Overview of TPS7A6201QKTTRQ1
The TPS7A6201QKTTRQ1, crafted by Texas Instruments, is a powerful Low-Dropout (LDO) regulator that stands out for its superior performance and versatile application. This high-quality device is designed to manage a wide range of current and voltage, providing an ideal solution for various demanding applications such as power supply operations.
Key Features
- It offers an impressive low dropout voltage which ensures efficient performance.
- The device boasts a wide output voltage range, from 1.2V to 13.6V, allowing it to cater to various needs.
- It has a fixed and adjustable output voltage, ensuring flexibility and adaptability to varying power requirements.
- Incorporating the Enable feature, it allows for easy control and operation of the device.
- It's engineered with a thermal shutdown and current limit, providing an extra layer of protection for your system.
- The TPS7A6201QKTTRQ1 is also Green (RoHS & no Sb/Br) compliant, reflecting the commitment of Texas Instruments to environmentally-friendly manufacturing practices.
Technical Specifications
The TPS7A6201QKTTRQ1 operates with an input voltage range of 2.7V to 18V, making it ideal for many applications. It provides an output current of 1A, and its high power dissipation of 2.5W allows it to handle demanding tasks. The device also has a low dropout voltage of 300mV at full load, contributing to its high power efficiency. It's suitable for operating temperatures ranging from -40°C to 125°C, demonstrating its sturdiness and reliability.
Applications
The TPS7A6201QKTTRQ1, with its diverse features, can be applied to a vast range of industries and operations. It is particularly suitable for powering microprocessors in automotive applications, RF supplies, post-regulation applications, and sensitive analogue circuits. In addition, it can be utilised in power supply operations for several electronic appliances, including telecommunication equipment, computer systems, and home appliances. Its ability to work with a wide range of voltages and currents makes it a highly flexible and adaptable component in various technological applications.