Maxim Integrated MAX6708RKA-T Overview

The MAX6708RKA-T is a highly precise, low-power, quad voltage monitor designed by Maxim Integrated, tailored for applications requiring simultaneous monitoring of multiple voltages. This compact, reliable component is essential in systems where voltage supervision is critical to performance and safety, such as in microprocessor and microcontroller-based systems.

Key Features

• Multiple Voltage Monitoring: The device can monitor up to four different voltages, making it versatile for various system requirements.
• Adjustable Thresholds: Each voltage monitor has an adjustable threshold, allowing for customized voltage supervision according to specific application needs.
• Low Power Consumption: Designed with power efficiency in mind, the MAX6708RKA-T is ideal for battery-powered and portable applications.
• High Accuracy: The component offers high threshold accuracy, ensuring reliable monitoring and system protection.
• Compact Package: Available in a small SOT23-8 package, it is suitable for space-constrained applications.

Applications

The MAX6708RKA-T is ideal for use in a variety of applications, including:

• Computers and Servers
• Portable/Battery-Powered Devices
• Telecommunications Equipment
• Industrial Systems

Product Specifications

The device operates over a wide voltage range and features a low quiescent current. It provides a reset output signal, which is asserted when any of the monitored voltages fall below their respective thresholds. The reset signal helps in preventing system malfunctions that can occur due to inadequate power supply voltages.

Maxim Integrated's MAX6708RKA-T is manufactured with the quality and reliability that are hallmarks of their product line, ensuring that it meets the stringent requirements of industrial and commercial applications. Its combination of multiple voltage monitoring, high accuracy, and low power consumption, all in a small package, makes it an excellent choice for designers looking to enhance system reliability through effective voltage supervision.