Maxim Integrated DS1705ESA+T&R Product Overview

The Maxim Integrated DS1705ESA+T&R is a robust and versatile microprocessor (µP) supervisory circuit that ensures reliable system operation through monitoring and control of the power supply and other system functions. This component is specifically designed to safeguard system integrity in a wide range of applications, from computers and controllers to intelligent instruments.

Key Features

• Precision Monitoring: The DS1705ESA+T&R provides precise monitoring of system voltages, ensuring that the microprocessor is only active when the power supply is within acceptable limits.
• Manual Reset Input: A dedicated manual reset input allows for a system reset to be triggered with an external mechanism, offering an additional layer of control.
• Power-Fail Warning: The device includes a power-fail warning feature which flags impending power failure, allowing the system to take preemptive action to prevent data loss or corruption.
• Low Standby Current: With its low standby current, the DS1705ESA+T&R minimizes power consumption when the system is in a dormant state, making it suitable for power-sensitive applications.
• High Accuracy: The high accuracy of the DS1705ESA+T&R ensures that the system operates reliably under specified conditions without false triggering.

Applications

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

Product Specifications

The DS1705ESA+T&R supervisory circuit is packaged in an 8-pin SOIC (Small Outline Integrated Circuit) package, offering a compact footprint for space-constrained applications. It operates over a wide temperature range, making it suitable for use in various environments. The device is also available in tape and reel (T&R) for automated assembly processes, facilitating efficient manufacturing and integration into system designs.

With its robust feature set and compact form factor, the Maxim Integrated DS1705ESA+T&R is an essential component for system designers seeking to enhance the reliability and performance of their microprocessor-based systems.