The global motion control and motor market experienced record growth in 2018, with $3.827 billion in shipments, up 8% over 2017. According to the Motion Control & Motor Association, part of the Association for Advancing Automation (A3), shipments were up 3% in the last quarter of the year, at $946 million, contributing to the overall annual growth of the market.
“Motion control and motor technologies are getting smarter, more capable and more productive, and as a result, are playing pivotal roles in increasing the overall productivity of any given operation,” said Dana Whalls, VP of A3. “As these technologies continue to advance, especially those targeted at progressively smaller devices, the industry will see even more growth.”
The largest categories within the overall market were motors (40%), actuators and mechanical systems (19%), and electronic drives (17%). Those three categories grew 11% to $1.508 billion, 12% to $735 million, and 7% to $641 million respectively, which contributed to the overall growth. The strong performance in these markets highlights the substantial role motion control and motor technologies play in growing automation worldwide.
Digitalization is having the biggest impact on the motion control and motors market. It saves on maintenance and downtime costs by providing data to identify probable component or machine failures well before they happen.
“Digital transformation of the industrial landscape has reached an inflection point, and implementation among early adopters has given way to broader market penetration,” Whalls said. “Data is now being captured at the component, machine, line, plant and enterprise levels. Modern components simplify digitalization with built-in connectivity, memory, and processing capabilities, and edge-computing devices send data sets to the cloud where it is mined with analytics. This enables much more rapid, informed decisions.”
Whalls expects to see higher, more intelligent performance in motors in a smaller footprint. “Frameless motors are providing greater flexibility for integration into compact spaces,” she said. “The increase in battery operated mobile devices, for example, has created a demand for smaller drives that fit in a constrained space and don’t add weight. Today’s smaller drives perform more intelligent functions with onboard memory and processing power that allow them to detect bearing defects, enable an operator to clear a jam without invoking lockout tag out, or even act as a master controller for a network of daisy-chained drives.”
Motion Control & Motor Association (MCMA)