Introducing the ZR40401F25TA Voltage Reference from Diodes Incorporated
Diodes Incorporated presents the ZR40401F25TA, a precision voltage reference that delivers a fixed output voltage of 2.5V with exceptional stability and accuracy. Designed to meet the rigorous demands of high-performance analog circuits, the ZR40401F25TA is an ideal component for a wide range of applications, including data converters, battery management systems, and precision power supplies.
The ZR40401F25TA operates with a low supply voltage that ranges from 2.7V to 5.5V, making it versatile for various circuit designs. It also boasts a low dropout voltage, ensuring it maintains accurate output even with minimal input-to-output differential. This feature is particularly beneficial in battery-operated devices, where power efficiency is crucial.
One of the standout features of the ZR40401F25TA is its low temperature coefficient, typically rated at 20ppm/°C, which ensures that the voltage reference remains precise across a wide temperature range. This stability is essential for applications that operate under varying environmental conditions and require consistent performance.
In terms of reliability, the ZR40401F25TA offers excellent long-term stability and a low output noise of 60µVrms for the 10Hz to 10kHz bandwidth, contributing to a clean and stable reference voltage. The device is also characterized for load regulation and line regulation, further cementing its role as a dependable component in sensitive electronic circuits.
For ease of integration into various designs, the ZR40401F25TA is offered in a compact SOT-23 package. This small footprint allows for space-saving on PCBs without compromising on performance. Additionally, the device is RoHS compliant, adhering to the latest environmental standards and regulations.
Overall, the ZR40401F25TA from Diodes Incorporated is a high-quality, precise voltage reference that offers designers a reliable solution for maintaining accurate voltages in their electronic systems. Its combination of low power consumption, high accuracy, and stability makes it a top choice for engineers looking to enhance the performance of their analog applications.