Maxim Integrated MAX6826SUT+T Microprocessor (µP) Supervisory Circuit

The MAX6826SUT+T from Maxim Integrated is a highly reliable and compact microprocessor (µP) supervisory circuit designed to monitor power supplies in µP and digital systems. It provides a significant layer of protection by ensuring that the system's voltage levels remain within operational thresholds, thus safeguarding the system against under-voltage conditions. This tiny component is an essential part of maintaining system integrity and preventing data corruption during power failures or unexpected power fluctuations.

Key Features:

• Precision Monitoring: The device features a precision voltage monitor with a factory-set reset threshold voltage, ensuring accurate and consistent system checks.
• Low Power Consumption: Designed for power-sensitive applications, the MAX6826SUT+T has a low quiescent current, which is critical for extending battery life in portable devices.
• Manual Reset Input: This feature allows a manual reset to be triggered, providing flexibility and control to the system operator for maintenance or troubleshooting purposes.
• Compact SOT23 Packaging: The device comes in a space-saving SOT23 package, making it ideal for use in systems where board space is at a premium.
• Temperature Range: It operates over an extended industrial temperature range, ensuring reliable performance under varying environmental conditions.
• Reset Output Stage: The reset output stage can be configured as either push-pull or open-drain, offering design versatility to meet specific application requirements.

Applications:

The MAX6826SUT+T is suitable for a wide range of applications, including:

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

Maxim Integrated's commitment to quality ensures that the MAX6826SUT+T supervisory circuit is a reliable choice for designers who need a robust power monitoring solution. With its precision monitoring capabilities and low power consumption, it is an excellent choice for safeguarding sensitive microprocessor-based systems.