Maxim Integrated MAX6326XR23-T Voltage Supervisor

The MAX6326XR23-T is a high-quality voltage supervisor device designed and manufactured by Maxim Integrated, a renowned leader in the development of integrated circuits. This precision microprocessor (μP) supervisory circuit provides an essential function in the realm of digital systems by monitoring the power supply voltage to ensure stable operation and reliable system start-up.

Key Features

• Voltage Monitoring: The MAX6326XR23-T is specifically tailored to monitor a preset voltage threshold of 2.3V, making it ideal for 2.5V powered systems.
• Low Power Consumption: With a low supply current of only 1.2μA, this device is highly energy-efficient, contributing to the extended battery life of portable applications.
• Reset Output: It features an active-low reset output that ensures the connected microprocessor remains in the reset state until the system voltage has stabilized.
• Reset Timeout: The device has a built-in reset timeout delay, which provides a predictable time period before the system is allowed to operate after power-up.
• Temperature Range: The MAX6326XR23-T operates over an extended industrial temperature range of -40°C to +85°C, suitable for a wide variety of environments.
• Compact Package: Available in a small, 3-pin SC70 package, it is designed for space-constrained applications.

Applications

The MAX6326XR23-T is versatile and can be used in multiple applications including:

• Portable/Battery-Powered Equipment
• Embedded Systems
• Data Storage Systems
• Medical Devices
• Automotive Systems

Reliability and Performance

Maxim Integrated's commitment to quality ensures that the MAX6326XR23-T voltage supervisor is a reliable component for maintaining system integrity. It provides a crucial guard against the potential pitfalls of under-voltage conditions which can lead to system failures and data corruption. With its precision voltage monitoring and low power consumption, the MAX6326XR23-T is an excellent choice for designers looking to enhance the reliability and efficiency of their electronic systems.