MAX333CWP - Analog Devices Inc./Maxim Integrated

Manufacturer Part Number

MAX333CWP

Manufacturer

Analog Devices

Introduction

The MAX333CWP is an analog switch designed for interface applications in multiplexing and demultiplexing, specifically suited for signal routing in various electronic equipment.

Product Features and Performance

4 Circuits with SPDT (Single Pole Double Throw) configuration

2:1 Multiplexer/Demultiplexer Circuit

On-State Resistance (Maximum): 250 Ohm

Voltage Supply Range: Single (10V to 30V), Dual (±5V to ±18V)

Switching Time: Maximum 1µs On, 500ns Off

Channel Capacitance: 5pF when off

Leakage Current (Maximum): 5nA when off

Crosstalk: -78dB at 1MHz

Operating temperature range from 0°C to 70°C

Product Advantages

Low On-State Resistance minimizes signal loss

Fast switching response improves performance in time-sensitive applications

Dual supply voltage option increases flexibility in system design

Low leakage current and high crosstalk attenuation ensure signal integrity

Key Technical Parameters

Number of Circuits: 4

On-State Resistance: 250 Ohm max

Voltage Supply, Single/Dual: 10V ~ 30V, ±5V ~ ±18V

Switch Time (Ton, Toff): 1µs, 500ns max

Channel Capacitance: 5pF

Leakage Current (Max): 5nA

Operating Temperature: 0°C ~ 70°C

Quality and Safety Features

Built to adhere to stringent quality controls

Safety features ensure reliable operation under specified conditions

Compatibility

Compatible with a wide range of signal levels due to its dual supply voltage capabilities

Application Areas

Ideal for use in:

Communication equipment

Data acquisition systems

Test and measurement instruments

Product Lifecycle

Obsolete status signifies no ongoing manufacturing

Contact Analog Devices for information on replacement or upgrade options

Several Key Reasons to Choose This Product

Reliable for high-frequency signal switching, with crosstalk minimized at high frequencies (-78dB at 1MHz)

Versatility in power supply options (both single and dual)

Suitable for various commercial and industrial environmental conditions

Extremely fast response times accommodate rapid system operations

Minimal signal integrity distortion with low on-state resistance and capacitance