KR20130075374A - Battery pack - Google Patents

Abstract

PURPOSE: A battery pack is provided to allow users to use batteries with safe and convenience by communicating additional information functions including battery life prediction, remaining battery indication, a battery equivalenting agent, and battery protection function etc. CONSTITUTION: A battery pack comprises a battery module (100) charging or discharging electricity, a battery management system (200) preventing over-charge or over-discharge of the battery of the battery module by electrically connecting with the battery module and communicating additional information functions including battery life prediction, remaining battery indication, a battery equivalenting agent, and battery protection function etc., charge/discharge output connector (300) connecting electrically with the battery management system and a charger connector (400) electrically connecting with the battery management system.

Description

Battery Pack {battery pack}

The present invention relates to a battery pack commonly used in electric wheelchairs, electric bicycles, electric motorcycles, robot vacuum cleaners, and the like, and more specifically, consisting of a battery module and a battery management system, the remaining battery display other than the battery protection function, battery life prediction, The present invention relates to a battery pack capable of communicating additional information functions such as battery equalization control and battery usage time prediction with an upper controller.

Automobiles that use internal combustion engines that use gasoline or heavy oil as the main fuel have a serious impact on pollution such as air pollution.

Therefore, in recent years, in order to reduce the occurrence of pollution, a lot of efforts have been made in the development of electric wheelchair, electric bicycle, electric motorcycle, robot cleaner.

The electric wheelchair, electric bicycle, electric motorcycle, robot cleaner, etc. uses a battery pack formed of a pack of a plurality of secondary cells that can be charged and discharged as a main power source, there is no exhaust gas and noise This has a very small advantage.

Here, the battery pack, as shown in Figure 1, the battery module 10 for charging and discharging electricity, the battery protection electrically connected to the battery module 10 to protect the battery module 10 A circuit module (PCM: Protection Circuit Module) (20), and the battery connector 30 is electrically connected to the battery protection circuit module 20 is large.

However, as shown in FIG. 1, the battery protection circuit module blocks a charging current and a discharge current by using a field effect transistor (FET) so that the battery of the battery module is not overcharged or overdischarged.

The battery protection circuit module has a problem of simply performing a battery protection function.

Accordingly, the present invention has been made in order to solve the above problems according to the prior art, an object of the present invention consists of a battery module and a battery management system battery remaining indicator other than the battery protection function, battery life prediction, battery The present invention provides a battery pack capable of communicating additional information functions, such as equality control and battery usage time estimation, with an upper controller.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

Battery pack according to the present invention for achieving the above object,

A battery module 100 for charging and discharging electricity;

It is electrically connected to the battery module 100 to prevent the battery of the battery module 100 from being overcharged and over discharged, and the additional information functions of battery remaining indication, battery life prediction, battery equality control, and battery usage time prediction are higher. A battery management system (BMS) 200 capable of communicating with a controller;

A charge / discharge output connector 300 that is electrically connected to and communicates with the battery management system 200;

And a charger connector 400 electrically connected to the battery management system 200.

As described above, the battery pack according to the present invention is composed of a battery module and a battery management system to complement the additional information functions such as battery remaining indication, battery life prediction, battery equality control, battery usage time prediction, etc. By enabling communication with the controller, there is an effect that allows the user to use the battery more conveniently and safely.

1 is a schematic configuration diagram of a battery pack according to the prior art,
2 is a schematic configuration diagram of a battery pack according to the present invention.

Hereinafter, a preferred embodiment of the battery pack according to the present invention will be described. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 is a schematic configuration diagram of a battery pack according to the present invention.

As shown in Figure 2 battery pack according to the present invention,

A battery module 100 for charging and discharging electricity;

It is electrically connected to the battery module 100 to prevent the battery of the battery module 100 from being overcharged and over discharged, and the additional information functions of battery remaining indication, battery life prediction, battery equality control, and battery usage time prediction are higher. A battery management system (BMS) 200 capable of communicating with a controller;

A charge / discharge output connector 300 that is electrically connected to and communicates with the battery management system 200;

And a charger connector 400 electrically connected to the battery management system 200.

In addition, the one side of the battery module 100, the thermistor 500 for measuring the temperature of the battery is electrically installed, the cell sensing wire 502 for sensing the battery cell is electrically installed.

On the other hand, the battery management system 200,

A battery monitoring and equalization control circuit 504 electrically connected to the thermistor 500 and the cell sensing wire 502 to measure the voltage of the battery and to control the equalization of the battery;

A shunt resistor (506) electrically connected between the battery module (100) and a charge / discharge output connector (300) for measuring current of the battery module (100);

A main CPU 508 electrically connected to the battery monitoring and equalization control circuit 504 to perform various operations and control of the battery management system according to a preset program;

An MCU power circuit 510 electrically connected to the main CPU 508 to supply driving power to the main CPU 508;

The current measurement circuit 512 is electrically connected between the shunt resistor 506 and the main CPU 508 and measures the current of the shunt resistor 506 according to the control signal of the main CPU 508 and sends the current to the main CPU 508. )Wow;

A short sensing circuit 514 electrically connected between the shunt resistor 506 and the main CPU 508 to sense a short of the battery according to a control signal of the main CPU 508;

A display unit 516 electrically connected to the main CPU 508 and switched on according to a control signal of the main CPU 508 to display a remaining amount of battery, a battery life prediction time, and a battery usage time; ;

An FET 518 electrically connected between the battery module 100 and the charger connector 400 to block the charge current and the discharge current so that the battery of the battery module 100 is not overcharged or overdischarged;

A FET driving circuit 520 electrically connected between the main CPU 508 and the FET 518 to drive the FET 518 according to a control signal of the main CPU 508;

A charger sensing circuit 522 electrically connected between the charger connector 400 and the main CPU 508 to sense whether the charger is coupled according to a control signal of the main CPU 508;

Is electrically connected between the charge / discharge output connector 300 and the main CPU 508 to detect whether a load is connected to or disconnected from the charge / discharge output connector 300 according to a control signal of the main CPU 508. A load sensing circuit 524,

A 1-wire communication circuit electrically connected to the main CPU 508 for communicating additional information functions of the host controller with battery level indication, battery life prediction, battery life time prediction according to a control signal of the main CPU 508 ( 526).

Referring to the operation of the battery pack configured as described above are as follows.

First, when driving power is supplied from the MCU power circuit 510 to the main CPU 508, the main CPU 508 sends a control signal to the battery monitoring and equalization control circuit 504.

The battery monitoring and equalization control circuit 504 sends a signal to the thermistor 500. Accordingly, the thermistor 500 sends the temperature value of the battery to the battery monitoring and equalization control circuit 504.

The battery monitoring and equalization control circuit 504 sends a signal to the cell sensing wire 502. Accordingly, the cell sensing wire 502 senses a battery cell and sends the voltage of the battery to the battery monitoring and equalization control circuit 504.

The battery monitoring and equalization control circuit 504 controls equal charging of the cell battery cells.

In addition, the shunt resistor 506 changes the amount of current at the time of battery charging / discharging to a voltage, and the current measuring circuit 512 measures the current applied to the shunt resistor 506 according to the control signal of the main CPU 508, The measured current is sent to the main CPU 508.

When the short current flows through the shunt resistor 506 according to the control signal of the main CPU 508, the short sensing circuit 514 detects the interrupt signal to the main CPU 508 faster than the current measuring circuit 512. Send to block FET 518.

Here, referring to the operation of the FET 518, the main CPU 508 sends a control signal to the FET driving circuit 520. As a result, the FET driving circuit 520 turns on the FET 518. At this time, the FET 518 blocks the charge current and the discharge current.

Then, the charger sensing circuit 522 detects whether the charger is coupled according to the control signal of the main CPU 508, and then sends the sensed detection value to the main CPU 508.

The load detection circuit 524 detects whether a load is connected to or disconnected from the charge / discharge output connector 300 according to the control signal of the main CPU 508, and then loads the detected value into the main CPU 508. Send to.

On the other hand, the display unit 516 is switched on according to the control signal of the main CPU 508 to display the remaining amount of the battery, the battery life prediction time, the battery usage time by the LED.

In addition, the 1-wire communication circuit 526 communicates an additional information function of the battery level display, battery life prediction, and battery usage time prediction with the host controller according to the control signal of the main CPU 508.

The foregoing description of the invention is merely exemplary of the invention and is used for the purpose of illustration only and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: battery module 200: battery management system
300: charge / discharge output connector 400: connector
500: Thermistor 502: cell sensing wire
504: Battery monitoring and equality control circuit
506: Shunt Resistance 508: Main CPU
510: MCU power circuit 512: current measurement circuit
514: short detection circuit 516: display
518: FET 520: FET drive circuit
522: charger detection circuit 524: load detection circuit
526: 1-wire communication circuit

Claims (3)

A battery module 100 for charging and discharging electricity;
It is electrically connected to the battery module 100 to prevent the battery of the battery module 100 from being overcharged and over discharged, and the additional information functions of battery remaining indication, battery life prediction, battery equality control, and battery usage time prediction are higher. A battery management system (BMS) 200 capable of communicating with a controller;
A charge / discharge output connector 300 that is electrically connected to and communicates with the battery management system 200;
Battery pack, characterized in that consisting of a charger connector 400 electrically connected to the battery management system (200).
The method of claim 1,
On one side of the battery module 100,
The battery pack, characterized in that the thermistor (500) for measuring the temperature of the battery is electrically installed, the cell sensing wire (502) for sensing the battery cell is electrically installed.
The method of claim 1,
The battery management system 200,
A battery monitoring and equalization control circuit 504 electrically connected to the thermistor 500 and the cell sensing wire 502 to measure the voltage of the battery and to control the equalization of the battery;
A shunt resistor (506) electrically connected between the battery module (100) and a charge / discharge output connector (300) for measuring current of the battery module (100);
A main CPU 508 electrically connected to the battery monitoring and equalization control circuit 504 to perform various operations and control of the battery management system according to a preset program;
An MCU power circuit 510 electrically connected to the main CPU 508 to supply driving power to the main CPU 508;
The current measurement circuit 512 is electrically connected between the shunt resistor 506 and the main CPU 508 and measures the current of the shunt resistor 506 according to the control signal of the main CPU 508 and sends the current to the main CPU 508. )Wow;
A short sensing circuit 514 electrically connected between the shunt resistor 506 and the main CPU 508 to sense a short of the battery according to a control signal of the main CPU 508;
A display unit 516 electrically connected to the main CPU 508 and switched on according to a control signal of the main CPU 508 to display a remaining amount of battery, a battery life prediction time, and a battery usage time; ;
An FET 518 electrically connected between the battery module 100 and the charger connector 400 to block the charge current and the discharge current so that the battery of the battery module 100 is not overcharged or overdischarged;
A FET driving circuit 520 electrically connected between the main CPU 508 and the FET 518 to drive the FET 518 according to a control signal of the main CPU 508;
A charger sensing circuit 522 electrically connected between the charger connector 400 and the main CPU 508 to sense whether the charger is coupled according to a control signal of the main CPU 508;
Is electrically connected between the charge / discharge output connector 300 and the main CPU 508 to detect whether a load is connected to or disconnected from the charge / discharge output connector 300 according to a control signal of the main CPU 508. A load sensing circuit 524,
A 1-wire communication circuit electrically connected to the main CPU 508 for communicating additional information functions of the host controller with battery level indication, battery life prediction, battery usage time prediction according to a control signal of the main CPU 508 ( A battery pack, characterized in that consisting of 526.

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