|Manufacturer Part Number: MAX669EUB+T
|Manufacturer / Brand: Analog Devices Inc
|Part of Description: SoC FPGA MAX669EUB+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
|Number of Outputs
|Duty Cycle – Max
|Operating Supply Current
|Operating Supply Voltage
|1.8 V to 28 V
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Temperature Measurement and Monitoring:
The MAX669EUB+T includes an internal temperature sensor, making it suitable for applications where accurate temperature measurement and monitoring are required.
Used in systems where temperature compensation is needed to adjust the behavior of other components or circuits based on temperature variations.
The MAX669EUB+T can function as a stable voltage reference, providing a precise voltage output for analog and digital circuits.
Precision Analog Systems:
Applied in precision analog systems where a stable voltage reference is essential for maintaining accuracy in analog-to-digital converters (ADCs), digital-to-analog converters (DACs), and other analog
Used in battery-powered devices to monitor temperature and provide a stable voltage reference for other components, contributing to efficient power management.
Data Acquisition Systems:
Integrated into data acquisition systems where accurate temperature measurements are required for calibration or compensation purposes.
Instrumentation and Measurement Systems:
Employed in instrumentation and measurement systems where precise voltage references and temperature monitoring are critical for accurate measurements.
Industrial Control Systems:
Used in industrial control systems for temperature sensing and compensation, ensuring stable performance in various industrial applications.
Applied in automotive electronics for temperature monitoring and compensation in engine control units (ECUs), sensor interfaces, and other automotive systems.
Used in medical devices for temperature monitoring and compensation to ensure accuracy in temperature-sensitive applications.
Power Supply Monitoring:
Integrated into power supply circuits to monitor and compensate for temperature variations, ensuring stable and reliable power delivery.
Applied in communication equipment for temperature compensation and providing a stable voltage reference in RF circuits, transceivers, and other communication devices.
Test and Measurement Instruments:
Used in test and measurement instruments where precise voltage references and temperature monitoring are crucial for accurate measurements.
Integrated into various consumer electronics products for temperature monitoring and compensation, ensuring stable operation under different environmental conditions.
Aerospace and Defense Systems:
Applied in aerospace and defense systems where precision voltage references and temperature monitoring are required for reliable operation in challenging environments.
Voltage Regulation Circuits:
Used in voltage regulation circuits to provide a stable reference voltage for voltage regulators, improving overall system stability.