The MAX6367PKA44-T is a highly reliable, low-power microprocessor (µP) supervisory circuit produced by Maxim Integrated, designed to monitor power supplies in µP and digital systems. It provides a significant level of system reliability and accuracy required for critical electronic applications.
Key Features
- Precision Monitoring: This device offers precise monitoring of the power supply voltage, ensuring that the system operates within the acceptable voltage range and protects against under-voltage conditions.
- Low Power Consumption: It is engineered for low-power operation, making it an ideal solution for portable and battery-operated equipment.
- Reset Output: The MAX6367PKA44-T features a reset output that remains asserted for a minimum timeout period after VCC has risen above the reset threshold level, ensuring a proper system reset during power-up, power-down, and brownout conditions.
- Manual Reset Input: An additional manual reset input provides a means to initiate a system reset with an external pushbutton or logic signal.
- Temperature Range: It operates over an extended temperature range, making it suitable for various industrial and commercial environments.
Applications
The MAX6367PKA44-T is versatile and can be used in a wide array of applications, such as:
- Computers and Controllers
- Embedded Systems
- Portable/Battery-Powered Equipment
- Industrial Equipment
- Networking and Telecommunications Systems
Package and Availability
The device comes in a compact 8-pin SOT23 package, marked with the suffix 'PKA44-T', indicating the tape and reel packaging option suitable for automated assembly processes. The MAX6367PKA44-T is available for order and can be sourced through Maxim Integrated's distribution channels.
Conclusion
Maxim Integrated's MAX6367PKA44-T serves as an essential component for systems requiring reliable voltage monitoring and reset functions. Its combination of features, including precision voltage monitoring, low power consumption, and manual reset capability, make it a go-to choice for designers aiming to enhance system stability and performance.