Friday, May 05, 2006
New motor drives lose encoders, keep efficiency: no-encoder drives can make AC motors perform with close-to-servo precision, while remaining robust an
A new type of AC motor drive has the potential to provide packaging machinery users more precise control for little extra expense.
No-encoder drives use advanced methods of analyzing current and other factors to allow for extra-tight control of speed and torque. They offer the low cost and relatively easy maintenance of AC motors, avoiding the extra expense and fragility of encoder mechanisms.
These motors are not yet used extensively by packaging machinery manufacturers. But as manufacturers strive for more precision and interconnectivity, no-encoder drives are emerging as an alternative and/or supplement to servos, steppers, standard three-phase AC motors and other devices.
"We model the motor itself and from that, based on what the currents are doing, we can tell what speed it's running," says Glenn Frazier, a product manager for Rockwell Automation's drive business. "It's not quite as precise as with an encoder, but it's pretty good."
Speed or torque?
Controlling the speed and torque of an AC motor depends on several factors. In a sense, speed or torque control is an either/or proposition. A drive can keep the motor's speed at a given rate and vary the torque to stay at that speed; or the torque can stay constant, and the motor will speed up or slow down depending on how much there is to pull. This dichotomy is due to the way AC motors respond to electricity. Speed is a function of the intensity of electric current (expressed as volts), while torque depends on the amount of current (amps).
Both speed and torque control have their place in many kinds of packaging machinery. For instance, in form-fill-seal equipment, speed control is necessary to match the film feed to the packaging flow, says Steve Bergholt, chief engineer for Triangle Package Machinery Co. Torque control is needed to hold and feed the film with just the right amount of tension. A typical form-fill-seal machine will have motors with both torque-based and speed-based drives.
Achieving more precise control has always been a goal of AC motor manufacturers. (In general, AC motors are preferred for industrial machinery. DC motors offer more precise control, especially at low horsepower, but their design makes them harder to maintain.) One increasingly common way to increase speed control for AC motors is through the use of encoders.
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