KR20150047050A - Multi function charging aparatus and charging method - Google Patents

Abstract

Disclosed are a multifunctional charging apparatus and a charging method. The present invention makes it possible to charge multiple charging modules including a USB charging module for charging input power supply of a main charging module, wireless power transfer module, and battery charging module at once and in sequence so as to improve efficiency of resources, user convenience, and efficiency of charging time. According to the present invention, the charging method comprises: a step of monitoring charging state and power consumption of each of the charging module including the USB charging module, wireless power transfer module, and battery charging module; a step of setting the charging order of each of the charging module based on the monitoring result; a step of charging the charging modules based on the set charging order to increase the charging efficiency of commercial input power supply or battery charging power supply; a step of removing the commercial power supply of the main charging module when the battery is charging; and a step of providing at least one of the remaining charging modules except the battery charging module with the battery charging power supply when choosing a user who asking for charging with the charging power of the battery charging module, thereby enhancing the ability to overcome an emergency situation such as the removal of the commercial power supply.

Description

TECHNICAL FIELD [0001] The present invention relates to a multifunctional charger,

The present invention relates to a multifunctional charger and a charging method. More particularly, the present invention relates to a multifunction charger and a charging method for charging at least one of a plurality of charging modules including a USB charging module, a wireless power transmission module, And a method and system for providing at least one charging function of wireless power transmission and USB charging by receiving charging power from a built-in battery upon removal of a commercial power source.

2. Description of the Related Art In recent years, the spread of mobile electronic devices such as digital cameras and mobile communication terminals has been accelerating. With the spread of smart phones and tablet PCs, the spread of high-performance mobile electronic devices has been rapidly spreading. And the like have been spreading rapidly.

Such mobile electronic appliances are characterized by having batteries for portability. The batteries must be charged periodically. In this case, the users are required to charge the battery by electrically contacting the mobile communication terminal with the charger provided when the mobile electronic device is purchased.

In order to solve the troublesome charging of the portable electronic device such as the terminal, it is necessary to use electromagnetic wave radiation or non-radiating as disclosed in the electronic communication trend analysis report 23, No. 6 of December 2008, A variety of techniques have been developed to enable the battery to be charged wirelessly without having to electrically contact the charger using a power transfer scheme.

Examples of such wireless power transmission or wireless power charging techniques are disclosed in Korean Patent Application Publication No. 2009-50457 entitled " Power Transmission Network System "(Prior Art 1) and Korean Patent Application Publication No. 2010-134843 entitled & Method "(prior art 2).

The above-described prior arts 1 and 2 are a method using electromagnetic wave radiation, a method using electromagnetic induction phenomenon, or a non-radiating method using near resonance phenomenon, which is disclosed in Electronic Communication Trend Analysis, Vol. 23, The user can perform the charging of the battery without electrically connecting the mobile electronic device to the wired power cable or the charger by applying the wireless power transmission technique of the present invention so as to solve the inconvenience of the user due to frequent battery charging .

However, since both of the above-described prior arts 1 and 2 have a wireless power supply unit connected to an external power supply and are configured to be able to charge a battery using a coil or wirelessly, The battery will not be able to charge.

Therefore, in the prior arts including the prior arts 1 and 2, it is not possible to solve the problem that the user still has to take the trouble to move to the place where the wireless power supply device is installed in order to charge the battery.

For this reason, there has been a problem in that, when the mobile electronic electronic device is urgently driven at a position away from the wireless power supply device by the user, when the power of the battery is exhausted, an emergency occurs in which the mobile electronic device can not be used.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a charging module, a charging module, a charging module, The present invention provides a multi-function charger and a charging method that provide at least one charging function, receive power from a built-in battery when the commercial power is removed, and perform wireless power transmission, USB charging.

It is another object of the present invention to provide a charging device that charges a battery with a commercial power supply, monitors the consumed power of each charging module with respect to a commercial power supply, sets a charging rank for distributing a commercial power according to a monitoring result, A charger and a charging method.

According to an aspect of the present invention, there is provided a multi-

A main charging module that receives a commercial input power supplied from the outside to generate a charging power source, and a plurality of charging modules that charge the charging input power supplied from the main charging module,

And a charge controller for monitoring the charge state and the power consumption of each of the plurality of charge modules and controlling the charge of the plurality of charge modules by interrupting the output of the charge input power source of the mail charge module based on the monitoring result .

Preferably, the charge control unit includes:

A monitoring module for monitoring a state of charge and power consumption of a plurality of charging modules including the main charging module,

A charge order is set based on a charge state and a consumption power of each charge module of the monitoring module, and a control signal for transferring the charge input power of the main charge module to the charge module of the charge order is generated And a control module for transferring the control signal to the main charging module.

Preferably, the multi-

And a display unit for displaying a charging status and a charging status of the plurality of charging modules including the main charging module.

Preferably, the monitoring module comprises:

Wherein the main control unit monitors the user's selection of the main charging module to charge the charging power supply of the battery among the plurality of charging modules during the charging of the main charging module and transmits the monitoring result to the control module,

The control module includes:

And a controller for generating a control signal for transferring the charging power of the battery to the remaining charging modules of the plurality of charging modules other than the battery charging module by receiving the monitoring result of the monitoring module and transmitting the generated control signal to the main charging module And,

The main charging module includes:

According to the control signal, the charging voltage of the battery charging module is transmitted to at least one of the plurality of remaining charging modules except the battery charging module among the plurality of charging modules according to the corresponding charging order.

According to another aspect of the present invention, there is provided a charging method for a multi-

       Receiving a charging input power of the main charging module and waking up the charging control portion; And

A charge order of a plurality of charge modules is set based on a charge state and a consumed electric power of each charge module after the wake-up execution of the charge control section, and in accordance with the set charge order, And charging the module.

Preferably, the charging method of the multi-

If the commercial power is removed during charging of the charging module of the corresponding charging order and the charging of the remaining charging module other than the battery charging module is requested by the user's choice by selecting the charging voltage of the battery charging module, Generating a control signal for transferring at least one of the remaining charging modules to the main charging module, and transmitting the generated control signal to the main charging module,

The main charging module is configured to transmit the charging voltage of the battery charging module to at least one of the remaining charging modules except the battery charging module according to the corresponding charging order in accordance with the control signal.

As described above, according to the multifunctional charger and the charging method of the present invention, at least one of the plurality of charging modules, including the USB charging module, the wireless power transmission module, and the battery charging module, The sequential charging capability improves resource efficiency, user convenience, and efficiency of charge time.

According to the present invention, the charging state and the consumption power of each charging module including at least one of the USB charging module, the wireless power transmission module, the battery charging module, and the main charging module are monitored, and according to the monitoring result, The charging power is supplied to the main charging module according to the set charging order, and the charging efficiency of the commercial power source or the charging power source of the battery can be further improved.

According to the present invention, when the commercial power is removed during charging, and the user who requests charging to the battery charging power source is selected, the charging power of the battery is provided to at least one of the remaining charging modules except for the battery charging module, The ability to overcome the emergency situation is improved.

1 is a block diagram illustrating the configuration of a multi-function charger according to an embodiment of the present invention.
2 is a view showing a flow state of a charging power source of the multifunctional charger according to the embodiment of the present invention.
3 is a flowchart illustrating a charging process of the multifunctional charger according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

1 is a block diagram illustrating a configuration of a multifunctional charger according to an embodiment of the present invention. FIG. 2 is a block diagram of a multifunctional charger shown in FIG. 1, Fig.

1 and 2, the multifunctional charger according to the embodiment of the present invention includes a charging unit 10, a charging control unit 30, and a main charging module 40.

The main charging module 40 receives a commercial input power supplied from the outside and charges the input power to output an input power of a predetermined size. Here, the input power source means a power source corresponding to the charging module of the charging unit 10. In addition, since the series of processes of charging the main charging module 40 is the same as or similar to the general wired charging process, a detailed description thereof will be omitted.

The charging unit 10 includes at least one of a USB charging module 11, a wireless power transmission module 13, and a battery charging module 15. Here, the charging modules 11, 13, and 15 are formed integrally with the respective chargers. However, those skilled in the art will appreciate that the charging modules 11, 13, and 15 may be separately provided.

The series of processes for charging the USB charging module 11, the wireless power transmission module 13, and the battery charging module 15 through the wired and wireless communication is a process for executing general wired and wireless power transmission, And therefore, a detailed description thereof will be omitted.

That is, the USB charging module 11 includes a USB load switch, a current sensor, and a current limiter, and the wireless power transmission module 13 includes a current sensor, a current limiter, and a status indicator, ) Includes an ID sensor and a temperature sensor.

In addition, the wireless power transmission module 13 is provided to transmit power generated by a magnetic induction type or a self-resonance type, and a series of processes for transmitting power generated by the self induction type or self-resonance type wirelessly A magnetic induction method, and a self-resonance method, so that a detailed description thereof will be omitted.

Further, since the USB charging module 31 is described as an example of a wired charging module, it is obvious to those skilled in the art that addition and modification of other wired charging modules are possible.

The charging unit 10 sets the USB charging module 11, the wireless power transmission module 13, and the battery charging module 15 as an example, but it is possible to add and change the number of each charging module.

That is, the commercial power source is a charging input power source of the USB charging module 11, the wireless power transmission module 13, and the main charging module 40 that supplies the charging power of the battery charging module 15, Which is the power source.

The charging control unit 30 interrupts the output of the charging input power source of the main charging module 40 so that at least one of the USB charging module 11, the wireless power transmission module 13, and the battery charging module 15 As shown in FIG.

That is, the charge controller 30 controls the charging state and the consumption power of the main charging module 40, the USB charging module 11, the wireless power transfer module 13, and the battery charging module 15, A control module 33 which is driven according to the monitoring result of the monitoring module 31 and controls the charging input power of the main charging module 40 to be delivered to the charging module of the corresponding charging rank, .

Typically, the USB charging module 11 outputs a consumed power of 5V, the wireless power transmission module 13 outputs a consumed power of 5V, and the battery charging outputs a consumed power of 4.2V.

Therefore, the monitoring module 31 of the charge controller 30 measures the charge state and the consumed electric power of each charge module, and transmits the measured state to the control module 33. The control module 33 sets the charging order according to the monitoring result of the received monitoring module 31 and controls the charging module of the main charging module 40 to supply the charging input power of the main charging module 40 And supplies the generated signal to the main charging module 40.

The main charging module 40 is configured to supply the charging input power to the charging module according to a control signal of the control module 33 to charge the corresponding charging module.

That is, the control module 33 of the charge control unit 30 receives the monitoring result of the commercial power of the monitoring module 31 and the consumed current of each of the charging modules, sets the charging order, The charging input power of the module 40 can be distributed and supplied to the respective charging modules to enable simultaneous or sequential charging of the respective charging modules.

In the embodiment of the present invention, the monitoring module 31 and the control module 33 are described as separate components, but it will be appreciated that they can be integrally formed according to the manufacturer's intention.

In the embodiment of the present invention, the control module 33 may comprise hardware or software that provides the charging input power of the main charging module 40 to the charging module of the corresponding charging rank according to the monitoring result of the monitoring module 31 However, in the embodiment of the present invention, software provided as an example will be described.

The multifunctional charger according to the embodiment of the present invention further includes a display unit 50 indicating that the charging module is in a charging state and a charging replacement state under the control of the charging control unit 30. [

Here, the display unit 50 may include one LED for indicating that one of the USB charging module 11, the wireless power transmission module 13, and the battery charging module 15 is being charged. However, it may be provided to indicate through the plurality of LEDs that the respective charging modules are in the charging state, the charging completion state, or the charging replacement state.

On the other hand, small devices such as a mobile phone, a tablet PC, a camcorder, a digital camera, and an MP3 player are charged into the battery pack through the corresponding charging module, and in the case of a large electronic device such as an electric bicycle or an electric car, The array of batteries is charged.

The monitoring module 31 of the charging control unit 30 may be configured such that the commercial power supplied to the main charging module 40 during charging is removed and the charging power of the battery Monitors the charging request of at least one of the USB charging module 11 and the wireless power transmission module 13 of the control module 33 and transmits the monitoring result to the control module 33.

When the control module 33 is removed from the commercial power supply and the charging request is made using the charging power of the battery, the control module 33 generates a control signal for providing the charging power of the battery to one of the USB charging module 11 and the wireless power transmission module 13 And transmits the control signal and the charging power of the battery charging module 13 to the main charging module 40.

The control module 33 controls the charging power of the battery based on at least one of the USB charging module 11 and the wireless power transmission module 13 according to a control signal of the monitoring module 31 for providing the battery charging power As shown in FIG.

According to this configuration, the monitoring module 31 receives the charging state of each of the USB charging module 11, the wireless power transmission module 13, and the battery charging module 15 and consumed power relative to the input power.

The control module 33 generates a control signal for supplying the charging input power to the charging module of the corresponding charging order based on the monitoring result of the monitoring module 31 and transmits the control signal to the main charging module 40, The charging input power of the charging module 40 is transferred to the charging module of the corresponding charging order, so that the charging of the charging module of the corresponding charging order is executed. At this time, the supply path of the charged input power source is as shown in FIG.

On the other hand, if the main power of the main charging module 40 is removed, the monitoring module 31 monitors whether or not the user performs a switch-down operation. If the charging power is requested from the charging power supply of the battery, And transmits the generated control signal to the main charging module 40. The main charging module 40 generates a control signal for performing charging and wireless power transmission.

The control module 33 supplies the charging power of the battery charging module 15 to at least one of the USB charging module 11 and the wireless power transmission module 13 on the basis of the monitoring result of the monitoring module 31. [

That is, the control module 33 generates a control signal for performing charging from the rechargeable battery, and transmits the control signal to the main charging module 40. The main charging module 40, And supplies the charging power to at least one of the USB charging module 11 and the wireless power transmission module 13. [

The battery charging power of the battery charging module 13 is supplied to at least one of the USB charging module 11 and the wireless power transmission module 13 according to the control signal of the control module 33, The supply path of the power supply is as shown in Fig.

As described above, the charging ranks are set based on the charging state and the consumed electric power of each of the charging modules 11, 13, and 15, and the commercial power is supplied to the charging module of the set charging rank, A series of processes of charging and executing the charging module of the corresponding charging order according to the charging power of the battery upon removal will be described in more detail with reference to FIG.

FIG. 3 is a flowchart illustrating a charging process of the multifunctional charger according to another embodiment of the present invention. Referring to FIGS. 1 to 3, the charging process of the multifunctional charger according to another embodiment of the present invention will be described.

First, the charge controller 30 wakes up the main charging module of the main charging module that is supplied with the commercial power from the outside and charges the USB charging module 11, the wireless power transmission module 13, and the battery charging module 15, and sets a charging rank based on the monitored power consumption and the charged state (steps 105, 107).

The charge controller 30 generates a control signal for supplying the charge input power source to the charge module of the set charge order, and then, in response to the control signal generated, (Step 109).

Then, the charge controller 30 monitors the charge state of the charge module of the corresponding charge order to determine whether the charge is completed. If the charge is completed, the charge controller 30 proceeds to step 105 (step 111).

Meanwhile, in step 111, the charge control unit 30 determines whether there is a charge request from the user to the rechargeable battery of the battery by removing the commercial power supplied to the main recharging module 40 during charging (step 201) .

If the commercial power is removed and the battery charging request is received, the charging control unit 30 generates a control signal for supplying the charging power of the battery to the charging module of the corresponding charging order, And the charging power of the battery is supplied to the charging module of the charging order according to the control signal (Step 203), and then the process proceeds to Step 105. At this time, the charging power of the battery is transmitted to the charging module of the charging order as the charging input power of the main charging module 40.

Next, the charging controller 30 determines whether the user has requested charging of the battery from the charging power source (step 205). If the charging power is not supplied to the main charging module 40 during charging, If the commercial power supplied to the charging module 40 is removed and the user requests charging of the battery to the charging power supply, the process proceeds to step 105. If the commercial power supplied to the main charging module 40 during charging If the user does not have a charging request from the user to the charging power of the battery, the program is terminated.

On the other hand, the charge remaining amount display and the charge status display are displayed on the display unit 50 under the control of the charge control unit 30 so that the user can grasp the state of the wired charge, the wireless power transmission state, do.

According to the embodiment of the present invention, since simultaneous and sequential charging is possible through the USB charging module, the wireless power transmission module, and the battery charging module, the efficiency of the resource, the convenience of the user, and the efficiency of the charging time are improved

In addition, according to the present invention, the charging state and the consumed power of each charging module including the USB charging module, the wireless power transmission module, and the battery charging module are monitored, the charging order of each charging module is set according to the monitoring result, The charging efficiency of the commercial power source or the charging power source of the battery can be further improved.

According to another aspect of the present invention, there is provided a battery charging system comprising: a main charging module for charging a battery, the main power supplying module for supplying power to the main charging module, , It is possible to improve the capability of overcoming the emergency situation in which the commercial power is removed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Main Charging Module's Charging Input Power allows simultaneous and sequential charging of multiple charging modules including USB charging module, wireless power transmission module and battery charging module, thus improving resource efficiency, user convenience and efficiency of charging time. Monitors the charge state and power consumption of each of the plurality of charge modules including the USB charge module, the wireless power transfer module, and the battery charge module, sets the charge rank of each charge module according to the monitoring result, As the charging module is charged according to the charging order, it is possible to further improve the charging efficiency with respect to the commercial input power or the charging power of the battery, and the commercial power of the main charging module during charging is removed and the charging The charging power of the battery is discharged to the remaining charge excluding the battery charging module Modules, the multifunctional charger has improved ability to overcome emergencies in which the utility power is removed, and its accuracy and reliability in operation and reliability, And it is an invention that is industrially applicable since it is possible to carry out the application or the operation of the charger to be applied as well as being practically and practically possible.

Claims (7)

A main charging module that receives a commercial input power supplied from the outside to generate a charging power source, and a plurality of charging modules that charge the charging input power supplied from the main charging module,
And a charge controller for monitoring the charge state and the power consumption of each of the plurality of charge modules and controlling the charging of the plurality of charge modules by controlling the output of the charge input power source of the mail charge module based on the monitoring result Multifunction charger. The system of claim 1, wherein the plurality of charging modules comprise:
USB charging module, wireless power transfer module, and battery charging module. The charge control apparatus according to claim 2,
A monitoring module for monitoring a state of charge and power consumption of a plurality of charging modules including the main charging module,
A charge order is set based on a charge state and a consumption power of each charge module of the monitoring module, and a control signal for transferring the charge input power of the main charge module to the charge module of the charge order is generated And a control module for transferring the main charging module to the main charging module. The battery charger according to claim 1, wherein the multi-
Further comprising a display unit for displaying a state of charge and a state of charge replacement of the plurality of charge modules including the main charge module. The system of claim 3, wherein the monitoring module comprises:
Wherein the main control unit monitors the user's selection of the main charging module to charge the charging power supply of the battery among the plurality of charging modules during the charging of the main charging module and transmits the monitoring result to the control module,
The control module includes:
And a controller for generating a control signal for transferring the charging power of the battery to the remaining charging modules of the plurality of charging modules other than the battery charging module by receiving the monitoring result of the monitoring module and transmitting the generated control signal to the main charging module And,
The main charging module includes:
And the charging voltage of the battery charging module according to the control signal is transmitted to at least one of the plurality of remaining charging modules other than the battery charging module among the plurality of charging modules according to the corresponding charging order. . Receiving a charging input power of the main charging module and waking up the charging control portion; And
The charge order of each of the charge modules is set based on the charge state and the consumed electric power of each charge module after the wake-up of the charge control section, and the charge input power of the main charge module is provided according to the set charge order, Charging the multi-function charger. 7. The method for charging a multifunctional charger according to claim 6,
If the commercial power is removed during charging of the charging module of the corresponding charging order and charging of the remaining charging modules other than the battery charging module is requested by the user's selection by the user's selection, And transmits the generated control signal to the main charging module. In addition,
Wherein the main charging module is configured to transmit the charging voltage of the battery charging module to at least one of the remaining charging modules except for the battery charging module according to the corresponding charging order in accordance with the control signal. Charging method.

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