**ADG526AKR: High-Performance CMOS Analog Multiplexer for Precision Signal Routing Systems**

In the realm of precision electronics, the accurate routing of analog signals is a critical function across a vast array of applications, from automated test equipment (ATE) and data acquisition systems to medical instrumentation and industrial control. The **ADG526AKR** stands out as a premier solution, engineered to meet the stringent demands of these high-performance systems. This monolithic CMOS analog multiplexer is designed to provide exceptional signal integrity, low power consumption, and robust reliability, making it an indispensable component for designers.

At its core, the **ADG526AKR** is a **single 8-channel differential multiplexer**, configured as two 4-channel blocks. This architecture offers unparalleled flexibility, allowing it to handle a wide range of signal configurations. A key to its high-performance pedigree is its **extremely low on-resistance of just 100 Ω**, which remains flat across the entire analog signal range. This minimal resistance is crucial as it ensures negligible voltage drop and signal attenuation, preserving the accuracy of delicate measurements.

Furthermore, the device exhibits **outstanding on-resistance matching between channels**, a critical parameter for maintaining consistency in multi-channel systems where any variation could introduce errors. Complementing this is its **very low charge injection**, which minimizes transients and glitches when switching between channels. This feature is vital for protecting sensitive downstream components, such as precision operational amplifiers or analog-to-digital converters (ADCs), from switching artifacts that could corrupt measurement data.

Built on an advanced CMOS process, the ADG526AKR operates over a wide supply voltage range, typically from ±5V to ±20V or a single +12V to +36V supply, accommodating various system-level requirements. It also features **break-before-make switching action**, preventing momentary shorting between adjacent channels during switching and further enhancing system safety and signal fidelity. The TTL and CMOS-compatible digital inputs simplify interface with modern microcontrollers and digital signal processors (DSPs).

In application, these characteristics translate directly to higher system accuracy, improved resolution, and enhanced reliability. Whether it is routing sensor signals in a data logger, switching reference voltages in a calibrator, or managing signals in a medical imaging device, the ADG526AKR provides a transparent path for analog signals.

**ICGOODFIND**: The ADG526AKR is a superior choice for engineers designing critical signal paths, offering a blend of low on-resistance, minimal charge injection, and high integration that is essential for next-generation precision systems.

**Keywords**: **Analog Multiplexer**, **Low On-Resistance**, **Charge Injection**, **Precision Signal Routing**, **CMOS Switch**.