KR100682754B1 - Mp3 play apparatus and method of driving the same - Google Patents

Abstract

The present invention relates to an MP3 play apparatus for lowering luminance and displaying a warning message on a panel when a battery falls below a predetermined capacity. The MP3 player includes a panel, a battery capacity unit, a memory, and a driver. The panel includes a plurality of pixels formed in an area where data lines and scan lines cross each other. The battery capacity unit is connected to a battery to detect the capacity of the battery, and transmits battery capacity information having information on the detected capacity of the battery. The memory stores battery capacity information transmitted from the battery capacity unit. The driving driver adjusts a bias driving voltage and a bias current according to the battery capacity information transmitted from the memory through the battery capacitor, and applies a data current corresponding to the adjusted bias current to the data lines. Here, when the MP3 player is turned off after being turned off, the battery capacity information indicates information about the battery capacity just before the MP3 player is turned off. Have The MP3 play apparatus according to the present invention lowers the bias driving voltage and bias current and displays a warning message on the panel when the capacity of the battery drops to a predetermined capacity, so that the user can appropriately cope with the reduction of the battery.

MP3, battery, brightness, bias drive voltage, bias current

Description

MP3 PLAY APPARATUS AND METHOD OF DRIVING THE SAME}

1 is a block diagram showing an MP3 play apparatus according to an embodiment of the present invention.

FIG. 2 is a view illustrating a drive driver and a panel of FIG. 1.

3 is a block diagram illustrating a data driver of FIG. 2.

4 is a circuit diagram illustrating the bias driving voltage controller of FIG. 3.

The present invention relates to an MP3 play device and a method of driving the same, and more particularly, to an MP3 play device for lowering the brightness and displaying a warning message on a panel when the battery falls below a predetermined capacity and a method of driving the same.

The MP3 play device uses an alkaline battery as a device for executing an MP3 file, for example, an MP3 player or an MP3 phone.

In general, an MP3 player emits a panel (eg, an organic electroluminescent device panel) with a constant brightness until the battery is exhausted.

That is, the MP3 player emits the panel with the same brightness regardless of the capacity of the battery.

In addition, when the capacity of the battery falls below a predetermined capacity, the MP3 player suddenly goes down. This is due to the characteristics of the alkaline battery that suddenly goes down when below a predetermined capacity.

In addition, when the MP3 player is turned off and after a predetermined time has elapsed, the MP3 player suddenly consumes a lot of battery to drive the panel.

For example, suppose that the MP3 player is down when the capacity of the battery is 10%, and that 4% of battery is consumed when the MP3 player is turned on.

When the capacity of the battery immediately before the MP3 player was turned off was 14%, the MP3 player was shut down due to sudden battery drain as soon as it was turned on.

As a result, data could be lost, and the user could not cope with sudden down of the MP3 player.

Therefore, there is a need for an MP3 play device and a method of driving the same that can properly cope with sudden down of the battery when it is turned on after being turned off.

An object of the present invention is to provide an MP3 play apparatus for displaying a warning message on a panel after lowering the luminance when the battery falls below a predetermined capacity and a method of driving the same.

In order to achieve the above object, the MP3 play apparatus according to the preferred embodiment of the present invention includes a panel, a battery capacity unit, a memory and a driving driver. The panel includes a plurality of pixels formed in an area where data lines and scan lines cross each other. The battery capacity unit is connected to a battery to detect the capacity of the battery, and transmits battery capacity information having information on the detected capacity of the battery. The memory stores battery capacity information transmitted from the battery capacity unit. The driving driver adjusts a bias driving voltage and a bias current according to the battery capacity information transmitted from the memory through the battery capacitor, and applies a data current corresponding to the adjusted bias current to the data lines. Here, when the MP3 player is turned off after being turned off, the battery capacity information indicates information about the battery capacity just before the MP3 player is turned off. Have

According to an embodiment of the present invention, a method of driving an MP3 play apparatus including a plurality of pixels formed in an area where data lines and scan lines intersect is connected to a battery, the method comprising: detecting a capacity of the battery; Generating battery capacity information having information about the detected capacity of the battery; Storing the battery capacity information in a memory; Reading the stored battery capacity information from the memory to adjust a bias driving voltage and a bias current; And applying a data current corresponding to the adjusted bias current to the data lines. The adjusting of the bias current may include reading the battery capacity information from the memory; Determining a capacity of a battery immediately before the MP3 player is turned off from the read battery capacity information; And adjusting the bias driving voltage and the bias current according to the identified capacity of the battery.

The MP3 play apparatus and the method for driving the same according to the present invention lower the bias driving voltage and bias current when the battery capacity drops to a predetermined capacity and display a warning message on the panel, so that the user can appropriately cope with the reduction of the battery.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the MP3 play device and a method for driving the same according to the present invention.

1 is a block diagram showing an MP3 play apparatus according to an embodiment of the present invention.

Referring to FIG. 1, the MP3 play apparatus of the present invention includes a battery 100, a battery capacity unit 102, a memory 104, a driving driver 106, a warning unit 108, and a panel 110. Here, the MP3 player is an MP3 player or an MP3 phone.

The battery 100 is an alkaline battery and is a power source of the MP3 play apparatus.

The battery capacity unit 102 is connected to the battery 100 to detect the capacity of the battery 100 in real time, and stores battery capacity information having information about the capacity of the detected battery 100 in the memory 104. .

Subsequently, the MP3 player is turned off, and then the MP3 player is turned on. Here, the battery capacity information has information about the capacity of the battery 100 immediately before the MP3 play device is turned off.

In this case, the battery capacity unit 102 reads the battery capacity information from the memory 104 and transmits the battery capacity information to the driving driver 106 and the warning unit 108.

The warning unit 108 analyzes the battery capacity information transmitted from the battery capacity unit 102 to determine the capacity of the battery 100, and when the determined capacity of the battery 100 corresponds to a predetermined capacity, provides warning data. It generates and transmits to the drive driver 106.

The driving driver 106 adjusts the amount of data current applied to the panel 110 according to the battery capacity information transmitted from the battery capacity unit 102 and the warning data transmitted from the warning unit 108.

For example, suppose that the MP3 play apparatus of the present invention is down when the capacity of the battery 100 is 10%, and the capacity of the battery 100 decreases by 4% when the MP3 play is turned on again.

In this case, when the capacity of the battery 100 is 20%, the driving driver 106 applies the same data current to the panel 110 as when the capacity of the battery 100 is 100%. On the other hand, when the capacity of the battery 100 is 14%, the driving driver 106 reduces the amount of data current according to the battery capacity information transmitted from the battery capacity unit 102 and applies it to the panel 110. Then, a warning message is displayed on the panel 110 according to the warning data.

If the MP3 player of the present invention does not reduce the amount of data current when the capacity of battery 100 is 14%, the MP3 player will be down as soon as it is turned on. However, the MP3 player of the present invention, unlike the conventional MP3 player, reduces the amount of data current when the capacity of the battery 100 is 14%, so that the capacity of the battery 100 does not suddenly drop to 10%. . That is, if the capacity of the battery 100 is reduced to 10% in the conventional MP3 player, the capacity of the battery 100 is reduced to about 11% in the MP3 player of the present invention.

In this case, the MP3 player of the present invention immediately displays a warning message to the user 110 on the panel 110, so that the user can appropriately cope with the down of the MP3 player.

The panel 110 includes a plurality of pixels formed in an area where data lines and scan lines cross each other. Here, the pixels emit light when the driving current is applied from the driving driver 106. Detailed description thereof will be described below with reference to the accompanying drawings.

Hereinafter, the operation of the MP3 play apparatus of the present invention will be described in detail.

The memory 104 stores the battery capacity information.

Subsequently, the MP3 player is turned off, and after a predetermined time elapses, the MP3 player is turned on.

Subsequently, the battery capacity unit 102 reads the battery capacity information from the memory 104 and transmits the read battery capacity information to the driving driver 106 and the warning unit 108.

 Subsequently, a driving driver 106 reduces the data current to transmit to the data lines.

Subsequently, the warning unit 108 transmits the warning data to the driving driver 106.

Subsequently, the driving driver 106 applies the data current corresponding to the transmitted warning data to the data lines to display the warning message on the panel 110.

FIG. 2 is a view illustrating a drive driver and a panel of FIG. 1.

Referring to FIG. 2, the panel 110 includes a plurality of pixels E11 to Emn formed in an area where the data lines D1 to Dm and the scan lines S1 to Sn cross each other.

The drive driver 106 includes a scan driver 200, a data storage unit 202, a data drive controller 204, and a data driver 206.

The scan driver 200 sequentially provides scan signals SP1 to SPn to the scan lines S1 to Sn.

Generally, although not shown in FIG. 2, each of the scan signals SP1 to SPn has a low logic area and a high logic area.

In this case, the pixels E11 to Emn emit light in the low logic region of the scan signals SP1 to SPn.

The data storage unit 202 stores image data input from the outside and warning data transmitted from the warning unit 108. In detail, the data storage unit 202 sequentially stores the ALGBI data which are sequentially input in the latch using the shift register.

The data driving controller 204 receives the image data and the warning data from the data storage unit 202 and the battery capacity information from the battery capacity unit 102.

In addition, the data driving controller 204 transmits driving control signals to the data driver 206 according to the data and the battery capacity information.

The data driver 206 adjusts the level of the bias driving voltage and the bias current according to the driving control signals transmitted from the data driving controller 204 and converts the corresponding data current into the data lines D1 to Dm. To apply.

3 is a block diagram illustrating a data driver of FIG. 2.

Referring to FIG. 3, the data driver 206 includes a data current controller 300, a bias drive voltage controller 302, a bias current controller 304, a bias current unit 306, and a data current unit 308. .

The data current control unit 300 transmits a data current control signal to the data current unit 308 according to the first driving control signal among the driving control signals.

Subsequently, the data current unit 308 applies a data current corresponding to the image data to the data lines D1 to Dm.

The bias driving voltage controller 302 transmits a bias driving voltage control signal to the bias current unit 306 according to the second driving control signal among the driving control signals.

Subsequently, the bias current unit 306 lowers its bias driving voltage according to the bias driving voltage control signal transmitted from the bias driving voltage control unit 302.

The bias current controller 304 transmits a bias current control signal to the bias current unit 306 according to the second driving control signal.

Subsequently, the bias current unit 306 reduces the level of its bias current in accordance with the transmitted bias current control signal.

The bias current unit 306 provides the same bias current to the data current unit 308 until the capacity of the battery 100 drops to a predetermined capacity, and the bias current when the capacity of the battery 100 drops to a predetermined capacity Lowers the level and provides it to the data current portion 308.

The data current unit 308 adjusts the data current according to the data current control signal transmitted from the data current control unit 300 and the bias current provided from the bias current unit 306.

In detail, the data current unit 308 provides the data lines D1 to Dm with a data current corresponding to a bias current that remains the same until the capacity of the battery 100 drops to a predetermined capacity. Thereafter, when the capacity of the battery 100 drops to a predetermined capacity, the data current unit 308 provides a data current corresponding to the bias current of which the level is lowered to the data lines D1 to Dm.

4 is a circuit diagram illustrating the bias driving voltage controller of FIG. 3.

Referring to FIG. 4, the bias driving voltage controller 302 includes a switch 400 and a plurality of resistors R1, R2, and R3.

The bias driving voltage controller 302 switches the switch 400 according to the second driving control signal. The switch 400 according to an embodiment of the present invention includes a MOS transistor.

In detail, the bias driving controller 302 turns off the switch 400 until the capacity of the battery 100 drops to a predetermined capacity, thereby maintaining the bias driving voltage constant.

Subsequently, the bias driving controller 302 turns on the switch 400 when the capacity of the battery 100 drops to a predetermined capacity. As a result, the third resistor R3 is connected in parallel to the second resistor R2, so that the resistance between the second node and the third node is lowered.

Thus, the resistance between the first node and the third node is also lowered. As a result, the current flowing from the first node to the third node is larger than the current flowing when the switch 400 is turned off. That is, the current flowing to the output stage becomes small, so that the bias drive voltage which is the output voltage is lowered.

Preferred embodiments of the present invention described above are disclosed for purposes of illustration, and those skilled in the art having ordinary knowledge of the present invention will be able to make various modifications, changes, additions within the spirit and scope of the present invention, such modifications, changes and Additions should be considered to be within the scope of the following claims.

As described above, the MP3 play device and the method for driving the same according to the present invention lower the bias driving voltage and bias current when the capacity of the battery read from the memory drops to a predetermined capacity, and displays a warning message on the panel. There is an advantage to properly cope with the reduction of.

Claims (11)

In the MP3 player, A panel including a plurality of pixels formed in an area where the data lines and the scan lines cross each other; A battery capacity unit connected to a battery to detect a capacity of the battery and to transmit battery capacity information having information about the detected capacity of the battery; And A memory for storing battery capacity information transmitted from the battery capacity unit; And And a driving driver to adjust a bias driving voltage and a bias current according to the battery capacity information transmitted from the memory through the battery capacitor, and apply a data current corresponding to the adjusted bias current to the data lines. When the MP3 player is turned off after being turned off, the battery capacity information has information about the battery capacity immediately before the MP3 player is turned off. MP3 player device. delete The method of claim 1, wherein the warning data is generated according to the battery capacity information transmitted from the battery capacity unit, and the generated warning data is transmitted to the driving driver so that the panel displays a warning message corresponding to the warning data. MP3 play device further comprising a warning unit. The method of claim 1, wherein the drive driver, A data storage unit for storing data input from the outside and transmitting the data; A data driving controller which transmits driving control signals according to data transmitted from the data storage unit and the battery capacity information transmitted from the battery capacity unit; And And a data driver for adjusting an amount of the data current applied to the data lines according to driving control signals transmitted from the data driving controller. The method of claim 4, wherein the data driver, A data current controller configured to transmit a data current control signal for controlling the data current according to a first drive control signal among the transmitted drive control signals; A bias driving voltage controller configured to transmit a bias driving voltage control signal for controlling the bias driving voltage according to a second driving control signal among the transmitted driving control signals; A bias current controller configured to transmit a bias current control signal for controlling the level of the bias current according to the second driving control signal; And A bias current unit configured to provide the bias current according to the transmitted bias driving voltage control signal and the bias current control signal; And And a data current unit configured to apply the data current to the data lines according to the data current control signal transmitted from the data current controller and the bias current provided from the bias current unit. The MP3 play apparatus of claim 5, wherein the bias driving voltage controller adjusts the driving voltage of the bias current using resistors connected in parallel. 7. The MP3 play apparatus according to claim 6, wherein the remaining resistors except for one of the resistors are connected to the switches, respectively, and the switches are controlled by the second driving control signal. 8. The MP3 player of claim 7, wherein each of the switches comprises a MOS transistor. A method of driving an MP3 play apparatus including a plurality of pixels formed in an area where data lines and scan lines cross each other, Detecting a capacity of the battery connected to the battery; Generating battery capacity information having information about the detected capacity of the battery; Storing the battery capacity information in a memory; Reading the stored battery capacity information from the memory to adjust a bias driving voltage and a bias current; And Applying a data current corresponding to the adjusted bias current to the data lines, wherein Adjusting the bias current, Reading the battery capacity information from the memory; Determining a capacity of a battery immediately before the MP3 player is turned off from the read battery capacity information; And And adjusting the bias driving voltage and the bias current according to the identified capacity of the battery. The method of claim 9, Generating warning data according to battery capacity information read from the memory; And And applying a data current corresponding to the generated warning data to the data lines to display a warning message. delete

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