KR20060055226A - Mobile terminal having rfid(radio frequency identification) function - Google Patents

Abstract

The present invention relates to a mobile terminal having a radio frequency identification (RFID) function. The impedance matching circuit for adjusting the frequency of the signal for the RFID function can be reduced by providing a loop antenna for the RFID on the keyboard PCB and not connecting the battery protection circuit.

When the portable terminal having the RFID signal generator receives a signal for the RFID function generated from the RFID signal generator, the portable terminal operates by a magnetic field of the RFID reader to convert the applied voltage to convert the applied voltage. UIM socket unit for mounting a user identification module (UIM) for generating a signal in the form of data that can be transmitted to the reader, an antenna provided in an additional layer of a keyboard printed circuit board (PCB) and the UIM And a key connector for receiving the signal generated through the socket and transferring the generated signal to the antenna.

RFID, loop antenna, keyboard PCB, handheld terminal

Description

Mobile terminal with RFI function {MOBILE TERMINAL HAVING RFID (Radio Frequency IDentification) Function}             

1 is a circuit diagram showing a connection structure of a loop antenna of a portable terminal having a conventional RFID function,

2 is a photograph of a battery pack of a portable terminal having a conventional RFID function,

3 is a block diagram showing the configuration of a portable terminal according to a preferred embodiment of the present invention;

4 is a circuit diagram of a UIM socket part according to a preferred embodiment of the present invention;

5 is a circuit diagram of a connector 1 mounted on a main board of a portable terminal according to a preferred embodiment of the present invention;

6 is a circuit diagram of a connector 2 mounted on a keyboard PCB according to a preferred embodiment of the present invention;

7 is a view showing a front and back of the keyboard PCB according to an embodiment of the present invention,

8 is an exemplary view showing the use of mobile commerce through a mobile terminal according to a preferred embodiment of the present invention.

The present invention relates to a mobile terminal, and more particularly, to a mobile terminal having a Radio Frequency IDentification (RFID) function.

In general, a portable terminal having an RFID function has an antenna for RFID using a frequency of 13.56 MHz on the back of the battery. A structure for the RFID function of the portable terminal will be described in detail with reference to FIG. 1.

1 is a circuit diagram illustrating a connection structure of a loop antenna of a portable terminal having a conventional RFID function.

The loop antenna 10 of the portable terminal is attached to the back of the battery cell in the form of a flexible printed circuit board (FPCB) (thickness: 0.2t) in the form of a film through the two feed points 20 of the battery protection circuit 30 It is connected to CF terminal for charger connection and VF terminal for battery connection.

Only a part of the battery protection circuit 30 shown in FIG. 1 is shown, and the rest is omitted for convenience of description. A UIM (User Identify Module) in which user information is stored in advance by an RFID function provider generates a signal in a data form that can be transmitted to an RFID reader. The UIM is stored in the UIM in a signal generated by the UIM to the loop antenna 10 through the VF and CF terminals of the battery protection circuit 30 connected to the UIM socket through a user identity module (UIM) socket. Add and pass information.

The loop antenna 10 is connected to the CF and VF terminals of the battery protection circuit 30 and ANT1 and ANT2 to receive information stored in the UIM by a signal generated in the UIM.

Capacitors C4 and C6 provided between the CF, VF terminals, and ANT1 and ANT2 block DC voltage of the battery, that is, to adjust the frequency of 13.56 MHz, which is ultimately used in the RFID antenna. Impedance matching circuit.

As described above, the portable terminal having the conventional RFID function absorbs the reflected wave reflected by the metal plate of the battery cell in addition to the capacitors such as C4 and C6 to adjust the frequency used in the RFID antenna. There is a need for an electromagnetic wave absorber. An impedance matching effect by the electromagnetic wave absorber will be described with reference to the photo of the RFID battery pack of FIG. 2.

2 is a photograph of a battery pack of a portable terminal having a conventional RFID function.

The battery pack has an electromagnetic wave absorber 60 having a thickness of 0.4t or more between the battery cell 50 and the loop antenna 10. The electromagnetic wave absorber 60 increases the impedance matching effect by preventing the frequency from canceling by absorbing the reflected wave reflected by the metal plate of the battery cell 50 by the radio wave radiated from the loop antenna 10.

As described above, the conventional portable terminal has a capacitor C4, C5, C6 which is an impedance matching circuit for adjusting the frequency of 13.56 MHz used in the loop antenna 10 by providing the loop antenna 10 for RFID on the back of the battery. The electromagnetic wave absorber 60 was needed to increase the over impedance matching effect. In addition, the UIM socket connected to the battery protection circuit 30 includes two circuit elements for impedance matching.

Therefore, there is a problem in that the design of a PCB composed of circuits for the RFID function is complicated according to the structure of the impedance matching circuit and the impedance matching effect. In addition, there is a problem that the size is limited in designing a mobile terminal.

Accordingly, an object of the present invention is to provide a mobile terminal having a circuit structure for an RFID function.

In order to achieve the above object, a portable terminal having an RFID signal generator according to the present invention receives a signal for an RFID function generated from the RFID signal generator by a magnetic field of an RFID reader. A UIM socket portion for mounting a user identify module (UIM) that generates a data type signal that can be transmitted to an RFID reader by converting an applied voltage in operation, and a keyboard printed circuit board (PCB) And a key connector configured to receive an antenna provided in a layer and a signal generated through the UIM socket part and transmit the received signal to the antenna.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

3 is a block diagram showing the configuration of a portable terminal according to a preferred embodiment of the present invention.

The portable terminal is inductively coupled when the RFID loop antenna 131 is located in a magnetic filed of the RFID reader, and an AC voltage is applied to the loop antenna 131. The voltage is rectified to a DC voltage and used as a power required for the UIM 140 mounted on the UIM socket 110.

The UIM 140 operates when a constant voltage is applied. From this moment, the RFID signal generator 100 generates a signal for the RFID function. The UIM 140 adds information stored in the UIM 140 to a data type signal in which the voltage of the signal for the RFID function is changed and transmits the information to the RFID reader.

As an example of an RFID function for a mobile terminal, mobile commerce (m), that is, wired / wireless e-commerce, is a function that enables commerce to be carried by a mobile terminal. Therefore, when the user places the mobile terminal in the magnetic region of the RFID reader to use the mobile commerce, the RFID signal generator 100 generates a signal for the RFID function corresponding to the RFID reader. do.

The UIM socket unit 110 receives a signal for an RFID function generated from the RFID signal generator 100 and transmits the signal to the UIM 140. The UIM 140 operates by a voltage induced magnetically from the loop antenna 131 according to the received signal for the RFID function, and transmits the information stored in the UIM 140 to an RFID reader.

The conventional UIM socket part is connected to the battery protection circuit 30, the RFID stored in the UIM 140, which can be transmitted to the RFID reader (reader) through the VF, CF terminal of the battery protection circuit 30 RFID For the loop antenna.

However, the UIM socket part 110 according to the preferred embodiment of the present invention is not connected to the battery protection circuit 30. The voltage-converted signal including the user's information by the UIM 140 is transmitted to the key connector 120 according to a preferred embodiment of the present invention through the UIM socket 110.

The key connector 120 is configured by coupling the connector 1 mounted on the main board of the portable terminal and the connector 2 mounted on the keyboard PCB 130 and connected to the loop antenna 131. The key connector 120 is an antenna provided in the keyboard PCB 130 through a signal in the form of a data that can be transmitted to the RFID reader converted from the UIM 140 through the UIM socket 110 That is, the transfer to the loop antenna 131.

Keyboard PCB 130 is composed of four layers by the added 3 to 4 layers (layer), the key is configured in the first to second layers, and the loop antenna 131 for RFID is in the 3 to 4 layers It is provided. The connector 2 is mounted on the keyboard PCB 130. Accordingly, a signal in the form of data that can be transmitted to the RFID reader converted from the UIM 140 by the connector 2 and the connector 1 is coupled to the connector through the UIM socket unit 110. It is transmitted to the loop antenna 131 connected to the two.

Next, the UIM socket part 110 according to an exemplary embodiment of the present invention will be described in detail with reference to the circuit diagram of FIG. 4.

4 is a circuit diagram of a UIM socket part according to a preferred embodiment of the present invention.

According to FIG. 4, a signal for an RFID function generated through the RFID signal generator 100 is input to the UIM socket CN335 through an input terminal 101 provided in the UIM socket 110. According to the signal for the RFID function input to the UIM socket (CN335), the UIM 140 generates a signal in the form of data that can be transmitted to the voltage-reader RFID reader. The signal transmitted through the UIM socket CN335 is transmitted to the key connector 120 through the ANT1 and ANT2 terminals, and capacitors C344 and C346, which are impedance matching circuits, are connected between the ANT1 and ANT2 terminals and the UIM socket CN335. It is provided. C344 and C346 are impedance matching circuits provided to adjust a frequency of 13.56 MHz, which is conventionally used in a loop antenna.

Meanwhile, in the related art, the battery protection circuit 30 is provided between the C344, C346 and the ANT1 and ANT2 terminals, and the ANT1 and ANT2 terminals are connected through the two feed points 20 as shown in FIG. 1. It was connected to the loop antenna 10 attached to the back of the battery cell 50 in the form of FPCB.

That is, in the related art, a signal generated by the UIM 140 mounted on the UIM socket CN335 of the UIM socket 110 is supplied to the loop antenna 10 attached to the rear surface of the battery cell 50. The VF and CF terminals of the battery protection circuit 30 were used to transmit through the point 20. The VF and CF terminals were connected to the ANT1 and ANT2 terminals to transfer the signal generated by the UIM 140 to the loop antenna 10. Capacitors C4 and C6, which are impedance matching circuits, are provided between the ANT1 and ANT2 terminals and the VF and CF terminals, so that the DC voltage of the battery is not applied to the loop antenna 10. Accordingly, the frequency used in the loop antenna 10 was adjusted to 13.56 MHz.

Therefore, conventionally, the impedance matching circuit for frequency adjustment of the loop antenna for RFID radiates from the C4 and C6 capacitors of the battery circuit 30 and the C344 and C346 capacitors of the UIM socket part 110 and the loop antenna 10. There was an electromagnetic wave absorber for absorbing the reflected waves reflected by the metal plate of the battery cell 50.

On the other hand, in the mobile terminal according to the preferred embodiment of the present invention, only the impedance matching circuits for adjusting the frequency of the loop antenna for RFID are C344 and C346 capacitors of the UIM socket CN335. This is because the RFID loop antenna is provided on the 3-4 layers of the keyboard PCB 130 without being attached to the back of the battery cell 50 as in the prior art.

Next, the key connector 120 receiving the signal generated by the UIM 140 mounted on the UIM socket CN335 through the ANT1 and ANT2 terminals will be described in detail with reference to the circuit diagrams of FIGS. 5 and 6. .

5 is a circuit diagram of a connector 1 mounted on a main board of a portable terminal according to a preferred embodiment of the present invention. 6 is a circuit diagram of the connector 2 coupled to the connector 1 mounted on the main board of the portable terminal.

6 is a circuit diagram of a connector 2 mounted on a keyboard PCB according to a preferred embodiment of the present invention.

Comparing FIG. 5 with FIG. 6, it can be seen that the connectors 1 and 2 are identical. That is, the connector 1 and the connector 2 are coupled to each other to form the key connector 120. 6, unlike the connector 1, the connector ANT 1 and the ANT 2 are connected to the loop antenna 131.

That is, the key connector 120 coupled with the connector 1 and the connector 2 is generated in the UIM 140 mounted on the UIM socket CN335 through the ANT1 and ANT2 terminals connected to the UIM socket CN335. Receive a signal. In addition, the ANT1 and ANT2 are also connected to the loop antenna 131 connected to the connector 2 so that the signal generated in the UIM 140 is transmitted to the loop antenna 131.

Next, the keyboard PCB 130 provided with the loop antenna 131 will be described in detail with reference to the drawing of FIG. 7.

7 is a view showing the front and back of the keyboard PCB according to a preferred embodiment of the present invention.

According to FIG. 7, the left side is a front view of the keyboard PCB 130 and the right side is a rear view of the keyboard PCB 130. Referring to the front view of the keyboard PCB 130, a key is configured and referring to the rear view of the keyboard PCB 130, the connector 2 is mounted on the keyboard PCB 130 as described above and The loop antenna 131 is also provided.

Conventional 1 to 2 layers composed of keys 132 had a ground copper plane (cupper plane) 133, but the ground layer of copper foils 133 of 1 to 2 layers composed of the key 132 is the keyboard PCB 130 The loop antenna 131 provided in layers 3 to 4 is removed to effectively radiate a signal transmitted.

That is, the signal generated by the UIM 140 mounted on the UIM socket CN335 is finally transmitted to the loop antenna 131 through the connector 2. Accordingly, the signal generated in the UIM 140, that is, a signal in the form of data for the RFID function, is transmitted through the loop antenna 131 to the RFID reader.

Next, using the mobile commerce through the mobile terminal according to an embodiment of the present invention will be described with reference to the exemplary diagram of FIG.

8 is an exemplary view showing the use of mobile commerce through a mobile terminal according to a preferred embodiment of the present invention.

In a mobile terminal according to a preferred embodiment of the present invention, an RFID loop antenna is provided on the keyboard PCB 130. Accordingly, the user may know that the mobile terminal is positioned in the RFID reader in the direction of the keypad in order to use the mobile commerce.

 According to the present invention as described above, the impedance matching circuit for adjusting the frequency of the signal for the RFID function is reduced by providing a loop antenna for RFID on the keyboard PCB and not connected to the battery protection circuit.

In addition, since the impedance matching circuit is reduced, there is an effect that the size of the mobile terminal is less limited than the conventional design.

In addition, there is an effect of simplifying the design of a PCB composed of circuits for the RFID function.

Claims (6)

In a mobile terminal having a radio frequency identification (RFID) signal generator, Receiving a signal for the RFID function generated from the RFID signal generation unit is a data type that can be transmitted to the RFID reader by operating the magnetic field of the RFID reader to convert the applied voltage A UIM socket unit for mounting a user identify module (UIM) for generating a signal of the; An antenna provided in an added layer of a keyboard printed circuit board (PCB); And And a key connector for receiving a signal generated through the UIM socket and transferring the generated signal to the antenna. The method of claim 1, And a circuit element for impedance matching adjusting a frequency of a signal for the RFID function is included in the UIM socket. The method of claim 2, The circuit device for impedance matching is a portable terminal, characterized in that less than two capacitors. The method of claim 1, The key connector is a portable terminal, characterized in that the connector is mounted on the main board of the portable terminal and the keyboard PCB and the connector connected to the antenna is configured to combine. The method of claim 1, The antenna is a mobile terminal, characterized in that the loop antenna for RFID. In a mobile terminal having an RFID signal generator, An antenna unit provided in an added layer of a keyboard printed circuit board (PCB) for transmitting a voltage generated by a magnetic field of a RFID reader to a UIM; A UIM unit operating by the voltage transmitted from the antenna unit and generating and outputting specific information; And And a UIM socket unit configured to add the information output from the UIM unit to the signal generated by the RFID signal generator and transmit the information to the antenna.

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