High Speed Transmission Chain Electric Motors
Torque Graphic

Speed of a electric motor is the magnitude of the rotational velocity of the engine shaft. In a movement application, rate of the motor dictates how fast the axis rotates – the amount of comprehensive revolutions per unit period. Applications vary in their speed requirement, based on what is being shifted and the coordination with the various other components of the machine. A balance should be achieved between acceleration and torque, as motors typically generate much less torque when operate at higher speeds.

Solution Overview
We address quickness requirements during our style process by creating an maximum coil (generally known as windings) and magnet configurations. In some designs, the coil rotates predicated on motor construction. Creating a motor design that eliminates the iron getting combined with the coil results in higher speeds. The inertia of these high speed motors is decreased dramatically, raising the acceleration (responsiveness) as well. In some designs the magnet rotates with the shaft. Because the magnet may be the contributing element for the electric motor inertia, creating a different style from a standard cylindrical magnet is required. Reducing the inertia drives higher quickness as well as acceleration.

Ever-power Technology
Ever-power has designed high acceleration motors for our brushless DC and brush DC technologies, with self-assisting high-density rotor coils. The ironless character of brush DC coils permits both high acceleration and higher speeds, especially in comparison to brush DC motors with an iron-core style. Portescap offers a unique series of stage motors, the disc magnet series, that have a slim disc magnet instead of a cylindrical magnet. By reducing the inertia of the motors, we can achieve boosts to 10,000 rpm with a step motor, unparalleled in the industry. E mail us today to observe how we can help you find the right high velocity motors for your motion-critical applications.

Ever-power high velocity motors are perfect for the following applications:
Respiratory and ventilation devices
Laboratory automation
Miniature pumps
Power hand tools
Yarn guides
Barcode scanners