AZ431BN
Adjustable shunt voltage reference ICs
Manufacturer: ['diodes', 'bcd']
series introduction
The AZ431BN is a precision shunt voltage reference designed for a wide array of applications requiring accurate voltage regulation and stability. This product series is renowned for its versatility and reliability, making it an essential component in the design of modern electronic systems. With a nominal output voltage of 1.24V, the AZ431BN can be adjusted from 1.24V to 36V, offering exceptional flexibility for various circuit requirements. Its low temperature coefficient and high precision ensure that the output voltage remains consistent across a wide range of operating conditions, thus enhancing the performance of end applications.
The design characteristics of the AZ431BN series include a low dynamic output impedance, which contributes to its stability in feedback loops, making it an ideal choice for applications that require precise voltage regulation. Its built-in temperature compensation minimizes drift over temperature changes, ensuring that the output voltage remains reliable even in varying thermal environments. Furthermore, the AZ431BN features a low supply current, which is particularly beneficial in battery-powered devices, contributing to extended operational life.
The AZ431BN is well-suited for a multitude of use cases, including power supplies, voltage regulation circuits, and analog-to-digital converters. Its ability to function effectively as a reference voltage source makes it valuable in precision measurements and signal conditioning, where accurate voltage levels are critical. Typical applications span across consumer electronics, industrial automation, telecommunications, and automotive systems, where reliable voltage reference is paramount.
In summary, the AZ431BN series stands out as a robust solution for engineers seeking high precision and versatility in voltage reference components. Its exceptional performance characteristics and adaptability to various applications underscore its significance in the development of efficient and reliable electronic designs, making it a preferred choice in both prototype and production environments.
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