Product Overview: Maxim Integrated MAX6385XS16D3+T

The MAX6385XS16D3+T is a high-precision, low-power microprocessor (µP) supervisory circuit designed and manufactured by Maxim Integrated. This compact and efficient device is engineered to monitor power supplies in digital systems, providing a reliable safeguard against system failures caused by unstable or inadequate power supply voltages.

Key Features

• Voltage Monitoring: The device is capable of monitoring a preset threshold voltage of 1.6V, ensuring that the system operates within safe voltage levels.
• Reset Output: It features an active-low, push-pull reset output, which provides a clear and assertive signal to the µP during power-up, power-down, and brownout conditions.
• Manual Reset: An additional manual reset input allows for an external trigger to initiate a system reset, providing an extra layer of control.
• Low Power Consumption: Designed for power-sensitive applications, the MAX6385XS16D3+T consumes minimal power, making it ideal for portable and battery-operated devices.
• High Accuracy: With its precision monitoring capability, the device ensures system stability by maintaining tight control over the supply voltage.
• Compact Package: The device is offered in a small, 4-pin SC70 package, which is suitable for space-constrained applications.

Applications

The MAX6385XS16D3+T is versatile and can be employed in a variety of applications where voltage monitoring and system reliability are paramount. It is particularly useful in:

• Portable Devices
• Embedded Systems
• Data Storage Systems
• Medical Equipment
• Automotive Systems

Reliability and Support

Maxim Integrated is known for its commitment to quality, and the MAX6385XS16D3+T is no exception. It is built to meet the stringent requirements of industrial environments and is backed by Maxim Integrated's robust technical support and documentation. Customers can rely on this supervisory circuit to maintain the integrity of their systems and protect against the risks associated with voltage anomalies.