KR101717201B1 - Device Having Function of Controlling Discharge Current of Battery - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device having a discharge control function of a battery, and more particularly, A battery for driving the device body; An impedance transmitter for transmitting an amount of impedance used in the device body to the battery firmware; A current / voltage transmitter for transmitting an amount of a current and a voltage currently being discharged from the battery to the battery firmware; Battery firmware for calculating the maximum power (Pmax) and the maximum current (Imax) in consideration of the impedance, the current current, and the current power; A memory for storing the calculated maximum power and maximum current; A current detecting unit for detecting a discharge current and an amount of electric power supplied from the battery; And a discharge control unit for controlling the supply of excess voltage from the battery to the device main body when the amount of discharge current and power detected by the current detecting unit is equal to or greater than a maximum power or a maximum current stored in the memory A device and a discharge control method for the battery are provided.

Description

[0001] The present invention relates to a device having a discharge control function of a battery (Device Having Function of Controlling Discharge Current of Battery)

The present invention relates to a device having a discharge control function of a battery and a discharge control method.

The Turbo Boost function means that the processor automatically increases the operating frequency above the displayed reference clock to enable faster processing when the processor is operating below the specified power, current, and temperature specification limits.

In a system using a turbo boost function in a device such as a conventional notebook computer, data of maximum power and maximum current calculated by the battery firmware is received in the system and the battery is controlled to be discharged only to the degree of discharge.

Fig. 1 is a block diagram showing a configuration of a conventional device.

Referring to FIG. 1, a conventional device includes a device body 100 and a battery 110. The amount of impedance of the device body 100 is transmitted to the battery firmware 140 through the impedance transmission unit 130. The amount of current and voltage of the battery 110 is supplied to the battery firmware 140 through the current / . The battery firmware 140 receiving the data on the impedance and the current and voltage amounts through the impedance transmission unit 130 and the current / voltage transmission unit 120 calculates the maximum power and maximum current values usable by the device , And stores the value in the memory 150.

However, when the device uses the turbo boost function, even if the battery uses the value of the calculated maximum power and the maximum current or more due to the change of the external environment and the overloaded impedance from the device, the device and the battery do not perform any action, There is a problem in that undervoltage protection is caused by falling to a voltage lower than a possible voltage and the system is shut down during use.

Therefore, there is a high need for a technology that can more reliably adjust the system power when using the turbo boost function of the device by solving such a problem.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art and the technical problems required from the past.

Specifically, an object of the present invention is to provide a function for controlling discharge of a battery by checking and controlling power and current in use by the battery when the turbo boost function is used in a device using the turbo boost function.

According to an aspect of the present invention,

Device body;

A battery for driving the device body;

An impedance transmitter for transmitting an amount of impedance used in the device body to the battery firmware;

A current / voltage transmitter for transmitting an amount of a current and a voltage currently being discharged from the battery to the battery firmware;

Battery Firmware that calculates the maximum power (P _max ) and the maximum current (I _max ) in consideration of the impedance, the current current and the current power;

A memory for storing the calculated maximum power and maximum current;

A current detecting unit for detecting a discharge current and an amount of electric power supplied from the battery; And

A discharge control unit controlling the supply of excess voltage from the battery to the device body when the amount of discharge current and power detected by the current detection unit is equal to or greater than a maximum power or a maximum current stored in the memory;

And a control unit.

Specifically, such a device may be one that uses a Turbo Boost function.

Here, the impedance means a load caused by driving the device or using the program, and the current and the current power mean the current and power flowing from the battery when the device is normally used. The discharge current and the power use the turbo boost function Quot; means a current and a power discharged from the battery when the battery is discharged. Further, the current power is calculated by the formula of the amount of current and voltage transmitted from the current / voltage transmitting unit and P (power) = V (voltage) x I (current).

As described above, the device of the present invention compares the maximum power and the maximum current calculated in consideration of the impedance, the current current, and the current power in the battery firmware with the amount of the discharge current and the power detected by the current detection unit when the turbo boost function is used And has a function of controlling the supply of excess voltage from the battery to the device main body when the amount of the discharge current and the power exceeds the maximum power and the maximum current. Therefore, when the conventional device is used at a voltage higher than the maximum voltage and the maximum voltage that can be used due to the external environment change and the overloaded impedance from the device when the turbo boost function is used, The problem of shutdown can be solved.

In one specific example, the device body may be selected from a notebook computer body, a netbook body, or a tablet PC body, and the battery may be a lithium secondary battery, but is not limited thereto.

In one specific example, the discharge control section may further include a DFET control section for controlling a function of a Discharging Field Effective Transistor (DFET). Where the DFET is a transistor that regulates the discharge of the battery and the DFET control intercepts the DFET when the battery is used above the maximum power or maximum current value while the charger is connected to the device to prevent the battery from being used to the undervoltage Role.

In addition, in the case where the charger is not connected to the device, in order that the user can connect the charger, the discharge control unit may control the charging of the charging device to the device body when the power or current detected by the current detecting unit is greater than the maximum power or the maximum current stored in the memory And a signal transmitter for transmitting an alarm signal. The device body includes a signal receiver for receiving a signal transmitted from the signal transmitter, and a display unit.

The alarm signal from the signal transmitting unit may be transmitted to the display unit as an alarm. In detail, the alarm may be a warning message displayed on the display unit. More specifically, the alarm may be a warning sound And the like.

Here, the warning phrase may be configured to disappear when the user confirms and takes appropriate action, for example, a phrase such as " connect charger " or " turn off unused programs ".

Through these devices, the present invention also provides a method for controlling the discharge of a battery in the device.

The discharge control method of the battery is, specifically,

Calculating a maximum power and a maximum current by the battery firmware through a value transmitted from the impedance transmitter and the current / voltage transmitter, and storing the maximum power and the maximum current in a memory;

Detecting the amount of the discharge current supplied from the battery by the current detection unit; And

When the detected amount of the discharge current is equal to or greater than the maximum current stored in the memory or the amount of power supplied from the battery is equal to or greater than the maximum power stored in the memory, Do not step;

. ≪ / RTI >

As described above, by including the step of preventing the excess voltage from being supplied to the device body through the discharge control section, the discharge of the battery can be controlled.

The discharge control method of the battery further includes the steps of: when the power or current detected by the current detecting unit is equal to or greater than the maximum power or the maximum current stored in the memory and the charger is not connected to the battery, Wherein the current detection unit detects a current or an electric current of the battery or the battery or the battery or the battery, And the DFET controller may control the DFET.

As described above, the discharge control method of a battery according to the present invention can effectively prevent the discharge of the battery and the shutdown of the device according to the situation by using a different control method depending on whether the battery is connected to the charger or not. have.

As described above, in the device according to the present invention, when the amount of discharge current and power detected by the current detection unit when the device main body uses the turbo boost function of the device is greater than or equal to the maximum power or the maximum current calculated from the battery firmware And a discharge control unit for controlling the supply of excess voltage from the battery to the device main body. In comparison with a device in which the method for controlling battery discharge according to the turbo boost function has not been provided, the battery can be discharged even when the turbo boost function is used It is possible to prevent the battery from being used up to a low voltage and therefore it is possible to prevent the problem that the device is shut down during use due to the discharge of the battery when the turbo boost function of the device is used, The stability of the device can be ensured.

1 is a block diagram showing a configuration of a conventional device;
2 is a block diagram showing a configuration of a device of the present invention;
3 is a flowchart showing a method of controlling the battery discharge of the device of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited by the scope of the present invention.

2 is a block diagram showing a configuration of a device having a discharge control function of a battery according to the present invention.

2, the device mainly includes a device body 200 and a battery 210. Specifically, the amount of impedance of the device body 200, and the amount of current and voltage of the battery 210, A current / voltage transmitter 220 for transmitting the current and voltage to the battery 240, an impedance transmitter 230 for transmitting the current and voltage to the battery 240, a current / voltage transmitter 220 for transmitting the current and voltage, And a memory 250 in which the values calculated from the firmware 240 and the battery firmware 240 are stored.

Further, the device includes a current detector 260 for detecting a discharge current discharged from the battery 210 when the device uses the turbo boost function, and a controller 260 for controlling the amount of discharge current and power detected by the current detector 260, And a discharge control unit 270 for comparing the maximum electric power or the maximum electric current value stored in the storage unit.

The discharge control unit 270 further includes a DFET control unit 271 that performs a discharge control function of the battery itself when the battery 210 is connected to a charger (not shown).

The discharge control unit 270 includes a separate signal transmission unit 280. The device main body 200 includes a signal reception unit 201 receiving an alarm signal transmitted from the signal transmission unit 280, (Not shown) is connected to the battery 210, it is possible to prevent the user from discharging the battery by including a display unit 202 for displaying a warning message when an alarm signal is transmitted to the battery 210 .

FIG. 3 is a flow chart for explaining a battery discharge control method of a device according to the present invention.

Referring to FIG. 3 together with FIG. 2, when the battery firmware 240 calculates the maximum electric power and the maximum electric current value A in consideration of the current used by the battery and the impedance of the device body, The calculated information is stored in the memory 250 (S100).

Next, when the device uses the turbo boost function, the current detection unit 260 detects the discharge current and the amount of power B discharged from the battery (S 110).

At this time, the maximum electric power and the maximum electric current value A are compared with the discharge electric current and the electric power amount B (S 120) If it is smaller than or equal to the threshold value, the process returns to S110 to detect the discharge current and the amount of power (B). That is, steps S 110 and S 120 are repeatedly performed.

However, as a result of comparison between the maximum power and maximum current value A at step S 120 and the amount B of discharge current and power, the amount B of discharge current and power is larger than the maximum power and maximum current value A , The discharge controller 270 controls discharge of the battery (S 130).

At this time, whether or not the battery charger is connected to the battery is checked (S 140). When the charger is connected to the battery, the DFET controller 271 in the discharge controller 270 controls the DFET (S 150) The discharge of the battery is cut off (S 160).

On the other hand, if the battery is not connected to the charger, the discharge control unit 270 transmits an alarm signal to the signal receiving unit 201 of the device main body 200 through the signal transmitting unit 280 (S 170).

Then, a warning is displayed on the display unit 202 of the device main body 200 according to the transmitted alarm signal (S 180).

As described above, the device of the present invention compares the maximum power and the maximum current calculated in consideration of the impedance, the current current and the current power in the battery firmware, the amount of the discharge current and the power detected by the current detection unit when using the turbo boost function, And has a function of controlling the supply of excessive voltage from the battery to the device main body when the amount of the discharge current and the power exceeds the maximum power and the maximum current.

Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

Claims (13)

A method for controlling discharge of a battery in a device,
Calculating a maximum power and a maximum current by the battery firmware through a value transmitted from the impedance transmitter and the current / voltage transmitter, and storing the maximum power and the maximum current in a memory;
Detecting the amount of the discharge current supplied from the battery by the current detection unit;
When the detected amount of the discharge current is equal to or greater than the maximum current stored in the memory or the amount of power supplied from the battery is equal to or greater than the maximum power stored in the memory, Do not step; And
Controlling the DFET controller to control the DFET when the power or current detected by the current detector is greater than a maximum power or maximum current stored in the memory and a charger is connected to the battery;
Lt; / RTI >
The device comprising:
Device body;
A battery for driving the device body;
An impedance transmitter for transmitting an amount of impedance used in the device body to the battery firmware;
A current / voltage transmitter for transmitting an amount of a current and a voltage currently being discharged from the battery to the battery firmware;
Battery Firmware that calculates the maximum power (P _max ) and the maximum current (I _max ) in consideration of the impedance, the current current and the current power;
A memory for storing the calculated maximum power and maximum current;
A current detecting unit for detecting a discharge current and an amount of electric power supplied from the battery; And
A discharge control unit controlling the supply of excess voltage from the battery to the device main body when the amount of discharge current and power detected by the current detecting unit is equal to or greater than a maximum power or a maximum current stored in the memory;
And discharging the battery. The method according to claim 1, wherein the device body is selected from a notebook computer body, a netbook body, or a tablet PC body. The method according to claim 1, wherein the battery is a lithium secondary battery. The method according to claim 1, wherein the device uses a turbo boost function. The method according to claim 1, wherein the discharge controller further comprises a DFET controller for controlling a function of a DFET (Discharging Field Effective Transistor). The apparatus of claim 1, wherein the discharge control unit further comprises a signal transmission unit for transmitting an alarm signal to the device body when the power or current detected by the current detection unit is greater than a maximum power or a maximum current stored in the memory And a discharge control method of the battery. The method according to claim 6, wherein the device body comprises a signal receiving unit for receiving a signal transmitted from the signal transmitting unit, and a display unit. 7. The method according to claim 6, wherein the alarm signal is transmitted as an alarm to the display unit. The method according to claim 8, wherein the alarm is a warning message displayed on the display unit. 10. The method according to claim 9, wherein the alarm is transmitted in parallel with a warning sound. delete A method for controlling discharge of a battery in a device,
Calculating a maximum power and a maximum current by the battery firmware through a value transmitted from the impedance transmitter and the current / voltage transmitter, and storing the maximum power and the maximum current in a memory;
Detecting the amount of the discharge current supplied from the battery by the current detection unit; And
When the detected amount of the discharge current is equal to or greater than the maximum current stored in the memory or the amount of power supplied from the battery is equal to or greater than the maximum power stored in the memory, Do not step;
Lt; / RTI >
Further comprising the step of the signal transmitter transmitting an alarm signal to the device body when the power or current detected by the current detector is greater than or equal to the maximum power or maximum current stored in the memory and the charger is not connected to the battery,
The device comprising:
Device body;
A battery for driving the device body;
An impedance transmitter for transmitting an amount of impedance used in the device body to the battery firmware;
A current / voltage transmitter for transmitting an amount of a current and a voltage currently being discharged from the battery to the battery firmware;
Battery firmware for calculating the maximum power (Pmax) and the maximum current (Imax) in consideration of the impedance, the current current, and the current power;
A memory for storing the calculated maximum power and maximum current;
A current detecting unit for detecting a discharge current and an amount of electric power supplied from the battery; And
A discharge control unit controlling the supply of excess voltage from the battery to the device main body when the amount of discharge current and power detected by the current detecting unit is equal to or greater than a maximum power or a maximum current stored in the memory;
And discharging the battery. delete

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