Maxim Integrated MAX6463XR26-T Voltage Detector

The MAX6463XR26-T is a compact, highly precise voltage detector designed by Maxim Integrated, a renowned leader in analog and mixed-signal products. This device is engineered to monitor supply voltages and provide a reset signal to microprocessors (µPs), microcontrollers (MCUs), and other digital systems, ensuring reliable operation even during power fluctuations.

This voltage detector is part of Maxim's MAX6463 series and comes in a tiny SC70 package, making it an excellent choice for space-constrained applications. With its low power consumption and wide operating temperature range, the MAX6463XR26-T is suitable for a variety of portable, automotive, and industrial devices where precision voltage monitoring is critical.

Key Features

• Voltage Threshold: The device features a preset voltage threshold of 2.6V, which is ideal for monitoring 2.5V power supplies.
• Reset Timeout: It offers an adjustable reset timeout period, allowing designers to set the appropriate delay for their system requirements.
• Low Power: The MAX6463XR26-T is designed for low-power operation, consuming minimal current that extends the battery life of portable devices.
• High Accuracy: With a ±1.5% reset threshold accuracy over the entire temperature range, the device ensures reliable voltage monitoring and system protection.
• Operating Temperature: It operates over a wide temperature range of -40°C to +125°C, suitable for harsh environments.
• Package: The SC70 packaging is not only space-efficient but also offers a robust solution for automated manufacturing processes.

Applications

The MAX6463XR26-T is versatile and can be used in various applications that require accurate voltage monitoring and reset capabilities. These include:

• Battery-Powered Devices
• Automotive Electronics
• Portable Medical Instruments
• Industrial Control Systems
• Embedded Systems

Overall, the Maxim Integrated MAX6463XR26-T voltage detector is a reliable component that adds a layer of protection to sensitive electronic systems by ensuring that they operate within their specified voltage ranges, thus preventing potential damage from power supply anomalies.