Product Overview: MAX6825VUK-T by Maxim Integrated

The MAX6825VUK-T is a sophisticated microprocessor (µP) supervisory circuit designed by Maxim Integrated to monitor power supplies in digital systems. It provides a significant level of protection to ensure the proper operation of the system by asserting a reset signal whenever the VCC supply voltage falls below a preset threshold.

This device is particularly useful in applications where reliable operation is critical, and it is essential to maintain the integrity of the data and the system. The MAX6825VUK-T is commonly used in portable devices, embedded systems, and other applications where space is at a premium and power consumption must be minimized.

Key Features:

• Precision Monitoring: This component features a precision voltage monitor that is capable of detecting over a wide range of supply voltages, ensuring that the system operates within safe parameters.
• Low Power Consumption: The MAX6825VUK-T is designed for low power consumption, making it ideal for battery-operated devices where power efficiency is paramount.
• Manual Reset Input: It includes a manual reset input that allows the user to trigger a system reset, providing an additional layer of control.
• Compact SOT23 Packaging: Housed in a small SOT23 package, the device occupies minimal board space, which is essential for compact, high-density designs.
• Adjustable Reset Timeout: The reset timeout period can be adjusted by external components, allowing designers to customize the reset de-bounce period according to their system requirements.

Applications:

• Portable/Battery-Powered Equipment
• Embedded Systems
• Data Storage Systems
• Industrial Controllers
• Automotive Systems

The MAX6825VUK-T from Maxim Integrated is a reliable and versatile supervisory circuit that offers an excellent solution for enhancing system reliability in a wide variety of applications. Its combination of features makes it a popular choice among engineers looking to safeguard their digital systems from the dangers of undervoltage conditions.