MAX14689EWL+T - Analog Devices Inc./Maxim Integrated

Manufacturer Part Number

MAX14689EWL+T

Manufacturer

Analog Devices

Introduction

The MAX14689EWL+T from Analog Devices is an advanced interface device, placed within the Beyond-the-Rails™ series, specifically engineered as a dual-pole dual-throw (DPDT) switch with substantial 4:2 multiplexer/demultiplexer functions.

Product Features and Performance

DPDT Switch Circuit

4:2 Multiplexer/Demultiplexer Circuit

One circuit configuration

Maximum on-state resistance of 450mOhm

Channel-to-channel matching at 5mOhm

Single supply voltage ranging from 1.6V to 5.5V

Maximum switch time of 200µs (on) and 30µs (off)

-3db Bandwidth of 110MHz

Channel capacitance of CS(off), CD(off) at 25pF

Maximum leakage current at 100nA

Crosstalk at -100dB @ 100kHz

Product Advantages

Low on-state resistance enhancing efficiency

Precise channel-to-channel matching for consistent performance

Operates effectively over a wide range of supply voltages

Quick switching times augmenting device responsiveness

High bandwidth capability suitable for fast signal processing

Key Technical Parameters

Series: Beyond-the-Rails™

Voltage Input: 1.6V ~ 5.5V

On-State Resistance (Max): 450mOhm

Switch Time: Ton 200µs, Toff 30µs

-3db Bandwidth: 110MHz

Operating Temperature Range: -40°C ~ 85°C

Quality and Safety Features

Consistent operation within a wide temperature range from -40°C to 85°C

Low leakage current ensures minimal power wastage

Compatibility

Packaging Type: Tape & Reel (TR)

Surface Mount Mounting Type

9-WFBGA, WLBGA Package/Case

Supplier Device Package: 9-WLP (1.26x1.26)

Application Areas

Telecommunications

Data processing units

Consumer electronics interfaces

Signal routing applications

Product Lifecycle

Product Status: Active

The product is currently active with no indicated plans for discontinuation

Several Key Reasons to Choose This Product

Low on-state resistance facilitates higher efficiency in operation

Enhanced channel-to-channel uniformity ensures dependable performance across circuits

Broad voltage compatibility, supporting multiple device integrations

Exceptional bandwidth capability, ideal for high-speed applications

Robust design suitable for demanding operational temperatures

Minimal leakage current, maximizing power efficiency