Introducing the REF35180QDBVR Voltage Reference IC from Texas Instruments
The REF35180QDBVR by Texas Instruments is a high-precision voltage reference component that offers a fixed output voltage of 1.8V. This device is part of TI's family of low-dropout, micropower bandgap voltage references that provide high accuracy and low temperature coefficient, making it an ideal choice for precision applications.
Encased in a compact SOT-23-3 package, the REF35180QDBVR is designed to be space-efficient and suitable for a wide range of applications, including portable and battery-powered electronics. It is characterized for operation from -40°C to +125°C, which ensures reliable performance across a broad spectrum of temperature conditions.
This voltage reference IC boasts an impressive low dropout voltage, which enables it to maintain accurate output even with minimal differences between the supply voltage and the output voltage. This feature is crucial for maintaining stability in systems with tight power supply margins.
With a low output noise of only 17μVp-p/V, which is measured over a 10 Hz to 10 kHz bandwidth, the REF35180QDBVR ensures a clean and stable voltage reference, making it highly suitable for precision analog-to-digital conversions and voltage monitoring in sensitive applications.
The REF35180QDBVR also offers excellent load regulation characteristics, ensuring that the output voltage remains constant despite variations in the load current. This stability is essential for maintaining the accuracy of the reference voltage in dynamic load conditions.
Furthermore, the device features a low quiescent current, typically around 5μA (max), which contributes to energy efficiency in the system. This makes the REF35180QDBVR an excellent choice for power-sensitive applications where extending battery life is a priority.
Overall, the Texas Instruments REF35180QDBVR voltage reference is a reliable and precise solution for engineers and designers looking to ensure stable and accurate reference voltages in their electronic designs. Its combination of low power consumption, high accuracy, and robust performance in varying temperatures and load conditions makes it a versatile component for a multitude of applications.