KR101128221B1 - Battery pack system - Google Patents

Abstract

PURPOSE: A battery pack system is provided to charge using both direct current(DC) and alternating current(AC) power sources, thereby effectively managing home appliances. CONSTITUTION: A battery pack system comprises a conversion unit(100) which converts power applied from outside to DC power supply, an interface part(2) which outputs the converted DC power supply as a battery pack, the battery pack(102) which includes battery management part(20) and is connected to the interface part, switching part which outputs the DC power supply according to switching of user, an output unit(110) which converts the DC power supply to the DC or AC power sources and outputs as electronic product, and a power management system(112) which checks administration and charge/discharge information of the interface unit and the battery pack.

Description

Battery pack system {battery pack system}

The present invention relates to a battery pack system, and more particularly, a battery in which an input power of a battery pack can be used as a direct current (AC) power source and an alternating current (DC) power source, and an output power source can also be output as a direct current power source and an AC power source. It is about a pack system.

Portable devices, such as laptop computers and PDAs, are supplied with commercial AC power using the adapter or with the power required by the product using the battery pack.

These portable devices are portable and are used for portable purposes.

Crab, size and battery pack care are vital.

The battery pack used in the portable device is a rechargeable secondary battery. In recent years, the development of portable, wireless electronics and electric vehicles has been increasing, and the need for a secondary battery having a high energy density is emerging for miniaturization and light weight of these products.

In addition, as interest in environmental conservation increases, so does interest in environmentally friendly products.

In this respect, the lithium ion secondary battery satisfies the above requirements. The lithium ion battery has many advantages such as high energy density, high operating voltage, long life, and excellent storage capacity.

Therefore, lithium ion secondary batteries have been widely applied to portable devices such as personal computers, camcorders, portable telephones, CD players, and PDAs.

1 is a view showing a first embodiment of a battery pack system according to the prior art.

As shown in FIG. 1, the battery pack system of the first embodiment according to the prior art is configured in the form of a cell array inside the battery pack 13. The charger unit 17 for charging the battery in the battery pack 13 is connected between the DC power input unit 1 that supplies charging power to the battery pack 13 and the battery pack 13.

The charger unit 17 includes a DC / DC switching unit 3 for converting a voltage and a current to be output through the DC power input unit 1 according to the charging power of the battery pack, and the battery pack ( 13, a current detector 11 for detecting the charging current of the battery 13 through the current sensor 5, a voltage detector 9 for detecting the voltage of the battery pack 13, the current detector 11 and a voltage detector ( 9) is provided with the current and voltage information of the battery pack, and controls to perform a constant current charge at a set constant current value until the voltage of the battery pack reaches 4.2V / cell voltage, the voltage of the battery pack is 4.2V When the / cell voltage is reached, it comprises a charge control unit 7 for controlling the constant voltage charging constant output voltage of the charger unit 17 to 4.2V / cell voltage.

2 is a view showing a second embodiment of a battery pack system according to the prior art.

As shown in Figure 2, the battery pack system of the second embodiment according to the prior art,

A DC power input unit 1 for applying DC power, an interface unit 2 connected to the DC power input unit 1 to apply DC power applied from the DC power input unit 1 to the battery pack, and the interface unit A battery pack 13 connected to (2) to charge the DC power applied from the interface unit 2, and applying the charged DC power to the interface unit 2, the interface unit 2 and the battery pack A battery management unit (BMS: Battery Management System) 20 is electrically connected to the 13 to manage the state of the interface unit 2 and the battery pack 13.

However, in the conventional battery pack system, the battery pack charges the input power by using a DC power source, and after charging, outputs the DC power by the output power. The battery pack cannot use the input power as an AC power source. there was.

In addition, the battery pack in the battery pack system has a problem that can not output the output power to the AC power.

The present invention has been made to solve the above problems, the purpose of which can be used as a direct current (AC) power supply and alternating current (DC) power supply of the battery pack, the output power can also be output to the DC power and AC power One battery pack system is there to help.

According to a feature of the present invention for achieving the above object,

Converting means (100) which receives power from the outside and converts the applied power into direct current power;

An interface unit (2) connected to the converting means (100), receiving DC power output from the converting means (100), and outputting the applied DC power to the battery pack;

It is connected to the interface unit 2 and has a battery management unit 20, the DC power output from the interface unit 2 is applied to charge the DC power, the charged DC power to the interface unit (2) An output battery pack 102;

A switching unit 104 connected to the interface unit 2 and receiving a DC power output from the battery pack 102 and outputting the applied DC power according to a user's switching;

Output means connected to the switching unit 104, when the user is switching, receives the DC power output from the switching unit 104, converts the applied DC power into a DC power or AC power to output to the connected electronic product ( 110);

A power management system (PMS) 112 electrically connected to the interface unit 2 and the battery pack 102 to check management and charge / discharge information of the interface unit 2 and the battery pack 102. It consists of.

In the battery pack system according to the present invention, the output power of the battery pack can be output by using a direct current (AC) power source and an alternating current (DC) power source, and the output power source can also be output by the direct current power source and the alternating current source, regardless of the input power source. There is an effect that the power can be output to the DC power and AC power.

In addition, the present invention has the effect that can be used as a general household AC power source (AC220V) as an input power source, there is an effect that can also be used for direct current energy (power source) generated from renewable energy, such as wind, solar, hydropower.

Therefore, the present invention can be charged with DC and AC input power and at the same time the output can also be output to DC and AC power, there is an effect that can efficiently operate home appliances.

1 is a view showing a first embodiment of a battery pack system according to the prior art,
2 is a view showing a second embodiment of a battery pack system according to the prior art;
3 is a view showing a first embodiment of a battery pack system according to the present invention;
4 is a view showing a second embodiment of a battery pack system according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the battery pack system according to the present invention.

3 is a view showing a first embodiment of a battery pack system according to the present invention.

As shown in Figure 3, the battery pack system of the first embodiment according to the present invention,

First DC / DC converter 96 which receives DC power from the outside, converts the applied DC power into DC power, and receives AC power from the outside, and converts the AC power supplied into DC power to output the DC power. Conversion means (100) having an AC / DC converter (98);

An interface unit (2) connected to the converting means (100), receiving DC power output from the converting means (100), and outputting the applied DC power to the battery pack;

It is connected to the interface unit 2 and has a battery management unit 20, the DC power output from the interface unit 2 is applied to charge the DC power, the charged DC power to the interface unit (2) An output battery pack 102;

A switching unit 104 connected to the interface unit 2 and receiving a DC power output from the battery pack 102 and outputting the applied DC power according to a user's switching;

When connected to the switching unit 104, when the user switches, the DC power output from the switching unit 104 is applied, and converts the applied DC power into DC power to the connected electronic products (not shown) DC power supply It is connected to the second DC / DC converter 106 and the switching unit 104 for outputting a user is supplied with a DC power output from the switching unit 104, when switching the user, and converts the applied DC power to AC power Output means 110 having a DC / AC converter 108 for outputting AC power to electronic products (not shown) connected to each other;

A power management system (PMS) 112 electrically connected to the interface unit 2 and the battery pack 102 to check management and charge / discharge information of the interface unit 2 and the battery pack 102. It consists of.

The operation of the battery pack system of the first embodiment configured as described above is as follows.

First, when DC power is applied from the outside,

The first DC / DC converter 96 receives DC power from the outside, converts the applied DC power into DC power, and outputs the DC power to the interface unit 2.

The interface unit 2 receives DC power output from the first DC / DC converter 96 and outputs the DC power to the battery pack 102.

Accordingly, the battery pack 102 is charged.

On the other hand, when AC power is applied from the outside,

The AC / DC converter 98 receives AC power from the outside, converts the applied AC power into DC power, and outputs the DC power to the interface unit 2.

The interface unit 2 receives DC power output from the AC / DC converter 98 and outputs the DC power to the battery pack 102.

Accordingly, the battery pack 102 is charged.

On the other hand, after connecting the electronics (not shown) to the output terminal of the second DC / DC converter 96, and connecting the switch of the switching unit 104 to the second DC / DC converter 96 side, The battery pack 102 starts the discharge (drive power of the electronic product),

The battery pack 102 outputs the charged DC power to the interface unit 2.

The interface unit 2 receives the DC power output from the battery pack 102 and outputs the DC power to the second DC / DC converter 96.

The second DC / DC converter 96 receives a DC power output from the interface unit 2, converts the applied DC power into DC power, and outputs the DC power to the electronic product.

Accordingly, the electronic product is driven.

On the other hand, after connecting the electronics (not shown) to the output terminal of the DC / AC converter 108, and connecting the switch of the switching unit 104 to the DC / AC converter 108 side, the battery pack 102 initiates the discharge (drive power of the electronics),

The battery pack 102 outputs the charged DC power to the interface unit 2.

The interface unit 2 receives DC power output from the battery pack 102 and outputs the DC power to the DC / AC converter 108.

The DC / AC converter 108 receives DC power output from the interface unit 2, converts the DC power to AC power, and outputs the DC power to the electronic product.

Accordingly, the electronic product is driven.

In addition, when the battery pack system is operated as described above,

The battery management system (BMS) 20 checks the state of the interface unit 2 and the battery pack 102, and the power management system (PMS) 112 is the interface unit 2; In addition to managing the charge / discharge information of the battery pack 102 to check.

4 is a view showing a second embodiment of a battery pack system according to the present invention.

As shown in Figure 4, the battery pack system of the second embodiment according to the present invention,

First DC / DC converter 96 which receives DC power from the outside, converts the applied DC power into DC power, and receives AC power from the outside, and converts the AC power supplied into DC power to output the DC power. Conversion means (100) having an AC / DC converter (98);

An interface unit (2) connected to the converting means (100), receiving DC power output from the converting means (100), and outputting the applied DC power to the battery pack;

It is connected to the interface unit 2 and has a battery management unit 20, the DC power output from the interface unit 2 is applied to charge the DC power, the charged DC power to the interface unit (2) An output battery pack 102;

A second DC / DC converter connected to the interface unit 2 and receiving DC power output from the interface unit 2 and converting the DC power to DC power to output DC power to the connected electronic products; 106 and an output unit 110 including a DC / AC converter 108 that receives the DC power output from the interface unit 2 and converts the DC power to AC power and outputs AC power to the connected electronic products. )and;

A power management system (PMS) 112 electrically connected to the interface unit 2 and the battery pack 102 to check management and charge / discharge information of the interface unit 2 and the battery pack 102. It consists of.

The operation of the battery pack system of the second embodiment configured as described above is as follows.

When DC power and AC power are applied from the outside,

The first DC / DC converter 96 receives DC power from the outside, converts the applied DC power into DC power, and outputs the DC power to the interface unit 2.

The AC / DC converter 98 receives AC power from the outside, converts the applied AC power into DC power, and outputs the DC power to the interface unit 2.

The interface unit 2 receives the DC power output from the first DC / DC converter 96 and the AC / DC converter 98, and outputs the applied DC power to the battery pack 102.

Accordingly, the battery pack 102 is charged.

On the other hand, when the electronics (not shown) is connected to the output terminal of the second DC / DC converter 96 and the output terminal of the DC / AC converter 108, the battery pack 102 is discharged (the Drive power)

The battery pack 102 outputs the charged DC power to the interface unit 2.

The interface unit 2 receives the DC power output from the battery pack 102 and outputs the DC power to the second DC / DC converter 96 and the DC / AC converter 108.

The second DC / DC converter 96 receives DC power output from the interface unit 2, converts the DC power to DC power, and outputs the DC power to the electronic product. The DC / AC converter 108 ) Receives a DC power output from the interface unit 2, converts the applied DC power into AC power and outputs the same to the electronic product.

Accordingly, the electronic product is driven.

In addition, when the battery pack system is operated as described above,

The battery management system (BMS) 20 checks the state of the interface unit 2 and the battery pack 102, and the power management system (PMS) 112 is the interface unit 2; In addition to managing the charge / discharge information of the battery pack 102 to check.

The invention being thus described, it will be obvious that the same way may be varied in many ways. Such modifications are intended to be within the spirit and scope of the invention as defined by the appended claims.

2: interface unit
20: battery management unit
96: first DC / DC converter
98: AC / DC Converter
100: conversion means
102: battery pack
104: switching unit
106: second DC / DC converter
108: DC / AC converter
110: output means
112: power management unit

Claims (3)

Converting means (100) which receives power from the outside and converts the applied power into direct current power;
An interface unit (2) connected to the converting means (100), receiving DC power output from the converting means (100), and outputting the applied DC power to the battery pack;
It is connected to the interface unit 2 and has a battery management unit 20, the DC power output from the interface unit 2 is applied to charge the DC power, the charged DC power to the interface unit (2) An output battery pack 102;
A switching unit 104 connected to the interface unit 2 and receiving a DC power output from the battery pack 102 and outputting the applied DC power according to a user's switching;
Output means connected to the switching unit 104, when the user is switching, receives the DC power output from the switching unit 104, converts the applied DC power into a DC power or AC power to output to the connected electronic product ( 110);
A power management system (PMS) 112 electrically connected to the interface unit 2 and the battery pack 102 to check management and charge / discharge information of the interface unit 2 and the battery pack 102. Battery pack system, characterized in that consisting of. First DC / DC converter 96 which receives DC power from the outside, converts the applied DC power into DC power, and receives AC power from the outside, and converts the AC power supplied into DC power to output the DC power. Conversion means (100) having an AC / DC converter (98);
An interface unit (2) connected to the converting means (100), receiving DC power output from the converting means (100), and outputting the applied DC power to the battery pack;
It is connected to the interface unit 2 and has a battery management unit 20, the DC power output from the interface unit 2 is applied to charge the DC power, the charged DC power to the interface unit (2) An output battery pack 102;
A switching unit 104 connected to the interface unit 2 and receiving a DC power output from the battery pack 102 and outputting the applied DC power according to a user's switching;
A second DC connected to the switching unit 104 and receiving a DC power output from the switching unit 104 when the user switches, and converts the applied DC power into DC power to output DC power to the connected electronic products. Is connected to the / DC converter 106 and the switching unit 104, when the user is switching, receives the DC power output from the switching unit 104, converts the applied DC power to AC power to the connected electronic products Output means 110 having a DC / AC converter 108 for outputting power;
A power management system (PMS) 112 electrically connected to the interface unit 2 and the battery pack 102 to check management and charge / discharge information of the interface unit 2 and the battery pack 102. Battery pack system, characterized in that consisting of.
First DC / DC converter 96 which receives DC power from the outside, converts the applied DC power into DC power, and receives AC power from the outside, and converts the AC power supplied into DC power to output the DC power. Conversion means (100) having an AC / DC converter (98);
An interface unit (2) connected to the converting means (100), receiving DC power output from the converting means (100), and outputting the applied DC power to the battery pack;
It is connected to the interface unit 2 and has a battery management unit 20, the DC power output from the interface unit 2 is applied to charge the DC power, the charged DC power to the interface unit (2) An output battery pack 102;
A second DC / DC converter connected to the interface unit 2 and receiving DC power output from the interface unit 2 and converting the DC power to DC power to output DC power to the connected electronic products; 106 and an output unit 110 including a DC / AC converter 108 that receives the DC power output from the interface unit 2 and converts the DC power to AC power and outputs AC power to the connected electronic products. )and;
A power management system (PMS) 112 electrically connected to the interface unit 2 and the battery pack 102 to check management and charge / discharge information of the interface unit 2 and the battery pack 102. Battery pack system, characterized in that consisting of.

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