Overview

Description

The ISL59910 and ISL59913 are triple channel differential receivers and equalizers. They each contain three high speed differential receivers with five programmable poles. The outputs of these pole blocks are then summed into an output buffer. The equalization length is set with the voltage on a single pin. The ISL59910 and ISL59913 output can also be put into a high impedance state, enabling multiple devices to be connected in parallel and used in multiplexing applications. The gain can be adjusted up or down on each channel by 6dB using the VGAIN control signal. In addition, a further 6dB of gain can be switched in to provide a matched drive into a cable. The ISL59910 and ISL59913 have a bandwidth of 150MHz and consume just 108mA on ±5V supply. A single input voltage sets the compensation levels for the required length of cable. The ISL59910 is a special version of the ISL59913 that decodes syncs encoded onto the common modes of three pairs of CAT-5 cable by the EL4543 refer to the EL4543 datasheet for details. The ISL59910 and ISL59913 are available in a 28 Ld QFN package and are specified for operation across the full -40°C to +85°C temperature range.

Features

  • 150MHz -3dB bandwidth
  • CAT-5 compensation - 100MHz at 600ft - 135MHz at 300ft
  • 108mA supply current
  • Differential input range: 3.2V
  • Common-mode input range: -4V to +3.5V • ±5V supply
  • Output to within 1.5V of supplies
  • Available in 28 Ld QFN package
  • Pb-free plus anneal available (RoHS compliant)

Comparison

Applications

Applications

  • Twisted-pair receiving/equalizer
  • KVM (Keyboard/Video/Mouse)
  • VGA over twisted-pair
  • Security video

Documentation

Type Title Date
Datasheet PDF 881 KB
Price Increase Notice PDF 208 KB
Product Change Notice PDF 135 KB
Application Note PDF 644 KB
Application Note PDF 311 KB
Application Note PDF 320 KB
Application Note PDF 1002 KB
Application Note PDF 250 KB
Application Note PDF 2.79 MB
Application Note PDF 410 KB
10 items

Design & Development

Models

Support