Product Overview: MIC809RYC3TR by Microchip Technology

The MIC809RYC3TR is a highly efficient supervisory circuit developed by Microchip Technology, designed to keep microprocessor systems stable and secure. This compact component is a crucial part of any system that requires reliable operation, as it monitors the power supply voltage levels and ensures that the system resets accurately during a power-up, power-down, or brown-out condition.

Key Features

• Precision Voltage Monitoring: The MIC809RYC3TR supervises the system voltage with a tight tolerance, ensuring that the connected microprocessor or digital system operates within the safe voltage threshold.
• Manual Reset Input: This feature allows for an external trigger to reset the system, providing designers with additional control over the reset functionality.
• Low Power Consumption: With its low quiescent current draw, this supervisory circuit is an ideal choice for battery-operated devices where power efficiency is paramount.
• Active-Low Reset Output: The reset output remains low as long as the monitored voltage is below the designated reset threshold, ensuring a stable system reset.
• Fast Response Time: The device reacts quickly to voltage changes, thus guaranteeing a rapid system response to any power supply anomalies.

Applications

The MIC809RYC3TR is versatile and can be used in a variety of applications, including:

• Computers and Servers
• Embedded Systems
• Portable/Battery-Powered Equipment
• Intelligent Instruments
• Industrial Control Systems

Package and Availability

The MIC809RYC3TR supervisory circuit is offered in a compact SOT-23-3 package, which is suitable for space-constrained applications. It is available in tape and reel format, facilitating easy integration into automated manufacturing processes.

With its robust design and comprehensive features, the MIC809RYC3TR from Microchip Technology is a reliable choice for system designers who require a supervisory circuit that provides consistent performance and enhances the overall stability of their electronic systems.