Fan/Blower Motor delivers up to 1,025 W shaft power.
Press Release Summary:
Based on electromotive coil technologies, NEMA 23 size Centrifugal Fan/Blower Motor provides 85 oz-in. continuous torque at 16,300 rpm, while operating at 80 V and 17.65 A, including amplifier losses. By replacing iron core and wire windings of conventional motors with precision machined copper sheet, issues such as hysteresis, cogging, and iron losses have been eliminated.
Original Press Release:
Thingap® Corporation Announces: Centrifugal Fan/Blower Motor Delivers 30% Higher Shaft Power
VENTURA, CALIFORNIA - August 20, 2007 - ThinGap Corporation, the leader in high power density DC motors, today announced a NEMA 23 size Centrifugal Fan/Blower Motor that produces 30% higher shaft output than comparably sized fan and blower motors. The motor is ideally suited for fans and blowers in such space-limited applications as semiconductor processing and handling equipment, cleanroom vacuum and pressure fans, and telecommunications cooling.
"ThinGap's new centrifugal fan/blower motor provides an excellent solution for applications that have space limitations yet require high RPM," said Rean Pretorius, CEO, ThinGap Corporation. "These high efficiency motors are continuing to push the envelope for packing higher torque, horsepower and RPM's into a smaller package and reducing energy consumption, all vital characteristics of the motors of the future."
The ThinGap® centrifugal fan/blower motor is capable of delivering up to 1,025 watts shaft power (1.37 hp), 85 oz-in continuous torque at 16,300 rpm, while operating at 80 volts and 17.65 amps, including amplifier losses, yet the motor weighs only 16.5 oz.
The centrifugal fan/blower motor is based on patented electromotive coil technologies. By replacing the iron core and wire windings of conventional motors with a precision machined copper sheet, issues such as hysteresis, cogging and iron losses have been eliminated, and the impact of eddy currents substantially reduced. The design increases copper density, creating very high power-to-weight ratios, a wider range of speed and torque capability, improved heat dissipation, and lower electrical resistance.
For the full specs on the fan/blower motor click on: thingap.com/products/standard/motorselector.htm and then download the ThinGap Motor Calculator.
For more information, please visit www.ThinGap.com.
