Power transmitting apparatus and power transmission system
First Claim
1. A power transmitting apparatus for forming a pair with a power receiving apparatus, the power receiving apparatus including secondary side coupling electrodes and a high-frequency voltage load circuit connected to the secondary side coupling electrodes and having a resonant circuit formed of the secondary side coupling electrodes and the high-frequency voltage load circuit, the power transmitting apparatus comprising:
- primary side coupling electrodes couplable to the secondary side coupling electrodes;
a high-frequency voltage generator circuit adapted to apply a high-frequency voltage across the primary side coupling electrodes;
a driving power supply circuit adapted to supply driving power to the high-frequency voltage generator circuit, said driving power supply circuit including a driving power supply switching unit adapted to supply either a constant current or a constant voltage to the high-frequency voltage generator circuit;
a voltage detection unit adapted to detect a voltage supplied to the high-frequency voltage generator circuit; and
a control unit adapted to detect a frequency at which the voltage supplied to the high-frequency voltage generator circuit becomes a maximal voltage for a change in frequency of a voltage generated by the high-frequency voltage generator circuit in a state in which the constant current is supplied, to set the frequency corresponding to the maximal voltage as the frequency of the voltage generated by the high-frequency voltage generator circuit, and to perform switching so as to supply the constant voltage.
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Accused Products
Abstract
This disclosure provides a power transmitting apparatus including coupling electrodes couplable to a power receiving apparatus to transmit power to the receiving apparatus. A high-frequency voltage generator circuit is adapted to supply a high-frequency voltage across the coupling electrodes in accordance with a signal output from a control circuit. A driving power supply switching circuit switches between applying a constant voltage and supplying a constant current to the high-frequency voltage generator circuit. First, by sweeping the driving frequency of the high-frequency voltage generator circuit in a state in which a constant current is supplied, it is determined whether there is a maximal value in the frequency characteristics of a voltage applied to the high-frequency voltage generator circuit. When there is a maximal value, the corresponding frequency is set as the driving frequency, and power transmission is started after the driving power supply switching circuit is switched to a constant voltage.
18 Citations
15 Claims
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1. A power transmitting apparatus for forming a pair with a power receiving apparatus, the power receiving apparatus including secondary side coupling electrodes and a high-frequency voltage load circuit connected to the secondary side coupling electrodes and having a resonant circuit formed of the secondary side coupling electrodes and the high-frequency voltage load circuit, the power transmitting apparatus comprising:
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primary side coupling electrodes couplable to the secondary side coupling electrodes; a high-frequency voltage generator circuit adapted to apply a high-frequency voltage across the primary side coupling electrodes; a driving power supply circuit adapted to supply driving power to the high-frequency voltage generator circuit, said driving power supply circuit including a driving power supply switching unit adapted to supply either a constant current or a constant voltage to the high-frequency voltage generator circuit; a voltage detection unit adapted to detect a voltage supplied to the high-frequency voltage generator circuit; and a control unit adapted to detect a frequency at which the voltage supplied to the high-frequency voltage generator circuit becomes a maximal voltage for a change in frequency of a voltage generated by the high-frequency voltage generator circuit in a state in which the constant current is supplied, to set the frequency corresponding to the maximal voltage as the frequency of the voltage generated by the high-frequency voltage generator circuit, and to perform switching so as to supply the constant voltage. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A power transmission system comprising:
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a power transmitting apparatus including; primary side coupling electrodes, a high-frequency voltage generator circuit adapted to apply a high-frequency voltage across the primary side coupling electrodes, and a driving power supply circuit adapted to supply driving power to the high-frequency voltage generator circuit; and a power receiving apparatus including; secondary side coupling electrodes, and a high-frequency voltage load circuit connected to the secondary side coupling electrodes, wherein, the power receiving apparatus has a resonant circuit formed of the secondary side coupling electrodes and the high-frequency voltage load circuit, wherein the primary side coupling electrodes of the power transmitting apparatus and the secondary side coupling electrodes of the power receiving apparatus side coupling electrodes are adapted to capacitively couple to each other to transmit power, and wherein the power transmitting apparatus further includes; a driving power supply switching unit adapted to allow the driving power supply circuit to supply either a constant current or a constant voltage to the high-frequency voltage generator circuit, a voltage detection unit adapted to detect a voltage supplied to the high-frequency voltage generator circuit, and a control unit adapted to detect a frequency at which the voltage supplied to the high-frequency voltage generator circuit becomes a maximal voltage for a change in frequency of a voltage generated by the high-frequency voltage generator circuit, in a state in which the constant current is supplied, to set the frequency corresponding to the maximal voltage as the frequency of the voltage generated by the high-frequency voltage generator circuit, and to perform switching so as to supply the constant voltage. - View Dependent Claims (14, 15)
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Specification