Noncontact connector apparatus and system using inductive coupling between coils

US 9,620,282 B2
Filed: 11/14/2012
Issued: 04/11/2017
Est. Priority Date: 12/14/2011
Status: Active Grant

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1. A noncontact connector system comprising:

a first noncontact connector apparatus including a transmitter coil; and

a second noncontact connector apparatus including the receiver that that is provided to be adjacent, so as to be electromagnetically coupled, to the transmitter coil,wherein the transmitter coil is configured to include a winding wound on a first plane,the first noncontact connector apparatus comprises;

a first magnetic body provided between the first plane and a second plane which is opposed to be adjacent to the first plane and on which the receiver coil is provided, the first magnetic body being provided to be adjacent, so as to be electromagnetically coupled, to the transmitter coil and to cover at least one part of a region in which at least the winding of the transmitter coil exists,wherein the receiver coil is configured to include a winding wound on the second plane,the first magnetic body is further positioned to be adjacent to the receiver coil so to be electromagnetically coupled to the receiver coil and to cover at least one part of a region in which at least the winding of the receiver coil exists between the first plane and the second plane, thereby increasing the self-inductance of the receiver coil by positioning the first magnetic body to be adjacent to the receiver coil,a coupling coefficient between the transmitter coil and the receiver coil is set to be decreased by increasing the self-inductance of each of the transmitter coil and the receiver coil so that a frequency characteristic of transmission efficiency from the transmitter coil to the receiver coil changes from a double-peaked narrow-band characteristic to a single-peaked wide-band characteristic, anda center frequency of the double-peaked narrow-band characteristic is lower than a center frequency of the single-peaked wide-band characteristic.

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Abstract

A power transfer system is provided with a transmission coil and a reception coil respectively provided along a first surface and a second surface that face each other proximal to each other. The transmission coil and reception coil are provided proximally to be electromagnetically coupled to each other. The winding wire of the transmission coil is wound on the first surface, and the winding wire of the reception coil is wound on the second surface. The power transfer system is provided with a magnetic body provided proximately so as to be electromagnetically coupled to the transmission coil and the reception coil to cover at least one part of a region in which at least the winding wires of the transmission coil and reception coil are present between the first surface and the second surface.

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11 Claims

1. A noncontact connector system comprising:
- a first noncontact connector apparatus including a transmitter coil; and
  
  a second noncontact connector apparatus including the receiver that that is provided to be adjacent, so as to be electromagnetically coupled, to the transmitter coil,wherein the transmitter coil is configured to include a winding wound on a first plane,the first noncontact connector apparatus comprises;
  
  a first magnetic body provided between the first plane and a second plane which is opposed to be adjacent to the first plane and on which the receiver coil is provided, the first magnetic body being provided to be adjacent, so as to be electromagnetically coupled, to the transmitter coil and to cover at least one part of a region in which at least the winding of the transmitter coil exists,wherein the receiver coil is configured to include a winding wound on the second plane,the first magnetic body is further positioned to be adjacent to the receiver coil so to be electromagnetically coupled to the receiver coil and to cover at least one part of a region in which at least the winding of the receiver coil exists between the first plane and the second plane, thereby increasing the self-inductance of the receiver coil by positioning the first magnetic body to be adjacent to the receiver coil,a coupling coefficient between the transmitter coil and the receiver coil is set to be decreased by increasing the self-inductance of each of the transmitter coil and the receiver coil so that a frequency characteristic of transmission efficiency from the transmitter coil to the receiver coil changes from a double-peaked narrow-band characteristic to a single-peaked wide-band characteristic, anda center frequency of the double-peaked narrow-band characteristic is lower than a center frequency of the single-peaked wide-band characteristic.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The noncontact connector system as claimed in claim 1,wherein the winding of the transmitter coil is wound in a single layer along the first plane, andthe winding of the receiver coil is wound in a single layer along the second plane.
  - 3. The noncontact connector system as claimed in claim 1,wherein the winding of at least one of the transmitter coil and the receiver coil is wound in a plurality of layers along the first or second plane, andthe windings of the layers belonging to the windings of the plurality of layers are connected in series to each other.
  - 4. The noncontact connector system as claimed in claim 1,wherein the winding of at least one of the transmitter coil and the receiver coil is wound in a plurality of layers along the first or second plane, andthe windings of the layers belonging to the windings of the plurality of layers are connected in parallel to each other.
  - 5. The noncontact connector system as claimed in claim 1,wherein the winding of the transmitter coil is formed as a conductor pattern on a first dielectric substrate along the first plane, andthe first magnetic body is formed integrally with the transmitter coil and the first dielectric substrate.

6. A noncontact connector system comprising:
- a first noncontact connector apparatus including a transmitter coil; and
  
  a second noncontact connector apparatus including the receiver coil that is provided to be adjacent, so as to be electromagnetically coupled, to the transmitter coil,wherein the transmitter coil is configured to include a winding wound on a first plane,the first noncontact connector apparatus comprises;
  
  a first magnetic body provided between the first plane and a second plane which is opposed to be adjacent to the first plane and on which the receiver coil is provided, the first magnetic body being provided to be adjacent, so as to be electromagnetically coupled, to the transmitter coil and to cover at least one part of a region in which at least the winding of the transmitter coil exists,wherein the receiver coil is configured to include a winding wound on a second plane that is opposed to be adjacent to the first plane on which the transmitter coil is provided, andthe second noncontact connector apparatus comprises;
  
  a second magnetic body provided between the first plane and the second plane, the second magnetic body being provided to be adjacent, so as to be electromagnetically coupled, to the receiver coil and to cover at least one part of a region in which at least the winding of the receiver coil exists,wherein a coupling coefficient between the transmitter coil and the receiver coil is set to be decreased by increasing the self-inductance of each of the transmitter coil and the receiver coil so that a frequency characteristic of transmission efficiency from the transmitter coil to the receiver coil changes from a double-peaked narrow-band characteristic to a single-peaked wide-band characteristic, anda center frequency of the double-peaked narrow-band characteristic is lower than a center frequency of the single-peaked wide-band characteristic.
- View Dependent Claims (7, 8)
- - 7. The noncontact connector system as claimed in claim 6,wherein the magnetic permeability of the first magnetic body is set so that the coupling coefficient is set to be equal to or larger than 0.2 and to be equal to or smaller than 0.6.
  - 8. The noncontact connector system as claimed in claim 6,wherein the winding of the transmitter coil is formed as a conductor pattern on the first dielectric substrate along the first plane,the first magnetic body is formed integrally with the transmitter coil and the first dielectric substrate,the winding of the receiver coil is formed as a conductor pattern on a second dielectric substrate along the second plane, andthe second magnetic body is formed integrally with the receiver coil and the second dielectric substrate.

9. A power transfer apparatus comprising:
- a power transmitter circuit; and
  
  a noncontact connector apparatus connected to the power transmitter circuit,wherein the noncontact connector apparatus comprises a transmitter coil that is provided to be adjacent, so as to be electromagnetically coupled, to a receiver coil,the transmitter coil is configured to include a winding wound on a first plane, andthe noncontact connector apparatus comprises;
  
  a first magnetic body provided between the first plane and a second plane which is opposed to be adjacent to the first plane and on which the receiver coil is provided, the first magnetic body being provided to be adjacent, so as to be electromagnetically coupled, to the transmitter coil and to cover at least one part of a region in which at least the winding of the transmitter coil exists,the receiver coil is configured to include a winding wound on the second plane,the first magnetic body is further positioned adjacent to the receiver coil to be electromagnetically coupled to the receiver coil and to cover at least one part of a region in which at least the winding of the receiver coil exists between the first plane and the second plane, thereby increasing the self-inductance of the receiver coil by positioning the first magnetic body to be adjacent to the receiver coil,a coupling coefficient between the transmitter coil and the receiver coil is set to be decreased by increasing the self-inductance of each of the transmitter coil and the receiver coil so that a frequency characteristic of transmission efficiency from the transmitter coil to the receiver coil changes from a double-peaked narrow-band characteristic to a single-peaked wide-band characteristic, anda center frequency of the double-peaked narrow-band characteristic is lower than a center frequency of the single-peaked wide-band characteristic.

10. A power transfer apparatus comprising:
- a power receiver circuit; and
  
  a noncontact connector apparatus connected to the power receiver circuit,wherein the noncontact connector apparatus comprises a receiver coil that is provided to be adjacent, so as to be electromagnetically coupled, to a transmitter coil,the receiver coil is configured to include a winding wound on a second plane that is opposed to be adjacent to the first plane on which the transmitter coil is provided, andthe noncontact connector apparatus comprises;
  
  a second magnetic body provided between the first plane and the second plane, the second magnetic body being provided to be adjacent, so as to be electromagnetically coupled, to the receiver coil and to cover at least one part of a region in which at least the winding of the receiver coil exists, anda coupling coefficient between the transmitter coil and the receiver coil is set to be decreased by increasing the self-inductance of each of the transmitter coil and the receiver coil so that a frequency characteristic of transmission efficiency from the transmitter coil to the receiver coil changes from a double-peaked narrow-band characteristic to a single-peaked wide-band characteristic, anda center frequency of the double-peaked narrow-band characteristic is lower than a center frequency of the single-peaked wide-band characteristic.

11. A power transfer system comprising:
- a noncontact connector system including a first noncontact connector apparatus including a transmitter coil, and a second noncontact connector apparatus including a receiver coil, that is provided to be adjacent, so as to be electromagnetically coupled, to the transmitter coil;
  
  a power transmitter circuit connected to the first noncontact connector apparatus; and
  
  a power receiver circuit connected to the second noncontact connector apparatus,wherein the transmitter coil is configured to include a winding wound on a first plane,the first noncontact connector apparatus comprises;
  
  a first magnetic body provided between the first plane and a second plane which is opposed to be adjacent to the first plane and on which the receiver coil is provided, the first magnetic body being provided to be adjacent, so as to be electromagnetically coupled, to the transmitter coil and to cover at least one part of a region in which at least the winding of the transmitter coil exists,the receiver coil is configured to include a winding wound on the second plane,the first magnetic body is further positioned to be adjacent to the receiver coil to be electromagnetically coupled to the receiver coil and to cover at least one part of a region in which at least the winding of the receiver coil exists between the first plane and the second plane, thereby increasing the self-inductance of the receiver coil by positioning the first magnetic body to be adjacent to the receiver coil, anda coupling coefficient between the transmitter coil and the receiver coil is set to be decreased by increasing the self-inductance of each of the transmitter coil and the receiver coil so that a frequency characteristic of transmission efficiency from the transmitter coil to the receiver coil changes from a double-peaked narrow-band characteristic to a single-peaked wide-band characteristic, anda center frequency of the double-peaked narrow-band characteristic is lower than a center frequency of the single-peaked wide-band characteristic.

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Current Assignee
Sovereign Peak Ventures, LLC (Dominion Harbor Enterprises, LLC)
Original Assignee
Panasonic Intellectual Property Management Co., Ltd. (Panasonic Holdings Corporation)
Inventors
Asanuma, Kenichi, Yamamoto, Atsushi, Sakata, Tsutomu
Primary Examiner(s)
Fureman, Jared
Assistant Examiner(s)
Barnett, Joel

Application Number

US13/983,617
Publication Number

US 20140084698A1
Time in Patent Office

1,609 Days
Field of Search

None
US Class Current
CPC Class Codes

H01F 38/14   Inductive couplings for wir...

H02J 50/10   using inductive coupling

H02J 50/12   of the resonant type

H02J 50/70   involving the reduction of ...

H02J 50/90   involving detection or opti...

H04B 5/24   Inductive coupling

H04B 5/79   for data transfer in combin...

Noncontact connector apparatus and system using inductive coupling between coils

First Claim

4 Assignments

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Accused Products

Abstract

14 Citations

11 Claims

Specification

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Noncontact connector apparatus and system using inductive coupling between coils

First Claim

4 Assignments

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Litigations

0 Petitions

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Accused Products

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Abstract

14 Citations

11 Claims

Specification

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Solutions

Use Cases

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