JP2003195817A - Electronics - Google Patents

Abstract

(57) [Problem] To provide an electronic device having a display function in which a color shift does not occur even when used for a long time. SOLUTION: There is provided means for measuring a lighting time of the display device 7 and adjusting luminance of a light emitting material in each color of the display device. Further, when adjusting the emission luminance, the emission luminance is adjusted to the emission luminance of the material having the shortest life.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile phone equipped with a color display device such as a liquid crystal display and an organic EL device, a PDA,
Regarding other electronic devices.

[0002]

2. Description of the Related Art At present, information terminal devices such as mobile phones and PDAs have expanded their scope to a wide range of fields such as the Internet and games, in addition to the communication function as a mobile phone due to their high functionality. In such a situation, mobile phones,
Display devices used in mobile terminal devices such as PDAs include
It is expected that high image quality such as high brightness and high color reproducibility will be required, and demand for high responsiveness will increase in moving image distribution that will be visited in the future.

Conventionally, a liquid crystal display device has been widely used as a display device for such an electronic device, but recently, an organic EL device which emits light by itself and has excellent characteristics in the above-mentioned image quality element has attracted attention. Are gathering.

Many display devices, including organic ELs, have a half-life. For example, in the case of organic ELs, by applying signals in a matrix form in the vertical and horizontal directions, each pixel is selectively selected. The organic material itself is driven to emit light, and a desired emission color is obtained. In this case, as the pixel is turned on, the organic material forming the pixel is deteriorated, and the amount of emitted light is reduced even if the same current is applied.

Therefore, from the above, the Japanese Patent Laid-Open Nos. 6-110034 and 2001-125064
It is known that, as can be seen in Japanese Patent Publication No. JP-A No. 2004-187, when the usage time is measured and the half-life is reached, it is displayed that the life has expired.

[0006] However, all of these are merely to measure the usage time, and if the result shows a half-life, it is simply displayed as the life, and the life itself is lengthened and No consideration has been given to the issues mentioned.

That is, in the case of performing an arbitrary color display on a display device having such characteristics, for example,
Each light emitting material (light emitting element) that emits three primary colors of light such as red, blue, and green is used to form a pixel with each light emitting material (light emitting element). I am trying to get the display.

[0008]

However, at this time, since the respective light emitting materials have different lifespans, the lifespan of the display device is determined by the lifespan of the light emitting element having the shortest lifespan, and There is a problem that the color tone of the image displayed on the display device changes significantly with the deterioration.

The present invention solves the above problems, and provides an electronic apparatus equipped with a display device that can withstand long-term use and can obtain an excellent natural color tone with good color tone. It is intended to be provided.

[0010]

The present invention is directed to a color display device having a half-life, a light emission time measuring means for measuring the light emission time of the display device, and a cumulative light emission time measured by the light emission time measuring means. When a predetermined time is reached, a brightness adjusting means for adjusting the brightness of the display device is provided,
The brightness adjusting means can be adjusted so that the light emitting brightness of each light emitting element that emits the three primary colors of light forming the display device becomes a predetermined ratio.

With this structure, when the total of the light emission times reaches a predetermined constant time, the three lights of the light forming the display device are detected.
The brightness of each light-emitting element that emits primary colors is adjusted to a predetermined ratio, so the overall brightness is reduced, but the life is extended and the color tone is restored to obtain a natural hue. You will be able to

Further, according to the present invention, the adjustment is carried out at a predetermined constant time. With this configuration, the color tone can be restored to the original at a predetermined constant time, and the life is further extended. , A more excellent color tone can be obtained.

Further, according to the present invention, the brightness adjusting means is provided for the other light emitting elements based on the light emitting brightness of the light emitting element which has the shortest life among the light emitting elements which emit the three primary colors of light constituting the display device. The emission brightness was adjusted so as to have a predetermined ratio. With this configuration, the emission brightness of the light emitting element having the shortest life is used as a reference, and the life can be further extended.
That is, in order to control the brightness, when trying to match the brightness with a material (light emitting element) having the longest life, a large amount of current must be applied to the material having the shortest life to increase the light emission brightness. With such a method, there is a secondary problem that deterioration of a material (light emitting element) having a short life is significantly accelerated. However, in the present invention, as described above, the luminance of the light emitting material (light emitting element) having the shortest life is adjusted to the luminance of the other light emitting material (light emitting element). As a result, the lifespan of all the light emitting materials (light emitting elements) can be extended, and the lifespan of the display device is greatly improved.

Further, according to the present invention, the predetermined ratio is used as a white balance ratio for obtaining a predetermined white color. With this configuration, a more natural color can be obtained.

The present invention also provides an organic EL device as a display device.
L was used. With this configuration, changes in the color tone of the organic EL can be reduced, and high brightness, high color reproducibility due to the organic EL,
It is possible to guarantee a high-quality, high-quality display quality for a long time. Further, the present invention adds a means for increasing the current supply to the light emitting element having a long life, compared with the light emitting element having a short life, when the screen is switched to a screen not requiring natural color. With this configuration, the current supply to the light emitting element having a short life is reduced, and the life of the display can be further extended.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a schematic configuration diagram of an electronic device according to an embodiment of the present invention.

Although the present embodiment shown in FIG. 1 is a mobile phone with a display, the present invention is not limited to the mobile phone, and may be a PDA or any other electronic device.

In FIG. 1, the mobile phone comprises an antenna 1, a wireless transmission / reception unit 2, a transmission / reception circuit 3, a transmission / reception unit 4, an operation unit 5, a memory 6, a display device 7, and a control unit 8.

When the power is turned on by the operation of the operation unit 5, the control unit 8 detects the power supply and makes each unit operable. When the telephone number of the other party is dialed on the operation section 5 or the operation section 5 is operated to call the telephone number of the other party registered in the memory 6 and the call key is operated, this is transmitted via the wireless transmission / reception section 2. Wirelessly transmitted from the antenna 1 to the base station. When the other party responds, it is received by the wireless transmission / reception section 2 via the antenna 1, controlled by the control section 8, the handset circuit 3 becomes operable, and the handset 4 can be used to talk to the other party. It becomes a state.

The display device 7 makes a display to indicate that when the power is turned on, and displays the telephone number when the telephone number is input or when the telephone number is called from the memory 6, and the other party If you respond, a message to that effect is displayed.

Further, according to the present embodiment, not only is it possible to call the other party, but a game, a calculator, a calculator,
Dictionaries and other operations can be performed, and the wireless transmission / reception unit 2 is also configured to be capable of wirelessly transmitting / receiving the Internet, email, and other various data. , Information and the like are displayed on the display device 7 at any time.

Further, as shown in FIG. 2, the control unit 8 includes a light emission time measuring unit 2 for measuring the light emission time of the display device 7.
1 and a light emission control unit 22 that controls the brightness of the display device 7 based on the cumulative light emission time measured by the light emission time measurement unit 21.

Next, the brightness adjustment of the display device 7 will be described in detail with reference to FIG.

When the electronic device of the present invention starts operating, the display device 7 displays various information such as the telephone number, the Internet, E-mail, etc., as described above.

The display device 7 has three primary colors of light: red, green,
Each display element that emits each color of blue constitutes a pixel, and the brightness is determined by the current supplied to each display element, and each color is selected by the ratio of the current supplied to each display element. It is configured to be.

In FIG. 3, in step 201, the light emission time measuring unit 21 measures the total light emission time of the display device 7. The total lighting time measured there is stored in the memory 6 each time.

In step 201, the total lighting time x stored in the memory 6 is a threshold value X (100 in this embodiment).
If it is determined that the time has passed, the luminance deterioration amount data 203 in the lighting time of each light emitting material (light emitting element) registered in the memory 6 in advance is referred to, and in step 202, the color tone does not change. Thus, the correction value of each light emitting material (light emitting element) is calculated. At this time, correction is performed so that the light emission brightness from each light emitting material (light emitting element) matches the light emission brightness of the light emitting material having the shortest life.

Display device 7 used in the present embodiment
When the life characteristics of each of the light emitting materials (light emitting elements) are as shown in FIG. 4, specifically, the correction value is calculated as follows.

[0030] Figure 4, in order to display the predetermined white, the original brightness of each of the light emitting material (light emitting element), Red: 60 cd / m ^2, Green: 100 cd / m ^2, Blue 40
It shows the luminance change of each light emitting material (light emitting element) when the same current is continuously supplied to the light emitting material (light emitting element) in the case of cd / m ² as it is. The luminance ratio of each light-emitting material (light-emitting element) for obtaining is from the initial luminance described above, red: green: blue =
It can be seen that it is 3: 5: 2.

Here, the luminance deterioration amount data 203 registered in the memory 6 in advance is the emission time vs. emission luminance characteristic (life characteristic) for each light emitting material (light emitting element) as shown in FIG.
Digital data of, for example, the total lighting time is 10
At time 0, the respective luminances are, as a result of the deterioration of which they constitute, in step 201 a threshold X of the total lighting time.
When it is determined in step 201 that the threshold X is exceeded, the luminance of each light emitting material (light emitting element) at that moment is red:
It is 40 cd / m ² , green: 72 cd / m ² , and blue 22 cd / m ² . That is, at this point, the brightness ratios of red, green, and blue are slightly different from the initial ratios, and if the same current as that at the beginning is supplied, the brightness ratios of red and green become higher than the brightness ratio of blue. , Red, greenish white. Therefore, in the next step 202, the correction value of the emission luminance of each light emitting material (light emitting element) is calculated based on this value registered in the memory 6.

In this case, in this embodiment, the luminance ratio of each light emitting material (light emitting element) is based on the light emission luminance of the blue light emitting material (light emitting element) having the shortest life, and the luminance ratio of each light emitting material (light emitting element) is red: green:
The emission luminance correction value of each light emitting material (light emitting element) is determined so that blue = 3: 5: 2 is maintained. That is, since the correction value is determined so as to match the brightness of blue, which has the shortest life, the values are red: 33 cd / m ² and green: 55 cd /
m ² and blue 22 cd / m ² .

In this way, when the emission luminance correction value is calculated in step 202, the luminance adjusting section 22 determines the emission luminance correction value of each color constituting the display device 7 in step 204 according to the calculated emission luminance correction value. The current supplied to each light emitting material (light emitting element) is adjusted so that the light emission luminance of the light emitting material (light emitting element) becomes the value corrected previously. Therefore, according to the present embodiment, it is possible to easily and accurately obtain the necessary white color while maintaining the life characteristics of the blue light emitting material (light emitting element) having the shortest life. That is, if the correction is performed according to the brightness of other red, green, etc. without performing the operation, at least,
It is necessary to supply a larger amount of current to the blue light emitting material (light emitting element), the deterioration of the blue light emitting material (light emitting element) becomes significantly faster than that shown in FIG. 4, and the life of the entire display device is remarkably increased. Shortened. However, according to the present embodiment, correction is performed so as to adjust the other in accordance with the brightness of blue, which has the shortest life, and the blue light-emitting material (light-emitting element) is used accurately and then In step 205, the threshold value X in step 201 is further increased by a certain value (for example, 10 hours in this embodiment), the process proceeds to step 201, and the same operation is repeated.

As described above, according to the present embodiment, the lighting time of the display device 7 is measured, and when a predetermined fixed time elapses, based on the light emission brightness of the light emitting element having the shortest life, Since the light emission brightness of the other light emitting elements is adjusted to be a predetermined value, the desired color can be obtained without sacrificing the life of the light emitting element having the shortest life.
The life can be extended accordingly.

In the present embodiment, although not shown, when a screen that does not require a natural color tone, such as a standby state, a function selection screen, a character screen, and an illustration screen, is displayed, the life of the screen is reduced. The current supplied to the short blue light emitting material (light emitting element) is forcibly less than the current supplied to the long-lived red and green light emitting materials (light emitting element), or is set to zero. That is, in a screen that does not require such a natural color tone, as long as possible, the light emitting material (light emitting element) having a short life is not emitted, and the light emitting material (light emitting element) having a long life is emitted. When producing
Alternatively, when each of the screens is displayed, a detecting means for detecting the screen is provided, and each current supplied to the light emitting material (light emitting element) is automatically controlled as described above based on the result of the detecting means. It is configured to do.

Therefore, according to the present embodiment, the light emitting material (light emitting element) having a long life can be effectively used, and the light emitting material (light emitting element) having a short life can be prevented from being used as much as possible. As a result, the life of the display device can be extended.

In this embodiment, the lighting time of the entire display device is measured and corrected.
For each light emitting material (light emitting element), that is, for each light emitting material (light emitting element) of red, blue, and green, the light emission time is measured,
It is also possible to make a correction each time the light emission time reaches a predetermined fixed time. By doing so, the accuracy can be further improved.

Further, in the present embodiment, when the display has a specification capable of varying the brightness of the display device as an electronic device such as a mobile terminal, it is recommended that the above-mentioned correction be applied in consideration of the specification. Good. Further, in the present embodiment, the organic EL is used as the display device, and the lifetime characteristic shown in FIG. 4 is specifically described as the lifetime characteristic, but the present invention is not limited to these. It goes without saying that the same applies to the case of using another display device or one having another life characteristic.

[0039]

As described above, according to the present invention, the lighting time of the display device is measured, and when a certain period of time elapses, each light emission that emits the three primary colors of light constituting the display device at that time point. The light emission luminance of the material (light emitting element) is automatically adjusted so as to have a predetermined ratio, and even if a display device having a half-life is used, a good color tone is obtained over a long period of time. High quality display can be guaranteed.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of an electronic device according to an embodiment of the present invention.

FIG. 2 is a schematic configuration diagram showing a main part of an electronic device according to an embodiment of the present invention.

FIG. 3 is a flowchart showing an operation of a main part of the electronic device according to the embodiment of the present invention.

FIG. 4 is a life characteristic diagram of a display device included in an electronic device according to an embodiment of the present invention.

[Explanation of symbols]

1 antenna 2 Wireless transceiver 3 Handset circuit 4 handset 5 Operation part 6 memory 7 Display 8 control unit 21 Light emission time measurement unit 22 Brightness control section

Front page continuation (51) Int.Cl. ⁷ Identification code FI theme code (reference) H05B 33/14 H05B 33/14 AF terms (reference) 3K007 AB02 AB04 AB17 DB03 GA00 GA04 5C080 AA06 BB05 CC03 DD14 DD29 DD30 EE28 GG12 JJ02 JJ05 JJ07

Claims (6)

[Claims] 1. A color display device having a half-life, a light emission time measuring means for measuring a light emission time of the display device, and a cumulative total of light emission times measured by the light emission time measuring means reaches a predetermined constant time. And a brightness adjusting unit for adjusting the brightness of the display device, wherein the brightness adjusting unit has a predetermined ratio of the emission brightness of each light emitting element that emits the three primary colors of the colors forming the display device. The electronic device characterized by being adjusted as follows. 2. A color display device having a half-life, a light emission time measuring means for measuring a light emission time of the display device, and a cumulative total of light emission time measured by the light emission time measuring means reaches a predetermined constant time. And a brightness adjusting unit that adjusts the brightness of the display device, the brightness adjusting unit having a predetermined ratio of the emission brightness of each light emitting element that emits three primary colors of the display device. The electronic device characterized by being adjusted as follows. 3. The brightness adjusting means, based on the light emitting brightness of the light emitting element having the shortest life among the light emitting elements emitting the three primary colors of the colors forming the display device, the light emitting brightness of other light emitting elements. 3. The electronic device according to claim 1, wherein the ratio is adjusted to be a predetermined ratio. 4. The electronic device according to claim 3, wherein the predetermined ratio is a white balance ratio for obtaining a predetermined white color. 5. The electronic device according to claim 1, wherein the display device is an organic EL. 6. A display means for detecting a natural color tone when the screen is changed to a screen which does not require a natural color tone and a light emitting element having a long service life which detects that the detection means is inconsistent. An electronic device comprising means for forcibly reducing current supply to a light emitting element having a short life.