Manufacturer Part Number
DS1706SESA
Manufacturer
Analog Devices
Introduction
The DS1706SESA, part of the MicroMonitor™ series by Analog Devices, is a power management supervisor designed to monitor voltage and provide reset control for microprocessors.
Product Features and Performance
Monitors single voltage
Voltage threshold set at 2.93V
Provides simple reset/power-on reset functionality
Output type: Push-Pull, Totem Pole
Reset type: Active Low with a minimum timeout of 130ms
Operating temperature range from -40°C to 85°C
Surface mount type capable of mounting on 8-SOIC package
Product Advantages
Enhanced system reliability through precise voltage monitoring
Immediate system reset in case of voltage drop
Compact 8-SOIC package for easy integration into system design
Key Technical Parameters
Voltage monitored: 1
Voltage threshold: 2.93V
Reset timeout: 130ms minimum
Operating Temperature: -40°C ~ 85°C
Mounting Type: Surface Mount
Package/Case: 8-SOIC
Quality and Safety Features
Built to operate reliably within industrial temperature ranges
Robust construction suitable for surface mounting applications
Ensures sustained performance and safety of connected components
Compatibility
Compatible with systems requiring voltage monitoring and simple reset functions
Supports integration into microprocessor-based systems
Application Areas
Ideal for microprocessor systems in industrial and consumer electronics
Useful in computing, networking, and telecommunications equipment that requires reliable voltage monitoring
Product Lifecycle
Obsolete status; potential replacements or upgraded devices should be considered
Consult Analog Devices for replacement options and support for legacy devices
Several Key Reasons to Choose This Product
Critical for protecting microprocessor systems from unexpected voltage drops
Precision voltage threshold for accurate monitoring
Extended operating temperature suited for diverse environments
Compact form factor for easy integration in various applications
Reliability confirmed by consistent performance in rigorous conditions