Maxim Integrated MAX6193BESA+T Voltage Reference IC
The MAX6193BESA+T from Maxim Integrated is a high-precision voltage reference IC designed to provide a stable and accurate reference voltage for various applications. This device is particularly well-suited for precision data converters, portable instrumentation, and industrial control systems where stability and accuracy are of paramount importance.
With a series reference type, the MAX6193BESA+T offers a fixed output voltage of 3.0V. It boasts an impressive initial accuracy of ±0.02%, ensuring that the output voltage is precise right out of the box. The low temperature coefficient of just 3ppm/°C further contributes to its stability over a wide temperature range, making it reliable for use in environments with fluctuating temperatures.
One of the key features of the MAX6193BESA+T is its low dropout voltage, which allows it to maintain a stable output even when the supply voltage is very close to the output voltage. This makes it ideal for battery-powered applications where the supply voltage may vary over time. Additionally, the device has a low quiescent current of 180µA, which helps to conserve battery life in portable applications.
The MAX6193BESA+T comes in a compact 8-pin NSOIC package, making it space-efficient for designs where board real estate is at a premium. It is also specified for the extended industrial temperature range of -40°C to +85°C, providing reliable performance under harsh conditions.
For enhanced versatility, the device includes a force-sense connection that allows for remote voltage sensing, ensuring that the correct voltage is delivered to the load even with voltage drops in the wiring. This feature is particularly useful in precision applications where voltage drops cannot be tolerated.
Overall, the MAX6193BESA+T is a robust and precise voltage reference IC that meets the needs of demanding applications requiring high accuracy and stability. Its combination of performance, power efficiency, and compact size makes it an excellent choice for designers looking to enhance the performance of their systems.