Motor and motor control method
First Claim
1. A motor comprising:
- a rotor;
a source;
a coil to rotate the rotor by magnetic force produced with a current supplied by the source, the rotational energy of the rotor being converted into electrical energy during a generating operation;
a charge element to provide the converted electrical energy;
a current quantity measuring element to measure the current supplied to said coil; and
a control element to increase the current with electrical energy from the source to said coil until the current becomes larger than an upper limit upon determining the current measured by said current quantity measuring element reaches a lower limit for making the generated energy equal to or larger than a sum of an energy needed for maintaining an exciting current of the coil and an energy to be lost in the charge element wherein, if the current measured by said current quantity measuring element falls below a lower limit for making a generated voltage produced in the coil equal to or larger than a sum of a voltage of the source and a voltage to be dropped in the charge element, said control element further increases the current flowing in the coil by utilizing self-induced electromotive force without supplying the current from the source to maintain a regenerating operation.
1 Assignment
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Accused Products
Abstract
A motor and control method for making the generating and regeneration efficiency higher than before are provided. A motor including a rotor, a storage battery and a capacitor (a source) is provided to charge a produced electrical energy, a SR motor portion rotates the rotor by magnetic force produced with a current supplied by the source and generates by converting rotational energy of the rotor into electrical energy, current sensors measure the currents supplied to excitation coils, and a semiconductor switching control circuit for driving and generation to maintain the rotation by increasing the current with supply of electrical energy from the source to the excitation coils if the currents measured by the current sensors fall below a predetermined lower limit for making the rotor rotate due to the charging.
8 Citations
10 Claims
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1. A motor comprising:
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a rotor; a source; a coil to rotate the rotor by magnetic force produced with a current supplied by the source, the rotational energy of the rotor being converted into electrical energy during a generating operation; a charge element to provide the converted electrical energy; a current quantity measuring element to measure the current supplied to said coil; and a control element to increase the current with electrical energy from the source to said coil until the current becomes larger than an upper limit upon determining the current measured by said current quantity measuring element reaches a lower limit for making the generated energy equal to or larger than a sum of an energy needed for maintaining an exciting current of the coil and an energy to be lost in the charge element wherein, if the current measured by said current quantity measuring element falls below a lower limit for making a generated voltage produced in the coil equal to or larger than a sum of a voltage of the source and a voltage to be dropped in the charge element, said control element further increases the current flowing in the coil by utilizing self-induced electromotive force without supplying the current from the source to maintain a regenerating operation. - View Dependent Claims (2, 3)
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4. A motor comprising:
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a rotor; a source; a coil to rotate the rotor by magnetic force produced with a current supplied by the source and, rotational energy of the rotor being converted into electrical energy; a charge element to provide the electrical energy produced by the conversion; a current quantity measuring element to measure the current supplied to said coil; and a control element to increase the current flowing in the coil by utilizing self-induced electromotive force without supplying the current from the source until the current becomes larger than an upper limit upon determining the current measured by said current quantity measuring element decreases to a lower limit for making the generated voltage produced in the coil equal to or larger than a sum of a voltage of the source and a voltage to be dropped in the charge element. - View Dependent Claims (5)
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6. A motor control method for controlling a motor comprising a rotor, a source, a coil to rotate the rotor by magnetic force produced with a current supplied by the source, the rotational energy of the rotor being converted into electrical energy during a generating operation, and a charge element to provide the electrical energy produced by the conversion, the motor control method comprising:
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measuring the current flowing through said coil; and increasing the current with electrical energy from the source to said coil until the current becomes larger than an upper limit upon determining the measured current reaches a lower limit for making the generated energy equal to or larger than a sum of an energy needed for maintaining an exciting current of the coil and an energy to be lost in the charge element wherein the method further comprises increasing the current flowing in the coil by utilizing self-induced electromotive force without supplying the current from the source to maintain a regenerating operation if the measured current falls below a lower limit for making a generated voltage produced in the coil equal to or larger than a sum of a voltage of the source and a voltage to be dropped in the charge element. - View Dependent Claims (7, 8)
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9. A motor control method for controlling a motor comprising a rotor, a source, a coil to rotate the rotor by magnetic force produced with a current supplied by the source, the rotational energy of the rotor being converted into electrical energy, and a charge element to provide the electrical energy produced by the conversion, the motor control method comprising:
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measuring the current flowing through said coil; judging whether the measured current decreases to a lower limit for making the generated voltage produced in the coil equal to or larger than a sum of a voltage of the source and a voltage to be dropped in the charge element; and increasing the current flowing in the coil by utilizing self-induced electromotive force without supplying the current from the source until the current becomes larger than an upper limit upon determining it is judged to decrease to the lower limit. - View Dependent Claims (10)
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Specification