Top 5 Ways to Extend Ethernet (with Infographic)

How to Extend Your Ethernet

Top 5 Ways to Extend Ethernet (with Infographic)

RJ45 Ethernet connections are one of the most common forms of cabling found in local LAN networks. Ethernet is defined by IEEE’s 802.3 standard and can be classified in different categories including Cat5 (now obsolete), CAT5e, CAT6, and CAT6a. The two most common types of Ethernet speeds are known as Fast Ethernet, which support 10/100 Mbps, and Gigabit Ethernet, which supports 10/100/1000 Mbps. 10G Ethernet is traditionally used for backhaul and core networks such as corporate backbones, data centers, and server farms. Ethernet has replaced ATM, FDDI, and Token Ring LAN technologies and has become the default plumbing pipe of the Internet.

Robert Metcalfe co-invented Ethernet while working for Xerox Parc when he was tasked (with the job) to connect a cluster of computers to a laser printer in 1973. Robert Metcalfe later founded his own computer networking company, 3COM, and made considerable efforts to make Ethernet an industry standard. He shared his hilarious life lessons in was a guest in one of Reddit’s AMA (short for ask me anything) session and shared his life lessons here

Ethernet however, comes with a standard 100-meter limitation. The medium loses signal integrity beyond 100 meters. The following delineates the 5 common and not-so-common methods used to bypass the standard Ethernet limitation.

Click here to view the infographic located at the bottom of the post.

1. Fiber Media Converters

Since fiber supports longer distances than copper, fiber media converters, traditionally deployed in pairs, extend Ethernet links by converting Ethernet cable runs from copper to fiber, and reverting a fiber connection to copper.  Media converters can also be paired with switches that support fiber. Fiber refracts light to transmit data allowing for greater signal integrity in comparison to twisted pair copper. Different fiber types include SC, LC, FC, ST, and MU, among many others.

Fiber consists of a core, the internal area where light signals are transmitted, and cladding, the sheathing which keeps the light from escaping. Single-mode fiber cables have a smaller core, about 8 micrometers, in comparison to multimode fiber, about 50 micrometers.

The smaller core in single mode fiber allows for the propagation of light through a single pathway, allowing it to achieve faster speeds using a direct pathway in comparison to Multimode Fiber. Multimode Fiber’s larger core disperses light signals via multiple spatial pathways and this slows down transmission speeds. Nonetheless, multimode fiber offers fast transmission speeds and is commonly deployed in enterprises and small businesses due to their competitive price in comparison to single mode fiber. Telephone companies and cable companies are more likely to deploy single mode fiber for longer range applications.

Multimode fiber can extend Ethernet links an additional 500 meters while single-mode fiber can support up to 60 kilometers.

fastest ethernet extender

VX-VEB160G4 (V2) Ethernet Extender Kit

Fiber’s immunity to electromagnetic interference (EMI), surges, spikes, and ground loops makes it ideal for industrial environments where these types of conditions are typical.

Media converters come in a variety of different form factors and are designed to fulfill a diverse range of commercial and industrial applications. Micro Media Converters for example, offer a smaller footprint than wall-mounted fiber converters or din rail applications. The configuration of media converters can vary in difficulty levels. Standard media converters offer a simple plug and play installation in contrast to managed media converters. Industrial media converters can withstand extreme temperature ranges to provide reliable operation in harsh environments.

micro media converter

VX-200M-1212-2 Industrial Micro 10/100Base-TX to 100Base-FX Ethernet Media Converter

2. UTP Ethernet Extenders

Network administrators and system integrators can also extend Ethernet using Ethernet Extender units.

Networking units such as the LRP-101-UKit make it possible to extend an Ethernet links using UTP cable or 1-pair cable such as telephone cable.  When paired with PoE technology, these units make it simple to deploy IP surveillance cameras for example, in locations that lack electrical circuitry. 4-pair UTP cabling can yield an additional 500 meters to Ethernet links and up to 300 meters using telephone cables. Other units such as the VX-VEB160G4 can extend Ethernet links up to 2.5 kilometers.

Best extender

GT-802 10/100/1000Base-T to 1000SX Gigabit Media Converter (MM, SC, 550m)

UTP Ethernet Extender convert Ethernet to DSL and revert signals back to Ethernet. Following similar deployment schemes as fiber media converters, these units can be deployed in pairs. Alternatively, single units can operate with compatible switches.

3. Coaxial Cable Extenders

Coaxial Extenders can extend Ethernet connections up to 1,000 meters using legacy coaxial cabling and can provide high-quality video transmission. Units such as the LRP-101-C-KIT make it simple to upgrade from analog to IP cameras using the existing coaxial wiring infrastructure of a network. Coaxial Extenders can be a highly scalable solution when paired with coaxial switches such as the LRP-822Cs . The unit can house up to 8 networking devices using coaxial links.

best EThernet extender

LRP-101C-KIT 1-Port Long Reach PoE over coax Extender Kit (LRP-101CH + LRP-101CE)

It’s not uncommon to find twisted pair copper cables and coaxial cables included in the infrastructure of a building. UTP and coaxial cable Ethernet extenders are cost-effective options that use existing copper lines and eliminate the need to rewire a network.

4. Wireless Ethernet extension (Radio Wireless Extension)

Wireless Ethernet Extension can be accomplished using two wireless access points (WAPs) to form a wireless bridge. This type of deployment requires two WAPs —one configured as an SDS AP (source) and the second to be configured as SDS Client (destination) modes. Wireless Ethernet extenders conveniently offer Ethernet extension without the need to accommodate unsightly wires. Unfortunately, wireless Ethernet extenders are susceptible to the interference such as infrastructures and weather conditions. Wireless Ethernet extension requires networks to be within a line of sight, unobstructed by large infrastructures. Wireless Ethernet extension can span several miles long and is ideal for enterprise and industrial environments.

802.11ac WAP

VX-AP1AC Outdoor 802.11ac Wireless LAN High Power Access Point with PoE

5. Cellular Extension (Cellular Data Networking)

Cellular wireless routers make it possible to provide wireless Ethernet extension in a similar fashion to wireless bridges. But unlike wireless bridges, cellular extension relies on a network of cell towers to transmit signals. Using cellular routers, system integrators can extend Ethernet signals to virtually any location that receives a cell phone signal. Cellular extension bypasses the need for networks to be within line of sight, a limitation found in wireless bridges. As explained by B&B Electronics, solar cellular routers can easily be deployed in locations that reside beyond the edge of the power grid to extend Ethernet where electrical circuitry is absent. Cellular routers can support applications such as networking equipment, ATM machines, water meters, and industrial control systems.

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