The AS431ANTR-G1-CU is a precision integrated circuit voltage reference from Diodes Incorporated, designed to offer a stable and reliable reference voltage for various electronic applications. This component is particularly suited for precision data converters and voltage regulators, providing a stable voltage output over a wide range of operating conditions including temperature variations and load changes.

Key Features

• Adjustable Output Voltage: This device offers an adjustable output voltage that can be set with two external resistors, giving designers flexibility in choosing the reference voltage required for their specific application.
• Low Temperature Coefficient: The AS431ANTR-G1-CU boasts a low temperature coefficient, ensuring minimal deviation in reference voltage over a broad temperature range, which is critical for high-precision applications.
• Wide Operating Current Range: It operates over a wide current range, making it versatile for use in various circuit configurations and ensuring stable performance under different load conditions.
• High Stability: This voltage reference is designed for high stability and low dynamic impedance, ensuring a consistent and reliable reference voltage under varying operating conditions.
• Surface-Mount Package: The AS431ANTR-G1-CU comes in a surface-mount package, making it suitable for automated assembly processes and saving space on printed circuit boards (PCBs).

Applications

The AS431ANTR-G1-CU is ideal for a wide range of applications that require a stable reference voltage. These include:

• Power supplies and power management systems
• Precision data systems and A/D converters
• Battery chargers and battery-operated equipment
• Instrumentation and test equipment
• Consumer electronics

Quality and Reliability

Diodes Incorporated is committed to delivering high-quality products. The AS431ANTR-G1-CU is manufactured to stringent quality standards, ensuring reliability and performance for critical applications. Moreover, with its copper lead frame (indicated by the suffix CU), it offers enhanced thermal performance and mechanical robustness.