ADP7182AUJZ-2.5-R7: Ultra-Low Noise, CMOS Linear Regulator by Analog Devices Inc.
The ADP7182AUJZ-2.5-R7 is a premium quality linear regulator from Analog Devices Inc., designed to deliver a stable and precise 2.5V output voltage. This component is a part of the ADP7182 series, which is renowned for its ultra-low noise performance and high power supply rejection ratio (PSRR), making it an ideal choice for sensitive RF applications and high-fidelity analog circuitry.
Encased in a compact TSOT-5 package, the ADP7182AUJZ-2.5-R7 is optimized for space-constrained applications, without compromising on performance. It is capable of supplying up to 200 mA of output current, while maintaining a low dropout voltage, ensuring efficient operation even when input-to-output differential is minimal.
One of the standout features of this linear regulator is its exceptionally low noise output, which is less than 10 µVrms over a 10 Hz to 100 kHz bandwidth. This characteristic is particularly beneficial for precision instrumentation, medical equipment, and high-end audio applications, where noise can significantly impact performance and accuracy.
The ADP7182AUJZ-2.5-R7 also boasts a high PSRR (>60 dB at 10 kHz), providing excellent power supply isolation and further enhancing its suitability for noise-sensitive applications. Additionally, it has a wide input voltage range from 2.7 V to 28 V, offering flexibility in various operating conditions and making it compatible with a broad array of input sources.
Safety and reliability are key aspects of the ADP7182AUJZ-2.5-R7's design. It includes several protective features such as overcurrent protection, thermal overload protection, and a shutdown feature that helps in power conservation during idle periods. The device also has a low quiescent current, which contributes to an extended battery life in portable applications.
To summarize, the ADP7182AUJZ-2.5-R7 from Analog Devices Inc. is a top-tier linear regulator that provides precise voltage regulation, ultra-low noise, and high PSRR, all within a small footprint. It is an exemplary choice for designers looking to enhance the performance of their high-precision electronic systems.