Introducing the ADR290GR Voltage Reference from Analog Devices Inc.

The ADR290GR is a precision voltage reference component manufactured by Analog Devices Inc., tailored for high-performance applications where stability and accuracy are paramount. This premium product offers a low-noise, low-drift voltage reference that is ideal for converting analog signals into digital data in various systems.

Key Features of the ADR290GR

• High Accuracy: The ADR290GR provides an output voltage with excellent accuracy, ensuring reliable performance in critical applications.
• Low Temperature Coefficient: With a low ppm/°C temperature coefficient, this voltage reference maintains its precision across a wide temperature range, making it suitable for environments with fluctuating temperatures.
• Low Noise: Analog Devices Inc. has engineered the ADR290GR to exhibit minimal noise, which is crucial for sensitive electronic applications where signal integrity is a concern.
• Long-Term Stability: Users can expect consistent performance over time due to the device's exceptional long-term stability.
• Wide Supply Voltage Range: The device operates over a broad supply voltage range, providing flexibility in various power supply configurations.

Applications

The ADR290GR is versatile and can be used in a wide array of applications, including:

• Precision data acquisition systems
• High-resolution converters
• Industrial control systems
• Medical equipment
• Automotive electronics

Technical Specifications

The ADR290GR boasts technical specifications that ensure top-notch performance:

• Initial Output Voltage: 2.048 V
• Output Voltage Options: Available in various grades for different precision levels
• Temperature Range: Specified over the industrial temperature range (-40°C to +125°C)
• Package: Comes in a robust package that ensures durability and longevity

The ADR290GR from Analog Devices Inc. represents a blend of cutting-edge technology and reliability, offering a voltage reference solution that engineers and designers can trust for their most demanding applications. Its precision and stability make it an indispensable component in the creation of high-accuracy electronic systems.