KR100519409B1 - mobile communication device - Google Patents

Abstract

The mobile communication terminal device of the present invention is to reduce the number of external connection terminals used when combining the battery pack and the terminal device body, the battery pack is provided with both terminals and the negative terminal, the battery for charging and discharging power A cell; A protection circuit connected between both terminals and the negative terminal of the battery cell to protect the battery cell, the first and second terminals for supplying power, and a third terminal and a fourth terminal for checking a battery state; And a radio frequency identification antenna connected to the third terminal and the fourth terminal of the protection circuit for transmitting and receiving information, wherein the terminal body includes fifth and sixth terminals connected corresponding to the first terminal and the second terminal of the protection circuit. A power detecting unit including a terminal, a seventh terminal and an eighth terminal connected to the third terminal and the fourth terminal of the protection circuit, respectively, and an output terminal for properly outputting the input power; An electronic chip connected to the seventh and eighth terminals of the power detection unit and storing a unique identification number and user information; And a mobile terminal station modem unit (MSM) for transmitting and receiving information with the electronic chip, processing the input voice signal to generate a digital signal, and controlling the strength of the power output from the power detector.

Description

Mobile communication device

 The present invention relates to a mobile communication terminal device having a battery pack, and more particularly, to install an RFID antenna on a battery pack and to mount a smart card of a subscriber identity module (SIM) type on a main body of the mobile communication terminal device. In one structure, the present invention relates to a mobile communication terminal device having a reduced number of external connection terminals used when combining a battery pack and a mobile communication terminal body.

Mobile communication terminal devices have been designed to overcome the disadvantages of portability for wireline telephones that provide simple voice services, and are now used as very convenient tools that combine not only video services but also credit card and traffic card functions. In order to realize such a credit card or traffic card function, a so-called electronic chip such as a smart card and an RFID loop antenna for radio frequency identification (RFID) are embedded in a mobile communication terminal device. The smart card has its own microprocessor and memory that can be mounted on the terminal body or the battery pack, and stores various information of the user. Typical information stored in the smart card includes serial number, service code, personal information, authentication algorithm parameters, authentication key, encryption algorithm, encryption key, local identification number, personal identification number (PIN), mobile network code, Mobile subscriber identification number;

As described above, in the mobile communication terminal device having a smart card, a frequency domain (DCS 800 MHz band, PCS 1.8 GHz band) for a CDMA interface and a frequency domain (13.56 MHz band) for RFID are mixed and used. Therefore, in order to use this properly, a separate terminal was required to connect the loop antenna for receiving the smart card and the RFID signal.

1 is a schematic diagram of a conventional mobile communication terminal showing a connection relationship when an RFID loop antenna is installed in a battery pack and a smart card is built into a main body of the mobile communication terminal.

1 to 10 show a battery pack detachably attached to the terminal device body, and 20 shows the terminal device body.

The battery pack 10 includes a battery cell 11 for charging and discharging electric power to be supplied to the terminal body, a protection circuit 13 connected to the battery cell 11 to protect the battery from overcharge or shock, and a wireless An RFID loop antenna 15 for radio frequency identification and an RF interface unit 17 for transmitting a signal supplied from the RFID loop antenna 15 to the terminal body without loss.

The protection circuit 13 of the battery pack 10 includes a power supply voltage terminal V + and a ground terminal V− as power supply terminals for supplying power from the battery cells 11 to the terminal device body. Outside the battery check terminal (Bs) for checking the specifications of the battery, and the surface temperature detection terminal (Bt) for detecting the surface temperature of the battery is provided. In addition, the RF interface unit 15 is provided with two terminals A1 and A2 for connecting with the smart chip of the terminal device main body.

On the other hand, the main body 20 of the mobile communication terminal device detects the power supplied from the battery pack 10 through the terminals (V + ', V-') of the protection circuit 13, the power detector for properly processing and outputting 21 and two terminals A3 and A4 for receiving signals transmitted from the RF interface 17 of the battery pack 10, and these two terminals A3 and A4 are provided with an RF interface. It is formed corresponding to the terminals A1 and A2 of the unit 15. In addition, the terminal device main body 20 controls the strength of the output voltage supplied from the smart card 23 and the power detector 21, which stores the unique identification number and user information, which are pre-allocated. A mobile station modem (MSM) 25 for transmitting and receiving information with the smart card 23 and processing an input voice signal to generate a digital signal is included.

The power detecting unit 21 of the main body 20 of the terminal device is provided with four terminals V +, V−, Bs, and Bt having the same functions as those provided in the battery protection circuit 13.

However, in such a configuration, since the RFID loop antenna is built in the battery pack instead of the main body of the terminal device, two terminals must be separately manufactured and installed when connecting the main body of the terminal device and the battery pack. Therefore, this increases the manufacturing cost, there is a problem that not only worsens the reliability but also gives a huge obstacle to mass production.

Accordingly, an object of the present invention is to solve this problem, a mobile communication terminal having a battery pack that can be realized without forming a separate terminal for transmitting a signal received from the RFID antenna of the battery pack to the smart card of the terminal device It is to provide.

The mobile communication terminal device of the present invention for achieving the above object is a mobile communication terminal device having a terminal body and a battery pack having a structure that is detachable to one side of the terminal body, the battery pack, A battery cell having a terminal and a negative terminal for charging and discharging electric power; It is connected between both terminals and the negative terminal of the battery cell to protect the battery cell, the first terminal and the second terminal as a power supply terminal for power supply, the third terminal and the fourth terminal as a terminal for checking the battery state A protection circuit having a; And a radio frequency identification (RFID) antenna connected to a third terminal and a fourth terminal of the protection circuit to transmit and receive information, wherein the terminal body comprises a first terminal and a second terminal of the protection circuit. The fifth terminal and the sixth terminal as power input terminals connected corresponding to the terminals, the seventh terminal and the eighth terminal connected corresponding to the third terminal and the fourth terminal of the protection circuit, respectively, A power detector having an output terminal for outputting the power terminal; An electronic chip connected to the seventh and eighth terminals of the power detection unit and storing a pre-assigned unique identification number and user information; And a mobile terminal station modem unit (MSM) for transmitting and receiving information with the electronic chip, processing an input voice signal to generate a digital signal, and controlling the strength of power output from the power detection unit. have.

A first resistor having one end connected to an output terminal of the power detection unit and a connection node of the mobile terminal station modem portion and the other end connected to a seventh terminal of the power detection unit; an output terminal of the power detection unit and the mobile terminal station; Preferably, the terminal further includes a second resistor having one end connected to the connection node of the modem unit and the other end connected to the eighth terminal of the power detection unit.

In the above configuration, the electronic chip is preferably a smart card.

In addition, the RFID antenna is preferably a loop antenna or a micro-strip line antenna.

In the above configuration, it is preferable that the RFID antenna further includes an RF interface unit for transmitting the received signal without loss and maintaining the unique functions of the third terminal and the fourth terminal of the revolving circuit.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the accompanying drawings, the same components are denoted by the same reference numerals or the same reference numerals, and redundant description thereof will be omitted, and descriptions of well-known functions and configurations, which are not substantially related to the technical spirit of the present invention throughout the specification, will be briefly described. It will be omitted for the purpose of explanation.

2 is a diagram illustrating a specific configuration example of a mobile communication terminal configured according to a preferred embodiment of the present invention.

In FIG. 2, 100 is a battery pack detachably mounted to a terminal device body, and 200 represents a terminal device body.

The battery pack 100 includes a battery cell 110 that charges and discharges power to be supplied to a terminal body, and includes a positive terminal and a negative terminal; It is connected to the battery cell 11 to protect the battery from overcharge or shock, V + terminal and V- terminal as a power supply terminal for power supply, battery identification terminal (Bs) and temperature sensing as a terminal for checking the battery status A protection circuit 130 having a terminal Bt; An RFID antenna 150 for radio frequency identification; RF interface unit 170 for transmitting the signal supplied from the RFID antenna 150 to the terminal device main body 200 without loss and maintaining the unique functions of the battery terminal Bs and the temperature sensing terminal Bt of the protection circuit. ). The RF interface unit is a circuit for transferring a signal detected by an RFID antenna to a smart card chip without loss, and may be configured by combining a capacitor for proper impedance matching. That is, the present invention implements an antenna for 13.56 MHz RFID while maintaining the function of the existing protection circuit, and thus does not affect the unique functions of the battery confirmation terminal and the temperature sensing terminal of the protection circuit. In addition, since the antenna 150 transmits the analog signal (AC signal) to the smart card, and the battery check and the temperature detection of the protection circuit use the digital signal (DC signal), the capacitor is implemented in the RF interface unit 170. In this case, the DC signal may be blocked so as not to affect the smart card, and the AC signal may be transmitted to the smart card without loss. In addition, the battery pack 100 may have a source at a positive terminal of the battery cell 110. A first NMOS transistor NM1 connected to a protection circuit 130 and a gate connected to a drain of the first NMOS transistor NM1, and a second NMOS transistor connected to a gate of the protection circuit 130. NM2, a first resistor Rv having one end connected to the source of the second NMOS transistor NM2 and the other end connected to the battery check terminal Bs, and one end connected to the source of the second NMOS transistor NM2. Is connected to the temperature sensing terminal (Bt ) Is provided with a second resistor Rc connected at the other end thereof.

Meanwhile, the RFID antenna 150 used in the embodiment of the present invention is preferably a loop antenna or a micro strip line antenna.

In the configuration of FIG. 2, the protection circuit 130 of the battery pack 100 is provided with four terminals V +, V−, Bs, and Bt similarly to FIG. 1, but is additionally connected to the smart chip of the terminal device. It can be seen that the terminal of is unnecessary.

Meanwhile, the main body 200 of the mobile communication terminal device includes terminals V + 'and V-' as power input terminals connected to terminals V + and V- of the battery protection circuit 130, and a battery protection circuit ( Terminals Bs' and Bt 'connected to terminals Bs and Bt of 130, respectively, a power detector 210 having an output terminal for properly outputting the input power, and terminals Bs' and Bt ') is connected to an electronic chip 230 of the SIM type, which stores its own unique identification number and user information, and an output terminal of the power detector 210, and is connected to the electronic chip 230. The mobile terminal station modem unit 250 transmits and receives information, processes the input voice signal, generates a digital signal, and controls the strength of the output power from the power detector 210. The main body 200 of the terminal device further includes a resistor R1 having one end connected to the output terminal of the power detector 210 and the connection node of the mobile terminal station modem unit 250 and the other end connected to the terminal Bs', The resistor R2 includes one end connected to the output terminal of the power detector 210 and the connection node of the mobile terminal station modem unit MSM and the other end connected to the terminal Bt '.

The SIM type electronic chip 230 is preferably a smart card integrating a contactless type and a contact type of ID-000 format (ISO 7816).

In the configuration of FIG. 2, the terminal device main body 200 is provided with four terminals V + ', V-', Bs ', and Bt' like FIG. 1, but the RF interface unit 17 of the battery pack 100 is provided. It can be seen that a separate terminal for connecting with is unnecessary.

In the above configuration, the signal of the 13.46 MHz band detected by the RFID loop antenna 150 of the battery pack 100 is transmitted to the smart card 230 of the terminal body 200 by the divided voltages of the resistors R1 and Rv, R2 and Rc. It can be seen that it is transmitted. The signal detected from the RFID loop antenna of the battery pack is divided into R1 and Rv, R2 and Rc and transmitted to the smart card. The divided ratio is the voltage Bs' equals Rv * Vsys / (R1 + Rv) if the system voltage is Vsys. In addition, the voltage Bt 'can be obtained as Rc * Vsys / (R2 + Rc). The smart card 230 uses only RF components (AC components) detected and transmitted by the RFID antenna 150. Since it communicates with the power supply at the same time, there is no problem to operate even if the resistors R1 and Rv have a DC component. Meanwhile, the modem unit of the mobile terminal station of the terminal device main body 200 which transmits and receives information with the smart card 230, processes the input voice signal, generates a digital signal, and controls the strength of the output power from the power detector 210. The 250 may not always measure the resistance Rv value and the Rc value, and even if the RFID signal is present, the RFID signal of the high frequency may be properly filtered by an appropriate software technique. That is, the signal detected by the antenna is transmitted to the smart card, and the smart card transmits the data processed by its own operating program (COS: Card Operating System) to the modem unit in response to the transmitted signal. Therefore, the mobile station modem unit directly detects the state of the battery divided into Rv / Rc and R1 / R2, but the RF signal transmitted by the loop antenna is transmitted only through the smart card regardless of Rv / Rc and R1 / R2. The mobile station modem unit transmits the battery status to the modem unit through DC signals distributed to Rv / Rc and R1 / R2 in relation to the inherent functions of the existing protection circuit. Since only the AC signal is transmitted to the smart card by the interface unit, the smart card operates by the transferred AC signal to analyze the RFID signal and transmits the result to the modem unit. Therefore, the modem unit (MSM) does not need to directly analyze the RFID signal. It is not there.

Preferred embodiments of the present invention described above are for illustrative purposes only, and all modifications to the components, combinations and arrangements thereof are attached without departing from the spirit and scope of the invention as set forth in the claims below. It should be understood that it is included in the contents expressed in the claims.

For example, in the embodiment of the present invention, the terminals Bs and Bt and the power detector 210 provided in the battery protection circuit 130 without having a separate terminal for connecting the RF interface unit 170 and the smart card 230. Terminals Bs 'and Bt' provided in the circuit), but only one terminal (A1 and A3 or A2 and A4) is provided in the RF interface unit 170 and the smart card 230, respectively, and the terminals Bs and Any one of Bt and one of terminals Bs and Bt of the smart card may be connected.

According to the configuration of the present invention as described above, since the signal received from the RF antenna can be supplied using a terminal used in the past, it is not necessary to add a separate terminal to the battery pack or the terminal body, so it is built in the battery pack The signal supplied from the provided RF interface can be reliably transmitted to the smart card of the terminal body.

1 is a block diagram of a conventional mobile communication terminal device.

2 is a detailed configuration diagram of a mobile communication terminal device according to an embodiment of the present invention.

Explanation of symbols in the drawings

100: battery pack 110: battery cell

130: battery protection circuit 150: RFID antenna

170: RF interface 200: terminal device body

210: power detector 230: electronic chip (smart card)

250: MSM (mobile terminal station modem unit)

Rv, Rc, R1, R2: Resistance

NM1, NM2: NMOS transistor

Claims (5)

A mobile communication terminal having a terminal body and a battery pack having a structure detachable to one side of the terminal body, The battery pack, A battery cell having both terminals and a negative terminal for charging and discharging electric power; It is connected between both terminals and the negative terminal of the battery cell to protect the battery cell, the first terminal and the second terminal as a power supply terminal for power supply, the third terminal and the fourth terminal as a terminal for checking the battery state A protection circuit having a; A radio frequency identification (RFID) antenna which is connected to a third terminal and a fourth terminal of the protection circuit and is a loop type antenna or a micro strip line antenna type for transmitting and receiving information; And And an RF interface unit connected to the RFID antenna to transmit a received signal without loss and to maintain unique functions of the third terminal and the fourth terminal of the protection circuit. The terminal body, A fifth terminal and a sixth terminal as a power input terminal connected in correspondence with the first terminal and the second terminal of the protection circuit, a seventh terminal connected in correspondence with the third terminal and the fourth terminal of the protection circuit, respectively; A power detector having an eighth terminal and an output terminal for properly outputting power input through the power input terminal; A first resistor having one end connected to an output terminal of the power detection unit and a connection node of the mobile terminal station modem unit, and another end connected to a seventh terminal of the power detection unit; an output terminal of the power detection unit and the mobile terminal station modem unit; A second resistor having one end connected to a connection node and the other end connected to an eighth terminal of the power detection unit; An electronic chip connected to the seventh and eighth terminals of the power detection unit and storing a pre-assigned unique identification number and user information; And And a mobile terminal station (MSM) for transmitting and receiving information with the electronic chip, processing an input voice signal to generate a digital signal, and controlling the strength of the power output from the power detector. Terminal device. delete The method of claim 1, The electronic chip is a mobile communication terminal, characterized in that the smart card. delete delete