The OP282GPZ is a dual, low power, high precision operational amplifier from Analog Devices (ADI). It's designed for applications requiring low power consumption without compromising accuracy and performance. This amplifier offers a good combination of DC precision and AC performance, making it suitable for battery-powered instruments and portable applications.

Applications

• Battery-powered instrumentation
• Portable medical devices
• Handheld test equipment
• Sensor signal conditioning
• Process control
• Remote data acquisition

Features

• Low Power Consumption: Extends battery life in portable applications.
• High Precision: Provides accurate signal amplification and measurement.
• Dual Amplifier: Two amplifiers in a single package for space-saving designs.
• Low Offset Voltage: Ensures high DC accuracy with minimal input offset error.
• Wide Supply Voltage Range: Allows for flexibility in power supply selection.
• High Open-Loop Gain: Provides excellent signal amplification and feedback control.

Benefits

• Extended Battery Life: Low power consumption enables longer operation in battery-powered devices.
• Improved Accuracy: The low offset voltage and high open-loop gain contribute to precise signal amplification and measurement.
• Design Flexibility: Wide supply voltage range allows for versatile integration into various power supply environments.
• Space Savings: Dual amplifier configuration reduces board space requirements in multi-channel systems.
• Reduced System Cost: Integration of two amplifiers reduces component count and cost.

The OP282GPZ is typically available in a PDIP (Plastic Dual In-Line Package). It operates on a dual supply voltage. Key specifications include a low supply current and a low input offset voltage. Its operating temperature range is generally specified for industrial applications (-40°C to +85°C). This ensures reliable operation in a wide range of environmental conditions. The combination of precision, low power, and dual amplifier configuration makes the OP282GPZ a suitable choice for demanding portable and battery-powered applications. Its ability to accurately amplify signals while minimizing power consumption is crucial for maximizing the runtime of portable devices and ensuring reliable performance in remote sensing systems.