KR100575744B1 - Communication and charging device using near field communication unit - Google Patents

Abstract

The present invention relates to a communication and charging device using a short-range wireless communication unit, the communication and charging device for a mobile terminal that requires a physical electrode connection in the prior art, while the mobile terminal is precisely fixed to the cradle providing data communication and charging function Since phosphorus electrode contact is made, an effort for mounting is required, and since the electrode exposed to the outside is easily contaminated, there is a problem that the electrical contact becomes unstable. In addition, since the communication connection must be frequently performed using the precise communication port of the mobile communication terminal, there is a problem in that the contact portion is frequently damaged and malfunction occurs. In view of the above problems, the present invention includes a charging control unit in a portable terminal so that communication and charging can be performed by using a short-range communication unit of the portable terminal, and the computer and the portable terminal to perform data communication with the portable terminal are contactless. By providing a communication and charging device using a short range wireless communication unit including a cradle configured to enable data communication and charging through a short range communication unit at the same time, by simply placing a portable terminal at an arbitrary position of the cradle. Optional charging can be provided to improve the user's convenience and to prolong product life by preventing contact failure due to removal of external exposed terminals.

Description

COMMUNICATION AND CHARGING APPARATUS USIGN WIRELESS LOCAL COMMUNICATION DEVICES}

1 is a perspective view showing the concept of one embodiment of the present invention.

2 is a block diagram showing a system configuration of an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: mobile communication terminal 11: main control unit

12: communication control unit 13: charging control unit

14: battery 15: communication unit

20: holder 22: communication control unit

23: charge / communication control unit 25: communication unit

30: computer communication port

The present invention relates to a communication and charging device using a short-range wireless communication unit, and in particular, by placing a portable terminal supporting short-range communication at an arbitrary position of the cradle to enable short-range communication and non-contact charging with external equipment to increase user convenience. The present invention relates to a communication and charging device using a short range wireless communication unit capable of solving a problem of a contact method.

As the use of portable terminals has become commonplace, the market for mobile communication terminals has expanded, and accordingly, development of portable terminals with more functions has been rapidly developed.

In particular, high performance controller, large memory, colorful display, etc. have already become the basic conditions of general portable terminals, and the ability to take pictures and videos with a built-in camera function has become common. By using them, a large amount of personal information can be used more conveniently, and various multimedia data can be generated and reproduced. Therefore, in order to store and manage a lot of such information in the portable terminal, the data communication is increasingly common by connecting the portable terminal to a personal computer. As used herein, the term 'portable terminal' refers to a mobile device using digital data, including digital cameras, MP3 players, including various types of mobile communication terminals, PDAs, e-books, multimedia players, and the like. It is considered to be used as a concept.

Therefore, the common features of these portable terminals are a communication function and a power charging function based on a personal computer. Although some terminals do not have a charging function, most advanced terminals include a charging function.

In order to simultaneously use the communication function and the power charging function, a cradle called a cradle is used. The portable terminal is connected to an external power source and a computer by incorporating a communication unit and a power unit while physically supporting the portable terminals.

However, in the present case, in order to perform charging by connecting portable terminals with a personal computer or providing power, in most cases, electrical contact is required. That is, such communication and charging are performed by providing a power supply and communication through a connection through a communication port of a portable terminal or a separate electrode contact.

In recent years, portable terminals have generally become a device that additionally supports a non-contact communication method instead of such an electrical contact. Among them, representative examples include IrDA and Bluetooth using an RF signal. However, they are used as an auxiliary communication method, and electrical contact is essential for charging.

Therefore, although the contactless short-range communication unit is mounted on the cradle for communication, the contactless communication connection with the mobile terminal can be performed. However, since a separate physical electrode contact is required for charging, it is always necessary to accurately connect the fixed position. It must be done.

That is, the electric shock that may occur during electrode contact, the possibility of damage to the external exposed electrode, the risk of electric shock due to the insertion of foreign substances into the exposed electrode, the poor electrical contact due to dust or contamination, and the physical Damage to the device due to the phosphor fixing part is a problem that is inevitably generated to use the charging function even when the communication method is changed to a non-contact type.

As described above, a communication and charging device for a portable terminal, which requires a physical electrode connection in the related art, requires an effort for mounting because the portable terminal is precisely fixed to a holder providing data communication and charging functions, and physical electrode contact is made. And, since the electrode exposed to the outside is easily contaminated, there was a problem that the electrical contact becomes unstable. In addition, since the communication connection must be frequently performed using the precise communication port of the mobile communication terminal, there is a problem in that physical contact parts are frequently damaged and malfunction occurs.

In view of the above problems, the present invention includes a charging control unit in a portable terminal so that communication and charging can be performed by using a short-range communication unit of the portable terminal, and the computer which will perform data communication with the portable terminal and the portable terminal are not in contact. By providing a cradle configured to enable data communication by simultaneously connecting and charging through a non-contact communication unit, a short-range wireless communication is possible for both communication and charging by simply placing a portable terminal at an arbitrary position of the cradle. An object thereof is to provide a communication and charging device using a communication unit.

The present invention for achieving the above object, and performs a non-contact communication by light at the time of communication, and communication with a short-range optical communication unit for converting the energy transmitted by the received optical signal into a current when the communication is not made A portable terminal for selectively charging; Interface with an optical communication port of the external device to communicate with the portable terminal and the optical communication unit of the portable terminal, and if there is no communication with a short-range optical communication unit for transmitting an optical signal having more than the charging energy for the communication And a cradle for supporting the portable terminal while selectively providing charging energy.

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When described in detail with reference to the accompanying drawings of the present invention as described above.

1 illustrates a concept of an embodiment of the present invention, a cradle 20 connected to a portable terminal 10 to be mounted while being wired to a computer and an external power source as shown in the near field communication method, and the cradle 20. And a portable terminal 10 connected in a short-range communication method and operating properly according to a communication situation and a charging situation.

The cradle 20 and the mobile terminal 10 may be provided with one or more short-range communication method, and by using one of these methods simply by adjoining the mobile terminal 10 to the cradle 20 Allow charging. The portable terminal 10 has a short-range communication unit 15 internally, which can be connected and charged through the short-range communication unit 25 of the cradle.

Note that the communication related part of the cradle 20 is an interface connected to a computer port to change a physical communication method.

Therefore, the portable terminal 10 only needs to close the portable terminal 10 to an arbitrary position of the holder 20 without having to mount the portable terminal at a fixed position of the holder for accurate data communication and charging. Extremely convenient management becomes possible. In addition, because of the non-contact type, there is no fear of exposing the electrode, which prevents physical damage and electric shock, thereby reducing the risk of failure. Damage to the supporting structure).

Then, the short-range communication unit that can be used for the portable terminal 10 and the cradle 20 will be described. As a communication method capable of performing communication and charging in a non-contact manner, a method using light and an electric field are typical. In the method using light, the power required for charging may be obtained by receiving light provided from a transmitting unit providing light having high energy through a light receiving unit having a high photo-current conversion efficiency and converting the light into a current. Typical portable terminals currently in use require about 4V and 600mA of power, which is gradually decreasing. In the case of using low-speed charging rather than rapid charging, weak power can be collected in a current accumulating element to perform charging, in which case the required voltage and current can be extremely low. In addition, the use of light having a high energy wavelength or using a laser is expected to achieve higher energy transfer in a non-contact manner. Naturally, the transceiver may be used for signal transmission instead of energy transmission, and in this case, the strength of energy may be lowered for high speed data transmission.

The electric field uses a method in which an induced current is generated in the receiving coil when the transmitting coil generates an electric field. This can effectively provide a relatively large amount of power, and can also transfer data as the electric field changes. Typical applications used in this way include electric toothbrushes, transportation cards, and security cards. In extreme cases, transformers are reminiscent of. In other words, the feature of this case is that the energy transmitting effect is greater as the transceiver is adjacent, but since the switching voltage is generated using high frequency, electrical shielding is required so that the elements of the mobile terminal are not affected. The disadvantage is the need for smoothing. However, it can provide a relatively high efficiency charging function.

In addition to the methods mentioned, other types of short range communication means capable of communication and energy transfer may be used.

A switch for sensing the weight of the physical portable terminal 10 may be attached to the holder 20 in order to determine that the portable terminal 10 is adjacent to the holder and to initialize data communication and determine whether to charge. In addition, the mobile terminal 10 periodically monitors the reception of the data from the local area communication unit 15, or can identify the case where data conforming to the standard is applied through an interrupt method, and the local area communication unit 25 of the cradle 20 periodically Or continuously transmitting predetermined data, when the portable terminal 10 is adjacent to the holder 20, the mobile terminal 10 receives predetermined data from the holder 20, and responds to the short distance of the holder 20. By providing to the communication unit 25, it is possible to know whether or not adjacent to each other.

In addition, when the communication is stopped by the protocol or communication is not performed for a predetermined time, charging may be performed by transmitting and receiving mutual status signals, and the portable terminal may be provided through signal strength provided by the communication unit 25 of the cradle 20. 10 may determine the current state.

Figure 2 is a block diagram illustrating the structure of an embodiment according to the present invention in more detail, as shown in the non-contact portable terminal 10 and the cradle 20 and connected to the cradle 20 by wire or wireless And a computer communication port 30 for performing actual communication.

The main purpose of the cradle 20 is to change the communication method to communicate with the mobile terminal 10 by using a master device capable of communication, such as a computer, and to charge when communication is not performed. The transmission means of the built-in near field communication unit 25 transmits high energy. Therefore, the built-in near field communication unit 25 may transmit and receive data transmitted and received through an external communication port (that is, a portion connected to a communication port such as a computer) with low energy, and in this case, the near field communication unit 25 may communicate It is controlled by the control unit 22. However, communication is not performed or a specific signal is received from the portable terminal 10, or a control signal of the master equipment according to the specific signal provided from the portable terminal 10 is transmitted to the transmission means of the short range communication unit 25. When a high voltage is applied, the transmitter of the near field communication unit 25 is controlled by the charging / communication control unit 23. The charging / communication control unit 23 may be simply a switching element for applying a high voltage, but may also be a means for grasping a communication state or a charging state and adjusting the short-range communication unit 25 accordingly.

As illustrated, the portable terminal 10 includes a short range communication unit 15 for performing physical short range communication, a communication control unit 12 for processing a predetermined signal through the short range communication unit 15 according to a communication protocol, and And a rechargeable battery 14 serving as a portable power supply, a charging control unit 13 for charging a built-in battery when data transmission and reception through the local area communication unit is interrupted, the communication control unit 12, and a charging control unit ( 13) provides a control signal for, and consists of the main control unit 11 for determining the case of communication and charging through the communication with the cradle 20.

Here, the local area communication unit 15 should be provided with a receiving means capable of receiving a low energy signal value and receiving data, but also receiving high energy and converting it into a current as described above.

Accordingly, the charging control unit 13 converts the current obtained through the receiving unit of the near field communication unit 15 into a voltage by the control signal of the main control unit 11 or the received energy intensity of the receiving unit of the near field communication unit 15. To charge the battery (14). Therefore, the charging control unit 13 may be a simple switching element, and if the current generated by the near field communication unit 15 is low, converts it to a power of a predetermined level or more, and then charges the battery 14 using the same. It may also consist of means. This low power battery charging technology has a variety of application circuits are disclosed, the person can easily apply one of them.

In addition, in the case of the battery 14, as a high efficiency secondary battery capable of charging at low power is developed, the battery 14 may be rapidly charged even at low power.

As described above, the communication and charging device using the short-range wireless communication unit of the present invention includes a charging control unit in the portable terminal to perform communication and charging by using the short-range communication unit of the portable terminal, and the computer to perform data communication with the portable terminal. And the mobile terminal in a non-contact interface to enable data communication and at the same time provide a cradle configured to enable charging through a non-contact communication unit to communicate and charge only by positioning the mobile terminal at an arbitrary position of the cradle. It can be selectively provided to improve the user's convenience and to prolong the product life by preventing contact failure caused by the removal of external exposed terminals.

Claims (6)

A portable terminal for performing non-contact communication by light during communication, and having a short-range optical communication unit for converting energy transmitted by the received optical signal into a current when communication is not performed, and selectively performing communication and charging; Interface with an optical communication port of the external device to communicate with the portable terminal and the optical communication unit of the portable terminal, and if there is no communication with a short-range optical communication unit for transmitting an optical signal having more than the charging energy for the communication And a cradle supporting the portable terminal while selectively and providing charging energy. delete delete The portable optical device of claim 1, wherein the short-range optical communication unit of the portable terminal confirms an external communication attempt in a periodic or interrupt manner, and the short-range optical communication unit of the portable terminal transmits a predetermined recognition signal periodically or always. Communication and charging device using a short-range wireless communication unit characterized in that to recognize that. The portable terminal of claim 1, further comprising: a short-range optical communication unit supporting short-range optical communication and receiving a charging optical signal provided during charging and converting the light signal into a current; A communication controller for processing a communication signal transmitted and received through the short range optical communication unit; A charging controller configured to charge an internal battery when data transmission and reception through the short-range optical communication unit is stopped; And a main control unit for providing control signals to the communication control unit and the charging control unit, and determining a case of communication and charging through communication with the cradle. The short-range optical communication unit of claim 1, wherein the cradle interfaces data transmitted / received through an external optical communication port with a short-range optical communication unit of the portable terminal, and when charged, light energy of more than optical energy for normal communication is transmitted to the short-range optical communication unit of the portable terminal. Short-range optical communication unit for providing; An optical communication controller for processing an optical communication signal transmitted and received through the short-range optical communication unit; And a charging / communication control unit configured to manage the optical communication unit to operate in one of a communication state and a charging state.

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