KR20060024587A - Method for electric charge precharging of the oled panel - Google Patents

Abstract

The present invention relates to driving an OLED (Organic Light Emitting Diode) panel, and more particularly, to a charge charging method of an OLED panel to control the amount of charge charged by controlling the number of pulses in a precharging section for driving an OLED panel. will be.

The present invention controls the amount of charge charges to the parasitic capacitor in relation to driving the OLED panel by controlling the number of pulses, thereby preventing the charges from being excessively charged by repeating the charging and discharging according to the number of pulses in the charging section of the OLED panel. This stable charge charging enables the OLED panel to be more reproducible in color.

OLED Panel, Charge Section, Charge Charge, Pulse Count, Grey, Luminance, Color Reproducibility

Description

Method for electric charge precharging of the OLED panel

1 is a diagram illustrating a waveform diagram for driving a conventional OLED panel.

2 is a schematic illustration of an OLED panel drive circuit according to the invention;

3 illustrates a charging block for driving an OLED panel according to the present invention.

4 illustrates a waveform diagram for driving an OLED panel according to the present invention;

5 illustrates a drive block for driving an OLED panel according to the present invention.

6 illustrates a discharge block for driving an OLED panel according to the present invention.

Explanation of symbols on the main parts of the drawings

10: scan line driver 11: scan line

20: data line driver 21: data line (Data Line)

30: main control unit 40: OLED panel

The present invention relates to driving an OLED (Organic Light Emitting Diode) panel, and more particularly, to a charge charging method of an OLED panel to control the amount of charge charged by controlling the number of pulses in a precharging section for driving an OLED panel. will be.

Recently, technology related to the development of materials such as semiconductors and displays related to communication and computers has become a key issue. Therefore, the performance of various commercially available display devices has been reinforced, and among the devices that are attracting attention in terms of application as a color display device. One is organic electroluminescence (EL), that is, organic light emitting diode (OLED).

The display means using the OLED, i.e., driving the OLED panel, has a precharging section for charging the parasitic capacitor present in the OLED panel, a driving section for driving the OLED, and a charge charged in the OLED panel. It is divided into a discharge (Discharging) section for discharging.

Here, the precharging section is due to the presence of parasitic capacitors at both ends of the anode and the cathode of the diode because the OLED is composed of an organic thin film, and there is a problem that low gradation processing cannot be performed due to such parasitic capacitors. This is a section in which the parasitic capacitor is precharged by applying an electric charge such that the diode can be turned on before applying a current to the common anode line.

FIG. 1 illustrates a conventional OLED driving waveform diagram, in which a 'SCAN (N-1)' electrode represents an electrode that is not selected when driving and a 'SCAN (N)' electrode represents an electrode selected when driving. In addition, 'V_data (N)' represents a voltage application form of the data electrode, and 'I_data (N)' shows an amount of current applied to the data side when 'V_data' is applied.

In such an OLED driving waveform, the positive voltage pulse of the charging voltage level in the waveform of 'V_data (N)' is a charging section in which a pulse for charging is applied, and conventionally, one pulse as shown in the waveform diagram of FIG. 1. By controlling the pulse duration t to be high or short and controlling the charge amount by adjusting the pulse duration t, that is, it is difficult to accurately control the pulse duration t, that is, the charge charging time.

Therefore, in the related art, when the charge charging time for the OLED panel is short, there is a problem in that the OLED panel is driven without the charge being charged, and when the charging time is long, an excessive amount of charge is charged to gray. When expressing, there was a problem of poor color reproducibility of the OLED panel.

The present invention has been made to solve the above problems, and an object thereof is to control the amount of charge charge for the parasitic capacitor by adjusting the number of pulses in connection with driving the OLED panel.

Another object of the present invention, by controlling the number of charge charge by adjusting the number of pulses in the OLED panel, it is possible to prevent excessive charge is repeated by repeatedly charging and discharging in the charging section of the OLED panel, thereby To improve color reproducibility.

In the charge charging method of the LED panel according to the present invention for solving the above object, in the OLED panel driving method, the number of pulses input for charging in the charging section for driving the OLED panel is adjusted By charging a certain amount of charge to the parasitic capacitor present in the OLED panel.

Determining a number of charge charging pulses based on luminance information at a time when a second level of gray is turned on for displaying a color in a charging section for driving the OLED panel; Generating a pulse number determined in the above, and charging the parasitic capacitor present in the OLED panel with a predetermined amount.

The process of determining the number of pulses corresponds to the luminance at the point of time when the gray of the second level is turned on by using the luminance information of the highest level gray and information on the transmission method for displaying an arbitrary color. It is characterized in that the number of pulses to determine.

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

In the present invention, the driving of the OLED panel is not a method of charging a charge by generating a pulse only once in a charging section, that is, a method of charging a charge by controlling a long or short duration of the pulse as a single pulse. The color reproducibility of the OLED panel is improved by controlling the number of occurrences of the charge pulses to charge the charge. The driving circuit of the OLED panel is shown in FIG. 2.

That is, as shown in FIG. 2, the driving circuit of the OLED panel according to the present invention includes a plurality of scan lines 11 and data lines 21 arranged on the glass substrate so as to cross each other. A scan line driver 10 connected to the scan line 11 to selectively drive the scan line 11, and a data line connected to each data line 21 to selectively emit light of the corresponding OLED element through the data line 21. And a main controller 30 connected to the driver 20, the scan line driver 10, and the data line driver 20 to control driving of the entire OLED panel 40.

Here, the main control unit 30 controls the generation of the charging pulse to adjust the amount of charge charged in the parasitic capacitor present in the OLED panel 40 in the charging section, where the last level for any color display, that is, the highest level The charge amount is controlled by determining the number of pulses to correspond to the luminance at the time when the gray of the second level is turned on by using the brightness information of the gray of the level and information on the transmission method. The pulse number information is transmitted to the data line driver 20.

For example, if the luminance transmission scheme is 5 bits, the luminance level has a value of 32 levels, and assuming that the gray level of the last level, that is, the highest level, is '31 cd / m ² ', the gray level of the second level, , To determine the number of pulses in the charging period to have a '1cd / m ² '.

In other words, the number of pulses in the charging section is determined by confirming that the gray of the second level appears on the surface.

In addition, in accordance with the present invention, the data line driver 20 is present in a line in an on common state shown in FIG. 3, that is, a driving selected line, attached to a charging section for driving the OLED panel 40. The parasitic capacitor of the OLED serves to charge by adjusting the number of charge pulses generated and the amount of current.

That is, the data line driver 20 generates and applies the number n of charging pulses corresponding to the selected line using the pulse number information received from the main controller as in the waveform diagram of FIG. 4. Thereby charging the parasitic capacitor of the OLED present in the selected line. In FIG. 4, the 'SCAN (N-1)' electrode represents an electrode that is not selected when driving, and the 'SCAN (N)' electrode represents an electrode selected when driving. In addition, 'V_data (N)' represents a voltage application form of the data electrode, and 'I_data (N)' shows an amount of current applied to the data side when 'V_data' is applied.

At this time, if the number of pulses for charging the parasitic capacitor of the OLED is small, the amount of charges to be charged decreases. If the number of pulses is increased, the amount of charges to be charged increases, and as the number of pulses is adjusted, charging is performed. As charging and discharging are repeated in the charging section, it is possible to uniformly control the charge amount.

Meanwhile, in order to drive the OLED panel, the operation of the charging section, the driving section, and the discharge section is performed. In the charging section, the parasitic capacitor of the OLED is charged to drive the OLED. That is, the parasitic capacitor is charged to the selected line illustrated in FIG. 3, that is, the line in the on-comon state. In this case, the parasitic capacitor is charged in the off-common line.

In the driving section, as shown in FIG. 5, the driving current is supplied to the come-on line, and the image is represented by the driving current, and the gray for displaying the image by driving the OLED is displayed on the OLED panel. In this case, only the OLED of the selected on-comon line is driven, and the OLED of the off-comon line that is not selected is not driven.

Lastly, in the discharge section, as shown in FIG. 6, the electric charges charged in the parasitic capacitor of the OLED are discharged.

In addition, the embodiment according to the present invention is not limited to the above-mentioned, various alternatives, modifications and changes can be carried out within the scope obvious to those skilled in the art with respect to the present invention, and general OLED driving The charging method according to the present invention in the charging method, that is, the PWM (Pluse Width Modulation) method for adjusting the time of the charging pulse and the PAM (Pluse Amplitude Modulation) method for adjusting the size of the charging pulse by the amount of current or voltage The charging method of controlling the charge charging amount by adjusting the number of pulses generated may be performed in parallel.

As described above, the present invention controls the amount of charge charges to the parasitic capacitor in relation to driving the OLED panel by controlling the number of pulses, so that the charge and the charge are excessively charged by repeating the charging and discharging according to the number of pulses in the charging section of the OLED panel. It is possible to prevent this from happening, and as such stable charge charging becomes possible, it is possible to improve color reproduction of the OLED panel.

Claims (3)

In the driving method of an OLED panel, The charge charging method of the LED panel, characterized in that the charge of the parasitic capacitor present in the OLED panel by controlling the number of pulses input for charging in the charging section for driving the OLED panel. The method of claim 1, Determining a number of charge charging pulses based on luminance information at a time when a second level of gray is turned on for displaying a color in a charging section for driving the OLED panel; And charging the parasitic capacitor present in the OLED panel by generating the pulse number determined in the above. The method of claim 2, The determining of the number of pulses may be performed to correspond to the luminance at the point of time when the gray of the second level is turned on by using the luminance information of the highest level gray and information on the transmission scheme for displaying a certain color. The charge charging method of the LED panel, characterized in that for determining the number of pulses.

Images