KR200359024Y1 - Battery charger capable of individual charging - Google Patents

Abstract

The present invention relates to a device for charging a cell assembly in which a plurality of cells are connected in series with each other, the plurality of power supply members being provided corresponding to each cell to apply DC power to both ends of the cell; And a main processor selectively operating the power supply member in accordance with the voltage detection value across the cell to control charging of each cell individually and evenly.

According to the present invention, by overcharging a plurality of cells connected in series evenly, overcharge, overdischarge, low charge phenomenon, and the like can be prevented.

Description

Battery Charger with Individual Charging {BATTERY CHARGER CAPABLE OF INDIVIDUAL CHARGING}

The present invention relates to a battery charging device, and more particularly, to a battery charging device for uniformly charging a cell assembly in which a plurality of cells are connected in series.

In addition to portable terminals such as laptops, various products that use charging power, such as heavy equipment, electric vehicles, and power tools, are equipped with a power supply unit having a cell assembly in which a plurality of cells are connected in series to ensure proper operating voltage and charging capacity. It is common to be.

In order to charge a cell assembly of a series connection type, a charging device suitable for the same needs to be configured. In the related art, as shown in FIG. 1, a plurality of cells are connected by applying power to both outermost ends of the cell assembly 10. The charging device 1 for controlling charge in a batch has been widely used.

However, since the charging device 1 having the above configuration is configured to perform a charging or discharging operation collectively without considering capacity difference or impedance difference between cells, unlike other cells, it is overcharged or not fully charged. There are vulnerabilities such as the existence of a cell that stops power supply. That is, due to manufacturing errors, each cell is manufactured with different charge / discharge characteristics. Therefore, when a plurality of cells connected in series are charged in a batch, each cell is charged at different charge amounts and voltage levels, resulting in voltage deviation. Done.

Such charging unevenness may eventually cause overdischarge and adversely affect the life of the battery, and deteriorate the quality of the battery, such as decreasing the charging capacity or obtaining the required operating voltage.

Although, alternatively, as disclosed in Korean Utility Model Registration No. 189819 (battery pack capable of balanced charging of cells), a technique of controlling a power supply by providing a switch for each cell has been proposed. It is true that the reliability of the charging control is limited in consideration of the response characteristics, and especially in the case of bypassing the current flowing through the cell during full charging, when any one of the plurality of switches is abnormal. There is a vulnerability in which the function of the entire charging device is paralyzed.

The present invention was devised to solve the above problems, and to provide a battery charger for equal charging by supplying power individually to a plurality of cells connected in series, which form a cell assembly. There is this.

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 present 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 block diagram showing the configuration of a battery charging apparatus according to the prior art.

Figure 2 is a block diagram showing the configuration of a battery charging apparatus according to a preferred embodiment of the present invention.

3 is a flowchart illustrating the operation of a battery charging apparatus according to a preferred embodiment of the present invention.

<Description of main reference numerals in the drawings>

10 ... cell assembly 100 ... power supply member

101 ... Current Regulator 102 ... PM

103 ... main processor 104 ... reading means

In order to achieve the above object, a battery charging apparatus according to the present invention includes a plurality of cells that charge a cell assembly connected to each other in series. Power supply member; And a main processor for selectively charging control of each cell by selectively operating the power supply member according to the voltage detection value across the cell.

Preferably, a switching mode power supply (SMPS) may be employed as the power supply member.

Additionally, the present invention may further include a PCM interposed between each cell and the power supply member to protect the cell from overcharging.

In the constant current charging mode, the charging voltage of the power supply member is preferably set higher than the full voltage of the cell.

Preferably, the present invention may further include a current regulator interposed between each PC and the power supply member to maintain a constant current.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing the configuration of a battery charging apparatus according to a preferred embodiment of the present invention.

Referring to FIG. 2, a battery charger according to an exemplary embodiment of the present invention includes a power supply member 100 provided corresponding to each cell 11 constituting the cell assembly 10, and a voltage across the cell 11. The main processor 103 controls the operation of each power supply member 100 according to the detected value.

The cell assembly 10 is composed of a plurality of cells 11 connected in series to provide an appropriate charge capacity and discharge voltage for the operation of the product, the discharge end is the outermost ends (see A, B) do. As the cell 11 constituting the cell assembly 10, a secondary battery such as a conventional lithium ion battery or a lithium polymer (LiPo) battery may be employed.

The power supply member 100 is a power supply for selectively applying DC power of an appropriate voltage for charging the cell 11 to both ends of each cell 11, and as many as the number corresponding to the number of cells 11. It is provided. The power supply member 100 is preferably a modularized switching mode power supply (SMPS) that receives the AC power from the outside and converts it into direct current (DC) output, but the present invention is limited thereto. Of course, various types of DC power supply can be used.

The main processor 103 selectively charges the cells 11 evenly by selectively turning on / off each of the power supply members 100 according to the voltage detection values across the cells 11. To this end, it is preferable that reading means 104 for detecting a voltage is connected at both ends of each cell 11 to detect the charging voltage at both ends of the cell 11 and transfer it to the main processor 103. Here, the reading means 104 may employ various known voltage / current detection means.

Preferably, a conventional CC-CV charging algorithm may be employed in the battery charger of the present invention. Here, in the constant current (CC) charging mode, the charging voltage of the power supply member 100 is set to a higher voltage than the full charge voltage inherent in the cell 11 so that sufficient current flows even in the last section of the CC charging mode. It is desirable to. For example, when the full voltage of each cell 11 is 4.2V, the charging voltage applied to the cell 11 by the power supply member 100 may be set to about 6V.

In addition, when switching from the constant current charging mode to the constant voltage (CV) charging mode, an overcharge phenomenon may be prevented from occurring due to an error of the main processor 103 or an excessive charging voltage of the power supply member 100. A protection circuit module (PCM) 102 may be further interposed between the cell 11 and the power supply member 100.

In addition, a current regulator 101 (Current Regulator) is interposed between each PC 102 and the power supply member 100 to maintain a constant current flowing from the power supply member 100 to the cell 11. It is desirable to maintain.

Next, an operation of the battery charging apparatus according to the preferred embodiment of the present invention will be described with reference to FIG. 3.

When the SMPSs, which are the power supply member 100, are turned on by the control action of the main processor 103, a charging algorithm is performed while voltages are applied to both ends of the cell 11 corresponding to each SMPS (step). S100).

Subsequently, the charging voltage of each cell 11 according to the charging algorithm is detected by the reading means 104 and transmitted to the main processor 103 (step S110), and the main processor 103 sets a predetermined charging voltage set value. And the detected value for each cell 11 is compared to determine whether or not the full state (step S120).

As a result of the determination, when the voltage detection value reaches the set value, the main processor 103 selectively turns off the corresponding SMPS to stop charging of the corresponding cell 11 (steps S130 and S140). ).

On the other hand, in the case of the low charge state in which the voltage detection value does not reach the set value, the main processor 103 selectively maintains the turn-on state of the corresponding SMPS to continue charging the corresponding cell 11 (step S150). And step S160).

Preferably, the charging operation follows the CC-CV charging algorithm. In the constant current charging mode, the charging voltage applied to the corresponding cell 11 from each SMPS is set to be higher than the full voltage of the cell 11 so that the constant current charging is performed. Sufficient current flows to the last section of the mode. When switching from the constant current charging mode to the constant voltage charging mode, an overcharge phenomenon may occur due to the action of the PC 102 and the current regulator 101 added between the cell 11 and the SMPS. The occurrence of abnormal current is prevented.

In the above, preferred embodiments of the present invention have been described with reference to the accompanying drawings. Here, the terms or words used in the present specification and claims should not be construed as being limited to ordinary or dictionary meanings, but should be construed as meanings and concepts corresponding to the technical spirit of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical ideas of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

According to the present invention, since each of the cells which are connected in series to form a cell assembly is individually charged, the cells can be charged evenly without occurrence of overcharge or low charge.

In addition, according to the present invention, a sufficient current can be supplied when the CC-CV charging algorithm is employed, thereby reducing the charging time. I can protect it.

Therefore, when the present invention is used as a charging device such as a lithium polymer battery pack, the charging power can be stably supplied, and further, the reliability of the operation of the product in which the battery pack is used can be secured.

Claims (5)

A battery charger for charging a cell assembly in which a plurality of cells are connected in series with each other, A plurality of power supply members provided corresponding to each cell to apply DC power to both ends of the cell; And And a main processor configured to selectively charge-control each cell by selectively operating the power supply member according to the voltage detection value across the cell. The method of claim 1, The battery charging device, characterized in that the power supply member is a switching mode power supply (SMPS). The method according to claim 1 or 2, The PC charging device further comprises a PCM (PCM) interposed between each cell and the power supply member to protect the cell from overcharge and the like. The method of claim 3, wherein Battery charging apparatus, characterized in that the charging voltage of the power supply member is set higher than the full voltage of the cell in the constant current charging mode. The method of claim 3, wherein And a current regulator interposed between each PC and the power supply member to maintain a constant current.