TCM810MVLB713 - Microchip Technology

The TCM810MVLB713 is a sophisticated and reliable microcontroller supervisor integrated circuit from the renowned Microchip Technology. This device is designed to monitor the system voltage in digital systems, providing a crucial function in ensuring the proper operation of microcontroller-based applications. It is particularly suitable for battery-powered devices where power efficiency is a key concern.

With its precision voltage monitoring capability, the TCM810MVLB713 helps to prevent system failures by resetting the microcontroller in the event of an unexpected drop in the system power supply. This reset feature ensures that the system restarts with a clean slate once the supply voltage returns to an acceptable level. The device operates over a voltage range of 1.0V to 5.5V, making it versatile for various low-voltage applications.

The TCM810MVLB713 comes in a compact SOT-23-3 package, which is ideal for space-constrained applications. The device's small footprint allows for integration into a wide range of products without significantly impacting the overall design size. This is particularly beneficial for portable and wearable technology where space is at a premium.

Key features of the TCM810MVLB713 include a low supply current, which is critical for extending battery life in portable devices. Additionally, the device offers a reset timeout period of 140 ms (minimum), providing ample time for the system to stabilize before resuming operation. The TCM810MVLB713 also includes an active-low RESET output, which remains asserted until the supply voltage reaches the reset voltage threshold and the timeout period has elapsed, ensuring a reliable system reset.

In summary, the TCM810MVLB713 from Microchip Technology is a valuable component for any digital system requiring voltage monitoring and a secure reset function. Its low power consumption, compact size, and precision voltage monitoring make it an excellent choice for designers looking to enhance the reliability and efficiency of their battery-powered or space-sensitive applications.