Maxim Integrated MAX6308EUK00D3 - Overview

The MAX6308EUK00D3 is a robust, precision microprocessor (µP) supervisory circuit from Maxim Integrated that ensures reliable operation of µP systems. Designed with advanced technology, this component enhances system stability by monitoring the power supply and asserting a reset if a fault is detected. Its compact and efficient design makes it an ideal choice for a wide range of applications, including portable devices, computers, controllers, and intelligent instruments.

Key Features

• Voltage Monitoring: The device monitors the system voltage and ensures that it remains within specified thresholds, providing a reset signal to the µP when necessary.
• Reset Timeout: It features a preset timeout period that ensures the µP is held in reset long enough to stabilize before resuming operation.
• Low Power Consumption: With its low power consumption, the MAX6308EUK00D3 is particularly suitable for battery-powered applications.
• Compact SOT23 Package: The device comes in a small, 5-pin SOT23 package, making it easy to integrate into space-constrained designs.

Applications

• Portable/Battery-Powered Equipment
• Embedded Systems
• Computers and Servers
• Industrial Controllers
• Intelligent Instruments

Technical Specifications

The MAX6308EUK00D3 operates over a wide voltage range and has a factory-trimmed reset threshold. It provides a manual reset feature, allowing for a system reset to be initiated as needed. The device's quiescent current is minimal, and it supports a temperature range suitable for commercial and industrial environments.

Conclusion

Maxim Integrated's MAX6308EUK00D3 supervisory circuit is a reliable solution for monitoring power supply conditions in microprocessor systems. Its low power consumption, compact footprint, and comprehensive features make it a versatile choice for maintaining system integrity across various applications. By integrating this component, designers can enhance system reliability and prevent data corruption due to power supply anomalies.