STMicroelectronics TS393CN MicroPower Voltage Comparator

The TS393CN from STMicroelectronics is a highly efficient, micropower dual voltage comparator designed for a wide array of applications that require low power consumption and high precision. This integrated circuit is ideal for battery-operated systems, portable devices, and any other application where power efficiency is paramount.

Key Features

• Low Power Consumption: The TS393CN is optimized for low power operation, consuming only a few microamperes of supply current, making it one of the best choices for energy-sensitive designs.
• Dual Comparator: With two independent voltage comparators in a single package, it provides flexibility for various circuit configurations, such as window comparators or time delay circuits.
• Wide Supply Range: Operating from a wide supply voltage range of 2V to 36V, or ±1V to ±18V in dual supplies, the TS393CN is versatile for both low and high voltage applications.
• Low Input Bias Current: The device features a very low input bias current, which enhances its accuracy and makes it suitable for precision applications.
• Fast Response Time: Despite its low power consumption, the TS393CN does not compromise on speed, offering a fast response time that is critical in applications where timing is crucial.

Applications

The TS393CN is utilized in a variety of applications, including:

• Battery chargers
• Power supply control
• Energy-saving circuits
• Window comparators
• Alarm and monitoring systems
• Logic voltage level conversion

Package and Quality

Encased in a standard DIP-8 package, the TS393CN ensures ease of integration into a wide range of printed circuit board designs. Its robust construction meets STMicroelectronics' high-quality standards, ensuring reliability and performance consistency.

With its combination of low power consumption, dual comparator design, and wide supply voltage range, the TS393CN from STMicroelectronics stands out as a versatile and efficient solution for precision voltage comparison in power-sensitive applications.