KR100724419B1 - How to drive LCD panel - Google Patents

Abstract

The present invention is to prevent the phenomenon of instantaneous transient current (DC Current rushing) to the LCD pixels at the time of applying or blocking the power for driving the LCD panel, the LCD according to the state that the power is applied to the LCD panel The present invention relates to a method of driving an LCD panel which adjusts a time point at which a data signal is applied to a panel so that no excessive current flows in a pixel.

The present invention starts to supply the drive power when the LCD panel is driven until the normal voltage level is applied, and the data signal is interrupted when the LCD panel is driven off, and then the drive power is stably maintained for a predetermined time. Next, it can be achieved by being made to stop the power supply.

Description

Driving method of LCD panel {DRIVING METHOD FOR LCD PANEL}

1 is a diagram illustrating a procedure of driving an LCD panel by applying a data signal according to a time when power is supplied to a conventional LCD panel.

Figure 2 is an exemplary view showing a driving procedure of the LCD panel according to the time the power is supplied to the LCD panel according to the present invention.

Figure 3 is a flow chart showing a driving procedure of the LCD panel according to the present invention.

The present invention relates to a method of driving an LCD panel, and particularly, in order to prevent a phenomenon in which instantaneous transient current is applied to an LCD pixel at a time of applying or cutting power to drive an LCD panel, an LCD. The present invention relates to a method of driving an LCD panel, in which a transient current does not flow in a pixel by adjusting a data signal application time of an LCD panel according to a state in which power is applied to the panel.

1 is a diagram illustrating a procedure of driving an LCD panel by applying a data signal according to a time when power is supplied to an LCD panel, and driving power is first applied before driving a predetermined pixel of the LCD panel.

As shown in FIG. 1, the driving power supply VCC starts to increase gradually when initially applied. As described above, the slope (time constant) at which the driving power is increased is determined by the R and C elements provided in the internal power supply terminal of the LCD panel.

As described above, when the driving power is supplied and approaches the normal voltage level (above the predetermined predetermined voltage level (%)), the pixel is driven by applying a data signal.

The driving of the LCD pixel is an operation of turning on the pixel. Since the driving power supply VCC is applied to the pixel, the pixel is turned on only when the data signal is actually a GND signal.

However, in the related art, the data signal is applied before the normal level of power is supplied to the corresponding pixel, so that the R and C elements constituting the internal power supply terminal of the LCD panel are not fully charged (the normal filtering operation is not performed. In this case, the pixel is turned on.

Therefore, a problem occurs in that a large current flows through the pixel at an instant until the power supply terminal supplies a normal voltage level. As a result, such a transient current flows through the pixel, thereby causing a problem of damage to the panel.

The damage to the LCD panel due to the transient current is not only generated at the start of power supply, but also at the time of power supply cutoff.

That is, even when the power supply is cut off in order to stop driving the LCD panel, the data signal is continuously applied until the supply power falls below a predetermined level, and therefore, the power supply stage has a predetermined level from the moment it falls from the normal power level. The problem arises that the transient current flows through the pixel until it becomes below.

Therefore, the present invention was created in order to solve the above-mentioned conventional problems, and a phenomenon in which instantaneous transient current is applied to the LCD pixel at the time of applying or cutting off the power for driving the LCD panel is applied (DC Current rushing). In order to prevent the problem, an object of the present invention is to provide a method of driving an LCD panel, in which a transient current does not flow in a pixel by adjusting a data signal application time of the LCD panel according to a state in which power is applied to the LCD panel.

In order to achieve the above object, the present invention starts the supply of driving power when the LCD panel is driven and reaches a normal voltage level before the data signal is applied. It is characterized in that the drive power is maintained for a while, and then the power supply is stopped.

The present invention prevents the data signal from being applied until a stable level of power is supplied from the power supply terminal of the LCD panel, and also blocks the application of the data signal before the power supply is interrupted from the power supply terminal. SUMMARY OF THE INVENTION The present invention provides a method of driving an LCD panel that prevents excessive current from flowing at the time of supplying and shutting off power.

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

Figure 2 is an exemplary view showing a driving procedure of the LCD panel according to the time the power is supplied to the LCD panel in accordance with the present invention, when the drive voltage of the LCD panel is a normal level when compared to the prior art shown in Figure 1 Is to turn the signal on or off.

That is, the internal power supply terminal (not shown) that supplies power to the LCD panel has a voltage level that rises by a predetermined slope when the power is supplied, even when the power supply is cut off due to the characteristics of the circuit composed of several R and C elements. The voltage level is lowered by a predetermined slope.

In other words, driving the LCD panel by applying a data signal while the voltage supplied to the LCD panel is not at the normal level affects the pixel life of the LCD panel. Thus, in the present invention, the voltage supplied to the LCD panel is normal. The LCD panel is driven by applying a data signal only when the level is stabilized.

Referring to Fig. 2, when the driving power supply VCC starts to be supplied through a predetermined idle time t4, and again after the predetermined time t1, the level of the driving power becomes close to the normal voltage level (the predetermined predetermined voltage level ( %) Or more), the conventional data signal is applied immediately, but in the present invention, the data signal is applied after waiting for a predetermined waiting time t2 until the normal voltage level is reached.

Here, the 't1' section is a minimum voltage level section for driving the LCD panel. The 't1' section is a section where the LCD panel can be driven but normal operation cannot be expected such as brightness is low, and at least beyond the 't1' section. Only when driving can you expect normal operation.

Next, the 't2' section is a section in which the level of the driving power supplied to the LCD panel becomes a normal voltage level. When the panel is driven after the 't1' section and the 't2' section, no transient current flows. .

The 't1' and 't2' sections may vary depending on the characteristics of the internal power supply terminal (not shown) of the LCD panel. For example, when the 't1' section is about 60 msec, the 't2' section is short as about 10 msec.

In addition, the process for ending the drive of the LCD panel is performed in the reverse order to the process of starting the drive. That is, when the data signal is to be cut off in order to end the driving, the supply of the driving power supply VCC is stopped after a predetermined time t3 after the data signal is cut off, and when the voltage level of the driving power supply falls below the predetermined level, It must have a predetermined idle time t4 before supplying the next driving power.

The idle time t4 should be kept long enough in consideration of the charge / discharge time by the internal components constituting the power supply terminal (not shown). That is, they must have sufficient idle time in a range that does not overlap with the power supply procedure.

Next, the 't3' section is a section from when the application of the data signal is blocked until the driving power becomes a voltage level at which the LCD panel cannot be normally driven.

Each of the power supply sections t1 to t4 is variable according to the power supply terminal (not shown) of the LCD panel, and if the response time is fast, the time will gradually decrease.

3 is a flowchart illustrating a driving procedure of an LCD panel according to the present invention. When the LCD panel is to be driven after a predetermined idle time (S101), the driving power is supplied to the LCD panel at an internal power supply terminal (not shown). Start supplying (VCC) (S102).

After the driving power supply VCC starts to be supplied, it is determined whether the time when the voltage level reaches the normal voltage level is applied and the data signal is applied (S103, S104). The normal voltage level arrival time is set differently according to the LCD panel.

In order to stop the driving of the LCD panel, the application of the data signal is blocked (S105 and S106). Even after the data signal is blocked, a normal driving voltage level is maintained for a predetermined time (data output stable time) for stable data output, and then the supply of driving power is stopped (S107 to S109).

In the above, preferred embodiments of the present invention have been described with reference to the accompanying drawings. Here, the terms or words used in the present specification and claims should not be construed as being limited to ordinary or dictionary meanings, but should be construed as meanings and concepts consistent with the technical spirit of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical idea of the present invention, which can be replaced at the time of the present application It should be understood that there may be various equivalents and variations.

As described above, the method of driving the LCD panel of the present invention prevents the transient current from being applied to the LCD pixel at the time of applying or cutting off the power for driving the LCD panel. There is an effect of extending the life, it is possible to reduce the number of A / S occurrence and the cost resulting therefrom.

Claims (3)

When the LCD panel is driven, the driving power supply is started and the data signal is applied until the normal voltage level is reached. The LCD panel driving method of claim 1, wherein the driving of the LCD panel stops the power supply after the data signal is interrupted and the driving power is stably maintained for a predetermined time. The method of claim 1, wherein the arrival time of the normal voltage level of the driving power supply is An LCD panel driving method characterized in that it is set according to the characteristics of the internal power supply terminal of the LCD panel. The method of claim 1, wherein the predetermined time An LCD panel driving method characterized by indicating the time until the driving power becomes a voltage level at which the LCD panel cannot be normally driven after the application of the data signal is blocked.

Images