The LMV431AIMF/NOPB is a precision low-voltage adjustable shunt regulator from Texas Instruments (TI), designed with the purpose of offering a flexible solution for voltage regulation in a wide array of electronic applications. This particular model is part of the LMV431 series, well-known for their stability, accuracy, and ease of use.
Key Features
- Adjustable Output Voltage: The LMV431AIMF/NOPB offers an adjustable output voltage range from 1.24V to 30V, providing versatility for various design requirements.
- Low Minimum Operating Current: This device operates with a minimal current of 80µA, which is advantageous for power-sensitive applications.
- High Precision: With a typical temperature stability of only 50ppm/°C, the LMV431AIMF/NOPB ensures a consistent performance over a wide temperature range.
- Low Output Noise: It features a low output noise characteristic, making it suitable for noise-sensitive electronic systems.
- Small Form Factor: Housed in a SOT-23 package, the LMV431AIMF/NOPB is compact and suitable for space-constrained applications.
Applications
The LMV431AIMF/NOPB is highly versatile and can be utilized in a variety of applications, including but not limited to:
- Adjustable power supplies
- Battery chargers
- Switching power supply systems
- Motor control circuits
- Automotive electronics
Quality and Reliability
Texas Instruments is renowned for its commitment to quality and the LMV431AIMF/NOPB is no exception. It is designed to meet the rigorous standards of the industry, ensuring high reliability and performance. The NOPB designation indicates that the product is lead-free, RoHS compliant, and designed for environmentally conscious applications.
Technical Specifications
Package: SOT-23<br>
Output Voltage Range: 1.24V to 30V<br>
Minimum Operating Current: 80µA<br>
Temperature Stability: 50ppm/°C typical<br>
Regulation: Excellent line and load regulation<br>
For engineers and designers looking for a reliable, adjustable shunt regulator, the LMV431AIMF/NOPB is an excellent choice that combines flexibility, precision, and compactness to meet a wide range of design challenges.