KR20070044631A - Battery module of mobile telecommunication terminal and fabricating method for the same - Google Patents

Abstract

The present invention relates to a battery unit and a manufacturing method of a mobile communication terminal that can shorten the time required for the manufacturing process and improve the process efficiency by minimizing the unit process required for the manufacture of the battery unit,

According to an aspect of the present invention, there is provided a method of manufacturing a battery unit of a mobile communication terminal, comprising: preparing an integrated antenna in which an FPCB including a battery protection circuit, an RFID loop antenna, and a conductive material are integrated, and combining the battery of the integrated antenna and a mobile communication terminal; And forming a (+) power terminal and a (-) power terminal by performing a spot process on the FPCB of the site where the (+) power terminal and the (-) power terminal are to be formed, respectively. It is done.

Battery, RFID, Protection Circuit

Description

Battery part of mobile communication terminal and its manufacturing method {Battery module of mobile telecommunication terminal and fabricating method for the same}

1A to 1F are reference views for explaining a battery unit manufacturing process of a mobile communication terminal according to the prior art.

2 is a flowchart illustrating a method of manufacturing a battery unit of a mobile communication terminal according to the present invention.

3A-3C are reference views of the process according to the flow chart of FIG. 2.

4 is a configuration diagram of a battery unit of a mobile communication terminal according to the present invention.

The present invention relates to a battery unit of the mobile communication terminal and a method for manufacturing the same, and more particularly, a mobile communication that can shorten the time required for the manufacturing process and improve the process efficiency by minimizing the unit process required for the manufacturing of the battery unit. It relates to a battery unit manufacturing method of the terminal.

Due to the development of the communication industry and the rapid expansion of mobile communication services, many people are carrying mobile communication terminals, and in addition to mobile wireless telephony functions, music file playback, wireless Internet, etc. It is added to a mobile communication terminal.

In recent years, smart cards equipped with microprocessors, security modules, memories, and the like have been installed in mobile communication terminals, and have been used as payment means for recording various information, verifying identity, electronic money, and credit cards.

Meanwhile, in order to utilize the functions of the smart card, an RFID loop antenna for radio frequency identification (RFID) is required. Such an RFID loop antenna is usually integrally mounted to a battery of a mobile communication terminal. In addition to the RFID loop antenna, the battery is essentially equipped with a battery protection circuit for protecting the battery from overcharge or shock. Accordingly, when the mobile communication terminal is divided into a main body part and a battery part, a combination process of an RFID loop antenna, a battery, and a battery protection circuit is required to manufacture the battery part.

Looking at the battery unit manufacturing process of the mobile communication terminal according to the prior art in more detail as follows. 1A to 1F are reference diagrams for explaining a battery unit manufacturing process of a mobile communication terminal according to the prior art. First, as shown in FIG. 1A, in order to form a positive power terminal in the battery 110 of the mobile communication terminal, a nickel plate 111 is laminated on one side of a battery and a spot process is performed. Subsequently, the spotted (+) power supply terminal 113 is fixed with a poly-ethylene (PE) tape 112 or the like (FIG. 1B). Then, a spot process is performed on the nickel plate 111 stacked on the other side of the battery 110 to form a negative power terminal 114 (FIG. 1C). In this state, the insulating paper 115 is attached to a portion where the positive and negative power terminals 113 and 114 are formed (FIG. 1D). Subsequently, a battery protection circuit 116 is mounted on one side of the battery 110. At this time, soldering is generally used for mounting the battery 110 and the battery protection circuit 116 (FIG. 1E). . When the battery protection circuit is mounted, the RFID loop antenna 120 is finally attached to the battery by soldering, and the battery unit manufacturing process of the mobile communication terminal is completed.

The battery unit manufacturing process of the conventional mobile communication terminal as described above is difficult to carry out process management, defective product management, material management, etc., as a number of unit processes are required, and there is a problem in that unnecessary time and materials are required.

The present invention has been made to solve the above problems, the battery unit of the mobile communication terminal that can shorten the time required for the manufacturing process and improve the process efficiency by minimizing the unit process required for the manufacturing of the battery unit and its The purpose is to provide a manufacturing method.

The battery unit manufacturing method of the mobile communication terminal according to the present invention for achieving the above object comprises the steps of preparing a one-piece antenna integrated with a battery protection circuit, RFID loop antenna and FPCB equipped with a conductive material, Combining the antenna of the antenna and the battery of the mobile communication terminal, and performing a spot process on the FPCB of the site where the (+) power terminal and the (-) power terminal are to be formed, respectively, the (+) power terminal and the (-) power terminal Characterized in that it comprises a step of forming.

Preferably, the conductive material provided on the FPCB is formed on the FPCB through thermal deposition.

The battery unit of the mobile communication terminal according to the present invention includes an integrated antenna in which a battery protection circuit and an RFID loop antenna are integrated through an FPCB, (+) and (-) power terminals, and is electrically connected to the integrated antenna through the FPCB. Characterized in that comprises a battery that is connected.

Preferably, the positive and negative power terminals of the battery and the FPCB are electrically connected through a spot process.

According to a feature of the present invention, a battery protection circuit, an RFID loop antenna and an integrated antenna incorporating an FPCB equipped with a conductive material may be prepared and mounted on a battery to complete the battery part manufacturing process, thereby improving process efficiency. The required parts can be minimized.

Hereinafter, a battery unit and a manufacturing method of the mobile communication terminal according to the present invention will be described in detail with reference to the drawings. 2 is a flowchart illustrating a method of manufacturing a battery unit of a mobile communication terminal according to the present invention, FIGS. 3A to 3C are reference diagrams for a process according to the flowchart of FIG. 2, and FIG. 4 is a mobile communication according to the present invention. It is a block diagram of the battery part of a terminal.

First, as shown in FIG. 2 and FIG. 3A, an integrated antenna 310 is prepared (S201). The integrated antenna 310 is basically a feature of the battery unit manufacturing method of the mobile communication terminal according to the present invention, the battery protection circuit (PCM, Protection Circuit Module) 311 and RFID (Radio Frequency Identification) loop antenna 312 ) Refers to the integration. In addition to the battery protection circuit and the RFID loop antenna, the integrated antenna further includes a flexible printed circuit board (FPCB) 313 provided with a conductive material. The FPCB 313 is provided to facilitate the spot process of the (+) and (-) power terminals of the battery 320. The conductive material provided on the FPCB 313 may be formed of a power terminal constituent material of the prior art. Corresponding nickel (Ni) may be used and the conductive material may be provided on the FPCB 313 through a thermal deposition process or the like.

An integrated antenna having the above configuration is attached to the battery of the mobile communication terminal (S202). With the integrated antenna 310 and the battery 320 completed, bending of the FPCB at the site where the positive power terminal 314 and the negative power terminal 315 are to be formed, as shown in FIG. bending) work (S203). Subsequently, as illustrated in FIG. 3C, a spot process is performed on the bent FPCB to form a positive power terminal 314 and a negative power terminal 315, and thus, a battery unit of the mobile communication terminal according to the present invention. The manufacturing method is completed (S204).

Looking at the configuration of the battery unit of the mobile communication terminal according to the present invention completed through the manufacturing method as described above, as shown in Figure 4 is largely composed of the integrated antenna 310 and the battery 320 and the integrated antenna 310 The battery protection circuit (PCM) is composed of a 311 and the RFID loop antenna 312. In addition, the integrated antenna 310 is provided with an FPCB (313) to connect the battery protection circuit 311 and the RFID loop antenna 312 and is electrically connected to the (+), (-) power terminals of the battery.

The battery unit manufacturing method of the mobile communication terminal according to the present invention has the following effects.

It is possible to improve process efficiency by minimizing parts required for manufacturing by preparing an integrated antenna that integrates a battery protection circuit, an RFID loop antenna, and an FPCB equipped with a conductive material, and attaching it to a battery to complete the battery part manufacturing process. Will be. In particular, it is possible to reduce the amount of nickel plate used for the (+) and (-) power terminals, and to simplify the process as no battery protection circuit and antenna soldering and battery protection circuit and nickel plate soldering are required. have.

Claims (4)

Preparing an integrated antenna in which the battery protection circuit, the RFID loop antenna, and the FPCB including the conductive material are integrated; Coupling a battery of the integrated antenna and a mobile communication terminal; And performing a spot process on the FPCB of the site where the (+) power terminal and the (-) power terminal are to be formed to form a (+) power terminal and a (-) power terminal, respectively. Battery unit manufacturing method of the communication terminal. The method of claim 1, wherein the conductive material provided on the FPCB is formed on the FPCB through thermal evaporation. An integrated antenna with battery protection circuit and RFID loop antenna integrated through FPCB, The battery unit of the mobile communication terminal having a (+), (-) power terminal and comprises a battery electrically connected to the integrated antenna through the FPCB. 4. The battery unit of claim 3, wherein the (+), (-) power terminals of the battery and the FPCB are electrically connected through a spot process.

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