Maxim Integrated's MAX795SCSA+ Voltage Supervisor

The MAX795SCSA+ is a high-quality voltage supervisor component designed by Maxim Integrated, a company renowned for its robust and reliable integrated circuits. This precision voltage supervisor is engineered to ensure that digital systems operate at optimal voltage levels, thus protecting them from the potential hazards of under-voltage conditions. The MAX795SCSA+ is an essential device for safeguarding sensitive electronic equipment in various applications such as computers, controllers, and intelligent instruments.

Featuring a compact SMT-8 package, the MAX795SCSA+ is designed to be space-efficient, making it suitable for densely-packed PCBs where real estate is at a premium. It provides a fixed sense threshold voltage of 4.65V, which is crucial for monitoring 5V power-supply systems. When the voltage in the system falls below this threshold, the MAX795SCSA+ promptly asserts a reset signal, which remains active until the system voltage stabilizes above the threshold, plus a minimum timeout period to ensure system stability.

One of the standout features of the MAX795SCSA+ is its low power consumption, making it an ideal choice for power-sensitive applications. It has a quiescent current of only 15µA, which helps to minimize the overall power draw of the system it is protecting. Furthermore, the device offers an active-low, push-pull reset output, which provides a direct interface with microcontrollers and other digital logic without the need for external components.

The MAX795SCSA+ also boasts an impressive temperature range, operating effectively from -40°C to +85°C. This wide range ensures reliable performance across a variety of environmental conditions, making it suitable for industrial and automotive applications where temperature extremes are common.

For designers and engineers looking for a dependable voltage supervisor to protect their electronic systems, the MAX795SCSA+ from Maxim Integrated offers a blend of precision, low power consumption, and robustness. Its ease of integration and consistent performance make it a go-to choice for maintaining system integrity and preventing costly downtime due to power supply anomalies.