Product Overview: MIC2776N-BM5-TR from Microchip Technology

The MIC2776N-BM5-TR is a high-performance, dual-voltage supervisor integrated circuit (IC) designed and manufactured by Microchip Technology, a renowned leader in the field of microcontroller and analog semiconductors. This compact and efficient IC is engineered to monitor power supplies in digital systems, ensuring that the system operates reliably within its voltage thresholds.

Key Features

• Dual Voltage Supervision: The MIC2776N-BM5-TR is capable of monitoring two voltage levels simultaneously, making it an ideal choice for systems that operate on multiple power planes or require tracking of both core and I/O voltages.
• Adjustable Thresholds: The device offers adjustable voltage thresholds through external resistors, allowing for precise control over the monitoring points tailored to specific application needs.
• Low Power Consumption: With its low quiescent current, the MIC2776N-BM5-TR is suitable for battery-powered and portable applications, where power efficiency is critical.
• Manual Reset Input: It features a manual reset input that provides a way to initiate a system reset independently of the voltage monitoring function.
• Programmable Delay: The IC includes a programmable delay feature that allows users to set the time interval for the reset signals, offering flexibility to match the timing requirements of various systems.

Applications

• Portable Devices
• Embedded Systems
• Microprocessor/Microcontroller Systems
• Multi-Voltage Systems
• Industrial Controls

The MIC2776N-BM5-TR comes in a compact SOT-23-5 package, making it easy to integrate into space-constrained designs. Its extended temperature range ensures reliable operation in diverse environments, and the "TR" suffix indicates that the device is provided in tape and reel packaging, suitable for automated assembly processes.

With its robust feature set and Microchip's reputation for quality, the MIC2776N-BM5-TR is an excellent choice for system designers looking to enhance the reliability and performance of their power management systems.