The MAX6705RKA+T from Maxim Integrated is a high-quality, low-voltage microprocessor (µP) supervisory circuit designed to monitor power supplies in µP and digital systems. It provides excellent circuit reliability and low cost by eliminating external components and adjustments when monitoring nominal system voltages from 1.8V to 5V.

Key Features

• Voltage Monitoring: This device offers precision monitoring of a single system supply voltage. It is capable of monitoring voltages as low as 1.8V, making it ideal for low-voltage applications.
• Reset Output: The MAX6705RKA+T features an active-low reset output, which provides a reset signal to the µP during power-up, power-down, and brownout conditions. The reset signal remains asserted for a minimum of 140ms after VCC has risen above the reset threshold, ensuring a proper system reset.
• Low Power Consumption: With its low supply current of only 17µA, this supervisory circuit helps to conserve power in portable and battery-operated systems.
• Small Form Factor: The device comes in a small 8-pin SOT-23 package, which is suitable for space-constrained applications.
• Temperature Range: It operates over the extended temperature range of -40°C to +125°C, ensuring reliable performance across various environmental conditions.

Applications

The MAX6705RKA+T is ideal for use in a variety of applications where accurate voltage monitoring is critical. These include:

• Portable/Battery-Powered Equipment
• Computers and Controllers
• Embedded Systems
• Data Storage Systems
• Telecommunications Systems

Ordering Information

The device is available in tape-and-reel form for automated assembly processes, denoted by the '+T' suffix in its part number. For detailed specifications and ordering information, please refer to the official Maxim Integrated datasheet or contact a Maxim Integrated sales representative.

With its robust feature set and Maxim Integrated's renowned quality, the MAX6705RKA+T is an excellent choice for system designers looking to enhance the reliability and performance of their power supply monitoring systems.