Contents

 

Overview

3

Ethernet Module

4

Bridging 10 and 100 Mbps hubs

4

Connecting 100 Mbps hubs with TPE cable

6

Connecting to a device at full-duplex

7

Connecting to a 10 Mbps printer from a hub that is operating at 100 Mbps

8

Understanding Ethernet Module LEDs

9

Fiber Module

12

Connecting hubs beyond 100 meters

12

Connecting to a device at full-duplex

13

Understanding Fiber Module LEDs

15

Technical Specifications

16

Limited Hardware Warranty

17

Intel Automated Customer Support

20

Overview

This guide covers the Intel Express Stackable Hub Ethernet Module (product code EE110EM) and the Intel Express Stackable Hub Fiber Module (product code EE110FX). The Ethernet Module supports both the 10BASE-T Ethernet and 100BASE-TX Fast Ethernet standards. The Fiber Module supports the 100BASE-FX Fast Ethernet standard.

The modules can be used only with the 12-port version of the 10/100 Stackable Hub (product code EE110TX12). You can install either module in a hub running at 10 or 100 Mbps.

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Intel EE110EM manual Contents

EE110EM specifications

The Intel EE110EM is an advanced embedded processor designed to meet the demanding requirements of industrial and commercial applications. With a focus on performance, efficiency, and integration, the EE110EM delivers robust capabilities for managing complex tasks across various environments.

One of the standout features of the Intel EE110EM is its powerful multi-core architecture. The processor is equipped with multiple cores that allow for simultaneous processing of multiple threads, significantly enhancing the overall system efficiency. This multi-threading capability is particularly beneficial for applications that require real-time processing, such as industrial automation, robotics, and telecommunications.

Another key characteristic of the EE110EM is its energy efficiency. The Intel architecture is designed to operate at lower power levels without compromising performance. This energy-efficient design is critical for embedded systems that often rely on battery power or have thermal constraints. By optimizing power consumption, the EE110EM helps to prolong device lifespans and reduce operational costs.

The EE110EM also integrates a myriad of advanced technologies to enhance functionality. One notable feature is Intel’s virtualization technology, which allows multiple operating systems to run on a single hardware platform, ensuring flexibility and scalability in various applications. Additionally, the processor supports various connectivity options, including Ethernet and serial interfaces, enabling seamless communication with other devices and systems.

Moreover, the Intel EE110EM incorporates enhanced security features to protect sensitive data and ensure system integrity. With built-in security mechanisms, such as secure boot and hardware-based encryption, the processor helps safeguard embedded systems against potential vulnerabilities, making it an ideal choice for applications in sectors like finance, healthcare, and critical infrastructure.

In terms of memory support, the EE110EM accommodates high-bandwidth memory options, allowing for quick data access and processing speeds. This capability is essential for applications that require large data handling and real-time analytics, such as video surveillance and consumer electronics.

Overall, the Intel EE110EM stands out as a versatile and powerful embedded processor suitable for a wide range of applications. With its multi-core architecture, energy-efficient design, advanced technologies, and robust security features, it provides a compelling solution for developers looking to build reliable and innovative embedded systems. As industries continue to evolve towards more connected and intelligent solutions, the EE110EM is well-positioned to meet these future challenges.