JP2003255069A - Watch, placement table, and input/output apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To exchange data with a host apparatus and to secure full reliability over long-term usage regarding a watch, a placement table, and an input/output apparatus. <P>SOLUTION: Power is supplied without contacts by combining coils 11 and 12, and at the same time, the supply path of the power is used for the transmission/reception path of data. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wrist watch, a mounting table, and an input / output device. For example, a wrist watch having a function as an information portable device for data usable in a personal computer, a mounting table corresponding to this wrist watch, It can be applied to data input / output devices. According to the present invention, the power is contactlessly supplied by coupling the coils, and the power supply path is used as a data transmission / reception path.
Data can be exchanged with a host device, and sufficient reliability can be ensured even during long-term use.

[0002]

2. Description of the Related Art In recent years, wristwatches have been proposed that incorporate not only time display but also various information processing functions such as a calculator and a computer. As a result, in a wristwatch incorporating such an information processing function,
It is designed to function as a portable information device.

[0003]

By the way, in a wristwatch that also functions as such an information portable device, in the future,
It is conceivable to record and carry various data usable by a computer, such as personal authentication data. In this case, it is considered necessary to exchange data with a host device such as a computer.

However, in a wristwatch, since it is used in close contact with the skin, the influence of sweat cannot be avoided. Therefore, if a data input / output mechanism using a terminal applied to a computer or the like is applied, it may be a long time. There is a problem that sufficient reliability cannot be ensured during the period of use.

As one method for solving this problem, it is conceivable to apply a wireless data communication method such as Blue Tooth or IEEE 802.11. However, in this case, the structure becomes complicated and the shape of the wristwatch itself is increased. May increase in size.

Further, when data is exchanged with a computer or the like in this manner, the power consumption is considered to be larger than that in the case where the time is simply displayed, so that the frequency of charging increases. As a result, similarly to the case of data exchange, it is necessary to effectively avoid the influence of sweat or the like in charging and to secure sufficient reliability in long-term use.

The present invention has been made in consideration of the above points, and proposes a wrist watch capable of exchanging data with a host device and ensuring sufficient reliability even in long-term use. Is what you are trying to do.

[0008]

In order to solve such a problem, in the invention of claim 1, the invention is applied to a wristwatch and is mounted on a mounting table to be coupled with a power supply coil arranged on the mounting table. A power receiving coil, a power supply circuit for charging the battery with the power induced in the power receiving coil,
A signal processing circuit for detecting a high frequency signal induced in the power receiving coil and receiving the data transmitted from the mounting table.

Further, according to the invention of claim 3, the invention is applied to a mounting table on which a wristwatch is mounted, and a power supply coil coupled with a power receiving coil of the wristwatch by mounting the wristwatch.
A power supply circuit for driving the power supply coil to supply power to the power reception coil and a signal processing circuit for driving the power supply coil with predetermined data and transmitting data to the wristwatch are provided.

According to the invention of claim 5, the invention is applied to an input / output device, and a data coil coupled to a power receiving coil for receiving power by electromagnetic induction of a wristwatch and a data coil driven by predetermined data. And a signal processing circuit for transmitting data to the wristwatch.

According to the structure of claim 1, the present invention is applied to a wrist watch, and when mounted on the mounting table, the power receiving coil is coupled to the power supply coil arranged on the mounting table, and the power receiving coil is connected to the power receiving coil. By providing the power supply circuit for charging the battery with the induced electric power, the electric power necessary for the operation of the wristwatch is supplied by the coupling of the power supply coil and the power reception coil, and thereby the contactless power is supplied. be able to. In addition, by providing a signal processing circuit that detects the high-frequency signal induced in the power receiving coil and receives the data transmitted from the mounting table, the data can be transmitted using the non-contact power supply path. You can As a result, electric power and data can be transmitted in a contactless manner with a simple structure, and since there is no need to provide terminals, sufficient reliability can be secured even during long-term use.

Thus, according to the configuration of claim 3, the mounting table for mounting the wristwatch can be configured so as to correspond to this type of wristwatch, and according to the configuration of claim 5,
An input / output device for exchanging data with a wristwatch of this type can be provided.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below in detail with reference to the drawings as appropriate.

(1) First Embodiment (1-1) Configuration of the First Embodiment FIG. 2 is a perspective view showing an information processing system according to the embodiment of the present invention. In this information processing system 1, by mounting the wristwatch 4 on the mounting table 3 connected to the computer 2, the wristwatch 4 is charged and various data can be input / output between the wristwatch 4 and the computer 2. Has been done.

Here, in the mounting table 3, the side of the base portion 3A rises upward, and the tip of the raised portion 3B extends laterally to form an arm 3C. Thereby, the mounting table 3 can hold the wristwatch 4 by hooking it on the arm 3C. Further, the mounting table 3 is formed so as to hold the case 4A of the wristwatch 4 on the upper surface of the arm 3C.
The upper surface of C and the rear surface of the case 4A are in close contact with each other.

The mounting table 3 is in non-contact with the upper surface portion of the arm 3C which is in close contact with the back surface of the case 4A.
A coil for charging the battery and for inputting / outputting data to / from the wristwatch 4 is housed. Also, in the wristwatch 4, the coil is connected to the lower surface of the case 4A and the power supply coil on the mounting table 3 side. A coil for receiving electric power is incorporated.

That is, FIG. 1 is a block diagram showing the configuration of an information processing system 1 relating to such charging and data exchange. In this information processing system 1, the mounting table 3
Receives the power from the computer 2 in the power circuit 10,
With this power source, the power supply circuit 10 drives the power supply coil 11 arranged in the arm 3C. Thus, the power supply circuit 10 drives the power supply coil 11 to supply the power to the corresponding power reception coil 12 of the wristwatch 4 mounted on the arm 3C by electromagnetic induction.

The mounting table 3 is constructed so that data can be input and output between the computer 2 and a central processing unit (CPU) 13 via an interface (IF) 9. The central processing unit 13 causes the computer 2 to input and output data.
The output data from is analyzed and the transmission / reception circuit 14 is driven.

Here, the transmission / reception circuit 14 generates a carrier signal having a frequency higher than the drive frequency of the power supply coil 11 by the power supply circuit 10 by a predetermined oscillation circuit. Further, this carrier wave signal is amplitude-modulated by the output data of the central processing unit 13, and the power supply coil 11 is driven by the resulting modulation signal. As a result, the mounting table 3 drives the power supply coil 11 according to the data of the central processing unit 13 and superimposes it on the power source, and
The data instructed by is transmitted to the wristwatch 4 in a contactless manner.

Further, the transmission / reception circuit 14 stops the driving of the coil 11 and selectively inputs a high frequency signal of a predetermined frequency induced in the coil 11 under the control of the central processing unit 13. Further, this high frequency signal is detected, the data transmitted from the wristwatch 4 is decoded by this high frequency signal, and this data is output to the central processing unit 13. As a result, the mounting table 3 receives various data from the wristwatch 4 in a non-contact manner via the power supply path, and outputs the received data to the computer 2.

The wristwatch 4 inputs the signal induced in the coil 12 to the low-pass filter (LPF) 21 and limits the band there to selectively supply the power component supplied through the coils 11 and 12 as a power source. Input to the circuit 22. The power supply circuit 22 rectifies the output signal of the low-pass filter 4, stabilizes it, and charges the battery 23 with the resulting electric power. As a result, the power supply circuit 22 causes the battery 23 to be powered by the power induced in the power receiving coil 12.
Is designed to charge. Here this battery 2
Reference numeral 3 is a chargeable / dischargeable battery that supplies power for operating the wristwatch 4. As a result, the wristwatch 4 receives power from the mounting table 3 in a non-contact manner and charges the battery 23 with this power to operate.

Further, in the wristwatch 4, the transmitting / receiving circuit 24
Like the transmission / reception circuit 14 of the mounting table 3, processes the high frequency signal induced in the coil 12, decodes the data transmitted from the mounting table 3, and outputs the decoded data to the central processing unit 25.
Further, under the control of the central processing unit 25, a modulation signal is generated by the output data of the central processing unit 25, and the coil 12 is driven by this modulation signal. As a result, the wristwatch 4 can receive the data provided by being superimposed on the power source in a non-contact manner, and the data held according to the request of the computer 2 can be transmitted to the computer 2 in a non-contact manner. Has been done.

The memory 26 records various data relating to the wristwatch 4, and in this embodiment, various personal information of the user carrying the wristwatch 4 is recorded. Here, this personal information is various authentication data, electronic money data, and the like. As a result, the wristwatch 4 can function as an IC card, for example.

The drive circuit 27 in the wristwatch 4 is
For example, it is a drive circuit that drives a second hand, a short hand, and a long hand by a built-in reference signal, and is configured to display time to the user.

The central processing unit 25 is a controller for controlling the operation of the wristwatch 4, and the wristwatch 4 is placed on the platform 3 and receives data transmitted from the platform 3 side via the transmission / reception circuit 24. Then, this data is analyzed and the corresponding processing is executed. Here, in this process, the drive circuit 27 is output according to the output data of the computer 2.
Is a process for adjusting the time displayed on the wristwatch 4 based on highly accurate time information detected by the computer 2 by controlling the operation. Further, the personal information recorded in the memory 26 is updated, the personal information is additionally recorded, and the personal information recorded in the memory 26 is transmitted to the mounting table 3 via the transmission / reception circuit 24.

With these, the transmitting / receiving circuit 24 on the wristwatch side
Is a signal processing circuit that detects a high-frequency signal induced in the power receiving coil 12 and receives data transmitted from the mounting table 3, and switches the operation under the control of the central processing unit 25 that is a controller. A signal processing circuit for driving the power receiving coil 12 by the data of the controller and transmitting the data by the controller to the mounting table 3 is configured.

Further, the transmission / reception circuit 14 of the mounting table 3 constitutes a signal processing circuit for driving the power supply coil 11 by the predetermined data from the central processing unit 13 to transmit the data to the wristwatch, and is also a central processing unit which is a controller. The operation of the unit 13 is switched under the control of the unit 13 to form a signal processing circuit that detects the high frequency signal induced in the power supply coil 11 and receives the data transmitted from the wristwatch.

(1-2) Operation of the First Embodiment In the above configuration, the wristwatch 4 drives the hands by the drive circuit 27 by the power of the battery 23, thereby displaying the time to the user. In this wristwatch 4, for example, when the user comes home and removes it from his / her arm and hangs it on the arm 3C of the mounting table 3 and mounts it, the power supply coil 11 arranged in the arm 3C portion of the mounting table 3 is It is coupled to the power receiving coil 12. This enables wristwatch 4
Is the power supply coil 1 by the power supply circuit 10 of the mounting table 3.
1 is driven, and the power receiving coil 12 is generated by electromagnetic induction.
Electric power is induced in. Further, this power is rectified and stabilized by the power supply circuit 22, and the battery 23 is charged. As a result, the wristwatch 4 is supplied with operating power from the mounting table 3 in a non-contact manner, and the battery 23 is charged with this power.

When the user operates the computer 2 to instruct to update and record the personal information of the wristwatch 4, a command corresponding to the central processing unit 13 of the mounting table 3 is transmitted through the interface 9, and the command is transmitted. By the analysis of the command, the power supply coil 11 is subsequently driven according to the personal information obtained by the computer 2.
In the wristwatch 4, a high-frequency signal induced in the power receiving coil 12 coupled to the power supplying coil 11 is processed by the transmission / reception circuit 24, so that the data used for driving the power supplying coil 11 is decoded. . As a result, in the wristwatch 4, similarly, the data of the computer 2 is contactlessly received via the power supply system by noncontact, the content of the memory 26 is updated by this data, and the personal information is recorded in the memory 26. To be done.

When the user operates the computer 2 to instruct to read the personal information recorded in the wristwatch 4, the command from the computer 2 is similarly analyzed by the central processing unit 13. In this case, the central processing is performed. Under the control of the unit 13, the power supply coil 11 is driven by the data instructing the reading of the personal information. As a result, on the wristwatch 4 side, the data for instructing the reading is received and analyzed by the central processing unit 25. Based on the analysis result, the personal information recorded in the memory 26 is read, and the personal information is received by the electric power. The coil 12 is driven. On the mounting table 3 side, the power receiving coil 12 is driven in this manner by switching the operation of the transmission / reception circuit 14, and the power supplying coil 11 is driven.
The high-frequency signal induced in the
As a result, the personal information transmitted from the wristwatch 4 is transferred to the mounting table 3
Will be received at. Further, this personal information is output from the mounting table 3 to the computer 2. Therefore, in a wristwatch,
The data to be sent to the computer 2, which is the host device, is also supplied via the contactless power supply system.
It can be provided to the computer 2 without contact.

When time adjustment is instructed to this, data for time adjustment under the control of the central processing unit 13 is similarly transmitted by driving the power supply coil 11, and is transmitted to the power reception coil 12. It is received by the wristwatch 4 by the processing of the induced high-frequency signal, and the operation of the drive circuit 27 is corrected by the central processing unit 25 by this data, whereby the time can be adjusted.

In this way, various data are superimposed on the electric power and transmitted / received to / from the wristwatch 4. In the information processing system 1, since the electric power and data can be transmitted / received without contact, the terminal is omitted. As a result, sufficient reliability can be secured for long-term use.

Data can be transmitted / received by a simple structure in which a transmission / reception circuit for data transmission / reception is simply added to a coil for transmitting / receiving power, and the entire structure can be simplified accordingly.

By adjusting the time by transmitting and receiving such data, in the wristwatch, the operation means for adjusting the time, such as the crown, can be omitted, and the confidentiality and the reliability can be improved accordingly. You can

(1-3) Effects of the First Embodiment According to the above configuration, electric power is supplied in a contactless manner by coupling the coils, and the electric power supply path is used as a data transmission / reception path. As a result, data can be exchanged with the host device, and sufficient reliability can be ensured even during long-term use.

That is, in the wristwatch, when mounted on the mounting table, the power receiving coil coupled to the power supply coil disposed on the mounting table and the power induced in the power receiving coil charges the battery. A power supply circuit and a signal processing circuit that detects the high-frequency signal induced in the power receiving coil and receives the data transmitted from the mounting table ensure sufficient reliability even for long-term use. Thus, various data sent from the host device can be received.

At this time, the operation of the signal processing circuit is switched, the power receiving coil is driven by the data of the controller, and the data of the controller is transmitted to the mounting table, whereby the data can be transmitted to the host device side.

In the mounting table, a power supply coil coupled to the power reception coil of the wristwatch, a power supply circuit for driving the power supply coil to supply power to the power reception coil, and predetermined data. A signal processing circuit for driving the power supply coil by the above and transmitting the data to the wristwatch is provided so that the data from the host device is transmitted to the wristwatch in a contactless manner together with the power source, which is sufficient for long-term use. The reliability can be secured.

Further, by switching the operation of the signal processing circuit, detecting the high frequency signal induced in the power supply coil and receiving the data transmitted from the wristwatch, the data obtained from the wristwatch side can be received in a non-contact manner. Can be provided to the host device.

(2) Second Embodiment FIG. 3 is a block diagram showing an input / output device applied to an information processing system according to a second embodiment of the present invention together with peripheral components. The input / output device 33 has almost the same configuration except that the power supply circuit 10 is not arranged and is connected to the host device 31 instead of the computer 2.

Further, instead of the power supply coil 11, a data coil 32 is arranged on the wall surface of the building, etc., and this data coil 32 is connected to the transmission / reception circuit 14.

As a result, the input / output device 33 records, for example, authentication information by the system described above with reference to FIG.
When the wristwatch 4 is pressed against a predetermined position such as a wall surface on which the data coil 32 is arranged while being held by the arm, the power receiving coil 12 arranged on the wristwatch 4 and the data coil 32 are coupled to each other, In response to an instruction from the host device 31, the wristwatch 4 is instructed to transmit the authentication data. In response to this instruction, the authentication data transmitted from the wristwatch 4 is received and output to the host device 31.

As shown in FIG. 3, even if the power transmission / reception configuration is used only for data transmission / reception, the same effect as in the first embodiment can be obtained.

(3) Other Embodiments In the above-mentioned embodiments, the case of transmitting and receiving personal information and time adjustment data has been described. However, the present invention is not limited to this, and various kinds of e-mails and the like can be used. The present invention can be widely applied to transmission and reception of various kinds of data when recording and carrying various kinds of data in a wristwatch such as transmitting and receiving text data.

[0045]

As described above, according to the present invention, electric power is supplied in a contactless manner by coupling coils, and the electric power supply path is used as a data transmission / reception path, so that data can be transmitted / received to / from a host device. Data can be exchanged, and sufficient reliability can be secured even for long-term use.

[Brief description of drawings]

FIG. 1 is a block diagram showing an information processing system according to a first embodiment of the present invention.

FIG. 2 is a perspective view showing a general configuration of the information processing system of FIG.

FIG. 3 is a block diagram showing an input / output device applied to an information processing system according to a second embodiment of the present invention together with a peripheral configuration.

[Explanation of Codes] 1 ... Information processing system, 2 ... Computer, 3 ...
Mounting table, 4 ... Wristwatch, 10, 22 ... Power supply circuit, 11
...... Power supply coil, 12 ...... Power reception coil, 1
4, 24 ... Transceiver circuit, 32 ... Data coil, 3
3 ... I / O device.

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) G06K 19/04 H02J 7/00 301D 19/07 17/00 B H02J 7/00 301 G06K 19/00 H 17 / 00 QF term (reference) 2F002 AA08 AB04 AE01 BB04 GA06 5B035 BA01 BB09 CA01 CA06 CA12 CA22 CA23 5B058 CA15 CA17 CA22 CA23 KA24 YA20 5G003 AA01 BA01 DA04 GB08 GC05

Claims (6)

[Claims] 1. A power receiving coil which is coupled to a power supply coil disposed on the mounting table by being mounted on the mounting table, and a power supply circuit which charges a battery by the electric power induced in the power receiving coil. And a signal processing circuit that detects a high frequency signal induced in the power receiving coil and receives data transmitted from the mounting table. 2. The signal processing circuit switches operations under the control of a controller, drives the power receiving coil with data from the controller, and transmits the data from the controller to the mounting table. The wristwatch according to Item 1. 3. A mounting base for mounting a wristwatch, wherein the power supply coil is coupled to a power receiving coil of the wristwatch by mounting the wristwatch at a mounting position, and the power supply coil. A power supply circuit for driving the power supply coil to supply power to the power receiving coil, and a signal processing circuit for driving the power supply coil with predetermined data and transmitting the data to the wristwatch. A mounting table to be used. 4. The signal processing circuit switches operations under the control of a controller, detects a high frequency signal induced in the power supply coil, and receives data transmitted from the wristwatch. The mounting table according to item 3. 5. A data coil that is coupled to a power receiving coil that receives power by electromagnetic induction of a wristwatch, and a signal processing circuit that drives the data coil with predetermined data and transmits the data to the wristwatch. An input / output device comprising: 6. The signal processing circuit switches operation under the control of a controller, detects a high frequency signal induced in the data coil, and receives data transmitted from the wristwatch. The input / output device according to item 5.