The AUR9717AGD is a high-performance, adjustable linear voltage regulator designed by Diodes Incorporated, a leading manufacturer and supplier of high-quality semiconductor products. This regulator is specifically engineered to meet a wide range of power management requirements with precision and efficiency, making it an ideal choice for various applications in electronics.
Key Features
- Adjustable Output Voltage: The AUR9717AGD offers an adjustable output voltage range, which can be set using external resistors. This feature provides design flexibility, allowing it to be used in multiple applications requiring different voltage levels.
- Low Dropout Voltage: With its low dropout voltage, the AUR9717AGD ensures efficient operation even when the input voltage is very close to the output voltage, reducing power loss and improving overall system efficiency.
- High Output Current: This regulator is capable of delivering a high output current, making it suitable for powering a variety of high-current devices.
- Thermal Protection: The built-in thermal protection feature prevents the device from overheating by shutting down the output when the internal temperature exceeds safe operating limits.
- Short Circuit Protection: The AUR9717AGD is equipped with short circuit protection to safeguard the device and the connected load from potential damage caused by output short circuits.
Applications
The versatile AUR9717AGD is well-suited for a broad range of applications, including but not limited to:
- Consumer Electronics
- Portable Devices
- Computer Peripherals
- Industrial Equipment
- Power Supply Modules
Product Specifications
With a compact form factor and robust construction, the AUR9717AGD is presented in a green-compliant package, signifying Diodes Incorporated's commitment to environmentally responsible manufacturing. The device's specifications are tailored to ensure reliable performance in demanding conditions.
Conclusion
Diodes Incorporated's AUR9717AGD adjustable linear voltage regulator is a top-tier solution for power management challenges. Its combination of flexibility, efficiency, and protective features makes it a valuable component for any power-sensitive design.