Power transfer system
First Claim
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1. A power transfer system comprising:
- a power transmitting device having a transmitting-device-side first electrode, a transmitting-device-side second electrode, and a feeding circuit configured to feed an alternating voltage between the transmitting-device-side first electrode and the transmitting-device-side second electrode, whereinthe power transmitting device includes a series circuit between the transmitting-device-side first electrode and the transmitting-device-side second electrode, the series circuit including a first element that is an electrical circuit having an impedance connected to the transmitting-device-side first electrode and a second element that is an electrical circuit having an impedance, the first element and the second element being connected in series;
a transmitting-device-side reference potential point connected to a reference potential of the transmitting device, the transmitting-device-side reference potential point being a node between the first element and the second element of the series circuit;
a power receiving device having the receiving-device-side first electrode, a receiving-device-side second electrode, and a load circuit configured to receive an alternating voltage generated between the receiving-device-side first and second electrodes; and
the series circuit is configured such that a balance condition Z1×
Z4×
Z2×
Z3 is satisfied at a fundamental frequency of the alternating voltage, where Z1 is the impedance of the first element, Z2 is the impedance of the second element, Z3 is an impedance of the series circuit including a capacitance between the transmitting-device-side first electrode and the receiving-device-side first electrode and the load circuit of the power receiving device, and Z4 is an impedance including a capacitance between the transmitting-device-side second electrode and the receiving-device-side second electrode of the power receiving device.
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Abstract
A capacitance (Cp) is a capacitance formed between a transmitting-device-side passive electrode and a receiving-device-side passive electrode. A capacitance (Ca) is a capacitance formed between a transmitting-device-side active electrode and a receiving-device-side active electrode. A bridge circuit formed by Z1 to Z4 is connected to a secondary side of a step-up transformer, where Z1 represents an impedance of a first element, Z2 represents an impedance of a second element, Z3 represents an impedance of a series circuit formed by the capacitance (Ca) and a load, and Z4 represents an impedance of the capacitance (Cp). By determining the impedances Z1 to Z4 such that this bridge circuit is balanced, a potential at a receiving-device-side reference potential point is made equal to a ground potential. This reduces variation in receiving-device-side reference potential, reduces noise, and stabilizes the operation of a load circuit on the receiving device side.
11 Citations
17 Claims
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1. A power transfer system comprising:
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a power transmitting device having a transmitting-device-side first electrode, a transmitting-device-side second electrode, and a feeding circuit configured to feed an alternating voltage between the transmitting-device-side first electrode and the transmitting-device-side second electrode, wherein the power transmitting device includes a series circuit between the transmitting-device-side first electrode and the transmitting-device-side second electrode, the series circuit including a first element that is an electrical circuit having an impedance connected to the transmitting-device-side first electrode and a second element that is an electrical circuit having an impedance, the first element and the second element being connected in series; a transmitting-device-side reference potential point connected to a reference potential of the transmitting device, the transmitting-device-side reference potential point being a node between the first element and the second element of the series circuit; a power receiving device having the receiving-device-side first electrode, a receiving-device-side second electrode, and a load circuit configured to receive an alternating voltage generated between the receiving-device-side first and second electrodes; and the series circuit is configured such that a balance condition Z1×
Z4×
Z2×
Z3 is satisfied at a fundamental frequency of the alternating voltage, where Z1 is the impedance of the first element, Z2 is the impedance of the second element, Z3 is an impedance of the series circuit including a capacitance between the transmitting-device-side first electrode and the receiving-device-side first electrode and the load circuit of the power receiving device, and Z4 is an impedance including a capacitance between the transmitting-device-side second electrode and the receiving-device-side second electrode of the power receiving device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A power transfer system comprising:
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a power transmitting device having a transmitting-device-side first electrode, a transmitting-device-side second electrode; and a power receiving device having a receiving-device-side first electrode, a receiving-device-side second electrode, and a load circuit configured to receive an alternating voltage generated between the receiving-device-side first electrode and the receiving-device-side second electrode, wherein; the power transmitting device includes a series circuit between the transmitting-device-side first electrode and the transmitting-device-side second electrode, the series circuit including a first element connected to the transmitting-device-side first electrode and a second element, the first element and the second element being connected in series, a transmitting-device-side reference potential point connected to a reference potential of the transmitting device, the transmitting-device-side reference potential point being a node between the first element and the second element of the series circuit, the power transmitting device includes a feeding circuit comprising an alternating voltage generating circuit configured to feed an alternating voltage between the transmitting-device-side first and second electrodes and a transformer having a primary winding connected to the alternating voltage generating circuit and a secondary winding connected between the transmitting-device-side first electrode and the transmitting-device-side second electrode, and the series circuit is configured such that a balance condition Z1×
Z4≈
Z2×
Z3 is satisfied at a fundamental frequency of the alternating voltage, where Z1 is an impedance of the first element, Z2 is an impedance of the second element, Z3 is an impedance of the series circuit including a capacitance between the transmitting-device-side first electrode and the receiving-device-side first electrode and the load circuit of a power receiving device, and Z4 is an impedance including a capacitance between the transmitting-device-side second electrode and the receiving-device-side second electrode of the power receiving device.- View Dependent Claims (14, 15, 16, 17)
the secondary winding has; a first lead terminal of the first secondary winding, and a second lead terminal of the second secondary winding, the power transfer system further comprises a connection switching circuit configured to switch connection of the transmitting-device-side reference potential to the center tap and one of the first and second lead terminals.
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16. The power transfer system according to claim 13, wherein
the secondary winding of the transformer has a lead terminal configured to form a first secondary winding between the transmitting-device-side first electrode and the lead terminal and a second secondary winding between the transmitting-device-side second electrode and the lead terminal, the impedance of the first element is formed by an impedance of the first secondary winding, the impedance of the second element is formed by an impedance of the second secondary winding, and the power transfer system further comprises an inductor inductively coupled to part of the first secondary winding, and a capacitor connected to the inductor. -
17. The power transfer system according to claim 13,
wherein the feeding circuit comprises a series connection circuit formed by a first inductor and a second inductor and connected in parallel with the secondary winding of the transformer, wherein the impedance of the first element is formed by an impedance of the first inductor, wherein the impedance of the second element is formed by an impedance of the second inductor, and wherein the power transfer system further comprises a third inductor inductively coupled to part of the first inductor, and a capacitor connected to the third inductor.
Specification
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Current AssigneeMurata Manufacturing Co Limited
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Original AssigneeMurata Manufacturing Co Limited
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InventorsIchikawa, Keiichi, Goma, Shinji, Suesada, Tsuyoshi, Bondar, Henri
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Primary Examiner(s)Kessie, Daniel
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Application NumberUS14/250,656Publication NumberTime in Patent Office1,383 DaysField of Search307104US Class CurrentCPC Class CodesH02J 50/05 using capacitive couplingH02J 50/80 involving the exchange of d...
