Maxim Integrated's MAX6333UR16D3+T Voltage Supervisor

The MAX6333UR16D3+T is a high-quality voltage supervisor component designed by Maxim Integrated, a company renowned for its reliable and innovative integrated circuits. This microprocessor (µP) supervisory circuit is engineered to monitor power supplies in digital systems, providing a significant layer of protection against low-voltage conditions that can lead to system errors and hardware damage.

Key Features

• Precision Monitoring: With a factory-set reset threshold voltage of 1.575V, the MAX6333UR16D3+T offers precise voltage monitoring, ensuring that your system operates within safe voltage levels.
• Low Power Consumption: The device is designed to consume minimal power, making it an ideal choice for battery-operated and portable applications where power efficiency is critical.
• Manual Reset Capability: It comes with a manual reset input that allows the user to trigger a system reset manually, providing an additional layer of control.
• Reset Timeout: After the monitored voltage exceeds the reset threshold, the device's reset output remains asserted for a reset timeout period of 140ms (min), ensuring the system has adequate time to stabilize.
• High Operating Temperature Range: The component can operate over a wide temperature range of -40°C to +85°C, which means it can withstand harsh environmental conditions.
• Compact SOT-23 Packaging: The MAX6333UR16D3+T is available in a small, 3-pin SOT-23 package, making it suitable for space-constrained applications.

Applications

The MAX6333UR16D3+T voltage supervisor is an essential component in a variety of applications where reliable system operation is paramount. It is commonly used in:

• Portable/Battery-Powered Equipment
• Embedded Systems
• Microprocessor/Microcontroller Systems
• Data Storage Equipment
• Telecommunications Systems

Maxim Integrated's commitment to quality ensures that the MAX6333UR16D3+T is a robust and reliable solution for your voltage supervision needs. By integrating this component into your design, you can enhance system reliability and performance, protecting against the potential pitfalls of undervoltage conditions.