ON Semiconductor MC33282DR2 High Performance Operational Amplifier
The ON Semiconductor MC33282DR2 is a precision dual operational amplifier that delivers high performance with a wide range of features making it suitable for a vast array of applications. This op-amp is designed to offer a perfect balance between low power consumption and high output drive capability, ensuring efficient operation in both battery-powered and line-powered equipment.
With its low total harmonic distortion (THD) and high slew rate, the MC33282DR2 is ideal for audio processing applications where maintaining signal fidelity is crucial. It also exhibits low input offset voltage and low noise, which makes it an excellent choice for high-quality amplification in sensitive instrumentation, data acquisition systems, and active filters.
The MC33282DR2 is characterized by a wide supply voltage range, typically from ±3 V to ±18 V, making it versatile for different circuit configurations. Its common-mode input voltage range includes ground, which allows for direct sensing near ground. This feature is particularly useful in single-supply operations and facilitates easy interfacing with other components in the circuit.
The dual configuration of the MC33282DR2 not only saves space on the PCB by combining two operational amplifiers in a single package but also reduces the cost and simplifies the design process. The device is offered in an 8-pin SOIC package, ensuring compatibility with standard surface-mount manufacturing processes.
Key features of the MC33282DR2 include:
- Low Input Offset Voltage
- High Gain Bandwidth Product
- High Slew Rate
- Low Total Harmonic Distortion (THD)
- Wide Power Supply Range (±3 V to ±18 V)
- Common-Mode Input Voltage Range Includes Ground
- Dual Op-Amp Configuration
Whether it's for professional audio equipment, sensor interfaces, or any other precision analog signal processing, the MC33282DR2 from ON Semiconductor is a reliable and high-quality choice that engineers can depend on for consistent performance and robust operation.