Diodes Incorporated AZ1117R-ADJTRG1 Voltage Regulator
The AZ1117R-ADJTRG1 from Diodes Incorporated is a high-performance, low-dropout linear voltage regulator capable of delivering a continuous 1A of output current. Designed to maintain precision voltage control, this component is an ideal solution for a variety of applications that require a stable and reliable power supply.
With an adjustable output voltage range from 1.25V to 13.8V, the AZ1117R-ADJTRG1 offers great flexibility, making it suitable for custom voltage requirements. This feature allows designers to use a single part type across multiple designs, simplifying inventory management and reducing overall costs.
The regulator operates over a wide input voltage range, from 2.6V to 15V, ensuring functionality across various input conditions. This makes it a versatile choice for systems that experience fluctuations in supply voltage, ensuring consistent performance regardless of the input conditions.
One of the key attributes of the AZ1117R-ADJTRG1 is its low dropout voltage, which enhances efficiency by allowing operation closer to the input voltage. This characteristic is particularly beneficial in battery-powered applications where maximizing the usage of available power is crucial.
Thermal performance is also a strong point for this component. It features an excellent thermal regulation capability, which helps to prevent overheating and ensures stable operation even under high load conditions. The AZ1117R-ADJTRG1 is available in a surface-mount SOT-223 package, which is both space-efficient and suitable for automated assembly processes.
Additional protections are built into the device, including over-current protection and thermal shutdown, safeguarding the regulator and the downstream circuitry from potential damage due to excessive current or overheating scenarios.
In summary, the AZ1117R-ADJTRG1 from Diodes Incorporated is a reliable and efficient solution for applications requiring a high-quality, adjustable voltage regulator. Its flexibility, efficiency, and protective features make it a strong candidate for inclusion in power management designs across a diverse array of electronic products.