Microchip Technology MIC810RYC3 Voltage Supervisor

The MIC810RYC3 is a highly precise voltage supervisor designed to monitor power supplies in digital systems. Manufactured by Microchip Technology, this device is an essential component for ensuring the reliable operation of microcontrollers and other sensitive electronics. It provides a crucial safeguard against low voltage conditions which can lead to system failures and data corruption.

This voltage supervisor is specifically engineered to monitor 3V power supplies, which are common in many modern electronic applications. The MIC810RYC3 features a factory-trimmed threshold voltage, which means that it is preset to activate its reset signal whenever the supply voltage falls below a specific value, ensuring consistent performance without the need for external adjustments.

The reset output of the MIC810RYC3 is active-low and remains asserted for a minimum of 140ms (typical) after the supply voltage returns above the reset threshold. This built-in delay allows the power supply and system to stabilize before normal operation resumes, thus preventing any premature release of the reset signal which could otherwise cause system errors.

The device is packaged in a compact SOT-23-3 package, making it suitable for space-constrained applications. Its low power consumption and wide operating temperature range of -40°C to +85°C make it an ideal choice for portable devices, consumer electronics, and industrial equipment where power efficiency and reliability are critical.

With its simple three-pin configuration, the MIC810RYC3 is easy to integrate into existing designs. It requires no external components, which simplifies the design process and reduces the bill of materials. The device's robustness and precision make it a go-to solution for designers looking to enhance the reliability of their systems with minimal design overhead.

In summary, the MIC810RYC3 from Microchip Technology is a reliable and efficient voltage supervisor that offers a simple yet effective solution for protecting digital systems from the dangers of undervoltage conditions.