LM4040C50H5TA Precision Voltage Reference by Diodes Incorporated

The LM4040C50H5TA is a high-precision shunt voltage reference produced by Diodes Incorporated, renowned for its stability and accuracy in a range of electronic applications. This component is designed to provide a fixed voltage reference of 5V with an impressive accuracy level, making it suitable for various critical applications where voltage precision is paramount.

This voltage reference comes in a small SOT-23 package, which is ideal for space-constrained applications. Despite its compact size, the LM4040C50H5TA does not compromise on performance, offering a low dynamic impedance and a wide operating current range. This versatility allows it to be used in diverse scenarios, from simple power supplies to more complex analog circuits.

Key Features:

• Output Voltage: Precisely regulated 5V output with a tight tolerance.
• Accuracy: High accuracy with a ±0.5% tolerance at 25°C, ensuring reliable performance.
• Temperature Coefficient: A low temperature coefficient of typically 50 ppm/°C, providing stable operation over a wide temperature range.
• Operating Current: Supports a broad operating current range from 60 µA to 15 mA, catering to various application needs.
• Package: Supplied in a compact and surface-mountable SOT-23 package, suitable for automated assembly processes.
• Applications: Ideal for use in battery-powered equipment, precision power supplies, data acquisition systems, and portable instrumentation.

The LM4040C50H5TA ensures excellent performance with its low output noise and good transient response, making it a reliable choice for systems requiring a stable reference voltage. Its ability to maintain accuracy over time and under varying environmental conditions is a testament to the high-quality standards of Diodes Incorporated.

Whether you're designing a sophisticated measurement device or simply need a stable voltage reference for your circuit, the LM4040C50H5TA is a robust and dependable choice that promises to deliver precision and consistency in your electronic designs.