KR20050051460A - Data transmission method for display pannel - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly, to a data transmission method of a display device for preventing noise caused by the length of a signal line or an electromagnetic field during signal transmission between a controller of a display device and a display panel.

A configuration of the present invention for achieving the above object includes a controller for generating a data signal and a display panel for displaying a predetermined image in accordance with a drive control signal of the controller, wherein the controller and the The display panel is connected through a connection line, and the difference between the upper level and the lower level of the data signal generated by the controller is 0.7V or less.

In addition, the connection wiring is characterized in that the FPCB.

Description

Data transmission method for display pannel

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly, to a data transmission method of a display device for preventing noise caused by the length of a signal line or an electromagnetic field during signal transmission between a controller of a display device and a display panel.

Recently, with the spread of portable information terminals (PDAs) including mobile phones and notebook personal computers, display devices such as liquid crystal display (LCD) and electro luminescence (EL) display devices are used as display devices with low power consumption. It is becoming.

1 is a block diagram illustrating a general display device.

As shown in the drawing, a general display device includes a controller 10 and a display panel 20. The controller 10 includes a control unit 11, a DC power generator 12, and a transmission / reception interface 13. . The control means 11 drives and controls the display panel 20, the DC power generator 12 applies driving power to the display panel 20, and the transmission and reception interface 13 is the control means 11. And a control signal, a data signal, and a power supply of the DC power generator 12 to the display panel 20.

In addition, the display panel 20 includes a data driver 21, a scan driver 22, and a pixel unit 23. The pixel unit 23 includes a plurality of pixels to display a predetermined image under the control of the controller 10, and the data driver 21 applies driving data of the pixel unit 23 and the scan driver. Reference numeral 22 applies a selection signal to the unit pixels of the pixel portion 23.

The connection wiring 30 transfers a signal and power between the transmission and reception interface 13 of the controller 10 and the display panel 20.

First, when the controller 10 outputs the control signal and the data signal of the control means 11 and the power supply voltage and the cathode voltage from the DC power generator 12, it is transmitted to the transmission / reception interface 13. Therefore, the transmission / reception interface 13 outputs the transmitted control signal and data signal to the display panel 20 as a low voltage differential signal. That is, the transmission and reception interface 13 converts the transmitted control signal and the data signal into a swing signal (swing) of 3.3 V to 1.8 V instead of 5 V, for example, the standard voltage, through the connection wiring 30. It transmits to the display panel 20.

Accordingly, the display panel 20 outputs a data signal from the data driver 21 to the pixel unit 23 as a power supply voltage, a cathode voltage, and a data signal are transmitted through the connection wiring 30. 22 outputs a selection signal to the pixel portion 23, and outputs a power supply voltage and a cathode voltage to the pixel portion 23 to display a predetermined image.

However, the conventional data transmission method through the connection wiring 30 has a problem that noise is generated due to the length of the connection wiring 30 is long or the characteristics of an electric field or a magnetic field applied from the outside.

Therefore, the present invention, which is intended to solve the above-mentioned problems, transfers a data signal through a connection wiring connecting a controller and a display panel, and transmits the data signal as a swing signal having a lower voltage than the conventional one to prevent noise. An object of the present invention is to provide a data transmission method of a display device.

A configuration of the present invention for achieving the above object includes a controller for generating a data signal and a display panel for displaying a predetermined image in accordance with a drive control signal of the controller, wherein the controller and the The display panel is connected through a connection line, characterized in that the data signal generated by the controller is transmitted with a low voltage of 0.7V or less.

In addition, the connection wiring is characterized in that the FPCB.

The FPCB includes a power supply layer to which power is transmitted, a data layer to which a data signal is transmitted, and an insulating layer that insulates the power layer and the data layer.

In addition, an organic light emitting display device comprising: a scan line for applying a plurality of scan signals; A data line for applying a plurality of data signals; A data driver including a pixel circuit composed of a plurality of transistors and applying a data voltage to the pixel circuit; It includes a transmission means for transmitting a plurality of control signals and data signals to the data driver.

The signal transmission device has a differential width within the 0.7V range.

In addition, the signal transmission device is characterized in that formed on the FPCB.

Here, the signal transmission device includes a power line and a low voltage differential signal line.

It also includes an insulating material for shielding electromagnetic waves between the power line and the low voltage differential signal line.

In addition, the voltage differential signal line includes an FPCB including an insulating material for shielding electromagnetic waves.

In addition, at least one IC chip for implementing a low-voltage differential signal is characterized in that it comprises.

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

FIG. 2 is a cross-sectional view showing the connection wiring, and FIG. 3 is a waveform diagram showing the data signal, which will be described with the same reference numerals as before.

The connection wiring 30 includes a power line 31, an insulating layer 32, and a signal line 33 to transfer power and signals between the controller 10 and the display panel 20. Here, the power line 31 is supplied with power supplied from the controller 10 to the display panel 20, and the insulating layer 32 insulates between the power line 31 and the signal line 33. It shields between the power line 31 and the signal line 33.

As described above, the power and data signals transmitted from the controller 10 are transmitted to the display panel 20 through the connection wiring 30. Here, the power of + 5V to -6V generated by the controller 10, for example, a DC power generator 12 such as a DC-DC converter is transmitted to the display panel 20 through the power line 31. do. In addition, the signal line 33 transmits a control signal and a data signal applied from the controller 10 to each of the display panel 20, for example, the scan driver 22 and the data driver 21. Delivers driving signals. Accordingly, as described above, the display panel 20 drives each unit pixel constituting the pixel unit 23 according to the power transmitted from the controller 10 and each data signal to display a predetermined image.

The connection wiring 30 is preferably FPCB (Flexible Printed Circuit Board). In addition, in FIG. 3, the power line 31, the signal line 33, and the insulating layer 32 are configured as one each, but one or more power lines 31 and a plurality of power lines may be used depending on a user's application. It is possible that the above signal lines are further configured. An insulating layer 32 is formed between each layer to shield electromagnetic waves between the lines 31 and 3. That is, for example, when the FPCB 30 is configured to include a power line 31, a first signal line 33, a second signal line (not shown), and a third signal line (not shown), An insulating layer 32 is formed between each line to shield electromagnetic waves, which corresponds to various embodiments of the present invention.

In addition, as described above, power and data signals are transmitted to the display panel 20 through the power line 31 and the signal line 33 of the connection line 30, and the signal line 33 is provided through the signal line 33. The transmitted control signal and data signal are transmitted to the display panel 20 as Low Voltage Differential Signaling (LVDS).

That is, the transmission / reception interface 13 may include at least one IC for converting a data signal into a low voltage differential signal to convert the data signal transmitted from the control means 11 into a low voltage differential signal to the display panel 20. send.

Here, the data transmission method of the display device according to the present invention, unlike the conventional 3.3 ~ 1.8V swing signal transmission method of the present invention is to send a swing voltage of 0.7V of the upper level and the lower level difference This is the same as the waveform diagram shown in FIG. That is, the data transmission method of the present invention transmits the control signal and the data signal applied from the control means 11 through the signal line 33 of the connection line 30, which is relatively low voltage compared to the prior art. By transmitting a voltage with a swing width of 7V, the voltage value, which is one factor of increasing noise, is lowered, thereby reducing noise because it is less affected by the length of the signal line and electromagnetic waves transmitted from the outside.

As described above, the data transmission method of the display device according to the present invention is less affected by the length of the signal line and the electromagnetic wave applied from the outside as it is transmitted at a lower voltage than the conventional method through the low voltage differential signal transmission method. Noise is reduced.

1 is a block diagram showing a general display device;

2 is a cross-sectional view showing a cross section of a connection wiring between a controller and a display panel;

3 is a waveform diagram showing a preferred embodiment of the present invention.

Explanation of symbols on main parts of drawing

10 controller 11 control means

12: DC power generator 13: transmission and reception interface

20: display panel 21: data driver

22: scan driver 23: pixel portion

30: connection wiring 31: power line

32: insulation layer 33: signal line

Claims (10)

A display device comprising a controller for generating a control signal and a data signal, and a display panel for displaying a predetermined image according to the control signal and the data signal of the controller. And the controller and the display panel are connected through a connection line, and a data signal generated by the controller is transmitted with a difference of a high level and a low level as 0.7V. The method of claim 1, wherein the connection wiring Display device characterized in that the FPCB. The method of claim 2, wherein the FPCB is And a power layer to which power is transmitted, a data layer to which a data signal is transmitted, and an insulating layer which insulates the power layer from the data layer. In an organic light emitting display device A scan line for applying a plurality of scan signals; A data line for applying a plurality of data signals; A pixel circuit composed of a plurality of transistors, A data driver for applying a data voltage to the pixel circuit; A display device using a low voltage differential method in a transmission means for transmitting a plurality of control signals and data signals to a data driver. The display device according to claim 4, wherein the signal transmission device includes a signal transmission device using a low voltage differential signal having a differential width within a range of 0.7V. The display device according to claim 4, wherein the signal transmission device is formed on an FPCB. The display device according to claim 6, wherein the signal transmission device has an FPCB including a power supply line and a low voltage differential signal line. The display device of claim 6, further comprising an insulating material for shielding electromagnetic waves between the power supply line and the low voltage differential signal line. The display device according to claim 6, further comprising an insulating material for shielding electromagnetic waves between the low voltage differential signal lines. The display device of claim 7, further comprising at least one IC chip for implementing a low voltage differential signal.