KR20170049054A - Battery Pack Charging System Capable of Sensing and Expression of Error of Charging Battery Pack - Google Patents

Abstract

The present invention relates to a battery pack charging system. According to the present invention, an abnormal state of the power applying section and an abnormal state of the battery pack are distinguished from each other and displayed, so an operator can detect a charging error of the battery pack early. The battery pack charging system comprises: a power applying unit electrically connecting the battery pack to an external power source to apply a charging external power source to the battery pack; a field effect transistor (FET) for changing a voltage or a current of a power source applied through the power applying unit and supplying the voltage or current to the battery pack; a display unit for displaying an error of a charging current detected from the battery pack; an input unit for inputting a signal for instructing restart of charging after the operators inspection according to charging current abnormality; and a cut-off portion for cutting off an electrical connection between the battery pack and the external power source through the power applying unit, wherein the detection of the charging current and the re-start of the charging are repeated for a set number of times, and after the charging current is repeatedly detected and the charging is restarted the set number of times, the breaking unit interrupts the electrical connection between the battery pack and the external power source.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a battery pack charging system capable of detecting and displaying a battery pack charge abnormality,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery pack charging system capable of detecting and displaying a battery pack charge abnormality.

In recent years, the demand for environmentally friendly alternative energy sources has become an indispensable factor for the future, as the increase in the price of energy sources due to depletion of fossil fuels and the interest in environmental pollution are amplified. Various researches on power generation technologies such as nuclear power, solar power, wind power, and tidal power have been continuing, and electric power storage devices for more efficient use of such generated energy have also been attracting much attention.

Particularly, as technology development and demand for mobile devices are increasing, the demand for batteries as energy sources is rapidly increasing, and accordingly, a lot of researches on batteries that can meet various demands have been conducted.

Typically, in terms of the shape of a battery, there is a high demand for a prismatic secondary battery and a pouch-type secondary battery which can be applied to products such as mobile phones with a small thickness, and has advantages such as high energy density, discharge voltage, There is a high demand for lithium secondary batteries such as lithium ion batteries and lithium ion polymer batteries.

Also, the secondary battery is classified according to the structure of the electrode assembly having the positive electrode, the negative electrode, and the separator interposed between the positive electrode and the negative electrode. Typically, the long battery- A stacked (stacked) electrode assembly in which a plurality of positive electrodes and negative electrodes cut in a predetermined size unit are sequentially stacked with a separator interposed therebetween, the jelly-roll type (wound type) electrode assembly having a structure in which a separator is interposed; In recent years, in order to solve the problems of the jelly-roll type electrode assembly and the stack type electrode assembly, an electrode assembly having an advanced structure, which is a combination of the jelly-roll type and the stack type, A stack / folding type electrode having a structure in which unit cells stacked with a separator interposed between an anode and a cathode are sequentially wound while being placed on a separation film Developed body lip.

The secondary battery includes a cylindrical battery and a prismatic battery in which the electrode assembly is housed in a cylindrical or rectangular metal can according to the shape of the battery case, and a pouch type battery in which the electrode assembly is housed in a pouch-shaped case of an aluminum laminate sheet .

In particular, in recent years, a pouch-shaped battery having a structure in which a stacked or stacked / folded electrode assembly is embedded in a pouch-shaped battery case of an aluminum laminate sheet has attracted much attention due to low manufacturing cost, small weight, And its usage is gradually increasing.

Generally, when such a secondary battery is used as a power source for an external device, one or two or more battery cells are electrically connected to each other and used in the form of a battery pack built in the pack case.

Also, the battery pack is electrically connected to an external device, is discharged in the process of supplying power to the external device, and is charged by being connected to an external power source through a separate component such as a power application unit.

At this time, the battery pack has a built-in protection circuit in order to secure the electrical safety. Such a protection circuit can prevent the battery pack from being electrically disconnected due to causes such as overcharge, over discharge, Thereby preventing problems.

Specifically, when the battery pack has such a problem in the process of supplying power to an external device, the battery pack is electrically disconnected, thereby stopping the operation of the device, so that the operator can easily recognize the problem of the battery pack.

However, even if the battery pack is electrically connected to the external power source and the battery pack is being charged, even if the battery pack is electrically disconnected and abnormal charging occurs, a separate display device or alarm There are many cases where the apparatus is not present and it is not easy for a person skilled in the art to detect abnormality of the battery pack early.

Particularly, when the battery pack is electrically connected to not only an external power supply but also to an external device at the same time, compared with the case where the battery pack is charged and discharged at the same time, The charging current of the battery pack may be lowered and it is not easy to detect the charging abnormality even if the battery pack is charged abnormally. In this case, in addition to the problem of charging the battery pack, It may be caused by a problem of a power applying part that electrically connects the external power source and the battery pack, which makes it more difficult for an operator to recognize the battery pack clearly.

In addition, due to such a problem, the operator can not physically cut off the electrical connection of the battery pack to the external device and the external power source prematurely, against the charging abnormality of the battery pack, An excessive current may accumulate in the secondary battery, causing a further abnormality or failure, or causing a fire due to a rise in temperature.

Therefore, there is a high need for a technique capable of fundamentally solving such problems.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art and the technical problems required from the past.

The inventors of the present application have conducted intensive research and various experiments. As described later, the inventors of the present application distinguished and displayed the charge current detected by the battery pack, thereby enabling the operator to distinguish the abnormal state of the battery pack from the power application unit Thus, it is possible to detect an abnormality in the charging of the battery pack early in the operation of the operator and to appropriately take measures accordingly, thereby preventing any further trouble or abnormality that may be caused thereby, It is possible to distinguish between the abnormality of the battery pack and the power applying unit, and it is possible to reduce the time required for repairing or replacing the unnecessary components, It is possible to prevent or minimize the loss of cost, and to complete the present invention Reotda.

According to an aspect of the present invention, there is provided a battery pack charging system,

A power applying unit electrically connecting the battery pack to an external power source so as to apply a charging external power source to the battery pack;

A field effect transistor (FET) for controlling the flow of the charge current applied through the power applying unit and supplying the charge current to the battery pack;

A display unit for displaying an error of a charge current detected by the battery pack;

An input unit for inputting a signal for instructing restart of charging after the operator's inspection according to the charging current abnormality; And

A blocking unit for blocking an electrical connection between the battery pack and the external power source through the power applying unit;

And,

The detection of the charging current and the re-start of the charging are repeated for a predetermined number of times, and the blocking unit may be configured to shut off the electrical connection between the battery pack and the external power source after the detection of the charging current repeatedly and the restart of charging during the set number of times .

Therefore, the operator can detect the charging abnormality of the battery pack at an early stage through the display unit, take appropriate measures accordingly, prevent further troubles or abnormalities that may occur thereby, and prevent problems caused by a decrease in safety It is possible to distinguish the abnormality of the battery pack and the power applying unit from each other, thereby reducing the time and cost of repairing or replacing the unnecessary components Or minimized.

In one specific example, when the battery pack is charged below the buffering voltage, the charging FET is kept in an ON state while being electrically connected to the external power source through the power applying unit, A charging current may be supplied to the battery pack to start or restart charging, and a charging current may be applied from an external power source.

Here, the FET is an element for controlling the flow of a charging current applied from the external power source to the battery pack through the power applying unit, and electrically connects the external power source and the battery pack in the " And in the "off" state, the electrical connection between the external power source and the battery pack can be disconnected.

That is, the battery pack controls the electrical connection state between the external power source and the battery pack by adjusting the charging FET to the "on" or the "off" state in consideration of the current charging state and the connection state with the external power source, The charging of the battery pack can be started or restarted. In this case, the battery pack can sense the charging current supplied from the external power source through the charging FET.

The battery pack may be configured to generate a signal indicating a charging current abnormality when the charging current is not sensed for a predetermined time or the sensed charging current value is less than the reference current value.

As described above, the battery pack can sense the charge current applied from the external power source through the charge FET, and more specifically, can detect whether the charge current is applied and the charge current value applied.

Accordingly, when the charging current applied from the external power source is not detected for a predetermined time or the detected charging current value is less than the reference current value, the battery pack detects the charging current value, determines that the charging current is abnormal, It is possible to generate a signal indicative of a current abnormality.

At this time, the time for detecting the charging current of the battery pack may be 0.1 second to 10 seconds.

More specifically, the time during which the battery pack senses the charging current may be appropriately selected in consideration of the electrical characteristics of the battery pack and the external device within the range of 0.1 second to 10 seconds.

If the charging current sensing time for generating a signal indicative of the charging current abnormality is too short beyond the above range, it may indicate a charging current abnormality even though there is no abnormality in the battery pack or the power applying unit. Accordingly, the operator is required to inspect the battery pack unnecessarily, which may deteriorate the reliability of the charging operation of the battery pack charging system.

On the contrary, when the charging current sensing time is out of the above range and is too long, the operator can not quickly grasp it, even though one of the battery pack or the power applying unit has an abnormality, Accumulation of heat may cause additional troubles or abnormalities, or may cause a fire. Therefore, the desired effect can not be exhibited.

Also, the reference current value may be 10% to 110% of the normal charging current value.

More specifically, the reference current value for generating a signal indicative of the charging current abnormality of the battery pack is within a range of 10% to 110% of the normal charging current value, considering the electrical characteristics of the battery pack and the external device Can be appropriately selected.

Here, the normal charge current value is a charge current value for stably charging the battery pack, and refers to a charge current value that is sensed in a normal charge state in which the battery pack is electrically connected to the external power source.

Generally, in a state where the battery pack is simultaneously connected to an external power source and an external device, a charging current applied from the external power source is simultaneously consumed not only for charging the battery pack but also for operation of the external device, The charge current value may be less than the normal charge current value.

However, when the charging current value is less than 10% of the normal charging current value, the current used for the operation of the external device is abnormally larger than the current used for charging the battery pack. We can question the ideal of wealth.

Therefore, when the reference current value is set to an excessively small value out of the above range, the battery pack or the power applying unit may be faulty, or the charging current value may be small enough to stably charge the battery pack The signal indicating the charging current abnormality is not generated and the operator can not easily detect abnormality of the charging current according to the abnormality of the battery pack or the power applying section.

In contrast, when the reference current value is set to exceed 110% of the normal charging current value, although the charging current value is suitable for stably charging the battery pack, It is possible to generate a signal indicating a charging current abnormality by judging that the battery is being charged.

For example, when the reference current value is set to 150%, if the charge current value applied from the external power source is 80% of the normal charge current value, The battery pack charging system according to any one of claims 1 to 3, wherein the battery pack charging system is a normal charging mode, The charging current value applied to the battery pack is too low to indicate that there is an abnormality in the charging current.

On the other hand, the signal indicating the charging current abnormality can be induced to change the charging FET to the "off" state and display the charging current or more on the display portion.

That is, the signal indicating the charging current abnormality changes the charging FET to the "OFF" state, thereby preventing the electric connection between the battery pack and the external power supply, thereby preventing further problems that may occur due to continuous application of power, It is possible to induce the operator to recognize the charging error of the battery pack and to perform the inspection or the action accordingly.

In one specific example, the display unit may be configured to repeatedly display a first notification for requesting an operator to check for an abnormality of the power applying unit according to detection of a charging current that is repeated over a set number of times.

As described above, the charging error of the battery pack is caused not only by the self-abnormality of the battery pack due to the failure of the protection circuit of the battery pack, but also because of the abnormality of the power applying unit electrically connecting the battery pack and the external power source have.

Particularly, portable electronic devices such as mobile phones, tablet computers, and notebook computers which are being manufactured recently contain battery packs inside the electronic devices, which makes it difficult to easily separate or replace them. , The operator has a problem that it is very troublesome to first check the abnormality of the battery pack when charging abnormality of such electronic equipment occurs.

Accordingly, the display unit preferentially displays the first notification for requesting the operator to check for the presence / absence of abnormality in the power application unit. Accordingly, the operator first checks the abnormality of the power application unit, .

At this time, in the case where there is an abnormality in the power applying section, the charging of the battery pack can be normally restarted after the inspection of the power applying section by the operator.

However, the abnormality of the power applying unit may be more varied. In one specific example, the power applying unit may fail to apply the charging current due to a defective electrical connection between the battery pack and the external power supply, In a specific example, the power applying unit may not be able to apply the charging current applied from the external power source to the battery pack due to its own structural defect state. Therefore, the power applying unit may apply the charging current The battery pack can not be normally delivered to the battery pack, resulting in a charging abnormality.

Thereby, after the inspection of the power applying section by the operator and the restart of charging, the display section may repeatedly receive the first notification.

Accordingly, the operator can repeatedly check the electrical connection state and / or the structural fault state of the power application unit according to the repetitive primary notification, and this process is repeated for the preset number of times, The first notification may be repeatedly displayed to request an inspection of the power application.

Accordingly, the operator can repeatedly check various possible anomalies of the power applying unit, such as the connection state of the power applying unit and / or the structural failure state, according to the repetitive primary notification, thereby checking the abnormality of the power applying unit .

However, if the above-mentioned abnormality of the charging current is constantly detected despite the repetitive inspections of the power applying section by the operator, the charging error of the battery pack is not caused by the abnormality of the power applying section, As shown in FIG.

Therefore, the battery pack charging system includes a cut-off unit that can cut off the electrical connection between the battery pack and the external power source through the power applying unit when the battery pack charging system detects repeated charging currents and the charging is restarted for a set number of times , It is possible to distinguish a charging error according to an abnormality of the power application portion from a charging error due to an abnormality of the battery pack.

More specifically, the blocking unit may include a fuse, and may be automatically fused after the detection of a repetitive charging current for a preset number of times, thereby disconnecting an electrical connection between the battery pack and an external power source.

That is, the blocking unit may be configured as a fuse that is automatically fused due to the accumulated charging current for a predetermined number of times when the charging current is detected and the charging is restarted repeatedly. Accordingly, It is possible to prevent the problem of safety deterioration that may occur due to the accumulation of the applied charge current by physically disconnecting the electrical connection between the battery pack and the external power source .

In this case, the detection of the charging current and the restart of the charging by the operator may be set to be repeated for 2 to 10 times.

That is, the battery pack charging system performs the first notification and the charging restart according to the detection of the charging current repeatedly for the preset number of times within the range of 2 to 10 times. After the number of times, the blocking unit is automatically fused, The electrical connection of the external power source can be cut off.

If the number of times that the charging current is detected and the restarting of the charging by the operator is repeated is less than two times, the operator may not be able to sufficiently inspect various abnormalities of the power applying unit, The operator may erroneously judge that the charge abnormality of the battery pack is not an abnormality of the power application part but that it is due to an abnormality of the battery pack.

On the contrary, when the number of times that the charging current is detected and the restarting of the charging by the operator is repeated is more than 10 times, the operator determines whether the charging error of the battery pack is due to the abnormality of the power applying part, And the accumulation of current due to the repeated restart of the charging may cause a failure or an abnormality in the normal battery pack or the power applying unit without any abnormality.

The display unit may be configured to display a second notification for requesting an operator to check for an abnormality of the battery pack when the electrical connection between the battery pack and the external power source is blocked by the blocking unit.

In other words, when the battery pack charging system repeats the above process for a set number of times within a range of 2 to 10 times, despite the repeated detection of the charging current and the recharging of the battery pack, It is determined that the charge abnormality is caused by an abnormality of the battery pack, not due to an abnormality of the power applying section, and the operator is requested to check the abnormality of the power applying section through the display section , A secondary notification may be displayed to request the battery pack to be checked for abnormality.

Therefore, the operator can more easily determine the cause of the battery pack overcharging, and can more quickly and safely perform the action according to the abnormality of the battery pack. Also, It is possible to effectively save unnecessary repair costs and time that may occur due to a false judgment that the charge abnormality of the battery pack is caused by the abnormality of the battery pack.

In one specific example, if the display unit is a method capable of effectively displaying the charge abnormality of the battery pack to the operator, the display method thereof is not limited to a great extent. Specifically, the display unit may visually and / It may be a structure that displays audibly.

According to another aspect of the present invention, there is provided a method for inspecting a charging error of a battery pack using the battery pack charging system,

i) electrically connecting the battery pack and the external power source through the power applying unit;

ii) checking whether the battery pack is fully charged;

iii) when the battery pack is charged below the buffering voltage, the charging FET of the battery pack is switched to the "on" state to start charging;

iv) detecting charge current in the battery pack for a predetermined time;

v) generating a signal indicating a charging current abnormality when the charging current is not detected or the detected charging current value is less than the reference current value in the step iv);

vi) a step of switching the charging FET to the " off "state by a signal indicating the charging current abnormality and displaying a first notification for requesting the display unit to check for abnormality in the power applying unit;

vii) a step of the operator checking whether there is an abnormality in the power application unit and inputting a signal for instructing the restart of charging through the input unit;

. ≪ / RTI >

In other words, the battery pack charging abnormality checking method according to the present invention checks whether or not the battery pack is fully charged after the battery pack is electrically connected to the external power source through the power applying unit, The charging FET of the pack is switched to the "on" state or the "off" state, and the flow of the charging current is controlled to control the charging of the battery pack.

At this time, if the charging current is not detected for a predetermined time after the start of charging, or if the detected charging current value is less than the reference current value, the battery pack determines a charging abnormality and generates a signal indicating the charging current abnormality Accordingly, the charging FET is switched to the "off" state, and the primary notification is displayed on the display section for requesting the abnormality check of the power applying section.

Thereafter, the operator first checks the abnormality of the power applying section and inputs a signal for instructing the restart of charging through the input section.

In this case, after the step vii), the charging can be restarted by performing the steps ii) and iv), and after the ii) and iv) processes are performed according to the restarting of the charging, If a charge current abnormality signal is generated, steps vi) and vii) may be performed again.

That is, after the signal for instructing the re-start of charging through the input unit is inputted, the charging start and the charging current sensing process can be performed again according to the state change of the charging FET of the battery pack. A first notification according to the change of the state of the charging FET, an abnormality check of the power applying part by the operator, and a restart of charging can be repeatedly performed again.

Also, the steps ii) and vii) may be repeated for a set number of times until the charge current is normally detected.

In other words, in the charging process of the battery pack, the detection of the charging current and the subsequent inspection and the re-start of the charging are repeated for a predetermined number of times, so that the operator can check and check various abnormalities of the power applying section with priority .

Here, after the charging current is repeatedly detected for the preset number of times, the blocking unit is automatically fused so that the battery pack can be electrically disconnected from the external power source.

Therefore, it is possible to prevent a phenomenon in which a normal power application unit is damaged due to a current that is accumulated and applied according to the restarting of repeated charging.

Further, after the fusing of the blocking portion, a secondary notification for requesting the operator to check for the presence or absence of the battery pack may be displayed on the display unit.

Therefore, the operator can more easily determine the cause of the charging failure of the battery pack, and can more quickly and safely perform the action according to the abnormality of the battery pack.

In addition, the steps ii) through vii) may be configured to be repeated for 2 to 10 times. According to the detection of the charging current abnormality and the restart of charging during the preset number of times, It can be judged more quickly and safely whether or not it is due to an abnormality of the power application portion or an abnormality of the battery pack.

Meanwhile, the reference current value in the process (v) may be 10% to 110% of the normal charging current value, thereby minimizing an error in the charging error test of the battery pack.

The present invention also provides a device including the battery pack charging system, provided that the device can include a display unit for detecting and displaying an abnormality of the battery pack and an input unit for instructing the re-start of charging according to the display unit, The present invention is not limited to a specific type but may be selected from a group consisting of a mobile phone, a tablet computer, a notebook computer, a power tool, a wearable electronic apparatus, an electric vehicle, a hybrid electric vehicle, a plug- Lt; / RTI >

Since the specific structure and configuration of the device are well known in the art, detailed description thereof will be omitted.

As described above, the battery pack charging system according to the present invention divides and displays the charging current detected by the battery pack, so that the operator can distinguish the abnormal state of the battery pack from the power applying unit, Thus, it is possible to allow the operator to detect an abnormality in the charging of the battery pack at an early stage and take appropriate measures accordingly, thereby preventing further troubles or abnormalities that may occur, and preventing problems caused by a decrease in safety It is possible to distinguish the abnormality of the battery pack and the power applying section from each other, thereby preventing the loss of time and cost due to the repair or replacement of unnecessary elements , There is an effect that can be minimized.

1 is a schematic diagram schematically illustrating a connection structure of a battery pack charging system according to an embodiment of the present invention;
FIG. 2 is a schematic diagram schematically illustrating a process of inspecting a charging error of a battery pack using the battery pack charging system of FIG. 1. FIG.

Hereinafter, the present invention will be described in detail with reference to the drawings according to the embodiments of the present invention, but the scope of the present invention is not limited thereto.

FIG. 1 is a schematic diagram schematically showing a connection structure of a battery pack charging system according to an embodiment of the present invention. FIG. 2 is a block diagram of a battery pack charging system of FIG. 1, A schematic diagram showing a process is shown schematically.

1 and 2, the battery pack charging system 100 includes a power applying unit 110, a charging FET 120, a display unit 130, an input unit 140, and a blocking unit 150 .

In step (A), the battery pack 160 and the external power source 170 are electrically connected to each other by the power application unit 110.

Thereafter, in step (B), the external power supply 170 and the battery pack 160 are electrically connected to each other by changing the charging FET 120 to the "on" state, Check.

The charging FET 120 is connected between the power applying unit 110 and the battery pack 160. When the battery pack 160 is charged with the buffering voltage in step 201, FET 120 is changed to the "off" state, thereby controlling the battery pack 160 not to be charged.

When the battery pack 160 is charged to less than the buffering voltage in step 202, the charging FET 120 maintains the " on "state in step (D) To the battery pack 160 and starts charging the battery pack 160. [

In step (E), the battery pack 160 senses the charging current applied from the external power source 170, and if the charging current is not sensed for a predetermined time (203), the process proceeds to step (H).

If the charge current is sensed by the battery pack 160 in step 204, the battery pack 160 senses whether the sensed charge current value is less than the reference current value in step (E) .

If the charging current value sensed by the battery pack 160 is equal to or greater than the reference current value in step (F), the battery pack 160 is charged until the battery pack 160 reaches the buffering voltage in step (G) The charging of the battery pack 160 is completed.

If the charging current value detected by the battery pack 160 is lower than the reference current value 206 in step 203 and (F) when the charging current is not sensed by the battery pack 160 in step (E) , In step (H), the battery pack 160 generates a signal indicating a charge current abnormality.

In step (I), the battery pack 160 checks whether the number of occurrences of the charge current abnormality signal exceeds the set number. If the number of occurrences of the charge current abnormality signal is equal to or less than the preset number (207) Go to step.

The charge FET 120 is changed to the "off" state by a charge current abnormality signal generated in the battery pack 160 to block the charge current applied to the battery pack 160, and at the same time, The first notification for requesting the operator to check for the abnormality of the power applying unit 110 is displayed on the display unit 130.

Thereafter, in step (L), the operator checks the electrical connection state and / or the structural defect state of the power applying section 110 according to the primary notification, and then instructs the input section 140 to restart the charging A signal for inputting a signal is input.

The charging FET 120 is changed to the ON state in the step (B) by the charging restart instruction signal through the input unit 140 so that the external power supply 170 and the battery pack 160 are electrically connected And confirms whether or not the battery pack 160 is fully charged.

The charging current applied from the external power supply 170 is applied to the battery pack 160 and the battery pack 160 is charged with the charging current of the battery pack 160 Restart charging.

In step (I), the battery pack 160 checks whether or not the number of times of occurrence of the charging current abnormality signal exceeds the set number of times, and if the charging current abnormality If the number of generated signals exceeds the preset number (208), the process goes to step (J).

The cutoff unit 150 is automatically fired to cut off the electrical connection between the battery pack 160 and the external power source 170 and the display unit 130 is provided with an operator A secondary notification is displayed to request a scan.

Therefore, the operator can more easily grasp whether or not the charging error of the battery pack 160 is caused by the abnormality of the power applying unit 110 or the abnormality of the battery pack 160, You can take the appropriate action quickly and safely.

The display unit 130 and the input unit 140 are configured in the external device 180 and the charging FET 120 and the blocking unit 150 are formed in the battery pack portion 190.

Therefore, even if the electrical connection between the battery pack 160 and the external power source 170 is cut off by the fusing of the cut-off portion 150, the external device 180 including the display unit 130 and the input unit 140 can be powered The external power supply 170 is maintained in an electrically connected state through the power supply unit 110 and can operate normally.

Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

Claims (22)

A power applying unit electrically connecting the battery pack to an external power source so as to apply a charging external power source to the battery pack;
A field effect transistor (FET) for changing a voltage or current of a power source applied through the power applying unit and supplying the voltage or current to the battery pack;
A display unit for displaying an error of a charge current detected by the battery pack;
An input unit for inputting a signal for instructing restart of charging after the operator's inspection according to the charging current abnormality; And
A blocking unit for blocking an electrical connection between the battery pack and the external power source through the power applying unit;
And,
Wherein the charging and discharging of the battery pack is repeatedly performed for a predetermined number of times, and the blocking unit interrupts the electrical connection between the battery pack and the external power source after the repeated charging current is detected and the charging is restarted Battery pack charging system. 2. The battery pack according to claim 1, wherein when the battery pack is charged below the buffering voltage, the charging FET is maintained in an on state by being electrically connected to the external power source through the power applying unit, And detects a charging current applied from an external power source. The battery pack according to claim 1, wherein the battery pack generates a signal indicating a charging current abnormality when the charging current is not sensed for a predetermined time or the sensed charging current value is less than a reference current value system. The battery pack charging system as claimed in claim 3, wherein the time for detecting the charging current of the battery pack is 0.1 second to 10 seconds. The battery pack charging system of claim 3, wherein the reference current value is 10% to 110% of a normal charging current value. 4. The battery pack charging system according to claim 3, wherein the signal indicating the charging current abnormality changes the charging FET to the " off "state and induces the display unit to display the charging current abnormality. The battery pack charging system of claim 1, wherein the display unit repeatedly displays a first notification for requesting an operator to check for an abnormality of the power applying unit according to detection of a charging current that is repeated for a preset number of times. 8. The battery pack charging system according to claim 7, wherein the operator repeatedly inspects the electrical connection state and / or the structural fault state of the power applying section according to the repetitive primary notification. 2. The battery pack according to claim 1, wherein the cut-off portion comprises a fuse and is automatically fused after detection of a repetitive charge current for a preset number of times to cut off the electrical connection between the battery pack and the external power source Charging system. The battery pack charging system according to claim 1, wherein the detection of the charging current and the restart of charging by the operator are set to be repeated two to ten times. The battery pack according to claim 1, wherein the display unit displays a secondary notification for requesting an operator to check for an abnormality of the battery pack when an electrical connection between the battery pack and the external power source is blocked by the blocking unit Charging system. The battery pack charging system according to claim 1, wherein the display unit visually and / or audibly displays a charging current abnormality. A method for inspecting a charging error of a battery pack using the battery pack charging system according to claim 1,
i) electrically connecting the battery pack and the external power source through the power applying unit;
ii) checking whether the battery pack is fully charged;
iii) when the battery pack is charged below the buffering voltage, the charging FET of the battery pack is switched to the "on" state to start charging;
iv) detecting charge current in the battery pack for a predetermined time;
v) generating a signal indicating a charging current abnormality when the charging current is not detected or the detected charging current value is less than the reference current value in the step iv);
vi) a step of switching the charging FET to an "off" state by a signal indicating the charging current abnormality, and displaying a first notification for requesting the display unit to check for abnormality in the power applying unit;
vii) a step of the operator checking whether there is an abnormality in the power application unit and inputting a signal for instructing the restart of charging through the input unit;
And inspecting a battery pack charging abnormality. The method according to claim 13, wherein after the step (vii), charging is restarted by performing steps ii) to iv). The method according to claim 14, further comprising: performing vi) and vii) when a charging current abnormality signal is generated in step v) after the steps ii) and iv) are performed according to the restarting of the charging A method for inspecting a battery pack for abnormal charging. The method according to claim 13, wherein the steps ii) through vii) are repeated for a preset number of times until a charging current is normally detected. 17. The method according to claim 16, wherein after the charging current is repeatedly detected during the set number of times, the blocking portion is automatically fused to cut off the electrical connection between the battery pack and the external power source. 18. The method according to claim 17, wherein a secondary notification for requesting an operator to check for an abnormality of the battery pack is displayed on the display unit after the fusing of the blocking unit. The method according to claim 16, wherein the steps ii) to vii) are repeatedly performed for 2 to 10 times. 14. The method according to claim 13, wherein the reference current value in the step (v) is 10% to 110% of a normal charging current value. 10. A device comprising a battery pack charging system according to any one of claims 1 to 9. 22. The device of claim 21, wherein the device is selected from the group consisting of a cell phone, a tablet computer, a notebook computer, a power tool, a wearable electronic appliance, an electric vehicle, a hybrid electric vehicle, a plug- . ≪ / RTI >

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