KR101374615B1 - Preventing Method for Using of a Battery Pack and Detection Method for Loss of a Battery Pack - Google Patents

Abstract

The present invention provides a method of preventing the use of a battery pack mounted on a mobile device when the mobile device is lost. (A) When a password is set in the mobile device, the battery pack is BMS if the password input does not match a predetermined number of times. Entering a permanent fail (PF) mode included in a microcontroller unit (MCU) of a battery management system; And (b) if a password is not set in the mobile device, (b-1) a user who has lost the mobile device inputs lost information to an activation server of the mobile device; And (b-2) when the mobile device is connected to the Internet, the mobile device and the genuine authentication server periodically communicates, the mobile device receives the lost information from the activation server to enter the battery pack into the PF mode; It provides a method of using a battery pack to proceed;

Description

How to prevent battery packs and how to detect battery packs {Preventing Method for Using of a Battery Pack and Detection Method for Loss of a Battery Pack}

The present invention relates to a method of preventing the use of a battery pack, and more particularly, a method of preventing the use of a battery pack mounted on a mobile device when the mobile device is lost, (a) when a password is set in the mobile device, Entering a battery pack into a permanent fail (PF) mode included in a microcontroller unit (MCU) of a battery management system (BMS) if input of a password does not match a predetermined number or more; And (b) if a password is not set in the mobile device, (b-1) a user who has lost the mobile device inputs lost information to an activation server of the mobile device; And (b-2) when the mobile device is connected to the Internet, the mobile device and the genuine authentication server periodically communicates, the mobile device receives the lost information from the activation server to enter the battery pack into the PF mode; It relates to a method of preventing a battery pack to proceed; including.

Recent trends in the electronics industry can be summarized as the wireless and mobile trends of devices and the shift from analog to digital. Examples include the rapid proliferation of cordless phones (aka mobile phones) and notebook computers and the transition from analog cameras to digital cameras.

In addition to these trends, research and development on secondary batteries as an operating power source for devices have been actively conducted. Among them, a lithium secondary battery having a high output and capacity by weight using a lithium transition metal oxide, a lithium composite oxide, or the like as a cathode active material has attracted much attention. The lithium secondary battery has a structure in which an electrode assembly of a cathode, a separator, and a cathode is embedded in a sealed container together with an electrolyte. However, such secondary batteries have a problem of low safety, such as being ignited or exploded due to overcharge, overdischarge, overcurrent, external shock, and the like.

In order to solve this problem, the secondary battery is equipped with various safety devices. For example, a protection circuit module (PCM) is provided between a battery cell and an external input / output terminal to secure the safety of a battery by blocking current during overcharge, overdischarge, and overcurrent. The installation of such a safety device is one of the main reasons for increasing the manufacturing cost of the battery.

On the other hand, a user who acquires a notebook computer when the notebook computer is lost or stolen has a problem that the notebook computer can be used without any limitation. To solve this problem, the user can set a password on the notebook computer system to protect personal information or prevent use in case of loss.

However, the password setting method may temporarily prevent the use of the notebook computer, but it is difficult to prevent the use of the battery pack used as the power source of the notebook computer.

Specifically, the user of the notebook computer considers portability the greatest advantage of the notebook computer. If you lose your notebook computer, you cannot protect your personal information with a password.However, if a user who has lost a notebook computer wants to reuse the notebook computer system through hard disk recovery, etc. There is a problem that can be used.

Therefore, by prohibiting the use of the battery pack in case of loss or theft of the notebook computer, it protects the personal information and prevents the carrying, which is the biggest advantage of the notebook computer, thereby reducing the possibility of theft of the notebook computer and protecting the personal information in case of loss. There is a great need for a method of preventing the use of a battery pack.

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

That is, an object of the present invention is to prevent the use of a battery pack that protects personal information when the mobile device is lost by entering the battery pack into the PF mode included in the MCU of the BMS when a password is set or not set in the mobile device. To provide a way.

Another object of the present invention is to provide a mobile device to which the above method is applied.

Battery pack use prevention method according to the present invention for achieving this object,

As a method of preventing the use of the battery pack attached to the mobile device when the mobile device is lost,

(a) When the password is set in the mobile device, if the password input does not match for a predetermined number of times, the battery pack enters the permanent failure (PF) mode included in the microcontroller unit (MCU) of the battery management system (BMS). Making process; And

(b) if no password is set on the mobile device,

(b-1) the user who lost the mobile device inputting the lost information into the activation server of the mobile device; And

(b-2) when the mobile device connects to the Internet, the mobile device and the genuine authentication server periodically communicate, such that the mobile device receives the lost information from the activation server to enter the battery pack into the PF mode; Process of doing;

It consists of proceeding.

Therefore, in the battery pack use prevention method according to the present invention, if a password is set in the mobile device, if the input of the password does not match a predetermined number of times, the battery pack enters the PF mode included in the MCU of the BMS and the mobile device is lost. City privacy can be protected.

In addition, the battery pack usage prevention method according to the present invention enters the battery pack in PF mode when another user who has lost the mobile device accesses the mobile device via the Internet even if the password is not set in the mobile device Personal information can be protected by doing so.

For reference, MCU refers to an integrated circuit (IC) having a concept of a digital circuit assembly that is sequentially operated by a program.

Specifically, the MCU has a digital circuit having various functions (movement, addition, subtraction, AND, OR, etc.), and only the circuit selected by the program is selected and operated. Therefore, to perform a particular task, it is necessary to list the operations in sequence so that they operate in the order in which they proceed.

In addition, the BMS is a battery management system that is configured to add the energy storage input / output and the remaining power control function of the secondary battery to the function of the PCM to prevent overcharge / over discharge.

In one preferred example, the battery pack may be a configuration in which the basic input output system (BIOS) and the SMBus (Systm Management Bus) communication of the mobile device.

For reference, a BIOS is a set of programs that handle basic functions of a mobile device, and is a collection of routines for operating an input / output device or a peripheral device in an operating system (OS).

In addition, the System Management Bus (SMBus or SMB) refers to a simple two-wire bus used to communicate with low-speed devices on the motherboard.

In the above structure, the SMBus may be a structure for communicating using a clock and a data terminal.

In another preferred example, if (i) the password of the mobile device is incorrectly entered, or (ii) the mobile device receives the lost information from the activation server, the mobile device may be configured on a non-volatile memory of the battery pack. When the bit signal is transmitted to the battery pack, and the bit set in the battery pack is recognized as high, the battery pack may enter the PF mode.

The nonvolatile memory may be an EEPROM (Electrically Erasable Programmable Read-Only Memory).

On the other hand, the BMS may be composed of a MCU, a secondary protection integrated circuit for protecting the battery cells when the battery cells overcharge, a fuse, a charge / discharge FET, and thermistor.

In one example, the MCU may manage voltage, current, capacity, temperature, overcharge, overdischarge, overcurrent, disconnection of a fuse, and voltage sensing of battery cells.

In another example, the PF mode may be to turn off a charge / discharge field effect transistor (FET) and to blow a fuse.

Field effect transistors (FETs) are a type of transistor, but their structure is different and their principle of operation is different. In addition, the operation is close to the vacuum tube, which is similar to the negative vacuum tube. Large power FETs for power amplification as well as small signal amplification have been developed.

Some operational amplifiers used for small signal amplification are called FET inputs, but this is the type in which the FETs are used early in the amplifier's input phase. It is also used in electronic switch circuits because of its excellent ability to operate switches in addition to amplification.

As a specific example, when the high signal is output from the PF OUT terminal of the MCU, the fuse may be disconnected by flowing current in the direction of the fuse.

The predetermined number of times may vary according to a user's setting, preferably at least two or more times, and more preferably, two to ten times.

The MCU turns off the charge FET when the voltage of the battery cells is greater than the set value to prevent overcharging of the battery cells, and turns off the discharge FET when the voltage of the battery cells is less than the set value. It can be made of a configuration to prevent over-discharge.

The present invention also provides a battery pack loss detection method.

Specifically, the battery pack loss detection method, a method for detecting the loss of the battery pack included in the mobile device,

(a) a user who has lost a mobile device, inputting lost information into an activation server of the mobile device; And

(b) when the mobile device and the genuine authentication server communicate with each other when the mobile device is connected to the Internet, the genuine authentication server transmits the location of the lost mobile device to a user who has lost the mobile device;

It may be configured to include.

Accordingly, the battery pack loss detection method according to the present invention prohibits the use of the battery pack when another user who acquires the lost mobile device accesses the mobile device through the Internet even when a password is not set in the mobile device. By doing so, the loss of the battery pack can be easily detected.

The battery pack loss detection method may further include (c) a process in which the mobile device receives the loss information from the activation server and prohibits the use of the battery pack.

Preferably, the prohibition of use of the battery pack may be achieved by a permanent fail (PF) mode included in a microcontroller unit (MCU) of a battery management system (BMS) embedded in the battery pack.

The present invention also provides a mobile device to which the battery pack use prevention method is applied.

The mobile device is not particularly limited as long as it is a mobile device. For example, a mobile phone, a laptop computer, a smartphone, a smart pad, a netbook, a light electronic vehicle (LEV), an electric vehicle, a hybrid electric vehicle, a plug-in hybrid electric vehicle , And one selected from the power storage device.

As described above, according to the battery pack use prevention method of the present invention, when a password is set or not set in the mobile device, the PF included in the battery pack microcontroller unit (MCU) of the battery management system (BMS) By entering the Permanent Fail mode, it is possible to secure personal information in case of loss of the mobile device.

1 is a flowchart of a method of preventing battery pack use according to an embodiment of the present invention;
2 is a block diagram of a BMS according to another embodiment of the present invention;
3 is a block diagram of a MCU according to another embodiment of the present invention;
4 is a flow chart of a battery pack loss detection method according to another embodiment of the present invention.

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

1 is a flow chart of a method of preventing the use of a battery pack according to an embodiment of the present invention is schematically shown, Figure 2 is a block diagram of a BMS according to another embodiment of the present invention. .

3 is a schematic diagram of a MCU according to another embodiment of the present invention.

Referring to these drawings, the battery pack use prevention method 900 is a method for preventing the use of a battery pack (not shown) mounted on the mobile device when the mobile device (not shown) is lost. There are two ways depending on whether it is set.

First, when the password is set in the mobile device (100), if the input of the password does not match three or more times (200) by entering the battery pack in the PF mode included in the MCU 40 of the BMS 90 (500) The use of the battery pack is prevented.

Second, if a password is not set in the mobile device (100), the user who lost the mobile device inputs the lost information to the activation server of the mobile device (300); And when the mobile device is connected to the Internet, the mobile device and the authenticator server periodically communicates, the mobile device receives the lost information from the activation server (400) to enter the battery pack in PF mode to prevent use of the battery pack It consists of 500 steps.

In addition, the battery pack communicates with the mobile device's BIOS and SMBus, and the SMBus communicates using a clock and data stages.

Specifically, when the password of the mobile device is incorrectly input or when the mobile device receives the lost information from the activation server, the mobile device transmits a predetermined bit signal set on the non-volatile memory of the battery pack to the battery pack. When the bit set in the pack is recognized as high, the battery pack enters the PF mode.

The nonvolatile memory is an EEPROM, and the BMS 90 includes an MCU 40, a secondary protection integrated circuit 50, a fuse 10, a charge FET 20, and a discharge FET to protect the battery cells during overcharge of the battery cells. 30 and a thermistor 60.

The MCU 40 manages the voltage, current, capacity, temperature, overcharge, overdischarge, overcurrent, disconnection of the fuse, and voltage sensing of the battery cells, and the PF mode turns the charge FET 20 and the discharge FET 30 on. -Off, and the fuse 10 is disconnected.

In detail, when a high signal is output from the PF OUT terminal of the MCU 40, current flows in the direction of the fuse to disconnect the fuse 10.

In addition, if a user incorrectly enters a password three or more times or accesses the lost server, a signal is sent from the system BIOS of the mobile device to the battery pack, and when the MCU 40 receives such a signal, the user enters the PF mode to stop using the battery pack. prevent.

Further, the MCU 40 turns off the charge FET 20 when the voltage of the battery cells is greater than the set value to prevent overcharging of the battery cells, and discharge FET (if the voltage of the battery cells is less than the set value). 30) is turned off to prevent over discharge of the battery cells.

Figure 4 is a flow chart of a battery pack loss detection method according to another embodiment of the present invention.

Referring to FIG. 4 together with FIGS. 2 and 3, a battery pack loss detection method 900a is a method of detecting a loss of a battery pack included in a mobile device, and the user who lost the mobile device activates the mobile device. Inputting lost information into a server (100a); And when the mobile device and the genuine authentication server communicate with each other when the mobile device is connected to the Internet, the genuine certification server transmits the location of the lost mobile device to a user who lost the mobile device (200a). The mobile device receives the lost information from the activation server and prohibits the use of the battery pack 300a.

In addition, prohibition of use of the battery pack is achieved by the PF mode included in the MCU 40 of the BMS 90 embedded in the battery pack.

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 (19)

As a method of preventing the use of the battery pack attached to the mobile device when the mobile device is lost,
(a) When the password is set in the mobile device, if the password input does not match for a predetermined number of times, the battery pack enters the permanent failure (PF) mode included in the microcontroller unit (MCU) of the battery management system (BMS). Making process; And
(b) if no password is set on the mobile device,
(b-1) the user who lost the mobile device inputting the lost information into the activation server of the mobile device; And
(b-2) when the mobile device connects to the Internet, the mobile device and the genuine authentication server periodically communicate, such that the mobile device receives the lost information from the activation server to enter the battery pack into the PF mode; Process of doing;
Proceed,
The battery pack is a method for preventing the use of a battery pack, characterized in that the basic input output system (BIOS) and SMBus (Systm Management Bus) communication of the mobile device. delete The method of claim 1, wherein the SMBus communicates using a clock and a data terminal. The mobile device of claim 1, wherein (i) a wrong password is entered for the mobile device, or (ii) the mobile device receives the lost information from the activation server. And transmitting a bit signal to the battery pack, and when the bit set in the battery pack is recognized as high, the battery pack enters the PF mode. The method of claim 4, wherein the nonvolatile memory is an electrically erasable programmable read-only memory (EEPROM). The method of claim 1, wherein the BMS comprises an MCU, a secondary protection integrated circuit for protecting the battery cells during overcharging of the battery cells, a fuse, a charge and discharge FET, and a thermistor. The method of claim 6, wherein the MCU manages voltage, current, capacity, temperature, overcharge, overdischarge, overcurrent, disconnection of a fuse, and voltage sensing of battery cells. The method of claim 6, wherein the PF mode turns off charge and discharge field effect transistors (FETs) and disconnects fuses. The method of claim 8, wherein when the high signal is output from the PF OUT terminal of the MCU, current flows in the direction of the fuse and is disconnected. The method of claim 1, wherein the predetermined number of times is at least two or more times. The method of claim 6, wherein the MCU turns off the charge FET when the voltage of the battery cells is greater than the set value to prevent overcharging of the battery cells, and turns on the discharge FET when the voltage of the battery cells is less than the set value. -Off the method of using a battery pack, characterized in that to prevent over-discharge of the battery cells. A method for detecting the loss of a battery pack included in a mobile device,
(a) a user who has lost a mobile device, inputting lost information into an activation server of the mobile device; And
(b) when the mobile device and the genuine authentication server communicate with each other when the mobile device is connected to the Internet, the genuine authentication server transmits the location of the lost mobile device to a user who has lost the mobile device;
Lt; / RTI >
The battery pack loss detection method, the battery pack loss detection method further comprises the step of (c) the mobile device receives the loss information from the activation server to prohibit the use of the battery pack. delete The method of claim 12, wherein the prohibition of use of the battery pack is characterized in that the battery pack is achieved by a permanent fail (PF) mode included in the microcontroller unit (MCU) of the battery management system (BMS) built in the battery pack Lost Detection Method. delete delete As a method of preventing the use of the battery pack attached to the mobile device when the mobile device is lost,
(a) When the password is set in the mobile device, if the password input does not match for a predetermined number of times, the battery pack enters the permanent failure (PF) mode included in the microcontroller unit (MCU) of the battery management system (BMS). Making process; And
(b) if no password is set on the mobile device,
(b-1) the user who lost the mobile device inputting the lost information into the activation server of the mobile device; And
(b-2) when the mobile device connects to the Internet, the mobile device and the genuine authentication server periodically communicate, such that the mobile device receives the lost information from the activation server to enter the battery pack into the PF mode; Process of doing;
Proceed,
If (i) the password of the mobile device is incorrectly entered, or (ii) the mobile device receives the lost information from the activation server, the mobile device receives a certain bit signal set on the non-volatile memory of the battery pack. When the battery pack is transmitted to the battery pack and the bit set in the battery pack is recognized as high, the battery pack enters the PF mode. As a method of preventing the use of the battery pack attached to the mobile device when the mobile device is lost,
(a) When the password is set in the mobile device, if the password input does not match for a predetermined number of times, the battery pack enters the permanent failure (PF) mode included in the microcontroller unit (MCU) of the battery management system (BMS). Making process; And
(b) if no password is set on the mobile device,
(b-1) the user who lost the mobile device inputting the lost information into the activation server of the mobile device; And
(b-2) when the mobile device connects to the Internet, the mobile device and the genuine authentication server periodically communicate, such that the mobile device receives the lost information from the activation server to enter the battery pack into the PF mode; Process of doing;
Proceed to,
The BMS is a battery pack preventing method, characterized in that consisting of a MCU, a secondary protection integrated circuit for protecting the battery cells when the battery cells overcharge, fuses, charge and discharge FETs, and thermistors. As a method of preventing the use of the battery pack attached to the mobile device when the mobile device is lost,
(a) When the password is set in the mobile device, if the password input does not match for a predetermined number of times, the battery pack enters the permanent failure (PF) mode included in the microcontroller unit (MCU) of the battery management system (BMS). Making process; And
(b) if no password is set on the mobile device,
(b-1) the user who lost the mobile device inputting the lost information into the activation server of the mobile device; And
(b-2) when the mobile device connects to the Internet, the mobile device and the genuine authentication server periodically communicate, such that the mobile device receives the lost information from the activation server to enter the battery pack into the PF mode; Process of doing;
Proceed to,
And the predetermined number of times is at least two or more times.

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