Article tools sponsored by

Armature-mounted electronics govern brushless motor

By Design News Staff -- Design News, February 3, 2004

Rather than a commutator, the patented DynaMotor^™ electronic brushless repulsion (EBR) motor uses controlling electronic switches on a circuit board on the rotor shaft that turns with the armature. Photo detectors, located on the rotating board that move past infrared LEDs mounted on the stationary portion of the motor short circuit the switches to form a closed armature winding. The torque, speed, and direction of rotation depends on the duration of the light pulse triggering the switches and the angle of the armature winding to the stator magnetic field (established by direct ac excitation) at the time of the pulse.

The motor does not use rotation of a magnetic field to produce torque. Rather, the magnetic field induced in the armature has its poles offset from the field of the stator. This proximity of like poles in each field produces a repulsive torque.

According to General Manager Doug Toman, optical triggering, as opposed to magnetic radio frequency methods, is "cheap, simple, and reliable." Like a brushed dc motor, the Dynamotor produces high torque at low speeds but without the limited-life and contamination concerns of using brushes. While optical control coupling may raise concerns about "dirt deposits" affecting the optics, Toman notes that the infrared optics "can take a lot of typical industrial contamination."

Reliability is enhanced by attention to dynamically balancing the rotating circuitry, including component orientation, and use of adhesives to counter upwards of 10,000 Gs at the edge of the circuit board. Engineers incorporated speed feedback into the motor electronics so speed regulation is possible without an external encoder.

EBR noise generated is rather low compared to motors controlled by, for example, pulse width modulation. For instance with a switching frequency typically at 480 Hz for an EBR, the equivalent for pulse width modulation would be more than 10 kHz, inducing noise in proportionally shorter wire runs, says Toman.

Contact: Bob Klimo , DynaMotors Inc.

Tel (216) 795-1211; Fax (216) 795-3375; e-mail: sales@dynamotors.com

http://rbi.ims.ca/3844-509

related stories
resource center
by this author

View more articles by Staff Staff

Technology Marketplace

Article tools sponsored by

Talkback

We would love your feedback!

» View All Talkback Threads

DN's Resource Center Get Free Information, Made Easy

Quiet Strength Under Load
Groschopp | Case Study
Request Item
Patient Lift Sound Data
Groschopp | Case Study
Request Item

View all DN resources >>

Design News Partner Zones

JUNE 24TH WEBCAST: Collaborative Requirements Engineering
Speed your innovation. Capture the "voice of the customer" and translate customer requests into user requirements that define new products. Find out why the new ENOVIA Requirements Management solution enables organizations to improve their overall global requirements management process. Read More

Light Matters: Systems Level Approach to HBLED illumination applications
Its good practice to apply a systems-level approach to high-brightness LED (HBLED) illumination applications. Minimally, the system includes the optical, thermal and electrical characteristics of the of the HBLED, the lens (if any) which is built-in to its package, secondary optics such as external plastic lenses/reflectors to direct the light as your application requires and power driver electronics. Read More

Design Engineers' Portal for Sensing and Machine Safety
Whatever industry you're in, or whatever product you manufacture, the right sensors to automate your plant, and to improve your overall efficiency, quality and safety are a must. You'll find Banner Engineering to be an amazing resource of products, training and people with expertise.