Electronic braking device for asynchronous motors
First Claim
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1. A device for braking an asynchronous motor having a rotor with magnetic suspensions which is supplied, in operation, by external power from an external power means, said device comprising;
- a feeding circuit means for directing current to said asynchronous motor, said feeding circuit operatively connected to said external power means;
a circuit for recovering and converting an a rotational kinetic energy of said rotor to an electric current during deceleration rotation of said rotor, said recover circuit coupled to said feeding circuit;
a detecting means for indicating loss of said external power;
a means for controlling a driving frequency of said feeding circuit, said frequency control means operatively connected to said feeding circuit means and said detection means; and
a dedicated converting means for feeding current from the decelerating rotor to said magnetic suspensions and said controlling means, said control means responsive to the rotational frequency of said rotor by adjusting the driving frequency of said feeding circuit to a frequency less than said rotational frequency.
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Abstract
An electronic braking device is provided for an asynchronous motor equipped with magnetic bearings of a type used in turbomolecular pumps. The device comprises a circuit for recovering the kinetic energy of the rotor as it decelerates as a result of a disruption of electric current from an external power means. The device is adapted to convert the rotational kinetic energy of the rotor to an electric current and in order to maintain the support provided by the magnetic bearings.
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Citations
6 Claims
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1. A device for braking an asynchronous motor having a rotor with magnetic suspensions which is supplied, in operation, by external power from an external power means, said device comprising;
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a feeding circuit means for directing current to said asynchronous motor, said feeding circuit operatively connected to said external power means; a circuit for recovering and converting an a rotational kinetic energy of said rotor to an electric current during deceleration rotation of said rotor, said recover circuit coupled to said feeding circuit; a detecting means for indicating loss of said external power; a means for controlling a driving frequency of said feeding circuit, said frequency control means operatively connected to said feeding circuit means and said detection means; and a dedicated converting means for feeding current from the decelerating rotor to said magnetic suspensions and said controlling means, said control means responsive to the rotational frequency of said rotor by adjusting the driving frequency of said feeding circuit to a frequency less than said rotational frequency. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification