Maxim Integrated MAX6772TASD2+T Voltage Monitor

The MAX6772TASD2+T from Maxim Integrated is a robust voltage monitor and reset generator designed to enhance system reliability in a variety of applications. This compact device comes in a 8-pin TDFN package, offering a space-saving solution for monitoring the power supply voltage of microprocessors, microcontrollers, and other digital systems.

The MAX6772TASD2+T features a wide operating voltage range, making it suitable for diverse applications that require precise voltage monitoring. This versatile component ensures that your system operates within safe voltage levels by providing an active-low reset signal when the monitored voltage falls below the factory-set threshold. The reset output remains active until the voltage recovers and stabilizes, ensuring the system has adequate time to return to a safe operating condition.

This voltage monitor also features an adjustable reset timeout period, which can be set using external capacitors. This allows designers to tailor the reset assertion time to the specific needs of their application, providing additional flexibility and control over system behavior during power-up, power-down, and brown-out conditions.

The MAX6772TASD2+T is characterized for operation over the extended -40°C to +125°C temperature range, making it suitable for harsh environments and demanding industrial applications. Its low quiescent current consumption makes it ideal for battery-powered and portable devices, where power efficiency is crucial.

With its built-in hysteresis to prevent chattering due to noisy inputs and its ability to reject brief input transients, the MAX6772TASD2+T offers a reliable solution for maintaining system stability. Additionally, it is available in tape and reel packaging, denoted by the "+T" suffix, which facilitates efficient handling and placement during high-volume production.

In summary, the Maxim Integrated MAX6772TASD2+T is a highly reliable and versatile voltage monitor that offers key features for maintaining system integrity and preventing data corruption due to unexpected power fluctuations.