Overview of TPS7A8701RTJR by Texas Instruments
The TPS7A8701RTJR by Texas Instruments is a state-of-the-art, low-dropout (LDO) linear voltage regulator. At its core, this device is designed to deliver unparalleled regulation of voltage, with the target of maintaining optimal stability and performance in electronic systems. While ensuring efficiency, it still maintains a remarkably low quiescent current. These attributes make it among the most exceptional solutions you can find in the realm of LDO voltage regulation.
Key Features
- Low Dropout Voltage: By offering an impressively low dropout voltage, the TPS7A8701RTJR can function optimally even when there's just a tiny difference between the input and output voltages.
- High Accuracy: It ensures output accuracy up to ±2% over line, load, and temperature.
- Low Noise: This voltage regulator reduces power supply noise, providing a cleaner power source that boosts the performance of sensitive circuits.
- Power Good (PG) Output: This feature allows the system to monitor the performance of the voltage regulator, giving us real-time feedback on whether the component is functioning as expected.
Technical Specifications
The TPS7A8701RTJR operates in the temperature range of -40 to 125°C, making it suitable for use in varied environmental conditions. It has an adjustable and fixed output voltage range between 0.6V to 3.3V, providing flexibility in operation. With a maximum output current of up to 1A, this component delivers adequate power to support a range of applications. Additionally, it offers a low dropout voltage of 298mV at 1A, meaning the input voltage needed is minimally above the output voltage.
Application
The TPS7A8701RTJR finds a wide range of applications specifically in power supply solutions for numerous electronic systems. Due to its low noise feature, it is commonly used in noise-sensitive applications such as radio frequency (RF), analog and digital circuits, and precision measurement instruments. Furthermore, its high accuracy and resilience to various environmental conditions make it suitable for use in industrial applications, automotive systems, and communication equipment.