TPS3813I50DBVTG4: Processor Supervisor 2.93V 1 Active Low/Push-Pull

The TPS3813I50DBVTG4 is a state-of-the-art processor supervisor integrated circuit from Texas Instruments, designed to enhance system reliability and robustness in a wide range of applications. This compact device offers a precise voltage monitoring solution, ensuring that microprocessors, microcontrollers, and other digital systems operate within their specified voltage ranges.

With a fixed-sense threshold voltage of 2.93V, the TPS3813I50DBVTG4 constantly monitors the supply voltage of your digital system, providing an active-low reset signal when the monitored voltage drops below the threshold. The reset output remains low for a minimum of 200ms after the supply voltage exceeds the threshold, ensuring system stability and allowing enough time for the processor and other components to properly initialize.

The device features a push-pull output configuration, which provides a strong signal both when asserting and deasserting the reset. This ensures reliable operation even in noisy environments, making it ideal for critical applications that require a dependable reset mechanism.

Designed in a compact SOT-23-6 package, the TPS3813I50DBVTG4 is suitable for space-constrained applications. Its small footprint and low power consumption make it an excellent choice for portable and battery-powered devices, as well as for automotive, industrial, and telecommunications equipment.

Key features of the TPS3813I50DBVTG4 include:

• Fixed voltage monitoring at 2.93V threshold
• Active-low, push-pull reset output
• Minimum 200ms reset pulse width
• Low supply current for energy-efficient operation
• Wide operating temperature range suitable for various environments
• Compact SOT-23-6 package for space-saving designs

With its precise voltage monitoring and robust reset functionality, the TPS3813I50DBVTG4 from Texas Instruments is an essential component for safeguarding digital systems against under-voltage conditions, thereby preventing data corruption, erratic behavior, and potential damage to the system.