DG411HSDY-T1-E3 - Vishay Siliconix

Manufacturer Part Number

DG411HSDY-T1-E3

Manufacturer

vishay-siliconix

Introduction

This product is a high-performance Analog Switch designed for use in interface applications.

Product Features and Performance

SPST NC switch circuit configuration

1:1 Multiplexer/Demultiplexer circuit

Features 4 independent circuits

Maximum on-state resistance of 35Ohm

Suitable for single supply voltages from 13V to 44V and dual supply voltages from ±5V to 20V

Switching times are 105ns (Ton) and 80ns (Toff)

Charge injection is 22pC

Channel Capacitance for both CS(off) and CD(off) is 12pF

Maximum leakage current of 250pA

Excellent crosstalk performance of -88dB @ 1MHz

Operates in temperatures from -40°C to 85°C

Product Advantages

Low on-state resistance reduces signal loss and power consumption

Fast switching speeds improve system responsivity

Low charge injection and channel capacitance maintain signal fidelity

High crosstalk resistance ensures minimal interference between channels

Key Technical Parameters

On-State Resistance (Max): 35Ohm

Voltage Supply, Single (V+): 13V ~ 44V

Voltage Supply, Dual (V±): ±5V ~ 20V

Switch Time (Ton, Toff) (Max): 105ns, 80ns

Charge Injection: 22pC

Channel Capacitance (CS(off), CD(off)): 12pF

Quality and Safety Features

Robust operation in a wide temperature range (-40°C to 85°C)

Low leakage current supports energy-efficient designs

Compatibility

Compatible with multiple supply voltages for versatile use across different systems

Packaged in a standard 16-SOIC, making it easy to integrate into existing designs

Application Areas

Data acquisition systems

Communication systems

Test equipment

Audio and video switching

Product Lifecycle

Currently in active production with no plans for discontinuation. Upgrades and replacements are readily available.

Several Key Reasons to Choose This Product

High-performance specifications suitable for precise data capture and signal routing

Versatility in power supply compatibility ensures easy integration into various system architectures

Efficient power usage contributes to environmentally friendly designs

Competitive crosstalk and noise performance ideal for high-frequency applications

Reliable operation within a broad operational temperature range suitable for various environments