|Manufacturer Part Number: MAX705ESA+T
|Manufacturer / Brand: Analog Devices Inc
|Part of Description: SoC FPGA MAX705ESA+T
|Lead Free Status / RoHS Status: Lead free / RoHS Compliant
|Ship From: HK/Shen Zhen
|Shipment Way: DHL/Fedex/TNT/UPS
|Analog Devices Inc
|Package / Case
|Analog Devices / Maxim Integrated
|Maximum Operating Temperature
|Minimum Operating Temperature
|Factory Pack Quantity
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Used in microcontroller-based systems to ensure proper initialization during power-up and reliable operation during normal operation.
Integrated into embedded systems to monitor and manage the reset state of microcontrollers and other critical components.
Applied in industrial automation systems to supervise microcontroller-based controllers and ensure system stability.
Used in automotive electronic control units (ECUs) to monitor and control microcontroller operation, ensuring proper functioning of critical automotive systems.
Integrated into various consumer electronics devices, such as smart appliances, to enhance the reliability and stability of microcontroller-based systems.
Utilized in communication equipment to monitor and manage the reset state of microcontrollers, ensuring continuous and reliable operation.
Power Supply Sequencing:
Incorporated into power supply sequencing circuits to ensure that microcontrollers are powered up and down in the correct order.
Used in medical devices to monitor and control the operation of microcontrollers, providing a fail-safe mechanism in critical healthcare applications.
Data Acquisition Systems:
Applied in data acquisition systems to supervise the operation of microcontrollers and ensure accurate and reliable data acquisition.
Integrated into networking equipment, such as routers and switches, to enhance the reliability of microcontroller-based control and management functions.
Used in security systems to monitor and control microcontrollers, ensuring the continuous operation of security devices.
Test and Measurement Instruments:
Incorporated into test and measurement equipment to supervise microcontroller operation and maintain the integrity of measurement data.
Applied in instrumentation systems to monitor and control microcontrollers, providing a fail-safe mechanism for critical measurement and control functions.
Power Management Systems:
Utilized in power management systems to ensure proper reset and initialization of microcontrollers during power events.
Automated Control Systems:
Used in automated control systems to supervise and manage the reset state of microcontrollers, ensuring the reliability of control processes.
Integrated into telecommunications equipment to monitor and control microcontroller-based functions, enhancing the overall reliability of communication systems.
Remote Monitoring Systems:
Applied in systems that require remote monitoring, providing a reliable reset mechanism for microcontrollers in unmanned or remotely operated environments.
Used in battery-powered devices to manage power-up and power-down events, extending the battery life and enhancing overall system reliability.