Introducing the TLVH431ILP Voltage Reference from Texas Instruments

The TLVH431ILP is a high-performance, low-voltage adjustable precision shunt regulator designed by the reputable semiconductor manufacturer, Texas Instruments. This device offers a versatile solution for creating a stable reference voltage in various electronic applications, ranging from power supplies to data converters and battery management systems.

With its adjustable output voltage that can be set from V_ref to 36V with two external resistors, the TLVH431ILP provides designers with a high degree of flexibility. This feature allows for precise customization of the voltage reference to meet the specific requirements of different circuits and systems.

The TLVH431ILP boasts an impressive typical temperature coefficient of only 6.5 ppm/°C, ensuring minimal deviation in output voltage across a wide temperature range, which is crucial for applications demanding high stability. The low dynamic output impedance of 0.22 Ω, combined with fast turn-on characteristics, makes this device an excellent choice for applications requiring a low noise and quick response reference voltage.

Encased in a compact TO-92 package, the TLVH431ILP is designed for easy integration into a variety of circuit designs without taking up significant board space. This makes it an ideal choice for space-constrained applications. Additionally, it features a wide operating current range from 1 mA to 100 mA, which enhances its versatility in different operating conditions.

For safety and reliability, the TLVH431ILP incorporates overcurrent protection, ensuring that the device remains intact under extreme conditions. This, along with a typical output noise voltage of 0.4 µV/V at 10 Hz to 10 kHz, highlights Texas Instruments' commitment to delivering high-quality, robust components suitable for demanding environments.

In summary, the TLVH431ILP from Texas Instruments stands out as a highly reliable and precise adjustable shunt regulator. Its thermal stability, low operational impedance, and customizable output voltage make it a top choice for engineers and designers looking to enhance the performance of their power management systems.