Product Overview: LM4040EEM3X-2.5/NOPB
The LM4040EEM3X-2.5/NOPB is a high-precision voltage reference from Texas Instruments, designed for a wide array of applications requiring a stable reference voltage. This component is particularly well-suited for use in precision data converters, portable instrumentation, battery-powered devices, and industrial control systems.
With an output voltage of 2.5 volts, the LM4040EEM3X-2.5/NOPB offers excellent stability and low dynamic impedance, ensuring a reliable voltage reference under varying conditions. Its accuracy is maintained over a full operating temperature range, making it an ideal choice for systems that must perform consistently in diverse environments.
Key Features
- Fixed Output: Provides a fixed 2.5V output with high precision.
- Temperature Coefficient: Boasts a low temperature coefficient, ensuring minimal deviation in output voltage with temperature changes.
- High Accuracy: Offers an initial accuracy of 0.1% (max) for demanding applications.
- Low Dynamic Impedance: The low output impedance and quick transient response make it suitable for applications with varying load conditions.
- Wide Operating Current: Functions across a broad operating current range, from 60 μA to 15 mA.
- Extended Temperature Range: Operates over a wide temperature range of −40°C to 85°C, accommodating diverse operating conditions.
Package and Reliability
The device comes in a small SOT-23 package, which is ideal for space-constrained applications. The LM4040EEM3X-2.5/NOPB is also characterized for moisture sensitivity in accordance with the Pb-free reflow requirements, and its NOPB designation indicates it is lead-free, making it compliant with RoHS regulations. This ensures that it meets contemporary environmental standards for electronic components.
Applications
- Precision Data Converters
- Portable Instrumentation
- Battery-Powered Devices
- Industrial Control Systems
In conclusion, the LM4040EEM3X-2.5/NOPB from Texas Instruments is a robust, precise, and versatile voltage reference that can be relied upon for consistent performance across a variety of electronic applications. Its combination of accuracy, stability, and package efficiency makes it an excellent choice for engineers and designers looking to enhance the reliability of their power management systems.