Maxim Integrated MAX6715AUTTGD3+T Triple/Quad Voltage Monitors

The MAX6715AUTTGD3+T is a highly reliable and precise triple/quad voltage monitor designed by Maxim Integrated to ensure the stable operation of multi-voltage systems. This advanced monitoring IC is capable of supervising three or four system power-supply voltages simultaneously, making it an ideal solution for a wide range of applications, including computers, servers, and telecommunication systems.

This voltage monitor features a compact SOT23 package, which is suitable for space-constrained applications. It is engineered to detect under-voltage conditions; when the monitored voltage drops below the factory-set threshold, the device asserts a reset signal to prevent system malfunction. The reset signal remains asserted for a minimum timeout period after all voltages have risen above the reset thresholds, ensuring system stability during power-up.

The MAX6715AUTTGD3+T operates over a wide voltage range and offers a low supply current, which is critical for power-sensitive designs. The voltage thresholds are factory-set for 3.3V, 2.5V, and 1.8V supplies, although other voltage combinations are available to accommodate various system requirements. Moreover, the device includes a manual reset input that allows for a system reset to be triggered with an external signal, providing additional flexibility and control.

Key features of the MAX6715AUTTGD3+T include:

• Triple/quad voltage monitoring capabilities
• Factory-set reset voltage thresholds for popular supply voltages
• Manual reset input for external override
• Low supply current for energy-efficient operation
• Compact SOT23 package ideal for space-saving designs
• Minimum reset timeout period to ensure proper system reset
• Wide operating voltage range to support various applications

With its precise monitoring and low power consumption, the MAX6715AUTTGD3+T from Maxim Integrated is a robust solution for maintaining the integrity of multi-voltage systems. It is designed to simplify power management tasks and enhance system reliability, making it a valuable component in any application where multiple supply voltages need vigilant supervision.