Product Overview: Texas Instruments LM4050QCIM3-5.0 Precision Voltage Reference
The Texas Instruments LM4050QCIM3-5.0 is a high-precision, shunt voltage reference that offers a fixed 5.0V output with an impressive accuracy level. This voltage reference device is designed for use in various applications, including data acquisition systems, high-precision instrumentation, and industrial control systems, where stability and accuracy are of paramount importance.
With its low temperature coefficient and long-term stability, the LM4050QCIM3-5.0 provides reliable performance under varying conditions. The device operates with a wide current range from 60 µA to 15 mA, allowing for flexible design options and compatibility with a diverse set of applications. Its low dynamic impedance ensures stable reverse breakdown voltage across the entire operating current range, further enhancing the device's precision capabilities.
Key Features:
- Output Voltage: Fixed 5.0V reference voltage with high accuracy.
- Temperature Coefficient: Typically 10 ppm/°C (max 20 ppm/°C) for excellent temperature stability.
- Operating Current Range: Wide range from 60 µA to 15 mA to suit various applications.
- Package: Supplied in a space-saving SOT-23 package, ideal for compact circuit designs.
- Stability: Excellent long-term stability and low dynamic impedance.
The device's robust design includes reverse breakdown voltage that is immune to fluctuations in applied voltage and operating temperature, ensuring a consistent and reliable voltage reference. This characteristic is particularly beneficial for precision applications where voltage accuracy is critical.
For ease of integration into your designs, the LM4050QCIM3-5.0 is available in a small SOT-23 package, making it suitable for space-constrained applications. Its industry-standard package allows for straightforward implementation into existing designs without the need for significant layout changes.
Overall, the Texas Instruments LM4050QCIM3-5.0 is a dependable and precise voltage reference that can significantly enhance the performance of your electronic systems. With its combination of accuracy, stability, and flexibility, it stands out as an excellent choice for designers seeking to improve the reliability and precision of their applications.