The MIC2774N-44YM5-TR is a sophisticated dual voltage supervisor designed and manufactured by Microchip Technology, a leading provider of smart, connected, and secure embedded control solutions. This high-performance component is engineered to monitor power supplies in digital systems, ensuring that the system operates reliably within its voltage thresholds.

Key Features

• Voltage Supervision: The device supervises two voltage rails, providing system designers with a versatile solution for multi-voltage systems.
• Adjustable Thresholds: It features adjustable thresholds for the monitored voltages, allowing for precision and customization according to specific system requirements.
• Manual Reset Input: An additional manual reset input (MR) is included, offering an external override to reset the system.
• Low Power Consumption: With its low quiescent current draw, the MIC2774N-44YM5-TR is an energy-efficient choice for battery-powered applications.
• Immune to Short Voltage Transients: The device is designed to be immune to short voltage transients, which enhances the reliability of the system during unexpected power fluctuations.

Applications

The MIC2774N-44YM5-TR is suitable for a wide array of applications where reliable voltage monitoring is critical. It is commonly used in portable electronics, computers, data storage systems, and other digital devices that require stable operation and an orderly power-on and power-off sequence.

Package and Availability

This component is offered in a compact SOT-23-5 package, making it ideal for space-constrained applications. The "TR" suffix indicates that the product is provided in tape and reel packaging, which is suitable for automated assembly processes. The MIC2774N-44YM5-TR is part of Microchip's commitment to providing innovative and reliable solutions for managing power supplies in complex electronics.

With its combination of features, the MIC2774N-44YM5-TR is designed to meet the stringent requirements of modern electronic systems, ensuring that devices operate safely and effectively across a range of conditions.