Maxim Integrated LM4040BEM3-2.1+T Precision Voltage Reference
The LM4040BEM3-2.1+T from Maxim Integrated is a high-precision shunt voltage reference that offers a fixed reverse breakdown voltage of 2.1V with an impressive accuracy. This component is designed for use in various applications where a stable and accurate reference voltage is crucial, such as in analog-to-digital converters (ADCs), digital-to-analog converters (DACs), and power supply monitoring.
Encased in a small SOT-23 package, the LM4040BEM3-2.1+T is ideal for space-constrained applications. Its small footprint does not compromise its performance or reliability, making it a popular choice for portable and battery-powered devices. The device operates over a wide current range from 60µA to 15mA, providing designers with flexibility in a variety of circuit configurations.
One of the key features of the LM4040BEM3-2.1+T is its low temperature coefficient, which ensures minimal deviation in the output voltage over the operating temperature range. This temperature stability makes it suitable for precision applications and environments with varying temperatures.
The device also boasts excellent long-term stability and very low dynamic impedance, which contributes to its ability to provide a stable reference under varying load conditions. Additionally, the LM4040BEM3-2.1+T is characterized for operation from −40°C to +85°C, catering to a broad spectrum of industrial applications.
With its high precision and reliability, the Maxim Integrated LM4040BEM3-2.1+T is an excellent choice for designers looking to enhance the accuracy and stability of their systems. Whether it's for power management, process control, or instrumentation, this voltage reference can help achieve consistent performance and improve the overall efficiency of electronic circuits.
For those seeking a reliable and precise voltage reference solution, the LM4040BEM3-2.1+T from Maxim Integrated offers the quality and performance needed to meet the demands of today's sophisticated electronic systems.