Maxim Integrated MAX6192BESA+ Precision Voltage Reference

The MAX6192BESA+ is a high-precision voltage reference component manufactured by Maxim Integrated, designed to offer a stable and accurate reference voltage for analog-to-digital converters (ADCs), digital-to-analog converters (DACs), and other precision circuit applications. This component is particularly well-suited for high-end industrial, automotive, and communication systems where precision and reliability are paramount.

The MAX6192BESA+ provides a fixed output voltage of 2.048V with an impressive initial accuracy of ±0.02%. This level of precision is maintained over the full operating temperature range of -40°C to +85°C, ensuring consistent performance even in challenging environmental conditions. The low temperature coefficient of 3ppm/°C further enhances the stability of the voltage reference under varying temperatures.

Featuring a low dropout voltage and a quiescent current of just 350µA, the MAX6192BESA+ is designed for energy-efficient operation, making it an excellent choice for battery-powered devices and portable equipment. The low dropout voltage allows the reference to remain accurate even when the supply voltage is only slightly higher than the output voltage, providing greater flexibility in power supply design.

The MAX6192BESA+ comes in a small 8-pin NSOIC package, which is ideal for space-constrained applications. The device also includes a force-sense configuration that allows for remote voltage sensing, compensating for voltage drops in the system due to wire and PCB trace resistance, thereby ensuring the accuracy of the reference voltage at the point of load.

For applications that require a stable and precise voltage reference, the MAX6192BESA+ from Maxim Integrated is a reliable and cost-effective solution. Its combination of high accuracy, stability, and low power consumption makes it a versatile component for a wide range of precision electronic systems.

In summary, the MAX6192BESA+ stands out as a superior voltage reference solution for designers looking to enhance the accuracy and performance of their systems without compromising on power efficiency or space.