Maxim Integrated MAX4752EGE+T Multiplexer

The Maxim Integrated MAX4752EGE+T is a high-performance, low-voltage, quad, SPST (single-pole single-throw) analog switch that offers precision and efficiency for today's demanding applications. This versatile component is designed to operate with a single supply voltage ranging from +1.8V to +5.5V, making it an ideal choice for portable and battery-powered devices.

With a wide bandwidth of 200MHz, the MAX4752EGE+T excels in signal routing applications that require fast switching and minimal signal distortion. Its low on-resistance of 0.5Ω (max) and flatness of 0.1Ω (max) ensure that signals are passed through with high fidelity, while the low charge injection of 10pC (max) reduces the impact on the signal during the switching process.

The MAX4752EGE+T comes in a compact 16-pin QSOP package, which is highly beneficial for space-constrained designs. The device also features a 1.8V logic-compatible control input, enabling direct interfacing with low-voltage microprocessors or microcontrollers without the need for level shifting.

Designed with power conservation in mind, the MAX4752EGE+T boasts a low power consumption with an IC quiescent current of only 0.1µA (max), which is crucial for extending the battery life in portable applications. The device also includes break-before-make switching, which prevents signal overlap and ensures clean, glitch-free transitions between signals.

Safety and reliability are paramount, and the MAX4752EGE+T addresses these concerns with its ESD protection of ±15kV (Human Body Model), protecting the device from electrostatic discharges during handling and operation. Additionally, the device is specified for the extended -40°C to +85°C temperature range, making it suitable for industrial applications.

Whether it's for audio and video signal routing, data acquisition systems, communication devices, or any application that requires high-quality analog switching, the MAX4752EGE+T from Maxim Integrated is an excellent choice that combines performance, integration, and reliability.