MAX4594DBVR - Texas Instruments

Manufacturer Part Number

MAX4594DBVR

Manufacturer

Texas Instruments

Introduction

The MAX4594DBVR from Texas Instruments is a high-performance SPST analog switch designed for precision signal switching applications.

Product Features and Performance

Single SPST Normally Open switch configuration

1:1 Multiplexer/Demultiplexer Circuit

Low On-State Resistance of 10Ohm

Fast Switching Time: 35ns turn-on, 40ns turn-off

Wide 3dB Bandwidth of 300MHz

Minimal Charge Injection of 2pC

Low Channel Capacitance: 8pF (off state)

Ultra-low Leakage Current: 500pA (max)

Operates across a wide supply voltage range: 2.4V to 5.5V

Product Advantages

High bandwidth suitable for video and high-speed data

Precision switching with low distortion

Energy-efficient operation with low power consumption

Compact SOT-23-5 packaging suitable for space-constrained applications

Key Technical Parameters

Number of Circuits: 1

On-State Resistance (Max): 10Ohm

Switch Time (Ton, Toff) (Max): 35ns, 40ns

-3db Bandwidth: 300MHz

Operating Temperature: -40°C to 85°C

Quality and Safety Features

Rigorous quality and reliability standards of Texas Instruments

Operational over a wide temperature range for robust performance in challenging environments

Compatibility

Compatible with a wide range of supply voltages for flexible design options

Surface Mount mounting type allows for ease of integration into various circuit designs

Application Areas

Signal routing in audio/video systems

Data acquisition systems

Test and measurement equipment

Communication systems

Product Lifecycle

Status: Active

Not nearing discontinuation, ensuring long-term availability

Potential for future upgrades or replacements as technology progresses

Several Key Reasons to Choose This Product

High performance with low on-resistance and fast switching speeds for efficient signal management

Versatile application potential from consumer electronics to industrial systems

Texas Instruments' reputation for reliability and quality in semiconductor manufacturing

Wide operational temperature range suitable for diverse environmental conditions

Energy-efficient design contributes to reduced power consumption in end applications