JP2005051964A - Method of judging whether battery pack is of standard specifications or not - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To effectively prevent a user from erroneously using a nonstandard battery pack mistaken for a standard one. <P>SOLUTION: This method, which is for judging whether the battery pack 1, which is mounted detachably on an electric apparatus 2, is of a standard specification or not, consists of a load current process in which the electric apparatus 2 makes a prescribed load current flow via positive and negative power supply terminals 3 connected to the battery pack 1 and the electric apparatus 2 when the battery pack 1 is mounted on the electric apparatus 2; an answering process in which a current value of the load current process is detected at the side of the battery pack 1 and an answering signal corresponding to the load current is transmitted from the battery pack 1 to the electric apparatus 2 via a communication terminal 4; and a judging process in which the electric apparatus 2 judges from the answering signal inputted from the battery pack 1 whether the battery pack 1 is of the standard specifications or not. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a method for determining the authenticity of a battery pack attached to an electrical device.

Electrical equipment must be equipped with a specified battery pack. This is because if a non-standard battery pack is installed, the electrical device may not operate normally, break down, or cannot be used safely. In order to realize this, a battery pack that is attached to an electric device and determines authenticity has been developed. (See Patent Document 1)
Japanese Patent Laid-Open No. 5-198293

  The battery pack described in this publication is connected to an electrical device via a communication terminal. When the battery pack is mounted on the electric device, a calling signal is transmitted from the electric device to the battery pack via the communication terminal. When a calling signal is input, the battery pack outputs processing data obtained by calculating this signal to an electrical device via a communication terminal. The electric device determines processing data output from the battery pack to determine the authenticity of the battery pack.

  As described above, the method for determining the authenticity of a battery pack can output a non-standard battery pack with the same processing data as a regular battery pack. This is because a signal passing through the communication terminal can be detected to detect a calling signal input from the electric device to the battery pack and processing data input from the battery pack to the electric device. For this reason, while manufacturing non-standard battery packs, battery packs that output processing data in the same way as regular battery packs are manufactured, and the user has the negative effect of using non-standard battery packs incorrectly with regular battery packs. Will occur.

  The present invention has been developed for the purpose of solving this drawback. An important object of the present invention is to provide a method for determining the authenticity of a battery pack, which can effectively prevent a user from mistakenly using a non-standard battery pack as a regular battery pack.

  The method for determining the authenticity of a battery pack according to the present invention is a method for determining the authenticity of a battery pack 1 that is mounted so as to be detachable from an electric device 2. In the authenticity determination method of the present invention, when the battery pack 1 is attached to the electric device 2, the electric device 2 is connected to the battery pack 1 and the electric device 2 via the positive and negative power supply terminals 3 and has a predetermined load current. Current process for detecting the load current and detecting the current value of the load current process on the side of the battery pack 1 and transmitting an answer signal corresponding to the load current from the battery pack 1 to the electrical device 2 via the communication terminal 4 And an authenticity determination step in which the electric device 2 determines the authenticity of the battery pack 1 from the answer signal input from the battery pack 1.

  In the method for determining the authenticity of the battery pack according to claim 2 of the present invention, in the load current process, the electric device 2 selects the load 11 and controls the load current.

  In the method for determining the authenticity of the battery pack according to claim 3 of the present invention, in the answering process, the battery pack 1 detects the load current of the electric device 2 by the current detector 6 for calculating the remaining capacity of the battery.

  In the battery pack authenticity determination method according to claim 4 of the present invention, in the answer process, the battery pack 1 outputs the detected current value to the electric device 2 as an answer signal.

  The battery pack authenticity determination method according to claim 5 of the present invention encrypts the current value detected by the battery pack 1 and outputs the encrypted answer signal to the electric device 2 in the answer process.

  The authenticity determination method of the present invention has an advantage that it is possible to effectively prevent a user from mistakenly using a nonstandard battery pack as a regular battery pack. This is because the authenticity determination method of the present invention does not determine the authenticity of the battery pack only with the communication terminal as in the conventional method, and the battery pack supplies current to the electrical equipment from the power supply terminal in the state of connecting the battery pack The supply current is controlled on the electric device side, the load current to be controlled is detected on the pack battery side, and an answer signal corresponding to the detected current value is transmitted to the electric device. This is because the authenticity of the battery pack is determined.

  Since the authenticity determination method of claim 2 of the present invention controls the load current by selecting a load on the electric equipment side, it is not necessary to use a dedicated load to control the load current, and is built in the electric equipment. The load can be selected and the current value can be changed. For this reason, there exists the feature which can determine the authenticity of a pack battery, simplifying the circuit structure of an electric equipment.

  In the authenticity determination method according to claim 3 of the present invention, in the answering process, the battery pack detects the load current of the electric device by using a built-in current detector for calculating the remaining capacity of the battery. For this reason, there is no need to provide a dedicated circuit for detecting the load current in the battery pack, and the circuit configuration of the battery pack can be simplified and authenticity can be reliably determined.

  In the authenticity determination method according to claim 4 of the present invention, in the answer process, the current value detected by the battery pack is output as an answer signal to the electric device. Therefore, the battery pack can obtain the answer signal through extremely simple processing. Can do. Further, the authenticity determination method of claim 5 encrypts the current value detected by the battery pack in the answering process and outputs the encrypted answer signal to the electric device. It is difficult to output the same signal as, and it is extremely difficult to manufacture nonstandard battery packs.

  Embodiments of the present invention will be described below with reference to the drawings. However, the following embodiment exemplifies a battery pack authenticity determination method for embodying the technical idea of the present invention, and the present invention does not specify the authenticity determination method as the following method.

  Further, in this specification, in order to facilitate understanding of the scope of claims, numbers corresponding to the members shown in the examples are indicated in the “claims” and “means for solving problems” sections. It is added to the members. However, the members shown in the claims are not limited to the members in the embodiments.

  FIG. 1 is a block diagram of a battery pack 1 and an electric device 2 used in the battery pack authenticity determination method of the present invention. The battery pack 1 is attached to the electric device 2 so that it can be detached. The battery pack 1 and the electrical device 2 are connected by a power supply terminal 3 and a communication terminal 4. The power terminal 3 supplies power from the battery pack 1 to the electric device 2, and the communication terminal 4 transmits a communication signal between the battery pack 1 and the electric device 2.

  The battery pack 1 calculates a response signal based on a unit cell 5 that supplies power to the electric device 2, a current detection unit 6 that detects a current flowing through the unit cell 5, and a battery value detected by the current detection unit 6. And a transmission / reception unit 8 that transmits an answer signal obtained by the calculation / control unit 7 from the battery pack 1 to the electrical device 2 via the communication terminal 4.

  The unit cell 5 incorporated in the battery pack 1 is a secondary battery. The unit cell 5 which is a secondary battery is preferably a lithium ion battery. However, as the unit cell, all other secondary batteries such as a nickel-hydrogen battery and a nickel-cadmium battery can be used.

  The current detection unit 6 detects a current flowing through the unit cell 5, that is, a load current flowing through the electric device 2, converts the detected analog current signal into a digital signal, and inputs the digital signal to the calculation / control unit 7. Therefore, the current detection unit 6 includes an A / D converter (not shown) that converts an analog signal into a digital signal. However, the current detection unit can also input the current value to the calculation / control unit as an analog signal. This current detection unit does not need to incorporate an A / D converter. The current detection unit 6 can be used in combination with a battery built in the battery pack 1 in order to calculate the remaining capacity of the unit cell 5. The remaining capacity of the unit cell 5 is calculated by integrating the charging current and the discharging current flowing through the unit cell 5. The charging capacity can be calculated by integrating the charging current, the discharging capacity can be calculated by integrating the discharging current, and the remaining capacity can be calculated by subtracting the discharging capacity from the charging capacity. The current detector 6 is also used in a protection circuit that protects the battery from overcurrent. The protection circuit detects that an overcurrent flows through the unit cell 5 with the current detection unit 6 and turns off a switch (not shown) connected in series to the unit cell 5 when the overcurrent flows. And the current of the unit cell 5 is cut off.

  The calculation / control unit 7 calculates the current value detected by the current detection unit 6 to obtain an answer signal. The answer signal is a function having the load current as a parameter. The calculation / control unit 7 uses the current value as an answer signal in the simplest case. Further, the calculation / control unit 7 can also encrypt the current value into an answer signal. The calculation / control unit 7 stores a function for encrypting the current value in a storage circuit (not shown). The calculation / control unit 7 converts the current value into an answer signal from the function stored in the storage circuit. As described above, the method of encrypting the current value by the calculation / control unit 7 and transmitting it from the battery pack 1 to the electric device 2 makes it more difficult to manufacture a fake battery pack.

  The transmission / reception unit 8 transmits the answer signal obtained by the calculation / control unit 7 from the battery pack 1 to the electric device 2 via the communication terminal 4.

  On the other hand, the electric device 2 includes a transmission / reception unit 9 that receives an answer signal output from the battery pack 1, a control unit 10 that determines an answer signal received by the transmission / reception unit 9, and a plurality of units controlled by the control unit 10. The load 11 is provided. The transmission / reception unit 9 inputs an answer signal input from the battery pack 1 to the control unit 10.

  When the battery pack 1 is mounted, the control unit 10 selects the load 11 to be connected and controls the load current. The control unit 10 changes the load current by switching the connected load 11 when a predetermined time elapses. However, a constant load current can be obtained without switching the load 11.

  Further, the control unit 10 generates a specific signal for the load current. The specific signal is a function having the load current as a parameter. The control unit 10 most simply uses the current value as the specific signal. The control unit 10 preferably encrypts the current value to generate a specific signal. The control unit 10 stores a function for encrypting the current value in a storage circuit (not shown). The control unit 10 converts the current value into a specific signal from the function stored in the storage circuit. Thus, the method of generating the specific signal for encrypting the current value in the control unit 10 makes it more difficult to manufacture a fake battery pack.

  Furthermore, the control unit 10 compares the answer signal input from the battery pack 1 with the specific signal. If the answer signal and the specific signal are the same, the control unit 10 determines that the battery pack 1 is normal and the answer signal is the specific signal. If it is different from the above, it is determined that the battery pack is not a regular battery pack 1. Therefore, the calculation / control unit 7 of the regular battery pack 1 generates the same answer signal as the specific signal of the control unit 10.

  When the battery pack 1 is set in the electric device 2, the battery pack 1 and the electric device 2 perform the following operations as shown in FIGS. Judge authenticity. FIG. 2 is a flowchart showing the operation on the electric device side, and FIG. 3 is a flowchart showing the operation on the battery pack side.

[Electrical equipment side]
[Step of n = 1]
When the attachment of the battery pack 1 is detected, the control unit 10 selects the load 11 to obtain a predetermined load current. Further, the control unit 10 calculates and generates a specific signal corresponding to the load current. This process is a load current process.
[Step of n = 2]
An answer signal of the battery pack 1 is detected. This step is looped until an answer signal is input.
[Step n = 3]
An answer signal is input from the battery pack 1 to the electrical device 2 via the communication terminal 4.
[Step n = 4]
The control unit 10 compares the input answer signal with a specific signal. If the answer signal and the specific signal are the same signal, the attached battery pack 1 is determined to be a normal battery pack. If the answer signal is different from the specific signal, it is determined that the battery is not a regular battery pack. This step is an authenticity determination step.
[Step n = 5]
When the control unit 10 determines that the battery pack 1 is a regular battery pack, the control unit 10 operates the electric device 2 in a normal state.
[Step n = 6]
When the control unit 10 determines that the battery pack 1 is not a regular battery pack, the control unit 10 sets the electric device 2 not to operate or sets the operation state to the NG operation state as a limited operation state. The restricted operating state does not mean that the electric device 2 is not completely operated, but means that the electric device 2 is operated only within a limited range. For example, in this operation state, the battery temperature, battery voltage, overcurrent, etc. of the battery pack determined to be not a regular battery pack are detected, and the electric device is operated only within a range in which safety is ensured. it can. Therefore, when an abnormal temperature, abnormal voltage, or overcurrent is detected, the electric device 2 is not operated. Furthermore, in the limited operation state, the usage time of the battery pack 1 can be limited, the load 11 to be used can be limited, or it can be displayed that the battery pack 1 is not a regular battery pack.

[Packed battery side]
[Step of n = 1]
When the load current flows after being attached to the electric device 2, the load current is detected by the current detection unit 6.
[Step of n = 2]
The calculation / control unit 7 calculates an answer signal corresponding to the detected load current.
[Step n = 3]
The transmission / reception unit 8 outputs an answer signal to the electrical device 2 via the communication terminal 4.

It is a block diagram of a battery pack and an electric device used in the authentication method according to one embodiment of the present invention. It is a flowchart which shows the operation | movement by the side of the electric equipment in the authenticity determination method concerning one Example of this invention. It is a flowchart which shows the operation | movement by the side of the battery pack in the authenticity determination method concerning one Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Pack battery 2 ... Electric equipment 3 ... Power supply terminal 4 ... Communication terminal 5 ... Unit cell 6 ... Current detection part 7 ... Calculation / control part 8 ... Transmission / reception part 9 ... Transmission / reception part 10 ... Control part 11 ... Load

Claims (5)

A method for determining the authenticity of a battery pack (1) to be attached to and detached from an electric device (2),
When the battery pack (1) is attached to the electric device (2), the electric device (2) is connected via the positive and negative power terminals (3) connected to the battery pack (1) and the electric device (2). A load current process for supplying a predetermined load current, and a current value of the load current process is detected on the battery pack (1) side, and an answer signal corresponding to the load current is transmitted from the battery pack (1) to the electric device (2). A battery pack comprising an answer process for transmitting via the communication terminal (4) and an authenticity determination process for determining the authenticity of the battery pack (1) from the answer signal input from the battery pack (1) by the electric device (2). Authenticity judgment method.   The pack battery authenticity determination method according to claim 1, wherein in the load current step, the electric device (2) selects the load (11) to control the load current.   In the answering process, the battery pack (1) detects the load current of the electric device (2) by the current detector (6) for calculating the remaining capacity of the battery. Method.   The battery pack authenticity determination method according to claim 1, wherein in the answering step, the battery pack (1) outputs the detected current value to the electric device (2) as an answer signal. The battery pack authenticity determination method according to claim 1, wherein the battery pack (1) encrypts the detected current value and outputs the encrypted answer signal to the electric device (2) in the answering step.

Images