Product Overview: AS431HBNTR-G1 from Diodes Incorporated
The AS431HBNTR-G1 is a precision adjustable shunt regulator from Diodes Incorporated, a leading manufacturer in the semiconductor market. This component is designed to provide a reliable solution for voltage regulation in a wide range of electronic applications, such as power supplies, battery chargers, and voltage monitoring systems.
With an output voltage range that can be set to any value between 2.5V and 36V through the use of two external resistors, the AS431HBNTR-G1 offers designers flexibility in their circuit designs. The device features a low output noise, which is crucial for maintaining signal integrity in sensitive electronics. Additionally, the regulator's low dynamic output impedance ensures stable load regulation, which is a key factor for applications where output voltage stability is critical.
The AS431HBNTR-G1 is characterized by its high accuracy, with a reference voltage tolerance of ±1% at 25°C, and ±2% over the entire operating temperature range of -40°C to +85°C. This precision makes it an ideal choice for applications requiring consistent performance over varying temperatures.
This shunt regulator also offers excellent thermal stability, ensuring that the device operates effectively under different environmental conditions. Its robust design includes fault protection features such as overcurrent and overtemperature protection, enhancing the reliability and longevity of both the regulator and the overall system.
Available in a green, RoHS-compliant SOT-23 package, the AS431HBNTR-G1 is not only environmentally friendly but also space-efficient, making it suitable for high-density circuit boards. This compact form factor, combined with its surface-mount design, simplifies the integration process and allows for automated assembly, reducing manufacturing costs and time.
Overall, the AS431HBNTR-G1 from Diodes Incorporated is a versatile and precise shunt regulator that delivers performance, efficiency, and reliability, making it a top choice for engineers and designers looking to optimize their power management solutions.