Alternating current (AC) motors for airborne vehicles are electric motors that use AC power to generate rotational motion. These motors are commonly used in aircraft, helicopters, and other airborne vehicles due to their high efficiency, reliability, and low maintenance requirements. AC motors are preferred over direct current (DC) motors in airborne applications because they are lighter, more efficient, and produce less heat. AC motors for airborne vehicles are typically designed with a three-phase stator and a rotor. The stator consists of three sets of windings that are spaced 120 degrees apart and are energized with AC power. The rotor is a cylindrical core made of laminated steel that is mounted on a shaft and contains a set of conductive bars. When the AC power is applied to the stator windings, a rotating magnetic field is created that induces an electric current in the rotor bars. This current generates a magnetic field in the rotor that interacts with the magnetic field of the stator, causing the rotor to rotate. AC motors for airborne vehicles are designed to operate at high speeds and provide high torque output. They are also designed to operate in harsh environments, including high altitudes, extreme temperatures, and high levels of vibration. These motors are typically cooled with air or liquid to prevent overheating and ensure reliable operation. In summary, AC motors for airborne vehicles are reliable, efficient, and low-maintenance electric motors that use AC power to generate rotational motion. They are designed to operate in harsh environments and provide high torque output at high speeds.
AC motors, airborne vehicles, efficiency, reliability, maintenance
CITATION : "Jacob Smith. 'Alternating Current Motors For Airborne Vehicles.' Design+Encyclopedia. https://design-encyclopedia.com/?E=361382 (Accessed on February 24, 2024)"
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