KR101580061B1 - Expandable cycler apparatus - Google Patents

Abstract

The present invention relates to an expandable cycler device. More specifically, provided is the expandable cycler device which forms expandable cycler modules for charging or discharging a variety of secondary batteries and combines output voltages and currents of various levels by combinations of serial and parallel connection of the cycler modules.

Description

EXPANDABLE CYCLER APPARATUS [0001]

The present invention relates to an expandable type scyper device, and more particularly, to an expandable type scycher device which can form an expandable cycler module for charging and discharging various secondary cells, and a plurality of cyclic modules are connected in series and parallel connection, The present invention relates to an expansion type scyper device capable of combining a voltage and a current.

The use of secondary batteries is expected to increase dramatically due to the dissemination of electric vehicles, and it is essential that a battery can be charged and discharged efficiently, such as a secondary battery. The cycler can be used to check whether the secondary battery is normally manufactured by charging and discharging the battery. The output voltage and the current of the charge / discharge unit are different according to the type of the secondary battery to be used and the number of cells in the secondary battery.

Conventional cyclers are designed and manufactured according to user orders, and it is necessary to redesign the cyclers and perform function verification every time in order to develop a cyclurer suitable for the specific output voltage and current required by the user. In the case of various output voltages and currents of various batteries, it is troublesome to redesign and perform function verification suitable for each time. In addition to wasting unnecessary manpower, time and budget, it can not respond quickly to the market, which causes the competitiveness of foreign companies to deteriorate.

Korean Patent No. 10-1336763 (Feb.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a secondary battery module in which a plurality of secondary modules are connected in series and parallel And to provide an expansion type scyper device capable of combining output voltages and currents of various levels in combination.

According to an aspect of the present invention, there is provided an expansion type scyper comprising: an operating PC; And a plurality of cyclic modules communicating with the operating PC, wherein the operating PC connects the plurality of cyclic modules in a combination of a series connection and a parallel connection according to a required output voltage and current, One of the clerk modules is set as a master cyclator module, and the remaining cyclic modules are set as a slave cyclic module, and the plurality of cyclic modules are connected in a daisy chain manner to transmit commands and collect data .

Wherein each of the plurality of cyclic modules includes a communication module and a master / slave setting unit for communicating with the operating PC and other cyclic modules and setting a master / slave mode; A cyclone for performing a charging / discharging operation of the secondary battery; And a voltage current connection circuit unit connected to the operating PC and configured to switch the connection of the output voltage terminal and the output current terminal of the cicller to establish a serial connection and a parallel connection.

Wherein the cyclone comprises: a sensing unit for sensing the output voltage and current of the battery by feedback; A control unit for controlling the charging and discharging operations of the battery so that charging and discharging are performed with the set voltage and current and controlling the constant voltage and constant current output of the battery by comparing the fed voltage and current with the set voltage and current; A charge / discharge driver for providing the feedback voltage and current to the controller and outputting a drive voltage for controlling the output current drive according to the voltage and current set by the controller; A relay unit for selecting and setting one of a battery charge signal and a discharge signal corresponding to data transmitted from the control unit; An LED unit for indicating a charge / discharge state of the battery under the control of the control unit; A power unit for supplying power; And a TR unit which is supplied with the power of the power unit and operates according to a charge / discharge signal set by the relay unit and drives the output current of the battery according to the level of the drive voltage output from the charge / discharge drive unit.

Wherein the operating PC and the plurality of cyclic modules operate by transmitting and receiving protocol frames, the protocol frames including a receiving module address field indicating a destination address, a sending module address field indicating a sending destination address, A command field, a data field including voltage and current, and a CRC field for error correction.

According to the present invention, a cyclic module can be formed so as to be expandable for charging and discharging various secondary cells, and a plurality of cyclic modules can be combined with output voltages and currents of various levels by a combination of serial connection and parallel connection. Therefore, it is not necessary to redesign the cicller every time to develop a cicller suitable for a specific voltage and current, thereby eliminating time-consuming re-design, reducing manufacturing cost, and promptly responding to the market.

1 is a block diagram of an internal block of a cyclic module according to the present invention.
Fig. 2 is a block diagram of an expandable scrambler including the cyclator module of Fig. 1
Fig. 3 is a connection configuration diagram of the expansion type scy-
FIG. 4 is a view showing a frame configuration used in the expandable type scyper device according to the present invention

The present invention relates to a secondary battery process equipment charging / discharging device, and it is possible to configure a product having a voltage and a current required by a consumer by connecting a plurality of cicycle modules after designing the most basic charging / discharging device, Which is provided with an expanding type scyper device.

First, the modular board must have a master board (master cycler module), which controls all slave boards (slave crawler modules) and several crawler modules should behave as if they were one crawler. Then there must be a communication line and protocol between this slave board and the master board. All information on each slave board must be recognized by the master board and all commands issued from the master board must be acknowledged. Finally, a voltage-current connection for output voltage and current combinations is required.

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

1 is a block diagram of an internal block of a cyclic module according to the present invention. The crocler module 100 according to the present invention includes a sensing unit 120, a control unit 110, a charge / discharge driving unit 122, a relay unit 130, an LED unit 150, a power unit 160, (140). The main board is a module with several connectors for inserting each module.

The sensing unit 120 includes a voltage sensing unit 121 and senses an output voltage and current of the battery 500 such as a secondary battery by feedback and provides the sensed voltage to the charge and discharge driving unit 122. [ The charge / discharge drive unit 122 converts the sensed voltage and current into a voltage level that can be calculated by the A / D converter circuit 112 of the control unit 110, and provides the voltage and current to the A / D converter circuit 112.

The controller 110 controls the charging and discharging operations of the battery so that charging and discharging are performed with the set voltage and current. The constant voltage and the constant current of the battery are controlled by comparing the feedback voltage and the current with the set voltage and current to prevent overcharging and low charging.

Also, the controller 110 outputs the voltage and current set through the D / A converters 113 and 114 to the charge and discharge driver 122.

The charging / discharging driver 122 outputs a driving voltage (Power Drive) for controlling the output current driving to the TR unit 140 according to the set voltage and current provided from the controller 110.

The relay unit 130 selects and sets one of the battery charge signal and the discharge signal in response to the data transmitted from the MCU 111 of the control unit 110. The LED unit 140 controls the MCU 111 The state of charge / discharge of the battery 500 is displayed. The power unit 160 supplies power to the cycler module.

The TR unit 140 receives the power of the power unit 160 and operates according to a charge and discharge signal set by the relay unit 130. The TR unit 140 operates according to the level of the drive voltage output from the charge and discharge drive unit 122, ). ≪ / RTI >

As shown in FIG. 1, when a cyclic module is constituted and a combination of cyclic modules is used, the voltage and the current to be charged / discharged to / from each cell of the secondary battery must be controlled so that one cyclocycle operates , A communication module capable of collecting all necessary information and communicating information. An output voltage connection terminal and an output current connection terminal capable of combining the respective cyclic modules must be provided and a device for preventing errors in connection should be provided.

Fig. 2 is a block diagram of an expansion type scrambler including the cyclator module of Fig. 1;

The expandable modularized scychronizer 200 according to the present invention includes a communication module and a master / slave setting unit 220 and a voltage / current connection circuit unit 230 in a cyclic module 210 including the block configuration of FIG. As shown in FIG.

In FIG. 2, the communication module and the master / slave setting unit 220 use RS-485 communication or other pseudo serial communication, but may be connected in a daisy chain manner so that an extended interpolation connection can be made easily. The communication module and master / slave setting unit 220 have a communication relay function and can set whether the board 200 operates in the master mode or the slave mode. A simple processor is built in for master mode and slave mode operation. The expandable scrambler device may have at least one master board (master cycler module) and up to 15 slave boards (slave cycle modules).

2, the voltage-current connection circuit unit 230 is a switch module for setting the output voltage terminal and the output current terminal to one of a parallel connection and a serial connection. The output voltage and current can be adjusted according to this switch setting.

3 is a diagram illustrating a connection configuration of the expansion type scyper device according to the present invention.

An example in which a plurality of cyclic modules are connected is shown. The master cycler module 310 is always connected to the operating PC or control computer 400 to control all expandable cycler boards. The master scribe board 310 is connected to the slave board # 1 320 via RS-485 communication. The master scribe board 310 is connected to another slave board and connected to the slave board # 15 330 . Commands sent by the operating PC are transmitted to slave board # 15.

4 is a frame configuration diagram used in an expandable type scyper device according to the present invention.

The operating PC 400 and the plurality of cyclic modules 310, 320, and 330 transmit and receive protocol frames to control the charging and discharging of the battery.

The protocol frame includes a receive module address field indicating a destination address, a send module address field indicating a sender address, a command field including a command to be executed, a data field including voltage and current, and a CRC field for error correction .

One frame is composed of 24 bytes, the reception module address field is 4 bytes, the transmission module address field is 4 bytes, the command field is 4 bytes, the data field is 8 bytes, and the CRC field is 4 bytes.

The send / receive address consists of 0000 - FFFF (hexadecimal). In the case of the command field, 3 bytes are the command format and 1 byte is the command for charge / discharge. Among them, FFF (hexadecimal number) represents a broadcast command, and is an instruction to broadcast to all boards.

The data field includes voltage and current collected by each of the cycler modules 310, 320, and 330, and includes voltage and current to be discharged.

The CRC field is for data error checking and performs 1-bit error correction.

The expandable type scyper device according to the present invention can make an extensible modularized scramble and combine the output voltage and current required by the user. For example, a modular cycler with an output of 15V 10A can be fabricated and then a four-modular board can be used to construct a cycler with a 60V 40A output. The extensible modularized cicller prevents unnecessary design for charging and discharging various secondary cells, enables quick entry into the market, and has exceptional market competitiveness.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. will be. Therefore, it should be understood that the above-described embodiments are illustrative and non-restrictive in every respect. Therefore, the true scope of the present invention should be determined by the following claims.

100: Cycler module 110:
120: sensing unit 122: charge / discharge drive unit
130: relay unit 140: TR unit
150: LED unit 160: power unit

Claims (4)

Operating PC; And
And a plurality of cyclic modules communicating with the operating PC,
The operating PC connects the plurality of the cycler modules according to a required output voltage and current in a combination of serial connection and parallel connection, sets one of the plurality of connected cycler modules as a master cycler module, As a slave cycler module,
The plurality of cyclic modules are connected in a daisy chain manner to transmit commands and collect data,
Wherein each of the plurality of cyclic modules includes:
And a cyclone for performing a charging / discharging operation of the secondary battery,
Wherein the cyclone comprises:
A sensing unit that receives and senses the output voltage and current of the battery;
A control unit for controlling the charging and discharging operations of the battery so that charging and discharging are performed with the set voltage and current and controlling the constant voltage and constant current output of the battery by comparing the fed voltage and current with the set voltage and current;
A charge / discharge driver for providing the feedback voltage and current to the controller and outputting a drive voltage for controlling the output current drive according to the voltage and current set by the controller;
A relay unit for selecting and setting one of a battery charge signal and a discharge signal corresponding to data transmitted from the control unit;
An LED unit for indicating a charge / discharge state of the battery under the control of the control unit;
A power unit for supplying power; And
And a TR unit which is supplied with power of the power unit and operates by a charge / discharge signal set from the relay unit and drives an output current of the battery according to a level of the drive voltage outputted from the charge / discharge drive unit.
2. The apparatus of claim 1, wherein each of the plurality of cyclic modules includes:
A communication module and a master / slave setting unit for communicating with the operating PC and other cyclic modules and setting a master / slave mode; And
And a voltage current connection circuit unit connected to the operating PC and configured to switch the connection of the output voltage terminal and the output current terminal of the cycler to establish a serial connection and a parallel connection.
delete The method according to claim 1,
Wherein the operating PC and the plurality of cyclic modules transmit and receive protocol frames,
The protocol frame includes a receiving module address field indicating a destination address, a transmission module address field indicating a transmission destination address, a command field including a command to be executed, a data field including voltage and current, and a CRC field for error correction And an expandable scyper device.

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