JP3161388B2 - Docking bay system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to a docking bay system, and more particularly to a docking bay system for supplying power to a portable notebook computer or the like.

[0002]

2. Description of the Related Art Conventionally, in a computer of a system in which a rechargeable battery such as a notebook type is built in and power is supplied from the battery, connection to an external power supply for supplying power to the battery is performed by:
It was common to use a connector.

In some cases, a notebook-type computer or the like is mounted in a docking bay, and power is supplied from the docking bay to the computer via a connector. Further, when data is exchanged between a computer and a built-in CDROM or the like in the docking bay, or when the computer exchanges data with the outside via the docking bay, signal transmission between the computer and the docking bay is performed by a connector. The connection was made by infrared communication or by infrared communication.

Japanese Patent Laid-Open Publication No. Hei 2-280631 describes a system in which one power supply coil is provided in a power supply device, one power receiving coil is provided in a portable terminal, and power is supplied from the power supply device to the portable terminal by electromagnetic induction. ing. Also, JP-A-6-133476 discloses that
An electromagnetic induction coil is provided in each of the master system and the power receiver system, and power is supplied by electromagnetic induction through these coils. Antennas are provided in both the master system and the power receiver system,
A device for transmitting and receiving power control information via these antennas is shown.

[0005]

The first problem is that when power is supplied to a computer via a connector or when the computer is mounted in a docking bay and communication is performed via a connector provided in the docking bay, a slight problem arises. It lacks reliability.

The reason for this is that there is a contact failure due to wear of the connector connecting the computer and the docking bay.

[0007] The second problem is that when the computer is mounted in the docking bay, the user must precisely align the computer.

The reason is that the connector on the docking bay must be connected to the connector on the computer in order to supply power from the docking bay to the computer.

A third problem is that communication between the computer and the docking bay requires means for transmitting and receiving infrared rays or connectors other than those for supplying power, resulting in high costs.

The reason is that a separate connector and a circuit for transmitting and receiving infrared rays are required.

In the power supply system described in Japanese Patent Application Laid-Open No. 2-280631, since only one coil is provided in each of the power supply device and the portable terminal, the portable terminal is accurately supplied with power in order to match the coils. The disadvantage is that it must be aligned with the device.

The device described in Japanese Patent Application Laid-Open No. Hei 6-133476 has a disadvantage that an antenna for transmitting and receiving power control information is required in addition to a coil for supplying power.

The present invention improves the reliability of a docking bay system having a docking bay for powering a computer and communicating with the computer, simplifies the configuration, reduces manufacturing costs, and provides access to a computer docking bay. It is intended to make it easier to mount the camera.

[0014]

[0015]

Means for Solving the Problems] docking bay system of the present invention includes an information processing apparatus having a power receiving surface in which a plurality of power receiving coil (32 in FIG. 1) (31 in FIG. 1), a plurality
Feeding coil feed surface having an array of (12 in FIG. 1) of and a docking bay having a (17 in FIG. 1) (11 in FIG. 1), the plurality of sheet and arrangement pitch of the plurality of power receiving coil
The power receiving coil and the power feeding coil are electrically connected by electromagnetic induction by shifting the arrangement pitch of the power receiving coil, the power receiving surface is opposed to the power feeding surface, and the power receiving surface is opposed to the power feeding surface. The docking bay supplies power to the information processing device from the docking bay via a power supply coil and the power receiving coil, and the docking bay and the information processing device intervene via the power supply coil and the power receiving coil with the power receiving surface facing the power supply surface. The communication is performed between

The docking bay system of the present invention, an information processing apparatus in which a plurality of receiving coil on the bottom (32 in FIG. 1) and (31 in FIG. 1), a plurality of power supply coils (in FIG. 1 1
And 2) a docking bay (11 in FIG. 1) provided with a sheet (17 in FIG. 1) in which the plurality of receiving coils are arranged.
And the arrangement pitch of the plurality of power supply coils.
The information processing apparatus is shifted on the sheet, and the power receiving coil and the power feeding coil are electrically connected by electromagnetic induction.

The docking bay system according to the present invention comprises an information processing device (31 in FIG. 1) having a power receiving surface on which a plurality of power receiving coils (32 in FIG. 1) are arranged, and a plurality of power feeding coils (12 in FIG. 1). And a docking bay (11 in FIG. 1) provided with a power supply surface (17 in FIG. 1) in which the plurality of power receiving surfaces are arranged.
The arrangement pitch of the coils and the arrangement pitch of the plurality of power supply coils.
And the power receiving surface is opposed to the power feeding surface, and the power receiving coil and the power feeding coil are electrically connected by electromagnetic induction .

The present invention provides a plurality of receiving coils (3 in FIG. 1).
Information processing device provided with a power receiving surface on which 2) is disposed (3 in FIG. 1)
1) and a docking bay (1 in FIG. 1) provided with a power supply surface (17 in FIG. 1) in which a plurality of power supply coils (12 in FIG. 1) are arranged.
1), the arrangement pitch of the plurality of power receiving coils and the
A docking bay system for shifting the arrangement pitch of the plurality of power supply coils, electrically connecting the power reception coil and the power supply coil by electromagnetic induction with the power receiving surface facing the power supply surface, and Has a power supply control circuit (13 in FIG. 2) for supplying a high-frequency current to the plurality of power supply coils, and the information processing apparatus has a rectifier circuit (3 in FIG. 2) for rectifying an alternating current generated in the power receiving coil.
3) and a power supply circuit (34 in FIG. 2) that is supplied with power from the rectifier circuit and supplies power to a circuit in the information processing apparatus.

The present invention provides a plurality of receiving coils (3 in FIG. 1).
Information processing device provided with a power receiving surface on which 2) is disposed (3 in FIG. 1)
1) and a docking bay (11 in FIG. 1) having a power supply surface (17 in FIG. 1) in which a power supply coil (12 in FIG. 1) is arranged.
And the arrangement pitch of the plurality of receiving coils and the plurality of receiving coils.
A docking bay system in which the arrangement pitch of the number of power supply coils is shifted, the power receiving surface is opposed to the power supply surface, and the power receiving coil and the power supply coil are electrically connected to each other by electromagnetic induction. A power supply control circuit (13 in FIG. 2) for supplying a high-frequency current to the plurality of power supply coils; and a signal received from an external data bus (16 in FIG. 2) modulated at a frequency different from the frequency of the high-frequency current. A docking bay side data signal modulation / demodulation circuit (14 in FIG. 2) which outputs to the power supply coil and separates the signal from the current generated in the power supply coil and outputs the signal to the external data bus
The information processing apparatus comprises: a rectifier circuit (33 in FIG. 2) for rectifying an alternating current generated in the power receiving coil; and a power supply circuit (33) supplied from the rectifier circuit and supplied to a circuit in the information processing apparatus. 2) and a data bus (3 in FIG. 2) by separating the signal from the alternating current generated in the power receiving coil.
5) a signal transmitted to a circuit in the information processing device via the data bus and transmitted from the circuit in the information processing device via the data bus at a frequency different from the frequency of the high-frequency current and output to the power receiving coil; And a data signal modulation / demodulation circuit (36 in FIG. 2).

In the above docking bay system,
As the information processing device, for example, there is a portable computer (31 in FIG. 1).

In the docking bay system of the present invention, a plurality of feeding coils are arranged in the docking bay,
The mounting range of the information processing device on the docking bay for electrically coupling the power feeding coil and the power receiving coil on the information processing device side by electromagnetic induction is widened, and the mounting of the information processing device in the docking bay becomes easy. .

[0022]

Next, embodiments of the present invention will be described in detail with reference to the drawings.

FIGS. 1 and 2 are perspective views of a docking bay system according to an embodiment of the present invention (the power supply coil 12 and the power reception coil 32 are shown through the sheet 17 of the docking bay 11 and the computer 31). FIG.

The docking bay 11 has a seat 17, in which a plurality of power supply coils 12 are incorporated.
These are arranged over the entire surface of the sheet 17.
The computer 31 is placed on the sheet 17, and power is supplied from the docking bay 11 to the computer 31, and signals are exchanged between the docking bay 11 and the computer 31.
The computer 31 has a built-in power receiving coil 32 facing the power supply coil 12, that is, close to the bottom surface.

The docking bay 11 has a feeding coil 12
And a data signal modulation / demodulation circuit 14 to which the power supply control circuit 13 is connected. The power supply control circuit 13 is connected to an external power supply 15 and is supplied with power. The data signal modulation / demodulation circuit 14
It is connected to an external data bus 16 for performing data communication with the outside.

The computer 31 has a rectifier circuit 33 connected to the power receiving coil 32, a data signal modulation / demodulation circuit 36, and a power supply circuit 34 connected to the rectifier circuit 33.
Is built-in. The data signal modulation / demodulation circuit 36
It is connected to a data bus 35 for exchanging signals with other circuits in the computer 31. The power supply circuit 34 is provided with a rechargeable battery (not shown).

Next, the operation of this embodiment will be described.

The docking bay 11 is placed on a desk or the like, and the sheet 17 is spread. When the computer 31 is placed on the sheet 17, the power feeding coil 12 and the power receiving coil 32 are electrically connected by electromagnetic induction, and transmit power and signals.

The current from the external power supply 15 is converted into a high-frequency current suitable for electromagnetic induction by the power supply control circuit 13 and supplied to the plurality of power supply coils 12. An alternating current is excited in the power receiving coil 32 by electromagnetic induction of the current in the power supply coil 12. This alternating current is converted into a direct current through a rectifier circuit 33 and supplied to a power supply circuit 34 to drive a circuit in the computer 31. If there is room to charge the battery provided in the power supply circuit 34, the current supplied from the rectifier circuit 33 is also used for charging the battery at the same time.

Further, the signal transmitted from the outside through the external data bus 16 by the data signal modulation / demodulation circuit 14 is modulated at a frequency different from the frequency for converting the power supply current from the external power supply 15 to control the power supply. The signal is output to the power supply coil 12 via the circuit 13. Regarding the signal component of the current in the power supply coil 12, an alternating current is excited in the power receiving coil 32 by electromagnetic induction. The data signal modulation / demodulation circuit 36 separates the signal from the current excited by the receiving coil 32,
This signal is transmitted to a circuit in the computer 31 via the data bus 35.

Similarly, an alternating current obtained by modulating a signal transmitted from a circuit in the computer 31 through the data bus 35 through the data signal modulating / demodulating circuit 36 is output to the receiving coil 32, and this alternating current is generated by electromagnetic induction. A data signal modulation / demodulation circuit 1 converts a current generated in the feeding coil 12 into a data signal.
At 4, the current is separated from the current of the feeding coil 12 and transmitted to the outside via the external data bus 16. In this case, the current flowing in the power receiving coil 32 excites the current in the power feeding coil 12 by electromagnetic induction.

In this embodiment, since the plurality of power supply coils 12 are arranged over the entire surface of the sheet 17 of the docking bay 11, the power supply coil 12 and the power reception coil 32 are electrically connected to each other regardless of the position of the computer 31 on the sheet 17. The docking bay 11 and the computer 31 can be electrically connected to each other to supply power to the computer 31 from the docking bay 11 and communicate with each other. That is,
Even when the power receiving coil 32 is not located immediately above any of the power feeding coils 12 and is between the adjacent power feeding coils 12, an AC current is generated in the power receiving coil 32 due to electromagnetic induction caused by the current of the adjacent power feeding coils 12. I do.

In the present invention, the computer 31 may be provided with a plurality of power receiving coils 32. In this case, if the diameter of the power receiving coil 32 is reduced, it becomes easy to arrange the plurality of power receiving coils 32 over the entire power receiving surface including the bottom surface of the computer 31. Further, in this case, by shifting the arrangement pitch between the power feeding coil 12 and the power receiving coil 32, any of the power receiving coils 3
2 is located in the middle of the adjacent feeding coil 12, the computer 3 on the sheet 17 is positioned such that any other receiving coil 32 is located immediately above any of the feeding coils 12.
Variations in coupling strength due to electromagnetic induction between the plurality of power supply coils 12 and the plurality of power receiving coils 32 at the position 1 can be reduced.

The information processing device of the present invention is not limited to a computer, but may be a terminal device, a display device, a storage device, or the like.

In the docking bay, a plate-like portion is provided as a power supply surface instead of a sheet, and a plurality of power supply coils are arranged therein to form a power supply surface. A plurality of feeding coils may be arranged to form a feeding surface.

In addition, a battery is provided in the docking bay,
The power supply control circuit 13 can supply power from the battery so that the docking bay does not need to be connected to the external power supply 15.

Further, a storage device such as a CDROM is provided in the docking bay, and the data signal modulation / demodulation circuit 14
By exchanging data with the storage device, the information storage device can exchange data with the storage device in the docking bay.

[0038]

The first effect is that the reliability of the electrical connection between the information processing device and the docking bay is improved.

The reason for this is that the docking bay and the information processing device are electrically connected in a non-contact manner by electromagnetic induction without being connected via a physical connector.

The second effect is that when the information processing apparatus is mounted in the docking bay, it is not necessary to accurately place the information processing apparatus in a limited narrow position on the docking bay. The mounting work is greatly simplified.

The reason is that a plurality of feeding coils are arranged on a feeding surface such as a sheet of the docking bay.

A third effect is that communication between the information processing apparatus and the docking bay can be performed at low cost.

The reason is that the power supply coil and the power receiving coil of the same set both supply power to the information processing device and communicate with the device and the docking bay from the supervisor.

[Brief description of the drawings]

FIG. 1 is a perspective view showing a docking bay system according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a circuit of the docking bay system shown in FIG. 1;

[Description of Signs] 11 Docking bay 12 Power supply coil 13 Power supply control circuit 14 Data signal modulation / demodulation circuit 15 External power supply 16 External data bus 17 Sheet 31 Computer 32 Power receiving coil 33 Rectifier circuit 34 Power supply circuit 35 Data bus 36 Data signal modulation / modification Demodulation circuit

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-7-44279 (JP, A) JP-A-2-280631 (JP, A) JP-A-61-82219 (JP, A) JP-A-7-222 79181 (JP, A) JP-A-6-350495 (JP, A) JP-A-4-134911 (JP, A) JP-A-63-69335 (JP, A) (58) Fields investigated (Int. ^7, DB name) G06F 3/00 G06F 1/26 H02J 7/00 H04B 5/00

Claims (6)

(57) [Claims] 1. A power receiving surface on which a plurality of power receiving coils are arranged.
Information processing device and power supply surface on which multiple power supply coils are arranged
And a docking bay with a plurality of power receiving coils.
And the arrangement pitch of the plurality of power supply coils.
The power receiving surface so as to face the power feeding surface.
The electric coil and the power supply coil are electrically connected by electromagnetic induction.
Connected, and the power receiving face is opposed to the power feeding face and the power feeding is performed.
The docking bed via the coil and the receiving coil.
A to the information processing device from the
The power feeding coil and the power receiving coil facing a power surface.
Between the docking bay and the information processing device through
A docking bay system that communicates with a computer. 2. An information processing apparatus having a plurality of power receiving coils disposed on a bottom surface.
And a sheet in which a plurality of feeding coils are arranged
An array of the plurality of receiving coils including a docking bay;
The pitch and the arrangement pitch of the plurality of feeding coils are shifted.
Placing the information processing device on the sheet and receiving the power
The coil and the power feeding coil are electrically connected by electromagnetic induction.
A docking bay system characterized by being connected. 3. A power receiving surface on which a plurality of power receiving coils are arranged.
Information processing device and power supply surface on which multiple power supply coils are arranged
And a docking bay with a plurality of power receiving coils.
And the arrangement pitch of the plurality of power supply coils.
The power receiving surface so as to face the power feeding surface.
The electric coil and the power supply coil are electrically connected by electromagnetic induction.
Docking bay system characterized by connecting. 4. A power receiving surface on which a plurality of power receiving coils are arranged.
Information processing device and power supply surface on which multiple power supply coils are arranged
And a docking bay with a plurality of power receiving coils.
And the arrangement pitch of the plurality of power supply coils.
The power receiving surface so as to face the power feeding surface.
The electric coil and the power supply coil are electrically connected by electromagnetic induction.
A docking bay system for connecting, wherein the docking bay includes a high frequency
A power supply control circuit for supplying a current;
Is a rectifier circuit for rectifying an alternating current generated in the power receiving circuit.
And the power supplied from this rectifier circuit and
And a power supply circuit for supplying power to the path.
King bay system. 5. A power receiving surface on which a plurality of power receiving coils are arranged.
Information processing device and power supply surface with multiple power supply coils
And a docking bay with a plurality of power receiving coils.
And the arrangement pitch of the plurality of power supply coils.
The power receiving surface so as to face the power feeding surface.
The electric coil and the power supply coil are electrically connected by electromagnetic induction.
A docking bay system for connecting, wherein the docking bay includes a high frequency
A power supply control circuit that supplies current and an external data bus
The digitized signal is changed at a frequency different from the frequency of the high-frequency current.
Output to the power supply coil and occur in the power supply coil
Separate signals from current and output to the external data bus
A data signal modulation / demodulation circuit;
Is a rectifier circuit for rectifying an alternating current generated in the receiving coil.
And the power supply from the rectifier circuit
A power supply circuit for supplying power to the circuit;
The signal from the current
To the circuit in the processing device
The signal received via the data bus from the high-frequency current
Modulated at a frequency different from that of the
And a data signal modulation and demodulation circuit
A docking bay system. 6. The information processing apparatus is a portable computer.
The method according to any one of claims 1 to 5, wherein
Docking bay system.