TLV431AID Precision Low-Voltage Shunt Regulator
The TLV431AID from Texas Instruments is a precision low-voltage shunt regulator that offers excellent performance in a small SOT-23 package. Designed to be versatile and flexible, this device can be used in a variety of applications where voltage regulation is crucial, such as power supplies, battery management systems, and voltage monitoring circuits.
With a specified thermal stability, the TLV431AID ensures reliable operation over a wide temperature range, making it a suitable choice for both commercial and industrial applications. Its low output noise and adjustable output voltage from Vref to 6 V add to its versatility, allowing for use in noise-sensitive applications and enabling it to fit a broad range of voltage regulation tasks.
The device features a low dynamic output impedance, which provides a stable regulated voltage even with changes in load, enhancing the performance of the end application. Its precise reference voltage of 1.24 V at 25°C with a typical temperature coefficient of only 6 ppm/°C ensures consistent and predictable performance over a wide temperature range.
Key features of the TLV431AID include:
- Adjustable output voltage from Vref to 6 V
- Low reference voltage: 1.24 V at 25°C
- Low operational cathode current
- Low temperature coefficient: typically 6 ppm/°C
- Fast turn-on response
- Low dynamic output impedance
- High stability when used with capacitive loads
With its excellent accuracy and stability, the TLV431AID is ideal for precision applications. Its ability to operate with a low cathode current and its fast turn-on response time make it energy-efficient and quick to respond to changes in the system, respectively. Additionally, the device's compatibility with high capacitive loads ensures that it can be used in a wide array of configurations without sacrificing performance.
Overall, the Texas Instruments TLV431AID shunt regulator is a reliable and flexible solution for designers looking to implement precise voltage regulation in their electronic circuits.