Maxim Integrated's DG406EUI+ Multiplexer

The DG406EUI+ is a high-performance, single-ended, 16-channel multiplexer from Maxim Integrated, designed to deliver precision and reliability for a wide range of applications. This device is particularly suitable for use in data acquisition systems, process controls, and instrumentation where low leakage currents and high switching speeds are essential.

Built with Maxim's proprietary silicon-gate process, the DG406EUI+ offers an excellent combination of low on-resistance and low charge injection, which minimizes errors and ensures a high level of signal integrity. The multiplexer operates with a single +5V to +30V supply, or a ±5V to ±20V dual supply, providing flexibility in various power environments.

Key features of the DG406EUI+ include its low on-resistance (<100 ohms) and its low crosstalk and off-isolation, which make it an excellent choice for precision applications. The device also boasts an ESD tolerance of 2000V per Method 3015.7, which enhances its robustness and longevity in harsh environments.

The DG406EUI+ is designed with a break-before-make switching action, which prevents momentary shorting when switching channels. This is particularly important in sensitive analog circuits to avoid damaging components or introducing noise into the signal path. The multiplexer's digital inputs are TTL and CMOS compatible, allowing for easy integration with a wide range of control logic.

Packaged in a narrow 28-pin SSOP, the DG406EUI+ is space-efficient and suitable for high-density mounting, making it an ideal solution for compact systems. Maxim Integrated provides comprehensive technical support for the DG406EUI+, including detailed datasheets, application notes, and design resources to assist engineers in implementing the multiplexer into their designs effectively.

Overall, the DG406EUI+ from Maxim Integrated stands out as a high-quality component that offers precision, durability, and versatility, making it a valuable addition to any electronic system requiring reliable multiplexing capabilities.