ADM811ZARTZ-REEL - Microprocessor Supervisory Circuit from Analog Devices Inc.

The ADM811ZARTZ-REEL from Analog Devices Inc. is a robust microprocessor supervisory circuit designed to monitor power supplies in microprocessor and digital systems. It provides a precise voltage monitoring function and is an essential component for enhancing system reliability and performance.

Key Features:

• Voltage Monitoring: This device ensures that the system's voltage levels remain within specific thresholds, safeguarding the microprocessor and associated circuitry from undervoltage conditions.
• Reset Output: In the event of an undervoltage occurrence, the ADM811ZARTZ-REEL generates a reset signal to the microprocessor, thereby resetting the system back to a known state.
• Low Power Consumption: Designed for power-sensitive applications, it consumes minimal power, contributing to the overall energy efficiency of the system.
• High Accuracy: The device provides high accuracy in monitoring the voltage threshold, ensuring reliable operation and preventing false triggering.
• Reset Timeout: It features an adjustable reset timeout period, allowing designers to customize the reset deassertion delay according to system requirements.

Applications:

The ADM811ZARTZ-REEL is ideal for a wide range of applications that require precise voltage monitoring and reliable reset functions, such as:

• Computers and Servers
• Embedded Systems
• Portable/Battery-Powered Equipment
• Industrial Control Systems
• Communication Infrastructure

Product Specifications:

This device comes in a compact SOT-143 package and is part of the ADM811 series. It is supplied in tape and reel form (REEL), making it suitable for automated assembly processes. The ADM811ZARTZ-REEL operates over a wide temperature range, ensuring reliability in various environmental conditions.

With its comprehensive features and reliable performance, the ADM811ZARTZ-REEL from Analog Devices Inc. is an excellent choice for system designers looking to enhance the safety and stability of their microprocessor-based systems.