JP2001075532A - Driving method of organic el display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To effectively extend the service life of a display device as a whole by reducing the luminance of a segment having a high driving frequency so as to prolong the service life of the segment. SOLUTION: In the driving method of an organic EL display device 1, plural segments A to G are selectively driven for display. The driving of the segments A to G is conducted so that luminance of the segments A to G is reduced as the driving frequency for the segments A to G is increased.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for driving an organic EL display device.

[0002]

2. Description of the Related Art In an organic EL display device, a light emitting layer containing an organic material is sandwiched between a cathode electrode and an anode electrode, and light is emitted by recombination of electrons and holes generated when a current flows between the electrodes. It is based on the principle. The light-emitting life of the organic EL display device is finite. For example, the time called "lifetime" refers to the time required for the luminance to become half of the luminance in the initial state in a state where current is constantly applied and light is emitted.

On the other hand, a conventional attempt to extend the life of an organic EL display device is disclosed in Japanese Unexamined Patent Application Publication No. 11-806.
There is one described in Japanese Patent Publication No. In the prior art described in this publication, a reverse bias is applied between both electrodes of the segment of the organic EL display device, thereby reducing the deterioration of the organic EL display device and extending the life. Organic E
It is known that the life of the L display device is shorter when light is emitted intermittently than when light is emitted continuously by continuously supplying current to the segment.

[0004]

However, in the above-mentioned prior art, the life of each of the plurality of segments provided in the organic EL display device can be extended, but the driving frequency varies among the segments. In some cases, a segment with a high drive frequency has a shorter lifespan than a segment with a low drive frequency, and thus there is a problem that the life of the entire display device cannot be effectively extended.

Here, as a specific example, consider an organic EL display device 1 provided with seven segments A to G for segmentally displaying a one-digit number as shown in FIG. Table 1 below shows ON / OFF states and driving frequencies of the segments A to G when the numbers 0 to 9 are displayed with the same probability by the organic EL display device 1. In Table 1, 1 indicates ON and 0 indicates OFF. In Table 1, the value in the “probability” column is 0.
9 show the drive probabilities of the segments A to G when the numbers are displayed with the same probability. The numerical value in the column of “ratio” indicates the drive probability of the segment F with the lowest drive frequency as 1 , The drive probabilities of the segments A to E and G are indicated by ratios.

[0006]

[Table 1]

According to Table 1, the segment E having the highest driving frequency is 1/2.
The life will be reached in 25 hours. Therefore, FIG.
The organic EL display device 1 will lose its function as the display device 1 because of the life of the segment E, regardless of whether the other segments A to D, F, and G are still usable. That is, the usable time (lifetime) of the display device 1 depends on the driving time of the segment E that is most frequently driven.

In view of the above problems, the present invention reduces the luminance of a segment having a high drive frequency to extend the life of the segment, thereby effectively extending the life of the display device as a whole. It is an object to provide a method for driving a display device.

[0009]

According to another aspect of the present invention, there is provided a method of driving an organic EL display device which performs display by selectively driving a plurality of segments. Each segment is driven such that the luminance of the segment having a higher driving frequency becomes lower.

Preferably, the adjustment range of the brightness of each segment is set within a range of 30% of the brightness of the reference segment.

[0011]

FIG. 2 is a graph showing the transition of luminance with the lapse of the driving time of the segments A to G of the organic EL display device 1. As shown in FIG. Graphs L1 to L in FIG.
4 is 300 cd / m ² , 240 cd in the initial state
/ M ² , 210 cd / m ² , 100 cd / m ² Under the condition setting to emit light with the brightness, the transition of the actual brightness of the segments A to G when the segments A to G are continuously driven is shown. I have.

FIG. 2 shows that when the segments A to G are driven under the setting that the initial luminance is 300 cd / m ² , the life is about 8.5 × 10 ³ (hours), but 300 cd / m ^2.
when driven in 80% setting of a 240Cd / m ² of m ² is the lifetime of about 1.08 × 10 ⁴ (time), and 300
when driven in setting of a 210 cd / m ² in 70% cd / m ^2, the service life of about 1.23 × 10 ⁴ (time), and
As the default brightness decreases, segments A-G
It can be seen that the life of the is extended.

Correspondingly, the driving method of the organic EL display device according to the embodiment of the present invention focuses on the characteristics of the organic EL display device 1 shown in FIG. Each of the segments A to G is driven to light so that the segments A to G having a higher driving frequency become lower. The organic EL display device to which the driving method according to the present embodiment is applied is not limited to the display device 1 shown in FIG. 1, but may be an organic EL display device provided with a plurality of selectively driven segments. If there is, it can be applied to any display device.

The brightness of each of the segments A to G is adjusted by the ratio of the area of each of the segments A to G to the drive voltage applied to each of the segments A to G (that is, per unit area flowing through each of the segments A to G). (Current density). For example, segment A of the same area
In the case of .about.G, the lower the driving voltage, the lower the luminance. The drive voltage of each segment A to G is adjusted by adjusting the resistance value of the wiring to each segment A to G, and adjusting the power supply voltage or the power supply current applied to the wiring connected to each segment A to G itself. There is a method to do.

In order to cause each of the segments A to G of the organic EL display device 1 to emit light at a predetermined luminance, the value of the current flowing through each of the segments A to G is calculated in accordance with the area of each of the segments A to G. It is necessary to calculate a voltage drop due to wiring resistance and the like, and to design a constant voltage source and a constant current source according to the calculated values.

Next, the uneven brightness (uneven display) of the display device 1 caused by changing the brightness for each of the segments A to G will be considered. When a person visually recognizes the display device 1, if the brightness of the target segments A to G is reduced by 30% from the brightness of the reference segments A to G, the display device 1 is not recognized as uneven brightness and displayed with uniform brightness. Seems to be taking place.

Thus, the brightness of the segment F, which is the least driven, of the display device 1 of FIG. 1 is set to 300 cd / m ^2, and the brightness of the other segments A to E, G is set in descending order of the driving frequency. Yuki lowered according to the height in the range of 300 cd / m ² of 210 cd / m ^2, by setting the brightness of the most drive infrequently segment E to 210 cd / m ^2, no apparent luminance unevenness, and a display The life of the device 1 can be extended to 1.45 times the conventional one.

As described above, according to the present embodiment, the segments A to G with a higher driving frequency are driven with lower luminance, so that the life of the segments A to G with a higher driving frequency is extended. The life of the entire display device 1 can be effectively extended.

Further, since the brightness of each of the segments A to G is set within a range that is 30% less than the brightness of the reference segments A to G, the display device 1 is not recognized as uneven brightness. Life can be extended.

[0020]

According to the first aspect of the present invention, the segments with higher driving frequency are driven with lower luminance, so that the life of the segments with higher driving frequency is prolonged. The service life can be effectively extended.

According to the second aspect of the present invention, the adjustment range of the luminance of each segment is 3 times the luminance of the segment as a reference.
Since it is set within the range of the comparatively large size, the display device can be extended in life without being recognized as uneven brightness.

[Brief description of the drawings]

FIG. 1 is a plan view of an organic EL display device to which an organic EL display device driving method according to an embodiment of the present invention is applied.

FIG. 2 is a graph showing a change in luminance with a lapse of a driving time of a segment of the organic EL display device.

[Explanation of symbols]

 1 Organic EL display device A to G segment

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Tsuyoshi Hosokawa 1-7-10 Kikuzumi, Minami-ku, Nagoya-shi, Aichi F-term in Harness Research Institute, Inc. (reference) 3K007 AB00 AB02 DA00 DB03 EB00 FA01 GA04 5C080 AA06 BB02 DD03 DD29 EE28 FF09 HH11 JJ01 JJ05

Claims (2)

[Claims] 1. A method of driving an organic EL display device that performs display by selectively driving a plurality of segments, wherein each segment has a lower luminance with a higher driving frequency. A method for driving an organic EL display device, comprising: 2. The organic E according to claim 1, wherein the adjustment range of the brightness of each segment is set within a range of 30% of the brightness of the segment serving as a reference.
A method for driving an L display device.