Maxim Integrated's DG405DY+ High-Performance Analog Multiplexer

The DG405DY+ is a precision monolithic high-performance analog multiplexer brought to you by Maxim Integrated, a renowned leader in the development of integrated circuits. This versatile component is designed to connect a single output to one of sixteen different analog inputs, making it an ideal choice for a wide range of applications where routing and signal management are critical.

The DG405DY+ operates with dual supplies ranging from ±4.5V to ±20V or a single supply of 10V to 40V, providing the flexibility needed for various system designs. Its low on-resistance (100Ω max) and on-resistance match between channels (6Ω max) ensure minimal signal distortion and excellent channel-to-channel uniformity, which is crucial for maintaining signal integrity in sensitive analog applications.

This high-performance analog switch also features low charge injection (10pC max), which minimizes the impact on the signal during the transition, and low power consumption, making it suitable for power-sensitive designs. With its fast switching times (t_ON of 175ns max and t_OFF of 145ns max), the DG405DY+ can handle high-speed signal switching with ease, ensuring that your application remains responsive and efficient.

The DG405DY+ is TTL/CMOS compatible, allowing for straightforward integration with digital logic components. Additionally, its ESD tolerance of 2000V Human Body Model (HBM) offers robustness for handling and long-term reliability in the field. Packaged in a 28-pin SOIC, the DG405DY+ is compact and suitable for space-constrained applications.

Whether you're designing data acquisition systems, test equipment, or audio/visual signal routing applications, the Maxim Integrated DG405DY+ analog multiplexer provides the performance and reliability required to build state-of-the-art electronic systems. Its combination of low on-resistance, fast switching, and high ESD protection makes it a top choice for engineers and designers looking for a high-quality multiplexing solution.