ON Semiconductor MC33202VDR2G Operational Amplifier

The MC33202VDR2G is a high-performance operational amplifier from ON Semiconductor, designed to offer a perfect blend of features for a wide array of applications requiring low power consumption and high precision. This device is part of the MC33202 series, known for its rail-to-rail input and output performance, which makes it highly versatile in both single-supply and split-supply operations.

With an operating voltage range of 2.5V to 5.5V, the MC33202VDR2G is ideal for battery-powered devices, portable equipment, and other applications where power efficiency is crucial. The amplifier boasts a typical low supply current of 200 µA, which is beneficial for extending battery life in portable applications without compromising on performance.

The MC33202VDR2G provides excellent precision with an input offset voltage of just 0.5 mV and an input offset voltage drift of typically 1 µV/°C. This precision, combined with a common-mode input voltage range that extends beyond the power supply rails, makes the device a strong candidate for sensor amplification and data acquisition systems.

Furthermore, the amplifier features a high gain bandwidth product of 2.2 MHz and a slew rate of 2.3 V/µs, ensuring ample bandwidth and fast response times for both audio and control signal applications. The low total harmonic distortion plus noise (THD+N) characteristic also makes it suitable for audio processing applications where signal integrity is paramount.

The MC33202VDR2G is available in an 8-pin SOIC package, making it easy to integrate into a variety of circuit designs. Its extended operating temperature range from -40°C to +85°C ensures reliable performance across diverse environmental conditions.

In summary, ON Semiconductor's MC33202VDR2G operational amplifier is a high-quality, versatile component that offers low power consumption, high precision, and rail-to-rail input/output capabilities. It is a suitable choice for designers looking to optimize their systems for power efficiency without compromising on performance, especially in applications such as portable devices, sensor interfaces, and audio processing circuits.