ON Semiconductor LM239DTBR2G: Precision Quad Differential Comparators

The LM239DTBR2G is a high-quality product from ON Semiconductor, known for its reliability and precision in various electronic applications. This integrated circuit is part of the LM239 series, which includes quad differential comparators designed to operate over a wide range of voltages and temperatures. This particular model is widely used in industrial, automotive, and consumer electronics due to its versatility and performance.

Key Features:

• Wide Voltage Range: The LM239DTBR2G operates from a single power supply over a wide range of voltages or can be operated from dual supplies.
• Low Input Bias Current: This comparator features a low input bias current which makes it suitable for precision applications.
• Low Input Offset Voltage: Its low input offset voltage ensures high accuracy in voltage comparison tasks.
• Common Mode Input Voltage Range: The device includes a common mode input voltage range that encompasses ground, making it ideal for ground-referenced sensors.
• Output Compatibility: The open collector output offers compatibility with various types of logic systems by allowing the user to select an appropriate pull-up resistor.
• Response Time: With a typical response time specified, the LM239DTBR2G is capable of fast switching, suitable for high-speed applications.

Applications:

The LM239DTBR2G is a versatile component that is used across a wide array of applications. Some of these include:

• Limit Comparators
• Simple Analog-to-Digital Converters (ADCs)
• Voltage Monitoring
• Window Comparators
• Peak Detectors
• Timing Circuits
• Logic Voltage Levels Translation

Package and Quality:

The LM239DTBR2G comes in a TSSOP-14 package, which is suitable for surface-mount technology (SMT) and is known for its space-saving design. ON Semiconductor ensures the highest quality and reliability of its components, and this product is no exception. It is designed to meet stringent industry standards, making it a reliable choice for critical and demanding applications.