The AD8552ARZ-REEL7 is a precision, low power, fully integrated operational amplifier (op-amp) from Analog Devices Inc., a leader in high-performance analog technology. This particular model comes in a compact surface-mount package and is supplied in tape and reel form, which is ideal for automated assembly processes, denoted by the 'REEL7' suffix in its part number.
Key Features
- Zero-Drift Series: The AD8552ARZ-REEL7 is part of the Zero-Drift series of amplifiers, which are known for their ability to maintain a near-zero offset voltage over time and temperature changes. This makes them exceptionally stable and accurate for precision applications.
- Low Power Consumption: With a supply current of just 45 µA per amplifier, this device is optimized for battery-powered and portable applications where power efficiency is critical.
- Wide Supply Voltage Range: The device can operate from a single 2.7 V to 5.5 V supply, or dual supplies of ±2.7 V to ±2.75 V, giving designers flexibility in various circuit configurations.
- Excellent Temperature Performance: The op-amp has a very low temperature drift, which ensures consistent performance over a wide operating temperature range of -40°C to +125°C.
- High Precision: With an input offset voltage of only 1 µV and low noise, the AD8552ARZ-REEL7 is suitable for high-precision applications such as sensor signal conditioning and medical instrumentation.
- Rail-to-Rail Output: The rail-to-rail output stage enables the amplifier to drive loads all the way to the supply rails, maximizing the dynamic range in applications with limited supply voltages.
Applications
The AD8552ARZ-REEL7 is versatile and can be used in various applications including:
- Portable Medical Devices
- Instrumentation
- Sensor Signal Conditioning
- Temperature Measurement Systems
- Data Acquisition Systems
- Automotive Controls
With its precision specifications and low power operation, the AD8552ARZ-REEL7 from Analog Devices Inc. is an excellent choice for designers who require the highest level of accuracy and stability in their applications without compromising on power efficiency.