Maxim Integrated MAX313CUE+ Analog Multiplexer

The Maxim Integrated MAX313CUE+ is a high-performance, single-ended, 8-channel analog multiplexer that is designed to provide precision signal routing capabilities for a wide range of applications. This device is particularly well-suited for situations where low on-resistance and low cross-talk are crucial, such as in data acquisition systems, test equipment, and communication systems.

Featuring a wide analog signal range, the MAX313CUE+ operates with a single supply voltage from +4.5V to +30V or dual supplies of ±4.5V to ±20V, offering flexibility in various circuit designs. The low on-resistance of 100 ohms (max) ensures minimal signal attenuation, while the on-resistance match between channels is less than 2.5 ohms, providing consistent performance across all channels. Additionally, the on-resistance flatness of 6 ohms (max) over the specified signal range ensures a uniform transmission of analog signals.

One of the standout features of the MAX313CUE+ is its Electrostatic Discharge (ESD) protection, which exceeds 2000V per Method 3015.7 of MIL-STD-883C. This robust protection helps to ensure the longevity and reliability of the device in environments where ESD events are a concern. The multiplexer also boasts a fast transition time of 250ns and a low charge injection of 10pC, making it suitable for applications that require quick switching and minimal disturbance to the signal path.

The MAX313CUE+ comes in a compact 16-pin TSSOP package, which allows for efficient use of board space in space-constrained applications. It also features a digital input compatible with TTL and CMOS logic levels, making it easy to interface with a wide range of control logic circuits.

In summary, the Maxim Integrated MAX313CUE+ is a versatile and reliable solution for precision analog signal routing. With its low on-resistance, excellent ESD protection, and compatibility with various supply voltages, this analog multiplexer is an ideal choice for engineers looking to optimize their signal processing in complex electronic systems.