AD581UH High Precision 10V Reference IC

The AD581UH from Analog Devices Inc. is a high-performance integrated circuit that provides a precise 10V output reference with a guaranteed temperature stability over a wide range of operating conditions. This high precision voltage reference IC is designed to deliver a stable and accurate voltage for calibration, instrumentation, and high-end applications where consistent voltage is crucial.

Key Features:

• Output Voltage: The AD581UH offers a fixed 10V output, which is both highly accurate and stable, making it ideal for precision applications.
• Temperature Coefficient: This device boasts an impressive temperature coefficient, ensuring minimal voltage deviation with temperature changes, which is vital for applications requiring consistent performance across varying temperatures.
• Low Drop-Out Voltage: The low drop-out performance of the AD581UH allows it to maintain its output regulation with minimal input-to-output differential, which is beneficial in scenarios with limited headroom.
• High Load-Driving Capability: It has the ability to drive loads up to 10mA, which is suitable for most reference applications.
• Long-Term Stability: The AD581UH is designed for a long operational life with excellent long-term stability, reducing the need for recalibration and maintenance over time.
• Package Options: The device is available in various package options, including the industry-standard TO-99, which provides reliable performance in a wide range of environments.

Applications:

The AD581UH is used in a variety of applications where precision is key. It is ideal for:

• Digital Voltmeters
• Precision Power Supplies
• Data Acquisition Systems
• Operational Amplifier Circuitry
• Calibration Equipment

With its high precision and stability, the AD581UH from Analog Devices Inc. is a trusted choice for engineers and designers who require a reliable voltage reference for their sophisticated electronic systems. Its robust design and consistent performance make it a go-to component for ensuring the accuracy and integrity of electronic measurements and operations.