-based control of various devices, such as lighting and HVAC systems.

     

    Industrial Automation:

    Used in industrial automation applications where accurate timekeeping is required for scheduling and synchronization of processes.

     

    Timer Circuits:

    Applied in timer circuits for time-delayed actions or triggering events at specific intervals.

     

    Battery-Powered Devices:

    Integrated into battery-powered devices to maintain accurate timekeeping even when the main power source is disconnected.

     

    Digital Cameras:

    Utilized in digital cameras for timestamping photos with accurate time information.

     

    Microcontroller Projects:

    Integrated into various microcontroller-based projects that require real-time clock functionality.

     

    Educational Projects:

    Used in educational projects to teach students about real-time clock circuits and applications.

     

    Weather Stations:

    Applied in weather stations to timestamp weather data readings and log historical weather information.

     

    IoT Devices:

    Integrated into Internet of Things (IoT) devices for time synchronization and scheduling of data transmissions.

     

    Arduino and Raspberry Pi Projects:

    Utilized in Arduino and Raspberry Pi projects that require real-time clock functionality.

     

    Medical Devices:

    Used in medical devices where accurate timestamping of events or data is essential.

     

    GPS Receivers:

    Integrated into GPS receivers to maintain accurate time information when GPS signals are not available.

     

    Car Dashboard Clocks:

    Applied in car dashboard clocks for accurate timekeeping in vehicles.

     

    Smart Appliances:

    Used in smart appliances for scheduling and time-based control of appliance functions.

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