KR101254687B1 - Protective circuit of secondary cell and method for controlling thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a secondary battery protection circuit, and more particularly, to a secondary battery protection circuit and a control method thereof capable of controlling charge and discharge operations of a secondary battery according to the voltage of the secondary battery. The secondary battery protection circuit according to the present invention includes: sensing means to which the voltage of the secondary battery is applied; A thermistor selectively conducting / blocking the current path of the secondary battery according to whether current is applied; And a microcontroller configured to control an operation according to a charge / discharge mode of a secondary battery by applying a current to the thermistor according to an abnormal voltage of the voltage sensed by the sensing means. According to the present invention, it is possible to reduce the manufacturing cost of the protection circuit of the secondary battery, and there is an effect of improving productivity resulting from the reduction of the manufacturing cost.

Secondary Battery, Secondary Battery Protection Circuit, Charge Current, Discharge Current

Description

Secondary battery protection circuit and its control method {PROTECTIVE CIRCUIT OF SECONDARY CELL AND METHOD FOR CONTROLLING THEREOF}

The following drawings attached to this specification are illustrative of the preferred embodiments of the present invention, and together with the detailed description of the invention to serve to further understand the technical spirit of the present invention, the present invention is a matter described in such drawings It should not be construed as limited to.

1 is a circuit diagram showing a secondary battery protection circuit according to an embodiment of the present invention.

2 is a flowchart illustrating a control method of a secondary battery protection circuit according to an exemplary embodiment of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS OF THE DRAWINGS

10: battery pack 20: secondary battery protection circuit

21: microcontroller 22: thermistor

C1: sensing means Cell: secondary battery

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a secondary battery protection circuit, and more particularly, to a secondary battery protection circuit and a control method thereof capable of controlling charge and discharge operations of a secondary battery according to the voltage of the secondary battery.

In general, as the demand for portable electronic products such as video cameras, portable telephones, portable PCs, etc. increases rapidly, and development of electric vehicles, energy storage batteries, robots, satellites, etc. is in earnest, high performance capable of repetitive charging and discharging is possible. Research on secondary batteries is intensively conducted.

Commercially available secondary batteries include nickel cadmium batteries, nickel hydride batteries, nickel zinc batteries, and lithium secondary batteries. Among them, lithium secondary batteries have no memory effect and are free to charge and discharge, and have a very low self discharge rate. In addition, it has a high energy density, which is advantageous for miniaturization and light weight. A brief description of a conventional secondary battery protection circuit that controls the charge and discharge current of such a secondary battery is as follows.

First, the conventional secondary battery protection circuit senses the voltage across the secondary battery cell, and when an abnormal voltage is generated, shuts off the charging current in the charging mode or the discharge current in the discharge mode. At this time, the field effect transistor (FET) provided on the current flow path is turned on / off in order to conduct / block the charge current and the discharge current depending on the mode.

However, in the case of the conventional secondary battery protection circuit, two field effects, such as a first field effect transistor that conducts / blocks the charging current in the charging mode, and a second field effect transistor that conducts / blocks the discharge current in the discharge mode, Since a transistor is required, there is a problem that the manufacturing cost increases.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object thereof is to provide a secondary battery protection circuit and a control method thereof capable of controlling the charging / discharging operation of the secondary battery according to the voltage of the secondary battery. .

Another object of the present invention is to provide a secondary battery protection circuit and a method of controlling the secondary battery that can stop the charging and discharging operation of the secondary battery when the charging voltage of the secondary battery is excessively increased or the discharge voltage is excessively decreased. It is.

In addition, another object of the present invention is to provide a secondary battery protection circuit and a control method thereof to block current flow of a secondary battery when an overcurrent occurs in a flow path of a charge / discharge current of the secondary battery.

In addition, another object of the present invention is to provide a secondary battery protection circuit and a control method thereof to reduce the manufacturing cost of the circuit for controlling the charging and discharging operation of the secondary battery.

The present invention for achieving the above object, the sensing means to which the voltage of the secondary battery is applied; A thermistor selectively conducting / blocking the current path of the secondary battery according to whether current is applied; And a microcontroller configured to control an operation according to a charge / discharge mode of a secondary battery by applying a current to the thermistor according to an abnormal voltage of the voltage sensed by the sensing means.

Preferably, the microcontroller is configured to compare a sensed voltage with a reference voltage in the charge / discharge mode, determine whether an abnormal voltage is determined according to the comparison result, and apply a current to the thermistor when the voltage is an abnormal voltage.

Preferably, the microcontroller compares the magnitude of the sensed charging voltage with the first reference voltage in the charging mode, and if the charging voltage is less than or equal to the first reference voltage, performs the operation of the charging mode. As a result of the comparison, when the charging voltage is equal to or greater than the first reference voltage, a current for interrupting the current flow in the charging mode is applied to the thermistor. In the discharge mode, the magnitude of the sensed discharge voltage and the second reference voltage are compared, and When the discharge voltage is greater than or equal to the second reference voltage, the control is performed to perform the operation of the discharge mode. When the discharge voltage is less than or equal to the second reference voltage, the current is blocked by the discharge mode. It is configured to apply.

Preferably, the thermistor operates independently to block the current path of the secondary battery by increasing the resistance when the secondary battery current is overcurrent.

In addition, the present invention for achieving the above object, in the control method of the secondary battery protection circuit for controlling the charge-discharge mode of the secondary battery by providing a thermistor in the current flow path of the secondary battery, the secondary battery Sensing the voltage of the circuit; Applying a current to a thermistor according to whether the sensed voltage is abnormal; And in response to whether the current is applied, the thermistor selectively conducts / blocks the current path of the secondary battery.

Preferably, applying the current to the thermistor comprises: comparing the sensed voltage and the reference voltage in the charge / discharge mode; It is determined whether the abnormal voltage according to the comparison result and applying a current to the thermistor when the abnormal voltage.

Preferably, the process of applying a current to the thermistor compares the magnitude of the sensed charging voltage with the first reference voltage in the charging mode, and if the charging voltage is less than or equal to the first reference voltage, the operation of the charging mode is performed. And performing a control to perform a current, and if the charging voltage is equal to or greater than a first reference voltage, applying a current to the thermistor to block the current flow due to the charging mode; In the discharge mode, the sensed discharge voltage is compared with the magnitude of the second reference voltage. When the discharge voltage is greater than or equal to the second reference voltage, the control is performed to perform the operation of the discharge mode. If the voltage is less than or equal to the second reference voltage, applying a current to the thermistor to block the current flow in the discharge mode.

Preferably, the process of selectively conducting / blocking the current path of the secondary battery in response to whether the current is applied, may independently block the current path of the secondary battery by increasing the resistance when the current of the secondary battery is greater than the overcurrent. A step is made.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in this specification and claims should not be construed as being limited to the ordinary or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that it can be defined, it should be interpreted as a concept and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely 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.

It should be noted that in the following description, only parts necessary for understanding the operation and operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

In addition, in the following description, specific details of the secondary battery protection circuit and control method thereof of the present invention are shown to provide a more general understanding of the present invention. It will be apparent to one of ordinary skill in the art that the present invention may be readily practiced without these specific details and also by their modifications.

In the following description, the abnormal voltage will be immediately used to mean a charging voltage or a discharging voltage capable of generating an abnormality of the secondary battery by excessively increasing the charging voltage sensed by the secondary battery or excessively decreasing the discharge voltage. In addition, in the following description, the first reference voltage will be immediately used to mean a reference voltage capable of determining whether the secondary battery generates heat and explodes in the charging mode. In addition, in the following description, the second reference voltage will be immediately used to mean a reference voltage capable of determining whether the secondary battery generates heat and explodes in the discharge mode.

In addition, in the following description, it should be noted that the thermistor is limited to a static thermistor which blocks the current flow path due to an increase in resistance when a current is applied.

On the other hand, the secondary battery protection circuit and the control method of the present invention senses the voltage of the secondary battery cell and the thermistor is provided on the secondary battery current flow path when the sensed voltage is excessively increased or excessively decreased By applying a current to the rapid increase the resistance, a technical configuration that can block the charge current or discharge current is proposed.

1 is a circuit diagram illustrating a secondary battery protection circuit according to an exemplary embodiment of the present invention.

Referring to FIG. 1, first, the battery pack 10 is connected to the secondary battery protection circuit 20 to be a pack in which a secondary battery Cell charged and discharged is mounted.

The secondary battery protection circuit 20 is a secondary battery under the control of the sensing means (C1) for sensing the voltage according to the charge-discharge mode, the microcontroller 21 for controlling the charge-discharge mode and the microcontroller 21 And a thermistor 22 for switching the current path of the cell.

The sensing means C1 is applied with a voltage at both ends of the secondary battery Cell. In addition, the sensing means C1 is applied with at least one of the charge voltage and the discharge voltage of the secondary battery according to the charge / discharge mode.

The microcontroller 21 senses the voltage across the secondary battery by the sensing means C1. In addition, the microcontroller 21 compares the charging voltage of the sensed secondary battery (Cell) with the magnitude of the first reference voltage in the charging mode. As a result of the comparison, when the charging voltage is greater than or equal to the first reference voltage, the charging voltage is determined to be an abnormal voltage in which the voltage is excessively increased to control to cut off the current path of the secondary battery. In addition, the microcontroller 21 compares the magnitude of the discharge voltage and the second reference voltage of the sensed secondary battery Cell in the discharge mode. As a result of the comparison, when the charging voltage is less than or equal to the second reference voltage, the charging voltage is determined to be an abnormal voltage in which the voltage drops excessively, and the current path of the secondary battery is blocked. At this time, the microcontroller 21 applies a current to the thermistor 22 to block the current path of the secondary battery Cell. The microcontroller 21 determines whether the current is applied according to whether the negative temperature coefficient (NTC) thermistor or the positive temperature coefficient (PTC) thermistor is used to determine the current path of the current of the secondary battery. Control to block.

The thermistor 22 selectively conducts / blocks current flow of the secondary battery according to whether the microcontroller 212 is applied with current. In addition, the thermistor 22 independently blocks the charge / discharge current path of the secondary battery by increasing the resistance when a short circuit in the secondary battery or an excessive charge / discharge current corresponding thereto occurs. . Here, the detailed description of the general characteristics of the thermistor 22 will be omitted. In addition, when the thermistor 22 is a positive temperature characteristic thermistor as described above, when a current is applied from the microcontroller 21, heat is generated by Joule heat and the temperature rises above the threshold temperature, thereby rapidly increasing the resistance. It blocks the flow of charge / discharge currents of the secondary battery. However, in the case of the negative temperature characteristic thermistor, on the contrary, the charge / discharge current flows in the secondary battery.

Referring to Figure 1, the operation of the protection circuit of the secondary battery is as follows.

First, in the charging mode or the discharge mode, the microcontroller 21 senses the voltage (charge voltage or discharge voltage) of both ends of the secondary battery (Cell) through the sensing means (C1). Thereafter, the microcontroller 21 compares the magnitude of the sensed voltage between both ends and the reference voltage. The magnitude comparison of the voltage between the both ends and the reference voltage is different in operation and action depending on the charging mode and the discharge mode.

In the charging mode, the microcontroller 21 compares the sensed charging voltage with the magnitude of the first reference voltage. If the sensed charging voltage is less than or equal to the first reference voltage, the microcontroller 21 controls to perform the charging mode operation. . Accordingly, the charging operation of the secondary battery is performed. However, when the charging voltage is greater than or equal to the first reference voltage, the microcontroller 21 judges that the charging voltage is excessively increased and the current flows into the thermistor 22 so as to block the charging current flow in the charging mode. Apply. Thus, the thermistor 22 blocks the charging current path according to the device characteristics.

Meanwhile, the microcontroller 21 compares the magnitude of the sensed discharge voltage and the second reference voltage in the discharge mode, and if the sensed discharge voltage is greater than or equal to the second reference voltage, perform the operation in the discharge mode. To control. As a result, the discharge operation of the secondary battery Cell is performed. However, when the discharge voltage is less than the second reference voltage, the microcontroller 21 determines the abnormal voltage at which the discharge voltage falls excessively, so that the current flows into the thermistor 22 so as to block the discharge current flow in the discharge mode. Apply. Thus, the thermistor 22 blocks the discharge current path according to the device characteristics.

2 is a flowchart illustrating a control method of a secondary battery protection circuit according to an embodiment of the present invention.

Referring to FIG. 2, in operation 201, the microcontroller 21 performs an overall operation according to a charge mode or a discharge mode according to the battery residual voltage of a secondary battery.

In this case, in step 203, the microcontroller 21 senses the charge voltage of the rechargeable battery in the charging mode or the discharge voltage of the rechargeable battery in the discharge mode.

In operation 205, the microcontroller 21 compares the magnitude of the sensed charging voltage with the first reference voltage in the charging mode.

As a result of the comparison, if the charging voltage is less than or equal to the first reference voltage, in step 207, the microcontroller 21 recognizes that the charging voltage of the secondary battery Cell can be normally operated and the current is supplied to the thermistor 22. Do not authorize.

Thus, in step 209, the microcontroller 21 controls the overall operation by the charging mode in which the charging current path is provided through the thermistor 22. At this time, the switching state of the thermistor 22 becomes a conducting state which provides a path of the charging current.

However, if the comparison result shows that the charging voltage is greater than or equal to the first reference voltage, the microcontroller 21 recognizes that excessive voltage rise has occurred in step 211 and applies a current to the thermistor 22.

Then, in step 213, the thermistor 22 blocks the charging current flow path by increasing the resistance by the applied current.

In operation 215, the microcontroller 21 compares the sensed discharge voltage with the magnitude of the second reference voltage in the discharge mode.

As a result of the comparison, when the discharge voltage is greater than or equal to the second reference voltage, in step 217, the microcontroller 21 recognizes that the discharge mode of the secondary battery is normally operated and does not apply current to the thermistor 22. Do not.

Thus, in step 219, the microcontroller 21 controls the overall operation by the discharge mode in which the discharge current path is provided through the thermistor 22. At this time, the switching state of the thermistor 22 becomes a conducting state which provides a path of discharge current.

However, if the discharge voltage is less than the second reference voltage as a result of the comparison, the microcontroller 21 recognizes that excessive voltage drop has occurred in step 221 and applies a current to the thermistor 22.

Thereafter, in step 223, the thermistor 22 blocks the discharge current flow path by increasing the resistance by the applied current.

In addition, when the short-circuit inside the secondary battery or an excessive charge / discharge current corresponding thereto occurs during the operation in the above-described charging / discharging mode, the resistance of the thermistor 22 increases to thereby charge / discharge current of the secondary battery. Block paths independently

Accordingly, the secondary battery protection circuit and a control method thereof according to the present invention sense the voltage between the both ends of the secondary battery during the operation according to the charging mode or the discharge mode of the secondary battery (Cell), the sensing in the charging mode If the voltage at both ends is greater than or equal to the first reference voltage, the charging current is cut off. In the discharge mode, if the sensed voltage between both ends is less than the second reference voltage, it is recognized as an excessively falling voltage and blocks the flow of the discharge current, causing the secondary battery to generate heat from the abnormal voltage of the secondary battery and the explosion due to the heat generated. Can be prevented in advance.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

As described in detail above, in the present invention, when the charging voltage of the secondary battery is excessively increased or the discharge voltage is excessively reduced, the secondary battery by the abnormal voltage can be stopped by stopping the charging and discharging operation of the secondary battery. It is effective to prevent the heat generated by the heat and explosion of the heat.

In addition, when the charge and discharge current is overcurrent, it is possible to block the charge and discharge current flow of the secondary battery according to the characteristics of the thermistor provided in the flow path of the charge and discharge current of the secondary battery independently, By preventing the occurrence of a short circuit or the corresponding overcurrent in advance, there is an effect that can prevent the heat generated by the secondary battery and the explosion due to the heat generated.

In addition, by selectively conducting / blocking the charge / discharge current of the secondary battery using a thermistor, the manufacturing cost of the circuit controlling the charge / discharge operation of the secondary battery can be reduced, and the productivity improvement resulting from the reduction of the manufacturing cost can be achieved. There is.

Claims (18)

Sensing means to which a voltage of the secondary battery is applied; A thermistor selectively conducting / blocking the current path of the secondary battery according to whether current is applied; And a microcontroller configured to control an operation according to a charge / discharge mode of a secondary battery by applying a current to the thermistor depending on whether an abnormal voltage of the voltage sensed by the sensing means is applied. . The method according to claim 1, The microcontroller, In the charging and discharging mode, the secondary battery protection circuit device is configured to compare the sensed voltage with a reference voltage, determine whether an abnormal voltage is determined according to the comparison result, and apply a current to the thermistor when the voltage is abnormal. . The method according to claim 1, The microcontroller, In the charging mode, the sensing voltage is sensed and the magnitude of the first reference voltage is compared. When the charging voltage is less than or equal to the first reference voltage, the control is performed to perform the operation of the charging mode. If the voltage is equal to or greater than the first reference voltage, a current is applied to the thermistor to block the current flow due to the charging mode. In the discharge mode, the sensed discharge voltage is compared with the magnitude of the second reference voltage. When the discharge voltage is greater than or equal to the second reference voltage, the control is performed to perform the operation of the discharge mode. The secondary battery protection circuit device, characterized in that configured to apply a current to the thermistor to cut off the current flow in the discharge mode if the second reference voltage or less. The method of claim 3, The first reference voltage is, The secondary battery protection circuit device, characterized in that the reference voltage that can determine whether the heat generation and explosion of the secondary battery in the charging mode. The method of claim 3, The second reference voltage is, The secondary battery protection circuit device, characterized in that the reference voltage that can determine whether the heat generation and explosion of the secondary battery in the discharge mode. The method according to claim 1, The abnormal voltage is, The secondary battery protection circuit device, characterized in that the charge voltage or the discharge voltage which can cause an abnormality of the secondary battery by excessively increasing the charge voltage sensed or the discharge voltage is excessively reduced. The method according to claim 1, The thermistor is, The secondary battery protection circuit device, characterized in that to operate independently to block the current path of the secondary battery by increasing the resistance when the current of the secondary battery is over current. 8. The method of claim 7, The overcurrent is A secondary battery protection circuit device, characterized in that the charge and discharge current due to a short circuit inside the secondary battery. The method according to claim 1, The thermistor is, A secondary battery protection circuit device, characterized in that it is a negative temperature coefficient (NTC) thermistor or a positive temperature coefficient (PTC) thermistor. In the control method of the secondary battery protection circuit for providing a thermistor in the current flow path of the secondary battery to control the charge and discharge mode of the secondary battery, Sensing a voltage of the secondary battery; Applying a current to a thermistor according to whether the sensed voltage is abnormal; And thermistor selectively conducting / blocking the current path of the secondary battery in response to the application of the current. The method of claim 10, The process of applying a current to the thermistor, Comparing the sensed voltage with a reference voltage in the charge / discharge mode; And determining whether or not an abnormal voltage is determined according to the comparison result, and applying a current to the thermistor when the voltage is an abnormal voltage. The method of claim 10, The process of applying a current to the thermistor, In the charging mode, the sensing voltage is sensed and the magnitude of the first reference voltage is compared. When the charging voltage is less than or equal to the first reference voltage, the control is performed to perform the operation of the charging mode. Applying a current to the thermistor to cut off the current flow in the charging mode when the voltage is equal to or greater than the first reference voltage; In the discharge mode, the sensed discharge voltage is compared with the magnitude of the second reference voltage. When the discharge voltage is greater than or equal to the second reference voltage, the control is performed to perform the operation of the discharge mode. And applying a current to the thermistor to cut off the current flow in the discharge mode, if the second reference voltage is less than or equal to the second reference voltage. 13. The method of claim 12, The first reference voltage is, The control method of the secondary battery protection circuit, characterized in that the reference voltage that can determine whether the heat generation and explosion of the secondary battery in the charging mode. 13. The method of claim 12, The second reference voltage is, The control method of the secondary battery protection circuit, characterized in that the reference voltage that can determine whether the heat generation and explosion of the secondary battery in the discharge mode. The method of claim 10, The abnormal voltage is, The control method of the secondary battery protection circuit, characterized in that the charging voltage sensed by the secondary battery is excessively increased or the discharge voltage is excessively lowered to cause an abnormality of the secondary battery. . The method of claim 10, The process of selectively conducting / blocking the current path of the secondary battery in response to whether the current is applied, When the current of the secondary battery is greater than the overcurrent, the resistance is increased, the control method of the secondary battery protection circuit comprising the step of independently blocking the current path of the secondary battery. The method of claim 16, The overcurrent is A method of controlling a secondary battery protection circuit, wherein the secondary battery is a charge / discharge current due to a short circuit inside the secondary battery, or a charge / discharge current corresponding thereto. The method of claim 10, The thermistor is, Negative Temperature Coefficient (NTC) thermistor or Positive Temperature Coefficient (PTC) thermistor.

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