Induction disk motor

The rotor of the motor consists of a conductive disk, through which a changing magnetic flux is applied by one or more split phase electromagnetic coils. Eddy currents are generated in the disk and the reaction between the eddy currents and the flux produces the driving torque.{{sfn|American Institute of Electrical Engineers|1926|p=841}}

The design of an induction electrical meter uses pairs of coils, one using the current to be measured, one voltage on the terminals. The design of coils makes the magnetic fields in each pair out-of-phase, inducing the torque proportional to the current and voltage. A permanent magnet works as a brake ("retarding element") making the speed proportional to the torque.{{sfn|Webster|2003|pp=6-3,6-4}}

File:Zaehleroffen2.jpg electricity meter (open) using two induction disks on a common shaft: (1) counter , (2) adjustable eddy brake (permanent magnet), (3) one of the three current coils

(4) – one of the three voltage coils]]

Due to its low efficiency, the induction disk motor applications are limited. The motors are best known for their use in the common household induction-type electrical meters. The motors were also used in electromechanical time switches.{{sfn|American Institute of Electrical Engineers|1926|p=841}}

In the 1920s, the motors briefly found a niche in phonographs, displacing the spring power due to the advantages of silent operation, constant speed, lack of vibration, and reliability. The shaft of a relatively powerful (35 watts) was vertical and directly connected to the turntable with no speed reducing gears. The motor had high torque (6 inch-ounces), giving it rapid acceleration while starting. The 78 to 80 revolutions per minute speed was controlled by a fly-ball governor.{{sfn|American Institute of Electrical Engineers|1926|p=841}}

File:Protective relay - ferraris disk.png

The Ferraris disks were used in the electromechanical relays used for power system protection. An illustration on the right shows a device where the disk rotation triggers the action for a circuit breaker (not shown). One of the three coils is wired in opposition to the other two, but uses twice the turns. This produces a situation in which the forces applied to the disk are roughly balanced and the disk does not rotate, held in place by adjustable force. If the three phase currents become unbalanced (for example, due to an electrical fault), the disk rotates and a protective action is initiated.{{sfn|McColl|1920|p=526}}

{{reflist}}

• {{cite journal |last=American Institute of Electrical Engineers |first= |journal=Transactions of the American Institute of Electrical Engineers |publisher=American Institute of Electrical Engineers. |date=June 1926 |url=https://www.google.com/books/edition/Transactions_of_the_American_Institute_o/tZFVAAAAYAAJ?hl=en&gbpv=1&pg=PA841 |access-date=2025-06-17|title=Induction Disk Phonograph Motor}}
• {{cite journal |last=McColl|first=A.E. |journal=Journal of the Institution of Electrical Engineers |publisher=IEE |date=1920 |url=https://www.google.com/books/edition/Journal_of_the_Institution_of_Electrical/zINNAAAAYAAJ?hl=en&gbpv=1&pg=PA526 |access-date=2025-06-17 |pages=525-554|title=Automatic Protective Devices for Alternating-Current Systems|volume=58|issue=293}}
• {{cite book |last=Webster |first=John G. |title=Electrical Measurement, Signal Processing, and Displays |publisher=CRC Press |date=2003-07-15 |isbn=978-0-203-00940-6 |chapter-url=https://www.google.com/books/edition/Electrical_Measurement_Signal_Processing/h0LLBQAAQBAJ?hl=en&gbpv=1&pg=SA6-PA3 | chapter = Ac Induction Energy Meters |access-date=2025-06-17}}

Category:Induction motors

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