Overview of TS3V393IN

The TS3V393IN is a high-performance, low-voltage dual comparator manufactured by STMicroelectronics, designed for applications requiring fast response times and low power consumption. This integrated circuit is particularly suitable for battery-powered devices and other applications where energy efficiency is a critical concern.

Key Features

• Low Voltage Operation: The TS3V393IN operates from a single +2V to +16V supply or a dual ±1V to ±8V supply, making it versatile for various low-voltage applications.
• Low Power Consumption: With its low current draw, the device is an excellent choice for portable and battery-operated equipment.
• High-Speed Performance: The comparator provides a fast propagation delay, which is crucial for systems requiring quick response times.
• Open-Collector Output: The output stage of the TS3V393IN is an open collector, allowing for wired-AND connections and providing the flexibility to connect to different voltage levels, subject to an appropriate pull-up resistor.
• Input Offset Voltage: It features a low input offset voltage, which enhances the accuracy of the device in precision applications.
• Wide Operating Temperature Range: The device can operate over a broad temperature range, making it suitable for industrial applications.

Applications

The TS3V393IN is ideal for a variety of applications, including:

• Limit comparators
• Voltage monitors
• Window comparators
• Timing circuits
• Battery chargers
• Energy management systems
• Logic voltage translation

Package and Quality

STMicroelectronics packages the TS3V393IN in a standard 8-pin DIP (Dual In-line Package), making it easy to integrate into various circuit boards. The device also meets the stringent quality standards expected from STMicroelectronics, ensuring reliable performance in demanding environments.

With its combination of low power consumption, high-speed operation, and operational stability, the TS3V393IN is an excellent choice for designers looking to enhance the performance and efficiency of their electronic systems.