JP2001307032A - Mobile terminal - Google Patents

Abstract

(57) [Problem] To provide a small and lightweight portable terminal by simplifying the configuration of the portable terminal. SOLUTION: In a non-contact RFID reader / writer integrated type portable terminal, two or three of these antennas are shared by an antenna of a non-contact RFID reader / writer, an antenna for communicating with a host computer, and a coil for performing non-contact charging. By using the portable terminal, it is possible to reduce the size and weight of the portable terminal.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a portable terminal having a memory function therein.

[0002]

2. Description of the Related Art In recent years, portable terminals for reading information written on a card and writing information on the card without contact have been used. Hereinafter, a configuration of a conventional mobile terminal is shown in FIG. 9 and will be described.

In a conventional portable terminal, a non-contact IC card or an R
RFID antenna 20 for reading F tag
1. An external power supply method for charging the battery 202 is required. A coil 203 for supplying power by electromagnetic coupling, and a memory 2 inside the mobile terminal are required.
Each of the communication antennas 205 for performing radio communication of the contents of No. 04 to an external device by radio waves is required.

[0004]

In the prior art, a non-contact IC card and an RFID tag are read by an RFID.
A coil 203 for performing an external power supply method for charging the battery 201 and a battery 202, and a communication antenna 205 for performing wireless communication by radio waves of the contents of the memory 204 inside the portable terminal to an external device. Each of them was necessary, the equipment became very large, and it was difficult to carry.

[0005]

In order to solve the above-mentioned problems, a first portable terminal of the present invention is a portable terminal driven by a battery, which reads an electronic information of a non-contact IC card or a non-contact IC tag. Non-contact IC card and non-contact IC read by reader / writer and RFID reader / writer
A coil unit having a memory unit for holding electronic information of the tag, a charge control unit for controlling charging of the battery, and reading electronic information of a non-contact IC card or a non-contact IC tag;
It shares a coil for supplying an external power supply for charging the battery by electromagnetic coupling.

According to a second portable terminal of the present invention, in the first portable information terminal of the present invention, the electric signal input from the coil is charged with an electric signal necessary for reading the RFID reader / writer unit and a battery. And a signal separation device that separates the necessary electric signals into the RFID reader / writer unit and the charge control unit.

A third portable terminal according to the present invention comprises an RFID reader / writer for reading electronic information of a non-contact IC card and a non-contact IC tag, and an electronic information of a non-contact IC card and a non-contact IC tag read by the RFID reader / writer. And a coil unit for reading electronic information of a non-contact IC card or a non-contact IC tag in a portable terminal, comprising: a memory unit for storing the electronic information of the memory; An antenna for performing communication means by radio waves is shared.

The fourth portable terminal of the present invention is the third portable terminal of the present invention, wherein an electric signal input from the antenna is read by an RFID reader / writer unit and an electric signal necessary for reading is transmitted to the communication unit. A signal separation device that separates the signals into electric signals necessary for performing the operation and switches the electric signals as electric signals necessary for each of the signals.

According to a fifth aspect of the present invention, there is provided a portable terminal driven by a battery, comprising a memory unit for storing electronic information and a charge control unit for controlling charging of the battery. A coil type antenna for performing communication means for outputting to an external device by radio waves and a coil for supplying an external power supply for charging a battery by electromagnetic coupling are shared.

According to a sixth aspect of the present invention, in the fourth aspect of the present invention, the electric signal input from the coil is separated into an electric signal necessary for the communication means and an electric signal necessary for charging the battery. And a signal separation device for switching as a necessary electric signal for each.

A seventh portable terminal according to the first aspect of the present invention is the first portable terminal according to the first aspect of the present invention, further comprising communication means for communicating the contents of the memory unit to the outside by radio waves, and an antenna for performing the communication means and the present invention. A coil-type antenna for reading electronic information of a non-contact IC card or a non-contact IC tag provided in the first portable terminal is shared.

An eighth portable terminal according to the seventh aspect of the present invention is the portable terminal according to the seventh aspect of the present invention, which converts the electric signal input from the antenna into an electric signal necessary for the RFID reader / writer unit and a battery. There is provided a signal separation device that separates necessary electric signals and electronic information of the memory unit into electric signals necessary for communicating with an external device, and switches the electric signals to respective necessary electric signals.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS According to the first portable terminal of the present invention,
A coil-type antenna that reads the electronic information of a non-contact IC card or non-contact IC tag and a coil that supplies external power for charging the battery by electromagnetic coupling can be shared. And can be more easily used as a portable terminal.

According to the second portable terminal of the present invention, the electric signal input from the coil is converted into an electric signal necessary for reading by the RFID reader / writer unit and an electric signal necessary for charging the battery. The apparatus is provided with a signal separation device that switches the electrical signals required for each of them to the RFID reader / writer unit and the charging control unit, and can eliminate noise included in electricity transmitted from the charging power supply device.

According to the third portable terminal of the present invention, the non-contact I
By sharing a coil-type antenna for reading electronic information of a C card or a non-contact IC tag and an antenna for performing the communication means by radio waves, the communication system can be downsized.

Hereinafter, embodiments of the present invention will be described. FIG. 1 is a functional block diagram of a portable terminal according to the first embodiment of the present invention. The antenna 1 has a function of converting an electric signal into a radio wave when communicating between the RFID 5 and the portable terminal 7 by radio waves and outputting a radio wave from the portable terminal 7 to the RFID 5, and a radio wave transmitted from the RFID 5. Is received by the portable terminal 7 and a function of converting the electric wave into an electric signal is required. When the battery 4 built in the portable terminal 7 is charged, an external power supply is required.

In such a case, there is an electromagnetic coupling as a method of supplying power from the outside, and there is a charging power supply device 6 as a device for supplying power, and a current transmitted from the charging power supply device 6 is transmitted to the portable terminal 7. It has a function to take in.

The RFID reader / writer 2 converts the radio signal transmitted from the RFID 5 into an electric signal by the antenna 1 and converts the electric signal into a format usable as electronic information.
And a function of converting electronic information in the memory 8 into an electric signal which is easily output from the antenna 1 as a radio wave.

The charging circuit 3 uses the current that has entered the antenna 1 by electromagnetic coupling from the charging power supply device 6 and uses the battery 4
It has a function to control charging. The battery 4 has a function of supplying power for operating the portable terminal 7.

The RFID 5 can digitize necessary information as an ID card, electronic money, or the like, and can store an internal memory, and has a function of communicating with the portable terminal 7 by radio waves.

The charging power supply circuit 6 has a function of supplying electricity to the portable terminal 7 by electromagnetic coupling in order to charge the battery 4 built in the portable terminal 7.

The electronic information in the RFID 5 is stored in the RFID
The signal is converted into a radio wave using a modulation circuit (not shown here) provided in 5 and transmitted to the portable terminal 7. Antenna 1 that incorporates radio waves transmitted from RFID 5 into portable terminal 7
Is converted into an electric signal from the radio wave, and the converted electric signal is converted into a format usable as electronic information by the RFID reader / writer 2 and stored in the memory 8.

Conversely, the electronic information in the memory 8 is stored in the RFI
The D reader / writer 2 converts the electric signal from the antenna 1 into an electric signal which is easily output as a radio wave.
Transmit to FID5. The radio wave transmitted from the portable terminal 7 can be converted from the radio wave into electronic information by a demodulation circuit (not shown here) in the RFID 5 and the electronic information can be written in the RFID 5.

Since the portable terminal 7 is used as a cordless device, the battery 4 is provided in the portable terminal 7 as a device for supplying electricity necessary for operating the portable terminal 7.
There is a charging power supply 6 from the outside to use the battery 4 repeatedly, and charging power is supplied to the portable terminal 7 using electromagnetic coupling.

The electromagnetic field radiated from the charging power supply 6 is converted into electricity by the antenna 1, and the electricity is taken into the portable terminal 7. Electricity supplied from the antenna 1 is supplied to the battery 4 under the control of the charging circuit 3, and the battery 4 can be used repeatedly.

Here, the antenna 1 is used for both communication with the RFID 5 and supply of power to the battery 4, so that the configuration of the portable terminal 7 can be simplified and the cost can be reduced by reducing the number of parts. Characterized in that
It is a mobile terminal.

FIG. 2 is a functional block diagram of a portable terminal according to a second embodiment of the present invention. The RF charging signal separating device 11 determines whether a signal obtained by converting an electric signal from the antenna 1 into a radio wave from the RFID 5 into an electric signal or a device obtained by converting an electromagnetic wave from the charging power supply 6 into electricity is converted into a signal frequency or current. It has a function of transmitting the radio wave from the RFID 5 converted to an electric signal to the RFID reader / writer and converting the electromagnetic wave from the charging power supply device 6 to the electric power to the charging circuit 3. .

In the first embodiment, the current supplied from the charging power supply device 6 via the antenna 1 to charge the battery 4 is transmitted from the RFID 5 and converted into an electric signal by the antenna 1. It is larger than the current value.

If the portable terminal 7 does not include the RF charging signal separation device 11, the current supplied from the charging power supply device 6 via the antenna 1 directly enters the RF reader / writer 2, and It is necessary to set the allowable current value of the reader / writer 2 high in design, which complicates the circuit configuration and increases the cost of circuit components.

Further, since electricity transmitted from the charging power supply device 6 contains much noise, it cannot be converted into electronic information usable by the RFID reader / writer 2. A portable terminal characterized by solving these two problems by equipping the RF charging signal separation device 11.

FIG. 3 is a functional block diagram of a portable terminal according to a third embodiment of the present invention. Host computer 1
Numeral 0 communicates with the portable terminal 7 by radio waves, retrieves electronic information in the memory 8, and rewrites the electronic information in the memory 8. The mobile terminal 7 outputs the electronic information in the memory 8 as an electric signal that is easily output as a radio wave from the antenna 1 by the communication control device 9 and outputs a radio wave from the antenna 1 to a host computer 10 outside the mobile terminal 7.

Radio waves output from the portable terminal 7 are taken into the host computer 10. The radio wave taken into the host computer 10 is converted from the radio wave into electronic information by a demodulation circuit (not shown here) in the host computer 10.

Here, the antenna 1 is used as an antenna for communicating with the RFID 5 and for communicating with an external host computer 10, so that the configuration of the portable terminal 7 can be simplified and the number of parts can be reduced. The portable terminal is characterized in that cost can be reduced.

FIG. 4 is a functional block diagram of a portable terminal according to a fourth embodiment of the present invention. The RF communication signal separation device 12 determines whether an electric signal from the antenna 1 is converted from a radio wave from the RFID 5 into an electric signal or a radio wave from the host computer 10 into an electric signal depending on the frequency of the signal and the strength of the current. It has a function of discriminating and converting a radio wave from the RFID 5 to an electric signal to an RFID reader / writer, and transmitting a radio wave from the host computer 10 converted to an electric signal to the communication control device 9.

In the third embodiment, when the portable terminal 7 is
When the FID 5 and the host computer 10 are simultaneously communicated by radio waves, a signal obtained by converting a radio wave transmitted from the RFID 5 into an electric signal by the antenna 1 is input to the communication control device 9 and becomes a noise component. Decrease the probability of communicating accurately,
Conversely, when an electric signal for communication between the portable terminal 7 and the host computer 10 is input to the RFID reader / writer 2, the probability of accurate communication between the portable terminal 7 and the RFID 5 decreases.

In order to solve these problems, an RF communication signal separation device 12 is provided so that the electric signal input to the antenna 1 is a signal necessary for communication with the RFID reader / writer 2 and the RFID reader / writer is used. 2, and an electric signal necessary for communication between the portable terminal 7 and the host computer 10 is transmitted to the communication control device 9. Therefore, the probability that the portable terminal 7 can accurately communicate with the RFID 5 or the host computer 10 can be increased.

FIG. 5 is a functional block diagram of a portable terminal according to a fifth embodiment of the present invention. The portable terminal 7 has a memory 8
The communication control device 9 outputs the electronic information therein as an electric signal which is easily output as a radio wave from the antenna 1 and outputs a radio wave from the antenna 1 to a host computer 10 outside the portable terminal 7.

Radio waves output from the portable terminal 7 are taken into the host computer 10. The radio wave taken into the host computer 10 is converted from the radio wave into electronic information by a demodulation circuit (not shown here) in the host computer 10. Since the portable terminal 7 is used as a cordless device, the battery 4 is provided in the portable terminal 7 as a device for supplying electricity necessary for operating the portable terminal 7. There is a charging power supply 6 for supplying power for charging to the mobile terminal 7 using electromagnetic coupling.

The electromagnetic field radiated from the charging power supply 6 is converted into electricity by the antenna 1, and the electricity is taken into the portable terminal 7. Electricity supplied from the antenna 1 is supplied to the battery 4 under the control of the charging circuit 3, and the battery 4 can be used repeatedly.

Here, the configuration of the portable terminal 7 can be simplified by using the antenna 1 as an antenna for communicating with an external host computer 10 and for supplying power to the battery 4. A portable terminal characterized by being capable of reducing costs by reducing parts.

FIG. 6 is a functional block diagram of a portable terminal according to a sixth embodiment of the present invention. Communication charging signal separation device 1
Numeral 3 indicates whether the electric signal from the antenna 1 has been converted from a radio wave from the host computer 10 into an electric signal or the electromagnetic wave from the charging power supply 6 has been converted into electricity, depending on the frequency of the signal and the intensity of the current. It has a function of determining and converting a radio wave from the host computer 10 to an electric signal to the communication control device 9 and transmitting an electromagnetic wave from the charging power supply device 6 to electricity to the charging circuit 3. .

In the fifth embodiment, the current supplied from the charging power supply 6 via the antenna 1 to charge the battery 4 is transmitted from the host computer 10 and converted into an electric signal by the antenna 1. It is larger than the given current value.

When the mobile terminal 7 does not include the communication charging signal separation device 13, the current supplied from the charging power supply device 6 via the antenna 1 directly enters the communication control device 9, and It is necessary to set the allowable current value of the control device 9 high in design, which complicates the circuit configuration and increases the cost of circuit components.

The electricity sent from the charging power supply 6 contains a lot of noise, so that the communication controller 9
It becomes difficult to convert to electronic information that can be used in A portable terminal characterized by solving these two problems by equipping the RF charging signal separation device 11.

FIG. 7 is a functional block diagram of a portable terminal according to a seventh embodiment of the present invention. The electronic information in the RFID 5 is converted into a radio wave using a modulation circuit (not shown here) in the RFID 5 and transmitted to the portable terminal 7. The radio wave transmitted from the RFID 5 is converted from the radio wave into an electric signal by the antenna 1 built in the portable terminal 7, and the converted electric signal is converted into a format usable as electronic information by the RFID reader / writer 2 and stored in the memory 8. .

On the contrary, the electronic information in the memory 8 is transferred to the RFI.
The D reader / writer 2 converts the electric signal from the antenna 1 into an electric signal which is easily output as a radio wave.
Transmit to FID5. The radio wave transmitted from the portable terminal 7 can be converted from the radio wave into electronic information by a demodulation circuit (not shown here) in the RFID 5 and the electronic information can be written in the RFID 5. Since the portable terminal 7 is used as a cordless device, the battery 4 is provided in the portable terminal 7 as a device for supplying electricity necessary for operating the portable terminal 7. There is a charging power supply 6 for supplying power for charging to the mobile terminal 7 using electromagnetic coupling.

The electromagnetic field radiated from the charging power supply 6 is converted into electricity by the antenna 1, and the electricity is taken into the portable terminal 7. Electricity supplied from the antenna 1 is supplied to the battery 4 under the control of the charging circuit 3, and the battery 4 can be used repeatedly.

The host computer 10 communicates with the portable terminal 7 by radio waves to retrieve electronic information in the memory 8 and rewrite the electronic information in the memory 8. The mobile terminal 7 outputs the electronic information in the memory 8 as an electric signal that is easily output as a radio wave from the antenna 1 by the communication control device 9 and outputs a radio wave from the antenna 1 to a host computer 10 outside the mobile terminal 7. Radio waves output from the portable terminal 7 are taken into the host computer 10.

The radio waves taken into the host computer 10 are converted from the radio waves into electronic information by a demodulation circuit (not shown) in the host computer 10. Here, the configuration of the portable terminal 7 can be simplified by using the antenna 1 as an antenna for communicating with the RFID 5, supplying power to the battery 4, and communicating with an external host computer 10. A portable terminal characterized in that the cost can be reduced by reducing the number of parts.

FIG. 8 is a functional block diagram of a portable terminal according to an eighth embodiment of the present invention. The signal separating device 14 converts an electric signal from the antenna 1 into a radio wave from the RFID 5 into an electric signal, converts an electromagnetic wave from the charging power supply 6 into electricity,
Whether the radio wave from 0 is converted to electricity is determined by the frequency of the signal or the strength of the current, and the radio wave from RFID 5 converted to an electric signal is transmitted to the RFID reader / writer,
It has a function of transmitting an electromagnetic wave from the charging power supply device 6 to electricity to the charging circuit 3 and transmitting an electromagnetic wave from the host computer 10 to electricity to the communication control device 9.

In the eighth embodiment, the current supplied from the charging power supply 6 via the antenna 1 to charge the battery 4 was transmitted from the RFID 5 and converted into an electric signal by the antenna 1. It is larger than a current value or a current value transmitted from the host computer 10 and converted into an electric signal by the antenna 1.

When the portable terminal 7 does not include the signal separation device 14, the current supplied from the charging power supply device 6 via the antenna 1 directly enters the RF reader / writer 2 and the communication control device 9. Therefore, it is necessary to set the allowable current value of the RF reader / writer 2 and the communication control device 9 high in design, and the circuit configuration becomes complicated and the circuit components become expensive.

Further, since electricity transmitted from the charging power supply device 6 includes much noise, it is difficult to convert the electricity into electronic information usable by the RFID reader / writer 2. The portable terminal is characterized by solving these problems by providing the signal separation device 14.

[0054]

As is clear from the above description, according to the present invention, a portable terminal can be reduced in size and weight, and an inexpensive portable terminal can be provided.

[Brief description of the drawings]

FIG. 1 is a functional block diagram of a portable terminal according to a first embodiment of the present invention.

FIG. 2 is a functional block diagram of a portable terminal according to a second embodiment of the present invention.

FIG. 3 is a functional block diagram of a portable terminal according to a third embodiment of the present invention.

FIG. 4 is a functional block diagram of a portable terminal according to a fourth embodiment of the present invention.

FIG. 5 is a functional block diagram of a portable terminal according to a fifth embodiment of the present invention.

FIG. 6 is a functional block diagram of a portable terminal according to a sixth embodiment of the present invention.

FIG. 7 is a functional block diagram of a portable terminal according to a seventh embodiment of the present invention.

FIG. 8 is a functional block diagram of a portable terminal according to an eighth embodiment of the present invention.

FIG. 9 is a functional block diagram showing a configuration of a portable terminal according to a conventional method.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 antenna 2 RFID reader / writer 3 charging circuit 4 battery 5 RFID 6 charging power supply device 7 portable terminal 8 memory 9 communication control device 10 host computer 11 RF charging signal separating device 12 RF communication signal separating device 13 communication charging signal separating device 14 Signal separation device 201 Loop antenna 202 Battery 203 Coil 204 Memory 205 Antenna

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) G06K 19/07 G06K 19/00 HJ (72) Inventor Osamu Kobayashi 1006 Odakadoma, Kadoma City, Osaka Matsushita Electric Within Sangyo Co., Ltd. (72) Inventor Nobuhiko Fujii 1006 Kazuma Kadoma, Kazuma, Osaka Prefecture Matsushita Electric Industrial Co., Ltd.F-term (reference)

Claims (8)

[Claims] 1. A portable terminal driven by a battery, which reads electronic information of a non-contact IC card or a non-contact IC tag.
A non-contact IC having an ID reader / writer, a memory for holding electronic information of a non-contact IC card and a non-contact IC tag read by the RFID reader / writer, and a charge controller for controlling battery charging; A mobile terminal characterized by sharing a coil-type antenna for reading electronic information of a card or a non-contact IC tag and a coil for supplying external power by electromagnetic coupling when charging a battery. 2. An electric signal input from a coil is subjected to RFI
Signal separation for separating an electric signal necessary for reading of the D reader / writer unit and an electric signal necessary for charging the battery and switching the electric signal necessary for each to the RFID reader / writer unit and the charging control unit. The portable information terminal according to claim 1, further comprising a device. 3. An RFID reader / writer for reading electronic information of a non-contact IC card or a non-contact IC tag, and a non-contact IC card or a non-contact IC read by the RFID reader / writer.
A coil for reading electronic information of the non-contact IC card or the non-contact IC tag in a portable terminal, comprising: a memory unit for storing electronic information of the tag; and a communication unit for transferring the electronic information of the memory to the outside. A mobile terminal characterized in that a common antenna is used as an antenna for performing the communication means by radio waves. 4. An electric signal input from an antenna is converted to an RF signal.
A signal separation device for separating an electric signal necessary for reading by the ID reader / writer unit and an electric signal necessary for performing the communication means, and switching the electric signal as an electric signal necessary for each. Item 3. The mobile terminal according to item 3. 5. A portable terminal driven by a battery, comprising: a memory unit for holding electronic information; and a charge control unit for controlling charging of the battery, and for outputting the electronic information of the memory unit to an external device. A mobile terminal characterized by sharing a coil-type antenna for performing communication means by radio waves and a coil for supplying external power by electromagnetic coupling when charging a battery. 6. A signal separation device for separating an electric signal input from a coil into an electric signal necessary for the communication means and an electric signal necessary for charging the battery and switching the electric signal as an electric signal necessary for each of the electric means. The mobile terminal according to claim 5, wherein: 7. An antenna according to claim 1, further comprising communication means for communicating the contents of the memory unit to the outside by radio waves, and sharing the antenna according to claim 1 with an antenna for performing said communication means. Mobile terminal described in. 8. The portable terminal according to claim 7, wherein an electric signal input from an antenna is input to the RFID reader / writer unit, an electric signal required to charge a battery, and a signal stored in the memory unit. A portable terminal, comprising: a signal separation device that separates electronic information into electric signals necessary for communication with an external device and switches the electric signals to respective necessary electric signals.