Use of Ethernet as an industrial communications technology in motion control to more than triple by 2016

The compound annual growth rate (CAGR) for new motor control Ethernet nodes is projected to be the highest across the whole industrial space at nearly 30%, according to IMS Research, part of IHS Inc.


IMS Research (acquired by IHS, Inc.)The use of Ethernet with motor drives and motion controllers will more than triple to 2016 from 1.8 million new connected nodes in 2011. According to a new study from IMS Research – now part of IHS Inc., the compound annual growth rate (CAGR) for new motor control Ethernet nodes is projected to be the highest across the whole industrial space at nearly 30%.

IHS analyst, Tom Moore commented “Ethernet, particularly certain industrial variants, is very well suited to drive and motion control applications. The growing number of Ethernet protocols, which are high-speed, deterministic, and low jitter, mean its application has never been easier. Some of the most suited protocols are forecast annual growth rates exceeding 30% to 2016”.

As Figure 1 shows, new Ethernet nodes are forecast to account for over 20% of the total new networked motor control products in 2016. This is a large increase from the estimated 12% in 2011, when fieldbus protocols dominated new node connections. Ethernet is quickly gaining ground in a market that is well known for being reserved and slow to adopt new technology.

Source: IMS Research (acquired by IHS, Inc.)

Moore continued, “Part of the transition to Ethernet is due to the protocols available, such as PROFINET, Ethernet/IP, POWERLINK and EtherCAT, which are all very well suited to motor control applications. In particular, EtherCAT is well known for very high speed data transmission and low response times. Its adoption is forecast to grow very strongly to 2016, especially as its member count continues to increase.”

Networking, however, isn’t just about the technology or protocols on offer; it is about the equipment itself. Nodes, the connections to the higher network, are set to increase and part of this is being driven by an increasing number of ports per device. This has an added affect to the adoption growth of networking technologies. “The increase in node count has come about for several reasons,” indicated Moore. “More and more products are being released with the ability to daisy-chain, requiring at least 2 ports.”

Ethernet is certainly making headway in the industrial space and its projected adoption growth is set to outstrip that of fieldbus technologies in almost all applications. “It is forecast that in 10 to 15 years Ethernet will have replaced fieldbus as the mainstream networking technology for motor control products.” said Moore, “This can only be good for the unification and simplification of networking solutions; driving down costs and increasing up-time”.

“The World Market for Industrial Ethernet and Fieldbus Technologies – 2013 Edition” is now available. This includes extensive analysis of industrial Ethernet and fieldbus technologies used in motor control, process and control and discrete control.

- Edited by Control Engineering, Plant Engineering. See more industrial automation research.

Anonymous , 04/12/13 12:43 PM:

El cambio paulatino de las redes Fielbus, por Ethernet/IP, un estándar que va en evolución en velocidad de transmisión y capacidad de datos a transmitir, favorecen su aplicacón
Consulting-Specifying Engineer's Product of the Year (POY) contest is the premier award for new products in the HVAC, fire, electrical, and...
Consulting-Specifying Engineer magazine is dedicated to encouraging and recognizing the most talented young individuals...
The MEP Giants program lists the top mechanical, electrical, plumbing, and fire protection engineering firms in the United States.
Salary survey: How much are you worth?; Dedicated outdoor air systems; Energy models and lighting
Fire, life safety in schools; Fire protection codes; Detection, suppression, and notification; 2015 Commissioning Giants; Emergency and standby power in hospitals
HVAC and building envelope: Efficient, effective systems; Designing fire sprinkler systems; Wireless controls in buildings; 2015 Product of the Year winners
Designing positive-energy buildings; Ensuring power quality; Complying with NFPA 110; Minimizing arc flash hazards
Implementing microgrids: Controlling campus power generation; Understanding cogeneration systems; Evaluating UPS system efficiency; Driving data center PUE, efficiency
Optimizing genset sizing; How the Internet of Things affects the data center; Increasing transformer efficiency; Standby vs. emergency power in mission critical facilities
As brand protection manager for Eaton’s Electrical Sector, Tom Grace oversees counterfeit awareness...
Amara Rozgus is chief editor and content manager of Consulting-Specifier Engineer magazine.
IEEE power industry experts bring their combined experience in the electrical power industry...
Michael Heinsdorf, P.E., LEED AP, CDT is an Engineering Specification Writer at ARCOM MasterSpec.