KR100971717B1 - Wireless type charging and data communication control module for mobile terminal and layout of the same - Google Patents

Abstract

PURPOSE: A noncontactless charging and data communication control module for a portable terminal and an arranging method thereof are provided to prevent interference due to harmonic elements by selectively performing a receiving mode of a wireless power signal and a transceiving mode of data. CONSTITUTION: A common transceiving block(10) selectively performs the receiving mode of a wireless power signal and a transceiving mode of data. A rectifying block(20) changes an AC wireless power signal into a DC wireless power signal. A receiving electric power controlling block(30) changes the DC wireless power signal into electrical energy. A charging controlling block(40) charges a battery pack block by using the electrical energy outputted from the receiving electric power controlling block. A data processing block(50) transfers the data for an external electronic device and an electronic payment through the common transceiving block.

Description

Wireless type charging and data communication control module for mobile terminal and layout of the same}

The present invention relates to a contactless charging and data communication control module for mobile terminals and an arrangement thereof, and more specifically, to a battery pack and a cover case of a portable terminal, both a power receiving coil of a charging system and a loop antenna of an electronic payment system. It is equipped with a power receiving coil in the center, and a loop antenna outside, and selectively performing a reception mode of a wireless power signal and a transmission / reception mode of data, thereby preventing interference effects caused by harmonic components. The present invention relates to a contactless charging and data communication control module for a portable terminal and a disposition structure thereof for enabling both contactless charging and electronic payment in a portable terminal.

In general, a battery pack is a battery pack for supplying power for operation of a portable terminal (cell phone, PDA, etc.) while receiving power (electrical energy) from an external charger and charging the battery pack. A circuit for charging and discharging the cell and the battery cell (supplying electrical energy to a portable terminal) is configured.

In the electrical connection method of a charger and a battery pack for charging electrical energy to a battery pack used in such a portable terminal, the battery pack through the terminal of the corresponding battery pack by converting into a voltage and current corresponding to the battery pack by receiving commercial power There is a terminal connection method to supply electrical energy.

However, when the power is supplied by the terminal connection method, when the charger and the battery pack are contacted or separated, the terminals on both sides (the terminals of the battery pack and the terminals of the charger) have different potential differences, resulting in a momentary discharge phenomenon. For this reason, if foreign matters are accumulated on both terminals, a fire may occur.

In addition, there is a problem that the electrical energy charged in the battery pack due to moisture, such as a natural discharge to the outside through the terminal of the battery pack, and of course, there is a disadvantage that causes a reduction in the life and performance of the battery pack.

Recently, in order to solve the above problems, a contactless charging system using a wireless power transmission and reception technology has been proposed.

On the other hand, recently spreading portable terminals are equipped with an electronic payment system using a short-range wireless communication method, and performs a desired payment by processing the payment process in close proximity to the electronic payment device, such as a portable terminal equipped with the electronic payment system. can do.

For the above payment system, a loop antenna, an absorber, an impedance matching circuit, and the like must be configured in the portable terminal.

In order to mount both the contactless charging system using the wireless power transmission and reception technology and the payment system using the near field wireless communication in one portable terminal, the power receiving coil of the charging system and the loop antenna of the electronic payment system (Loop) All antennas must be provided and operated in the portable terminal.

However, due to mutual interference by harmonic components (n times the fundamental wave) that occur in the frequency band of the electronic payment system (for example, 13.56 MHz) and the frequency band of the charging system (for example, hundreds of kHz), There was a problem that the transmission of the signal is not smooth and can not perform the required function.

In order to solve the above problems, the present invention, by mounting both the power receiving coil of the charging system and the loop antenna of the electronic payment system in the battery pack and the cover case of the portable terminal, by preventing the interference effect of harmonic components, one It is an object of the present invention to provide a contactless charging and data communication control module for a portable terminal and its arrangement to enable contactless charging and electronic payment in a portable terminal.

To this end, the present invention is to arrange a power receiving coil in the center, and a loop antenna at the outside, and then to perform the contactless charging and data communication for the portable terminal to selectively perform the wireless power signal reception mode and data transmission and reception mode. The purpose is to provide a control module and its arrangement.

In order to achieve the above object, a non-contact charging and data communication control module for a portable terminal according to the present invention, the public transmission and reception block for selectively performing the reception mode and the data transmission and reception mode of the wireless power signal, and the wireless power signal In the reception mode of the rectification block for rectifying the power signal received by the common transmission and reception block, a reception power control block for controlling the power signal rectified in the rectification block, and the electric power signal controlled in the reception power control block In the charge control block for controlling the charging of the battery pack using energy, and in the data transmission and reception mode, the data transmission block for transmitting and receiving data for electronic payment with an external electronic device through the common transmission and reception block, the common transmission and reception block Is a power reception coil for receiving a wireless power signal, a loop antenna for transmitting and receiving data, Selecting any one of the power receiving coil and the loop antenna to control a switching operation of the mode switching unit by sensing a mode switching unit electrically connected to any one of the rectifying block and the data processing block and a received voltage of the power receiving coil. Characterized in that configured to include a mode control unit.

In addition, the contactless charging and data communication control module arrangement structure for a mobile terminal according to the present invention, the terminal body capable of wireless communication, the battery pack (Battery pack) capable of charging and discharging while supplying electrical energy to the terminal, the battery A reception mode of a wireless power signal in a portable terminal including a cover case for a battery for protecting the pack and at least one connection terminal module configured to electrically connect the terminal body and the battery and the cover case, respectively. And a common transmission / reception block for selectively performing a transmission / reception mode of data, a rectification block for rectifying a power signal received by the common transmission / reception block in a reception mode of a wireless power signal, and a reception for controlling a power signal rectified in the rectification block. Using a power control block and electrical energy that is a power signal controlled by the receiving power control block. In the charge control block for controlling the charging of the battery pack and data transmission and reception mode, including a data processing block for transmitting and receiving data for electronic payment with the external electronic device through the common transmission and reception block, the first connection terminal of the battery pack The module is connected to the second connection terminal module of the terminal body, the common transmission and reception block is disposed inside the battery pack is connected to the first connection terminal module of the battery pack and the third connection terminal module of the terminal body, A rectifying block, a receiving power control block, and a charging control block are sequentially arranged to extend from the third connecting terminal module to the second connecting terminal module, and a data processing block is disposed between the third connecting terminal module and the receiving power control block. The common transmission and reception block includes a power reception coil for receiving a wireless power signal and a loop antenna for transmitting and receiving data. Selecting one of the power receiving coil and the loop antenna, the mode switching unit for electrically connecting to any one of the rectifying block and the data processing block and the switching voltage of the mode switching unit by detecting the received voltage of the power receiving coil. Characterized in that it comprises a mode control unit for controlling.

In addition, the contactless charging and data communication control module arrangement structure for a portable terminal according to the present invention, the terminal body capable of wireless communication, the battery pack (Battery pack) capable of charging and discharging while supplying electrical energy to the terminal, the battery A reception mode of a wireless power signal in a portable terminal including a cover case for a battery for protecting the pack and at least one connection terminal module configured to electrically connect the terminal body and the battery and the cover case, respectively. And a common transmission / reception block for selectively performing a transmission / reception mode of data, a rectification block for rectifying a power signal received by the common transmission / reception block in a reception mode of a wireless power signal, and a reception for controlling a power signal rectified in the rectification block. By using a power control block and electrical energy that is a power signal controlled by the receiving power control block In the charge control block for controlling the charging of the battery pack and the data transmission and reception mode, including a data processing block for transmitting and receiving data for the electronic payment with the external electronic device through the common transmission and reception block, the common transmission and reception block of the cover case Is disposed inside and connected to the fourth connection terminal module of the cover case, the fourth connection terminal module is connected to the third connection terminal module of the terminal body, the second connection from the third connection terminal module inside the terminal body The rectifying block, the receiving power control block, and the charging control block are sequentially arranged to lead to the terminal module, and a data processing block is disposed between the third connecting terminal module and the receiving power control block, and the second connecting terminal module is a battery. Connected to the first connection terminal module of the pack, the common transmission block, the power receiving coil for receiving a wireless power signal, and for transmitting and receiving data Selecting one of the loop antenna, the power receiving coil and the loop antenna to sense a mode switching unit for electrically connecting to any one of the rectifying block and the data processing block and the receiving voltage of the power receiving coil. It characterized in that it comprises a mode control unit for controlling the switching operation of the mode switching unit.

By the above solution, the present invention is equipped with both the power receiving coil of the charging system and the loop antenna of the electronic payment system to the battery pack and the cover case of the portable terminal, so that the contactless charging and electronic payment in one portable terminal It has the effect of making it all possible.

In particular, while operating a contactless charging system and an electronic payment system having a different frequency band at the same time, by preventing interference between systems in advance, it is possible to improve the reliability of the product.

In addition, by providing a variety of layout structure for the control module of the contactless charging system using the wireless power transmission and reception technology and the electronic payment system using the short-range wireless communication method, the contactless charging and electronic payment for the various battery pack structure All is possible.

Therefore, it is easy to manufacture and sell portable terminals, battery packs, and the like, as well as reduce manufacturing costs, thereby improving the competitiveness of the product.

Examples of a contactless charging and data communication control module for a mobile terminal and an arrangement structure thereof according to the present invention can be variously applied. Hereinafter, the most preferred embodiments will be described with reference to the accompanying drawings.

1 is a block diagram showing an example of a contactless charging and data communication control module for a portable terminal according to the present invention, a common transmission and reception block 10, a rectification block 20 for rectifying and converting an AC wireless power signal to a DC Receiving power control block 30 for controlling the signal converted to direct current in the rectifying block 20 to convert into a chargeable voltage and current (voltage and current available in each of the following configuration), the receiving power control block Charge control block 40 to supply to the battery cell block 70 using the electrical energy output from the 30, data processing block 50 for performing an electronic payment process by analyzing and processing the data transmitted and received, the battery cell Block 70. Here, the battery cell block 70 includes a battery cell 73, a temperature sensing module 62, and a protective charge monitoring block 61, which are secondary batteries.

The common transmission / reception block 10 is for selectively performing a reception mode of a wireless power signal for operating a contactless charging system and a transmission / reception mode for data for operating an electronic payment system. The power reception coil 11 and a loop antenna 12, the mode switching unit 13 and the mode control unit 14 are configured.

The power receiving coil 11 is for receiving a wireless power signal by a contactless charging system, and as shown in FIG. 2, one end of the coil is connected to a common contact with the loop antenna 12 to be output outside the block. , The other end is connected to the mode switching unit (13).

The loop antenna 12 is for transmitting and receiving data such as payment information by the electronic payment system, and as shown in FIG. 2, one end of the antenna is connected to the power receiving coil 11 in common contact and output to the outside of the block. The other end is connected to the mode switching unit 13.

The mode switching unit 13 selects any one of the power receiving coil 11 and the loop antenna 12 and performs a switching operation to electrically connect with any one of the rectifying block 20 and the data processing block 50. In the state in which the loop antenna 12 and the data processing block 50 are connected to each other, the power receiving coil 11 and the rectifying block 20 are operated under the control of the mode controller 14.

The mode control unit 14 controls the switching operation of the mode switching unit 13 by sensing the voltage of the received power received by the power receiving coil 11, and detects the received voltage and the reference voltage (contactless charging system). The minimum voltage value that can determine the power signal supplied by the) is compared and the result is output to the mode switching unit 13.

In other words, after detecting the reception voltage of the power reception coil 11, when the detected reception voltage is higher than a reference voltage, the mode switching unit 13 may perform the power reception coil 11 and the rectification block 20. ) And a mode switching unit 13 electrically connects the loop antenna 12 and the data processing block 50 when the sensed received voltage is lower than the reference voltage. It is to control to perform the switching operation.

At this time, the mode control unit 14 is connected to a common contact of the power receiving coil 11 and the loop antenna 12 as shown in Figure 2 to detect the voltage induced in the power receiving coil 11 (Voltage It is preferably configured to include a detector.

Looking at the example of the non-contact charging and data communication control module for a portable terminal according to the present invention as shown in Figure 3 and 4 as shown.

3 is a circuit diagram showing an example of a contactless charging and data communication control module arrangement structure for a portable terminal according to the present invention. Referring to FIG. 5, the common transmission / reception module 10 is disposed inside the battery pack A. FIG. To be electrically connected to the first connection terminal module 61 of the battery pack A, the rectifying block 20, the receiving power control block 30, the charging control block 40, Place the data processing block 50.

At this time, the terminal body (B) is configured to be connected to the first connection terminal module 61 of the battery pack (A) by configuring a second connection terminal module 62 electrically connected to the charging control block (40), The third connection terminal module 63 is configured to supply the wireless power signal received by the power receiving coil 11 to the rectifying block 20.

The data transmitted and received through the loop antenna 12 is transmitted and received to the data processing block 50 through the third connection terminal module 63, and the data processing block 50 analyzes and processes the data transmitted and received to settle the payment. And so on.

On the other hand, looking at the structure of the battery pack (A) as described above, as shown in Figure 5, the inside of the battery pack (A) consisting of the upper case (Aa) and the lower case (Ab), the battery cell 73 and The temperature sensing module 72 and the charge monitoring module 71 are configured.

The power receiving coil 11 and the loop antenna 12 are installed at one side of the battery cell 73, and a shield 11a is provided between the power receiving coil 11 and the battery cell 73. The absorber 12a is provided between the loop antenna 12 and the battery cell 73. In other words, by configuring the power receiving coil 11 and the loop antenna 12 in different kinds of shield materials and placing them on the same plane, the thickness of the battery pack A can be minimized.

At this time, the power receiving coil 11 is a structure in which a plurality of windings are wound and wound, and the loop antenna 12 has a ring-shaped structure, and as shown in FIG. 5, the power receiving coil 11 is provided at the center. In addition, it is preferable to provide a loop antenna 12 on the outside.

Therefore, according to the arrangement shown in FIGS. 3 and 5, the power receiving coil 11 for charging the battery by receiving a wireless power signal of the contactless method and the loop antenna 12 for transmitting / receiving data for electronic payment Is disposed on the same plane and the common transmission block 10 including the power receiving coil 11 and the loop antenna 12 is built in the battery pack A, thereby minimizing the thickness of the battery pack A. In addition to reducing manufacturing costs, the rectification block 20, the reception power control block 30, the charging control block 40, and the data processing block 50 may recycle modules embedded in the portable terminal body B. It becomes possible.

In the above-described contents of FIG. 5, specific electrical connection relations among the components may be variously modified by those skilled in the art, and therefore, the present invention is not limited to the specific ones, and the same will also apply to FIG. 6 to be described below.

4 is a circuit diagram showing another example of a contactless charging and data communication control module arrangement structure for a portable terminal according to the present invention. Referring to FIG. 6, the common transmission / reception module 10 is disposed inside the cover case C. Referring to FIG. To be electrically connected to the fourth connection terminal module 64 of the cover case C, and the fourth connection terminal module 64 is connected to the third connection terminal module 63 of the terminal body B. The rectifying block 20, the receiving power control block 30, the charging control block 40, and the data between the third connection terminal module 63 and the second connection terminal module 62 in the terminal body B. Place processing block 50.

Then, the second connection terminal module 62 of the terminal body (B) is connected to the first connection terminal module 61 of the battery pack (A).

On the other hand, looking at the structure of the cover case (C) as described above, as shown in Figure 6, to form a space (unsign) for embedding the common transmission and reception block 10 inside the cover case (C), The power receiving coil 11 and the loop antenna 12 are installed inside the space part, the power receiving coil 11 is provided with a shield 11a, and the loop antenna 12 has an absorbing plate. (Absorber) 12a is provided.

At this time, as shown in Figure 5 it is preferable to have a power receiving coil 11 in the center and to have a loop antenna 12 on the outside.

Therefore, according to the arrangement shown in Figures 4 and 6, the power receiving coil 11 for charging the battery by receiving a wireless power signal of the contactless method and the loop antenna 12 for transmitting and receiving data for electronic payment Is disposed on the same plane, and the common transmission block 10 including the power receiving coil 11 and the loop antenna 12 is built into the cover case C, thereby minimizing the thickness of the cover case C. Of course, the rectification block 20, the reception power control block 30, the charging control block 40, the data processing block 50 is built in the portable terminal body (B), it is possible to reuse the old battery pack will be.

In the above, the contactless charging and data communication control module for a mobile terminal and its arrangement structure according to the present invention have been described. Such a technical configuration of the present invention will be understood by those skilled in the art that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention.

Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the appended claims rather than the foregoing description, and the meanings of the claims and All changes or modifications derived from the scope and the equivalent concept should be construed as being included in the scope of the present invention.

1 is a block diagram showing an example of a contactless charging and data communication control module for a portable terminal according to the present invention.

FIG. 2 is a circuit diagram illustrating an example of a common transmission / reception block of FIG. 1.

3 is a circuit diagram illustrating an example of a structure for arranging a contactless charging and data communication control module for a portable terminal according to the present invention.

Figure 4 is a circuit diagram showing another example of the structure of a contactless charging and data communication control module for a portable terminal according to the present invention.

5 is an exploded perspective view showing an example of a battery pack for a mobile terminal according to the present invention.

6 is a perspective view showing an example of a battery pack and a cover case for a portable terminal according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: public transmission block 11: power reception coil

12 loop antenna 13 mode switching unit

14: mode control unit 20: rectification block

30: reception power control block 40: charging control block

50: data processing block 70: battery cell module

Claims (10)

A common transmission / reception block for selectively performing a wireless power signal reception mode and a data transmission / reception mode; A rectifying block for rectifying a power signal received by the common transmission / reception block in a wireless power signal reception mode; A reception power control block for controlling the power signal rectified in the rectification block; A charging control block controlling charging of the battery pack by using electric energy which is a power signal controlled by the receiving power control block; In the transmission and reception mode of the data, including the data processing block for transmitting and receiving data for the electronic payment with the external electronic device through the common transmission and reception block, The common transmission block, A power receiving coil for receiving a wireless power signal; A loop antenna for transmitting and receiving data, A mode switching unit which selects any one of the power receiving coil and the loop antenna and electrically connects with any one of the rectifying block and the data processing block; And a mode control unit configured to control the switching operation of the mode switching unit by sensing the received voltage of the power receiving coil. delete The method of claim 1, The mode control unit, After detecting the reception voltage of the power reception coil, if the detected reception voltage is higher than the reference voltage, the mode switching unit controls to perform a switching operation for electrically connecting the power reception coil and the rectifying block, And the mode switching unit controls the mode switching unit to perform a switching operation for electrically connecting the loop antenna and the data processing block when the sensed received voltage is lower than the reference voltage. . The method of claim 3, wherein The mode control unit, And a voltage detector for sensing the reception voltage of the power reception coil, comparing the detected reception voltage with a reference voltage, and outputting a result thereof. A terminal body capable of wireless communication, a battery pack for supplying and discharging electric energy to the terminal, a battery pack for charging and discharging, a battery cover case for protecting the battery pack, the terminal body, a battery, and a cover Inside the portable terminal including at least one connection terminal module configured to be electrically connected to each case, A common transmission / reception block for selectively performing a reception mode of a wireless power signal and a transmission / reception mode of data; a rectification block for rectifying a power signal received by the common transmission / reception block in a reception mode of a wireless power signal; A reception power control block for controlling a power signal, a charge control block for controlling the charging of the battery pack using the electric energy that is the power signal controlled by the reception power control block and in the transmission and reception mode of the data, through the common transmission and reception block It includes a data processing block for transmitting and receiving data for electronic payment with an external electronic device, The first connection terminal module of the battery pack is connected to the second connection terminal module of the terminal body, and the common transmission and reception block is disposed inside the battery pack so that the first connection terminal module of the battery pack and the third connection terminal module of the terminal body. And a rectifying block, a receiving power control block, and a charging control block are sequentially disposed in the terminal body to extend from the third connecting terminal module to the second connecting terminal module, and the third connecting terminal module and the receiving power are sequentially arranged. The data processing block is arranged between the control blocks, The common transmission block, A power receiving coil for receiving a wireless power signal; A loop antenna for transmitting and receiving data, A mode switching unit which selects any one of the power receiving coil and the loop antenna and electrically connects with any one of the rectifying block and the data processing block; And a mode control unit configured to control a switching operation of the mode switching unit by sensing a received voltage of the power receiving coil. A terminal body capable of wireless communication, a battery pack for supplying and discharging electric energy to the terminal, a battery pack for charging and discharging, a battery cover case for protecting the battery pack, the terminal body, a battery, and a cover Inside the portable terminal including at least one connection terminal module configured to be electrically connected to each case, A common transmission / reception block for selectively performing a reception mode of a wireless power signal and a transmission / reception mode of data; a rectification block for rectifying a power signal received by the common transmission / reception block in a reception mode of a wireless power signal; A reception power control block for controlling a power signal, a charge control block for controlling the charging of the battery pack using the electric energy that is the power signal controlled by the reception power control block and in the transmission and reception mode of the data, through the common transmission and reception block It includes a data processing block for transmitting and receiving data for electronic payment with an external electronic device, The common transmission / reception block is disposed inside the cover case and is connected to the fourth connection terminal module of the cover case, and the fourth connection terminal module is connected to the third connection terminal module of the terminal body and is formed inside the terminal body. A rectifying block, a receiving power control block, and a charging control block are sequentially arranged to connect the third terminal module to the second terminal module, and a data processing block is disposed between the third terminal module and the receiving power control block. The second connection terminal module is connected to the first connection terminal module of the battery pack, The common transmission block, A power receiving coil for receiving a wireless power signal; A loop antenna for transmitting and receiving data, A mode switching unit which selects any one of the power receiving coil and the loop antenna and electrically connects with any one of the rectifying block and the data processing block; And a mode control unit configured to control a switching operation of the mode switching unit by sensing a received voltage of the power receiving coil. The method of claim 6, The terminal of the fourth connection terminal module connected to the common transmission / reception block disposed on the cover case is configured in the form of a leaf spring and passes through the through hole formed in the cover of the cover case, and the terminal of the first connection terminal module of the battery pack. Contactless charging and data communication control module arrangement structure for a portable terminal, characterized in that electrically connected with. delete The method according to any one of claims 5 to 7, The mode control unit, After detecting the reception voltage of the power reception coil, if the detected reception voltage is higher than the reference voltage, the mode switching unit controls to perform a switching operation for electrically connecting the power reception coil and the rectifying block, And the mode switching unit controls the mode switching unit to perform a switching operation for electrically connecting the loop antenna and the data processing block when the sensed received voltage is lower than the reference voltage. Layout structure. The method of claim 9, The mode control unit, A contactless charging and data communication control module arrangement for a portable terminal, comprising: a voltage detector for sensing a reception voltage of the power reception coil, comparing the detected reception voltage with a reference voltage, and outputting a result thereof. rescue.

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