Maxim Integrated MAX6308UK00D1+T - Robust Voltage Supervisor IC

The MAX6308UK00D1+T is a highly reliable, low-power voltage supervisor IC designed and manufactured by Maxim Integrated, a renowned leader in the development of analog and mixed-signal products. This compact supervisory circuit is specifically engineered to monitor power supplies in microprocessor and digital systems, providing a significant layer of protection against power failures and brownout conditions.

Key Features

• Voltage Monitoring Precision: The device offers a precise monitoring threshold voltage of 2.93V, ensuring accurate supervision of power levels.
• Reset Timeout: It features a fixed reset timeout duration of 1.2 seconds, which provides a predictable delay for system recovery after a power disturbance.
• Low Power Consumption: With ultra-low supply current requirements, the MAX6308UK00D1+T is an energy-efficient solution for portable and battery-operated devices.
• Compact SOT23 Packaging: Housed in a small SOT23 package, this IC saves valuable board space and is suitable for high-density circuit designs.
• Temperature Range: The device is operational over an extended temperature range of -40°C to +125°C, making it ideal for harsh environmental conditions.
• Manual Reset Capability: A manual reset input provides the option for an external trigger to initiate a system reset, enhancing system control and debugging processes.
• Immunity to Short VCC Transients: The IC is designed to ignore brief glitches on the VCC line, preventing false triggering of the reset signal.

Applications

The MAX6308UK00D1+T is versatile and finds its use in a wide array of applications, including:

• Computers and Servers
• Embedded Systems
• Portable/Battery-Powered Equipment
• Industrial Controllers
• Automotive Systems

With its robust feature set and Maxim Integrated's reputation for quality, the MAX6308UK00D1+T voltage supervisor is a vital component for any design requiring reliable power supply monitoring. It helps to ensure that systems operate within their intended voltage parameters, thus protecting critical processes and data integrity.