KR101364099B1 - Battery pack for portable computer and method for charging external device using the same - Google Patents

Abstract

The present invention discloses a battery pack used in a portable computer and a charging method of an external device using the same. A battery pack for use in a portable computer according to the present invention includes: an external device connection terminal provided in the battery pack and capable of connecting an external device; An external device power line providing a power path for transferring power supplied from a battery cell of the battery pack to the external device connection terminal; A voltage conversion unit provided on the power line of the external device and converting a voltage of power supplied from the battery cell into a voltage capable of charging the external device; And a controller configured to turn off a charge control switch installed on a charge / discharge path of the battery pack and to turn on a discharge control switch when the external device is connected to the external device connection terminal to provide charging power to the external device. Include.

Description

BATTERY PACK FOR PORTABLE COMPUTER AND METHOD FOR CHARGING EXTERNAL DEVICE USING THE SAME}

The present invention relates to a battery pack used in a portable computer and a method of charging an external device using the same, and more particularly, a battery pack capable of charging an external device using only the battery pack regardless of the portable computer main body and a method of charging an external device using the same. It is about.

Recently, a variety of portable computers in various forms and names, such as notebook computers and netbook computers, have been widely used. Such portable computers are used by many users because they provide excellent performance and functions as computers and also have convenience of mobility. Therefore, it is easy to see the use of portable computers in classrooms, libraries, buses and trains, as well as in homes and businesses, and its use is becoming more common to the public.

Most of these portable computers are equipped with battery packs so that they can be used even when external power such as AC power is not provided for mobility. In addition, many portable computer users typically charge the battery pack and carry it with the portable computer main body to use the portable computer even when there is no external power source or when traveling. In addition, some users carry two or more battery packs in order to use a portable computer for a long time.

On the other hand, in addition to portable computers, many portable digital devices have been widely used in recent years. For example, MP3 players, PMPs, digital cameras, portable game consoles, mobile phones, and the like are widely used and used by many users as representative portable digital devices. Such a portable digital device is typically connected to a portable computer or a desktop computer through a connection interface such as a USB terminal provided in the computer main body. And, through such a connection interface, the digital device exchanges various data with the computer. Such digital devices are also referred to as external devices in that they can be connected to a computer through a connection interface from the outside of the computer.

These external devices, like portable computers, need to be available on the go, so most are powered by batteries. In particular, most external devices adopt a method of receiving driving power through an internal battery instead of a battery in consideration of user convenience. Therefore, the user needs to charge the built-in battery in order to use an external device. In this case, the internal battery of the external device may be charged by directly receiving power from the AC power source of the outlet through the adapter. However, this charging method is inconvenient for the user in that an adapter and an outlet are required. Accordingly, a conventional external device provides a charging method that can be charged through a computer in consideration of the fact that access to a computer is very easy. That is, when an external device is connected to a computer through a connection interface such as a USB terminal, the battery of the external device is automatically charged. Therefore, the user can be charged by connecting an external device such as a mobile phone or an MP3 player to the USB terminal of the computer via a USB cable. Furthermore, in the case of charging through a computer connection interface such as a USB terminal, most external devices can be charged through the connection terminal of the computer since they can exchange data with a computer and an external device. Provide a way.

However, according to the related art, in order to charge an external device through a connection interface such as a USB terminal, the portable computer must have a portable computer main body equipped with a battery pack. That is, when there is only a battery pack without a main body of a portable computer, it is impossible to charge an external device. In addition, even if there is a portable computer main body, the external device can be charged only when the system power of the portable computer main body is turned on. That is, when the portable computer is powered by a battery pack instead of an external power source, the external device may not be charged when the system power of the portable computer main body is not turned on.

Therefore, even when the user does not want to use the portable computer but only the external device through the portable computer, the user needs to turn on the system power of the portable computer, which causes a great inconvenience for the user. In addition, even if the user wants to charge the external device in a hurry, if the portable computer system power is not turned on, the portable computer must be turned on, so it is difficult to quickly charge the external device. In addition, even if the portable computer is not intended to be used, the power of the battery pack is unnecessarily consumed when the system power is turned on. Moreover, if the user only has a battery pack without a portable computer, charging of external devices is impossible at all.

Accordingly, the present invention has been made to solve the above problems, and a battery pack capable of charging an external device regardless of whether the portable computer is on or off or whether the portable computer main body is present, and a method of charging an external device using the same It aims to provide.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. It will also be readily apparent that the objects and advantages of the invention may be realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.

A battery pack according to the present invention for achieving the above object is a battery pack for use in a portable computer, the external device connection terminal is provided in the battery pack to connect an external device; An external device power line providing a power path for transferring power supplied from a battery cell of the battery pack to the external device connection terminal; A voltage conversion unit provided on the power line of the external device and converting a voltage of power supplied from the battery cell into a voltage capable of charging the external device; And a controller configured to turn off a charge control switch installed on a charge / discharge path of the battery pack and to turn on a discharge control switch when the external device is connected to the external device connection terminal to provide charging power to the external device. Include.

In addition, a method for charging an external device using a battery pack used in a portable computer according to the present invention for achieving the above object, (S1) and the external device connection terminal provided in the battery pack to connect the external device Providing an external device power line providing a power path for transferring power supplied from a battery cell of the battery pack to the external device connection terminal; (S2) connecting an external device to the external device connection terminal; (S3) turning off a charge control switch installed on a charge / discharge path of the battery pack and turning on a discharge control switch; (S4) converting the voltage of the power supplied from the battery cell into a voltage capable of charging the external device connected to the external device connection terminal; And (S5) the voltage converted supply power is transferred to the external device through the external device power line and the external device connection terminal to charge the external device.

According to the present invention, an external device such as an MP3 player, a PMP, a digital camera, a portable game machine, a PDA, a mobile phone, or the like can be charged using only a battery pack regardless of whether the portable computer main body system is on or off or whether the portable computer main body is present.

Therefore, the user can charge the external device even when only the battery pack is carried without carrying the portable computer main body. Accordingly, a user may carry a battery pack used in a portable computer for charging an external device rather than using the portable computer. Therefore, according to this embodiment of the present invention, there is an advantage that the utility value of the battery pack used in the portable computer can be increased.

In addition, even when the system power of the portable computer is turned off, the user can charge the external device by directly connecting the external device to the external device connection terminal of the battery pack without having to turn on the system power. Therefore, it is not necessary to turn on the portable computer if the purpose is not to use the portable computer but to charge only the external device. Therefore, it is possible to charge the external device quickly and to prevent unnecessary power consumption during the process of turning on the portable computer.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description of the invention given below, serve to further the understanding of the technical idea of the invention, And should not be construed as limiting.
1 is a block diagram schematically illustrating a functional configuration of a battery pack used in a portable computer according to an embodiment of the present invention.
2 is a diagram illustrating a configuration in which an external device connection terminal having a USB interface form is provided in a battery pack of a portable computer according to an embodiment of the present invention.
3 is a diagram illustrating an external configuration of a battery pack including a display unit according to an exemplary embodiment of the present invention.
4 is a diagram illustrating an example of an internal connection configuration of a battery pack according to the present invention.
5 is a flowchart schematically illustrating a method of charging an external device using a battery pack according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their invention in the best way possible. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a block diagram schematically showing the functional configuration of a battery pack 100 used in a portable computer according to an embodiment of the present invention.

Referring to FIG. 1, a battery pack 100 used in a portable computer according to the present invention includes a battery cell 110, an external device connection terminal 120, an external device power line 130, a voltage converter 140, and the like. The controller 150 is included.

Meanwhile, in the present invention, the portable computer is a term used to refer to a computer that can be mounted with the battery pack 100 and can be used regardless of whether an external power source is input, and is a broad concept including a notebook or a netbook. However, the concept is not particularly limited by the specific form.

The external device connection terminal 120 is provided in the battery pack 100 to allow connection of external devices. Here, the external device refers to various portable digital devices with a built-in rechargeable battery, such as an MP3 player, a PMP, a portable game machine, a digital camera, a PDA, a mobile phone, and the like, and is a conventional digital terminal provided to be charged through a connection interface of a computer. Includes all of them.

Preferably, the external device connection terminal 120 has a USB interface form. Currently, many external devices that can charge a battery using a connection interface of a computer are connected through a USB terminal of the computer. USB (Universal Serial Bus) is one of the input / output standards used to connect external devices such as MP3 players and digital cameras, as well as computer peripherals such as keyboards, mice, scanners, printers, and hard disks. USB is widely used not only for data exchange but also for charging via power supply, so most portable computers, along with desktop computers, offer multiple USB ports. As the interface of the computer is a universal USB interface, most external devices such as an MP3 player or a PMP are provided to be connected to a portable computer and charged through the USB terminal. Therefore, the battery pack 100 according to the present invention may also provide an external device connection terminal 120 in the form of a USB interface in consideration of compatibility with existing external devices.

2 is a diagram illustrating a configuration in which an external device connection terminal 120 having a USB interface form is provided in a battery pack 100 of a portable computer according to an embodiment of the present invention.

2, a USB terminal is provided as an external device connection terminal 120 on a surface of a battery pack 100 used in a portable computer. In addition, the external device may be connected to the battery pack 100 through the USB terminal.

On the other hand, in Figure 2, it is shown that the USB terminal is provided on one side of the battery pack 100 is only one embodiment, such a USB terminal may be present in any part of the battery pack 100. For example, a USB terminal may be provided on an upper surface of the battery pack 100. In addition, although FIG. 2 illustrates that the USB terminal is exposed to the outer surface of the battery pack 100 as it is, the USB terminal may exist in various forms. For example, the USB terminal may be covered with a cover that can be opened and closed by a user.

In addition, although only one USB terminal is illustrated in FIG. 2, the present invention is not limited by the number of such external device connection terminals 120. Therefore, two or more USB terminals may be provided on the surface of the battery pack 100. In this case, the user can simultaneously charge two or more external devices.

In addition, various versions of USB may exist, such as 1.0, 1.1, 2.0, and the like. Therefore, when the external device connection terminal 120 is configured in the form of a USB interface as in the above embodiment, it is not limited by a specific USB version.

Meanwhile, in the above embodiment, the external device connection terminal 120 has been described as having a USB interface, but the external device connection terminal 120 according to the present invention is not limited to the USB interface type as described above. The type of interface between a computer and an external device may change over time due to technological developments or agreements between related companies and countries. Therefore, the external device connection terminal 120 according to the present invention can be implemented in various connection interface forms supported by the portable computer and the external device. For example, the external device connection terminal 120 may have a form of an IEEE1394 interface, which is a standard standard for a personal computer and a serial bus interface for digital audio and digital video. In addition, when the battery pack 100 is provided with two or more external device connection terminals 120, each of the connection terminal 120 may have the same interface form, of course, may have two or more types of interface form. . For example, both the USB terminal and the IEEE1394 terminal may be provided in the battery pack 100.

The external device power line 130 provides a power path for transferring power supplied from the battery cell 110 of the battery pack 100 to the external device connection terminal 120. Accordingly, one end of the external device power line 130 is connected to the external device connection terminal 120, and the other end is connected to the charge / discharge path of the battery cell 110.

The voltage converter 140 is provided on the external device power line 130 to convert the voltage of the power supplied from the battery cell 110 into a voltage capable of charging the external device connected to the external device connection terminal 120. To convert. Typically, the output voltage of the battery pack 100 used in the portable computer and the charging voltage of the external device are often different. For example, the battery cell voltage of a typical laptop battery pack is 9-12V, while the charging voltage of an external device such as an MP3 player charging through a USB terminal may be 4-5V. In this case, if the power supplied from the battery cell 110 is transferred to the external device as it is, the external device may not be charged properly, and the external device may be damaged due to overvoltage. Therefore, the power supplied from the battery cell 110 should be transferred to the external device after being converted into a voltage capable of charging the external device. The voltage converter 140 is a component that converts a voltage of power supplied from the battery cell 110 into a chargeable voltage of an external device. For example, the voltage converter 140 converts the voltage of the battery cell 110 of 9 to 12V into a voltage of 4 to 5V.

In this case, the voltage converter 140 may include a transformer for dropping a voltage therein. As described above, since the output voltage of the battery cell 110 of the portable computer battery pack 100 is higher than the charging voltage of the external device, the voltage converter 140 may lower the output voltage of the battery cell 110. It is good to have a transformer. Here, the transformer may have a function of automatically varying a drop rate of voltage. Therefore, when external devices having different charging voltages are sequentially connected to the external device connection terminal 120, the voltage converter 140 may automatically change the voltage drop rate to enable all external devices to be charged. However, the present invention is not necessarily limited to the specific embodiment of the voltage converter 140. For example, the voltage converter 140 may receive the information on the voltage drop rate from the controller 150 to change the voltage drop rate.

However, when the output voltage of the battery cell 110 is within the chargeable voltage range of the external device, the voltage converter 140 may not convert the output voltage of the battery cell 110.

When the external device is connected to the external device connection terminal 120, the controller 150 turns off the charge control switch of the battery pack 100 and turns on the discharge control switch. Here, the charge control switch and the discharge control switch is installed on the charge and discharge path of the battery pack 100 to selectively block the flow of the charge current and discharge current, it is generally provided in the battery pack 100 Component. As such, the controller 150 controls the charge control switch and the discharge control switch so that a charging path for supplying charging power to the external device from the battery cell 110 via the external device connection terminal 120 is formed. do.

The controller 150 may be implemented as a battery management system (BMS). Here, the BMS refers to a battery management device that generally controls the charge / discharge operation of the battery pack 100. However, the present invention is not necessarily limited to the embodiment of the controller 150, and the controller 150 may be configured separately from the BMS. In addition, the controller 150 may be physically configured outside the battery pack 100.

Preferably, the portable computer battery pack 100 according to the present invention may further include an external device charging switch 160 as shown in FIG. The external device charging switch 160 is provided on the external device power line 130 to selectively open and close the power path. For example, when the battery pack 100 of the portable computer is to be charged by an external power source such as an AC power source, the external device charging switch 160 is turned off to supply power to the battery pack 100 of the portable computer. Supply to external devices through external device power lines can be prevented. In addition, when the output voltage of the battery cell 110 cannot be converted into a chargeable voltage of an external device due to a failure of the voltage conversion module, the external device charging switch 160 is turned off to prevent the overvoltage from being applied to the external device. can do. When the external device charging switch 160 is provided on the external device power line 130 as described above, the power path can be selectively opened and closed in preparation for various situations. Meanwhile, the external device charging switch 160 may be operated by the control of the controller 150, but the present invention is not limited thereto.

In addition, as shown in Figure 1, the battery pack 100 used in the portable computer according to the present invention is any one of the charging status information of the battery pack 100, the connection information of the external device and the charging status information of the external device It may further include a display unit 170 for providing the above information.

Here, the charging state information of the battery pack 100 is information indicating how much the state of charge of the portable computer battery pack 100, that is, how much the state of charge of the portable computer battery pack 100 is currently charged. . Accordingly, the user may determine whether to charge an external device by the corresponding battery pack 100 or how much to charge the external device, based on the charging state information of the battery pack 100. For example, when the display unit 170 of the laptop battery pack is displayed as not charging high, charging the external device through the laptop battery pack may render the notebook unusable. In this case, the user may use the laptop battery pack. You can determine not to charge the external device through.

The connection information of the external device is information indicating whether the external device is currently connected to the external device connection terminal 120 or the connection state. Accordingly, the user may obtain information on whether the external device is properly connected to the external device connection terminal 120 through the external device connection information displayed on the display unit 170. For example, when an external device is connected to the external device connection terminal 120, but the external device is not displayed on the display unit 170, the user is not properly connected to the external device connection terminal 120 It may be determined that the connection of the external device again or determine whether the external device connection terminal 120 is defective.

The charging status information of the external device is information indicating how much the external device is being charged while being connected to the external device connection terminal 120. Accordingly, the user may determine whether to continue charging the external device through the external device charging status information of the display unit 170.

Here, the display unit 170 may provide the charging state information of the battery pack 100, the connection information of the external device or the charging status information of the external device, etc. using an LED lamp.

3 is a diagram illustrating an external configuration of the battery pack 100 provided with the display unit 170 according to an embodiment of the present invention.

Referring to FIG. 3, two external device connection terminals 120 having a USB interface form are provided at one side of the battery pack 100 of the portable computer. In addition, the upper surface of the battery pack 100 as a display unit 170, three LED lamps (171, 172) indicating the charging status information of the battery pack 100, the connection information of the external device, and the charging status information of the external device, respectively , 173). Therefore, the user can easily grasp the charging state information of the battery pack 100, the connection information of the external device, the charging status information of the external device, etc. through the LED lamps 171, 172, 173.

Here, each of the LED lamps 171, 172, and 173 may provide corresponding information through color change. For example, in the case of the LED lamp 171 indicating the state of charge information of the battery pack 100, when the state of charge of the battery pack 100 is good to emit a green light, the state of charge of the battery pack 100 In general, yellow light may be emitted, and when the state of charge of the battery pack 100 is poor, red light may be emitted. In addition, in the case of the LED lamp 173 indicating the charging status information of the external device, the red light may be emitted while the external device is being charged, and the green light may be emitted when the charging is completed. In addition, the present invention can provide a variety of information using the LED lamp, it is possible to visually easily convey the information to the user through a variety of color configuration.

4 is a diagram illustrating an example of an internal connection configuration of the battery pack 100 according to the present invention.

Referring to FIG. 4, a battery pack 100 used in a portable computer generally includes a battery cell 110, a charge control switch 180, a discharge control switch 190, and a BMS 200. In this battery pack 100, a charge / discharge path is formed from the battery cell 110 to the battery input / output terminals labeled pack + and pack− via the charge control switch 180 and the discharge control switch 190. The external device power line 130 of the battery pack 100 according to the present invention is branched from the charge / discharge path of the battery pack 100 and connected to the external device connection terminal 120. In addition, the external device power line 130 is provided with a voltage converter 140 for converting the output voltage of the battery cell 110 to the chargeable voltage of the external device 10. In addition, as illustrated in FIG. 4, an external device charging switch 160 may be provided on the external device power line 130 to selectively open and close the power path of the external device power line 130.

Meanwhile, in FIG. 4, the controller 150 is illustrated as being implemented as the BMS 200 according to an embodiment of the present invention. As shown in FIG. 4, the BMS 200 may be connected to the external device charging switch 160 and the display unit 170 to control the external device charging switch 160 and the display unit 170. In addition, the BMS 200 may be connected to the external device power line 130 to detect that the external device 10 is connected to the external device connection terminal 120. In this case, the BMS 200 may detect the connection of the external device 10 by various methods such as measuring a potential difference across the external device power line 130 or a current flowing through the external device power line 130.

When the external device 10 is connected to the external device connection terminal 120, the BMS 200 turns off the charge control switch 180 and turns on the discharge control switch 190. In addition, when the external device charging switch 160 is present on the external device power line 130 as shown in the figure, the BMS 200 turns on the external device charging switch 160. Then, a charging path for charging the external device 10 from the battery cell 110 to the external device connection terminal 120 through the external device power line 130 is formed. Then, the charging power is supplied from the battery cell 110 to the external device 10 through the charging path, wherein the power supplied from the battery cell 110 is not supplied to the external device 10 as it is, the voltage converter The voltage is converted into the chargeable voltage by the 140 and then supplied to the external device 10. Then, the external device 10 is charged through the voltage converted charging power. Meanwhile, related information such as the charging state information of the battery pack 100, the connection of the external device 10, and the charging status information may be provided to the user through the display unit 170 under the control of the BMS 200.

5 is a flowchart schematically illustrating a method of charging the external device 10 using the battery pack 100 according to an embodiment of the present invention.

Referring to FIG. 5, first, an external device connection terminal 120 provided in the battery pack 100 to which an external device 10 can be connected and power supplied from the battery cell 110 of the battery pack 100 are externally supplied. An external device power line 130 providing a power path to the device connection terminal 120 is provided (S110). Here, the external device connection terminal 120 preferably has a USB interface form. Next, when the external device 10 is connected to the external device connection terminal 120 (S120), the controller 150 turns off the charge control switch 180 installed on the charge and discharge path of the battery pack 100 and discharged. The control switch 190 is turned on (S130). In this case, step S130 may be performed by the controller 150 implemented as the BMS (200).

Next, the voltage converter 140 converts the voltage of the power supplied from the battery pack 100 into a voltage capable of charging the external device 10 connected to the external device connection terminal 120 (S140). Here, step S140 may be performed using a transformer for dropping the voltage. Then, the voltage-converted supply power is transferred to the external device 10 through the external device power line 130 and the external device connection terminal 120 to charge the external device 10 (S150).

On the other hand, the step S110 may be further provided with an external device charging switch 160 provided on the external device power line 130 to selectively open and close the power path. In this case, step S130 may further include a step in which the controller 150 turns on the external device charging switch 160.

In addition, the external device charging method using the battery pack 100 provides any one or more information of the charging state information of the battery pack 100, the connection information of the external device 10 and the charging status information of the external device 10. It may further comprise the step. For example, the providing of the charging state information of the battery pack 100 may be included before the step S110, and the providing of the connection information of the external device 10 may be included after the step S120. In addition, the step of providing the charging status information of the external device 10 may be included after the step S150. However, the information providing step of the above embodiment does not necessarily have to be performed in this order.

More preferably, the information providing step may be performed using an LED lamp.

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. It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

It should be understood by those skilled in the art that the term " part (s) " is used herein to describe a logical structural unit and does not necessarily represent a physically separable component.

100: Battery pack
110: Battery cell
120: external device connection terminal
130: external device power line
140: voltage conversion unit
150:
160: external device charging switch
170:

Claims (14)

In a battery pack for a portable computer,
An external device connection terminal provided in the battery pack and capable of connecting an external device;
An external device power line providing a power path for transferring power supplied from a battery cell of the battery pack to the external device connection terminal;
A voltage conversion unit provided on the power line of the external device and converting a voltage of power supplied from the battery cell into a voltage capable of charging the external device;
An external device charging switch provided on the external device power line to selectively open and close the power path; And
When an external device is connected to the external device connection terminal, the charge control switch installed on the charge / discharge path of the battery pack is turned off and the discharge control switch is turned on to provide charging power to the external device. A controller configured to turn off the external device charging switch in at least one of a case of being charged and a case where the voltage converter is broken, so that charging power is not provided to the external device;
And the battery pack (100). The method of claim 1,
The external device connection terminal has a USB interface form. 3. The method according to claim 1 or 2,
The voltage converter is a battery pack, characterized in that for using a transformer for dropping the voltage. delete 3. The method according to claim 1 or 2,
And a display unit configured to provide at least one of charging state information of the battery pack, connection information of the external device, and charging state information of the external device. The method of claim 5,
The display unit, the battery pack, characterized in that to provide the information using an LED lamp. 3. The method according to claim 1 or 2,
The control unit is a battery pack, characterized in that implemented by the BMS. In a method of charging an external device using a battery pack used in a portable computer,
(S1) an external device power line provided in the battery pack to provide an external device connection terminal capable of connecting an external device and a power path for transferring power supplied from the battery cell of the battery pack to the external device connection terminal; Providing an external device charging switch provided on an external device power line to selectively open and close the power path;
(S2) connecting an external device to the external device connection terminal;
(S3) turning off the charge control switch installed on the charge / discharge path of the battery pack, turn on a discharge control switch, and turn on the external device charge switch;
(S4) converting the voltage of the power supplied from the battery cell into a voltage capable of charging the external device connected to the external device connection terminal; And
(S5) transferring the voltage-converted supply power to the external device through the external device power line and the external device connection terminal to charge the external device;
, ≪ / RTI &
At least one of when the battery pack is charged and when the voltage converter is broken, the external device charging switch is turned off so that charging power is not provided to the external device. How to charge your device. 9. The method of claim 8,
The external device connection terminal, the external device charging method using a battery pack, characterized in that the USB interface form. 10. The method according to claim 8 or 9,
The step S4 is a method of charging an external device using a battery pack, characterized in that performed using a transformer for dropping the voltage. delete 10. The method according to claim 8 or 9,
And providing at least one of charging state information of the battery pack, access information of the external device, and charging status information of the external device. The method of claim 12,
The information providing step, the external device charging method using a battery pack, characterized in that performed using an LED lamp. 10. The method according to claim 8 or 9,
The step S3, the external device charging method using a battery pack, characterized in that performed by the BMS.

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