JP2008122516A - Display device and video signal processing system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a display device for maintaining image quality display performance over a long period of time, and to provide a video signal processing system. <P>SOLUTION: The video signal processing system includes a display panel displaying videos and a display panel drive circuit. The display panel includes a video display region composed of spontaneous optical elements and a video non-display region without displaying the videos. The video non-display region includes a deterioration detection circuit. The deterioration detection circuit includes a deterioration detection light emitting element and a deterioration detection light receiving element for detecting a light emission amount of the deterioration detection light emitting element. The display panel drive circuit includes a deterioration correction circuit for correcting the element characteristic deterioration of the video display region in response to output of the deterioration detection circuit. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a display device and a video signal processing system using an electroluminescence (EL) element using an organic material, that is, an organic EL element, such as a self-light-emitting element that deteriorates light emission characteristics in long-term use. .

  In a display device using a self-luminous element such as an organic EL element, the light emission characteristics of the light-emitting element deteriorate during long-term use, so the overall image quality display performance is maintained due to a decrease in overall luminance, a change in color balance, etc. There is a problem that cannot be done. In the prior art, there is a means for correcting a video signal and the like by detecting a luminance deterioration by providing a light receiving element for each light emitting element constituting the display device and suppressing the luminance deterioration. In addition, a configuration in which a light receiving element is arranged around the display area without providing each pixel and means for performing a test light emission procedure for sequentially lighting the pixels are disclosed.

JP 2003-173869 A

  However, the means for detecting the deterioration of luminance by providing a light receiving element for each pixel has a high manufacturing cost because it forms a light receiving element for each pixel, and it is difficult to remove the influence of external light and light emission of adjacent pixels. is there. On the other hand, the means for carrying out the test light emission procedure bothers the user in carrying out the operation and remarkably hinders the video display during the period during which the test light emission procedure is carried out.

  The object of the present invention is to solve the above-mentioned problems, and to provide a deterioration detection light emitting element and a deterioration detection light receiving element for detecting the light emission amount of the deterioration detection light emitting element in the image non-display area, and based on the detected light emission amount. By detecting the degree of deterioration of the light emitting element and adjusting the light emission amount of the light emitting element according to the degree of deterioration, even if the light emitting characteristics of the self light emitting element in the image display area deteriorate, It is possible to realize a display device and a video signal processing system capable of maintaining the image quality display performance.

A display device according to a first invention is a display device for displaying an image,
A display panel having two areas, a video display area composed of self-luminous elements and a video non-display area that does not display video,
The video non-display area includes a deterioration detection circuit.

  In the display device, the deterioration detection circuit includes a deterioration detection light emitting element and a deterioration detection light receiving element that detects a light emission amount of the deterioration detection light emitting element.

  In the display device, the deterioration detecting light receiving element is optically shielded from a light source other than the deterioration detecting light emitting element.

In the display device, the pixels of the video display area are composed of at least two sub-pixels of different emission colors,
The display device includes the deterioration detecting light emitting element and the deterioration detecting light receiving element for each of the emission colors.

  In the display device, the self-luminous element is an organic EL element.

A video signal processing system according to a second invention is a video signal processing system comprising a display panel for displaying video and a display panel driving circuit,
The display panel includes a video display area composed of self-luminous elements and a video non-display area that does not display video.
The image non-display area includes a deterioration detection circuit,
The display panel driving circuit includes a deterioration correction circuit that corrects element characteristic deterioration in a video display region in accordance with an output of the deterioration detection circuit.

  In the video signal processing system, the deterioration detection circuit includes a deterioration detection light emitting element and a deterioration detection light receiving element that detects a light emission amount of the deterioration detection light emitting element.

  In the video signal processing system, the deterioration correction circuit is a light emission amount control circuit that controls a light emission amount of the video display region and the deterioration detecting light emitting element.

  In the video signal processing system, the deterioration correction circuit is a gamma correction circuit that performs gamma correction in accordance with an output of the deterioration detection circuit.

  In the video signal processing system, the deterioration correction circuit is an amplification degree control circuit that controls a voltage amplification degree or a current amplification degree of a source driver.

In the video signal processing system, the display panel further includes a pixel driving circuit configured by a thin film transistor for driving pixels in the video display area,
The deterioration correction circuit is a power supply voltage control circuit that controls a power supply voltage of a pixel driving thin film transistor.

  In the video signal processing system, the deterioration correction circuit is a gradation control circuit that controls a light emission duty ratio of the self-light-emitting elements constituting the video display area.

In the video signal processing system, the display panel drive circuit further includes an average value calculation circuit that calculates an average value of signal levels of video signals input to the display panel,
The deterioration detection light emitting element is driven according to an average signal level obtained by the average value calculation circuit.

  In the video signal processing system, the average signal level is an average value in one frame period of a display panel signal input to the video display area.

  In the video signal processing system, the average value calculation circuit uses a weighted average in which the weight is increased toward the center of the video display area.

In the video signal processing system, the display panel drive circuit further includes a deterioration contribution calculation circuit that calculates a deterioration contribution from a signal level of a video signal input to the display panel.
The deterioration detection light emitting element is driven according to a signal level obtained by the deterioration contribution calculation circuit.

In the video signal processing system, the pixels of the video display area are composed of at least two sub-pixels of different emission colors,
The deterioration correction circuit is a white balance control circuit that keeps the white balance of the video display area constant according to the output of the deterioration detection circuit provided for each emission color.

  In the video signal processing system, the white balance control circuit keeps the white balance constant by lowering the light emission amount of other light emission colors in accordance with the light emission amount of the light emission color that is most deteriorated. It is characterized by.

  In the video signal processing system, the self-luminous element is an organic EL element.

  Therefore, according to the display device and the video signal processing system of the present invention, it is possible to maintain the image quality display performance over a long period of use even when the light emission characteristics of the light emitting element deteriorate. In addition, even when displaying an image in which the luminance distribution of the displayed image is significantly biased, the image quality display performance can be maintained over a long period of use. Furthermore, even in the case of a display panel composed of a plurality of emission colors having different deterioration characteristics, image quality display performance can be maintained over a long period of use. Furthermore, even in the case of a self-luminous element whose degree of contribution to the progress of deterioration is nonlinear with respect to the signal level to be displayed, the image quality display performance can be maintained over a long period of use.

  The best mode for carrying out the present invention will be described below with reference to the drawings. In the following embodiments, an organic EL element will be described as an example. However, the present invention is not limited to an organic EL, and is applicable to a self-light emitting element such as an inorganic EL element or an LED (Light Emitting Diode). Is possible. Moreover, the same code | symbol is attached | subjected about the same component.

(First embodiment)
FIG. 1 is a diagram showing a display panel 101 including an organic EL element according to the first embodiment of the present invention. In FIG. 1, a video display area 102 displays a video corresponding to an input display panel signal. The degradation detection circuit 103 is disposed in a video non-display area different from the video display area 102, and includes a degradation detection light emitting element and a degradation detection light receiving element that detects the light emission amount of the degradation detection light emitting element.

  FIG. 2 is a block diagram showing the configuration of the video signal processing system according to the first embodiment of the present invention. In FIG. 2, the video signal processing system 100 includes a display panel 101 and a display panel drive circuit 111. Further, the display panel 101 includes a video display area 102 and a deterioration detection circuit 103 for the display panel 101, and the deterioration detection circuit 103 includes a deterioration detection light emitting element 104 and a deterioration detection light receiving element 105.

  The display panel drive circuit 111 includes a deterioration correction circuit that corrects element characteristic deterioration. In the first embodiment, the deterioration correction circuit emits light from the organic EL element in the video display region 102 and the light emitting element 104 for deterioration detection according to an input video signal and the output of the light receiving element 105 for deterioration detection. Is a light emission amount control circuit 112 for controlling. The light emission amount control circuit 112 includes a correction processing circuit 131, a correction value calculation circuit 132, a deterioration state detection circuit 133, an image processing circuit 134, a representative value extraction unit 135, and an information source 136 indicating characteristics before deterioration. And an information source 138 indicating the characteristics after deterioration. In the first embodiment, the information source indicating the characteristics before deterioration and the information source indicating the characteristics after deterioration are respectively the characteristic table 136 before deterioration and the characteristic table group 138 after deterioration (137 is a table of the table group 138). One of them is shown.)

  The operation of the video signal processing system 100 configured as shown in FIG. 2 will be described below. An input video signal input from the outside is input to the image processing circuit 134 via the correction processing circuit 131. In the image processing circuit 134, the input video signal is subjected to image processing according to the display panel 101, and is output to the video display area 102 and the representative value extraction unit 135 as a display panel signal. The video display area 102 displays the video by causing the light emitting element to emit light based on the input display panel signal.

  The representative value extraction unit 135 extracts a representative value from the input display panel signal, and outputs the representative value to the deterioration detecting light emitting element 104 and the deterioration state detecting circuit 133 as a deterioration detecting light emitting element signal. For example, the representative value may be a signal level of one light emitting element at a predetermined location in the video display area 102 or may be a signal level of a light emitting element extracted at random. The deterioration detecting light emitting element 104 emits light based on the input deterioration detecting light emitting element signal.

  The signal level of the deterioration detecting light emitting element signal can be changed from 0 to 255. Now, if the signal level of the extracted representative value is 144, the signal level of the degradation detection light-emitting element signal is also 144. If the deterioration detecting light emitting element 104 does not cause deterioration of the light emitting characteristics of the element over time, the deterioration detecting light emitting element 104 emits light at a luminance level corresponding to the signal level 144, but the deterioration of the light emitting characteristics of the element over time. If this occurs, the deterioration detecting light emitting element 104 emits light at a luminance level lower than the luminance corresponding to the signal level 144. How low it is depends on the degree of deterioration of the light emission characteristics.

FIG. 3 is a graph showing an example of the relationship between the display panel signal and the light emission amount, where P ₀ shows a characteristic curve before deterioration, and P ₁ , P ₂ , P ₃ and P ₄ show characteristic curves after deterioration. . Characteristic curves P ₁ , P ₂ , P ₃ , and P ₄ after deterioration represent the characteristics of light emitting elements having different deterioration states. In FIG. 3, when the signal level of the display panel signal is A, the light emission amount is C before the detection light emitting element deteriorates, but after the deterioration, the light emission amount becomes D smaller than C. . At this time, the deterioration detecting light-emitting element 104 is designed to have the same material and the same element structure as the self-light-emitting elements constituting the image display area 102, so that the deterioration detecting light-emitting element 104 is placed in the image display area. It can be estimated that the state is deteriorated to the same extent as the average luminance deterioration state 102. Preferably, the deterioration detecting light emitting element 104 is designed to be an element manufactured in the same process as the self light emitting element constituting the image display region 102. Needless to say, in order to design a state in which the deterioration detecting light-emitting element 104 is deteriorated to the same extent as the average luminance deterioration state of the video display region 102, it does not have the same material and the same element structure. It may be realized.

  Next, the deterioration detecting light receiving element 105 receives light emitted from the deterioration detecting light emitting element 104 and outputs a received light amount signal corresponding to the received light amount to the deterioration state detecting circuit 133. Preferably, the deterioration detection circuit 103 includes a plurality of deterioration detection light-emitting elements 104 and a plurality of deterioration detection light-receiving elements 105 corresponding to the plurality of deterioration detection light-emitting elements 104, and each deterioration detection light-receiving element. An average value of the light emission amounts of the plurality of deterioration detection light emitting elements 104 in one frame period is calculated from the light emission amount detected by 105, and a received light amount signal corresponding to the calculated average value of the light emission amounts is supplied to the deterioration state detection circuit 133. Output.

The characteristic table 136 before deterioration and the characteristic table 137 after deterioration are respectively a table indicating characteristics of a signal level and a light emission amount before deterioration of the light emitting element, and a characteristic of signal level and light emission amount after deterioration of the light emitting element. For example, curves P ₀ and P ₂ of the graph shown in FIG. The deteriorated characteristic table group 138 includes the deteriorated characteristic table 137 and, for example, a table representing curves P ₁ , P ₃ , and P ₄ of the graph shown in FIG. Further, for example, the degree of deterioration between the curves P ₁ and P ₂ can be set more finely by the interpolation method. Furthermore, instead of the table, an approximate expression indicating characteristics before deterioration or characteristics after deterioration may be used.

The degradation state detection circuit 133 receives the degradation detection light emitting element signal input from the representative value extraction unit 135 and the received light amount signal. Here, it is assumed that the deterioration detecting light emitting element signal corresponds to the level A in FIG. 3 and the received light amount signal corresponds to the level D in FIG. The deterioration state detection circuit 133 searches for a table representing a deterioration characteristic curve passing through the point (A, D). In this case, it corresponds curve P _2, characteristic table 137 after degradation is selected. In addition, the deterioration state detection circuit 133 reads from the characteristic table 136 before deterioration how much light emission amount before deterioration should be for level A. The read result, that is, the set light emission amount becomes level C, and this value is added to the correction value calculation circuit 132. Hereinafter, the light emission amount before deterioration read from the characteristic table 136 before deterioration based on the signal level of the deterioration detection light emitting element signal input from the representative value extraction unit 135 by the deterioration state detection circuit 133 is referred to as a set light emission amount. The light emission amount based on the light reception amount signal input from the detection light receiving element 105 to the deterioration state detection circuit 133 is referred to as a detected light emission amount.

  Based on the level C read from the pre-deterioration characteristic table 136, the correction value calculation circuit 132 obtains a light emission amount of level C in the selected characteristic table 137 after deterioration, and how many input levels are present. Ask for it. In this case, it is obtained from the characteristic table 137 after deterioration that the input of level B is necessary. Further, the correction value calculation circuit 132 calculates a correction coefficient B / A and sends this correction coefficient to the correction processing circuit 131. The correction processing circuit 131 multiplies the input video signal by the correction coefficient B / A to make the input video signal a signal having a higher level, so that the original brightness of the light emitting element deteriorated in the video display area 102 is reduced. Can be secured. Since the deterioration state of the deterioration detecting light emitting element 104 is approximately the same as the deterioration state of the light emitting element of the video display area 102, a display panel control signal that compensates for the deterioration state of the video display area 102 can be generated. It is.

  In the first embodiment, the degradation detection circuit 103 is arranged in the video non-display area. However, the present invention is not limited to this and may be arranged on the back side of the video display area 102 or the like.

  As described above, according to the first embodiment of the present invention, the deterioration detection light emitting element 104 and the deterioration detection light receiving element 105 for detecting the light emission amount of the deterioration detection light emitting element 104 are provided in the image non-display area. In order to correct the characteristic deterioration, the light emission amount control circuit 112 provided in the display panel driving circuit 111 adjusts the light emission amount of the light emitting element in accordance with the degree of deterioration of the light emitting element, whereby the self light emitting element in the image display region 102 It is possible to realize a display device and a video signal processing system capable of maintaining the image quality display performance over a long period of use even when the light emission characteristics of the light source deteriorate.

(Second Embodiment)
FIG. 4 is a block diagram showing a configuration of a video signal processing system according to the second embodiment of the present invention. Compared with the video signal processing system 100 according to the first embodiment of FIG. 2, the video signal processing system 100A according to the second embodiment includes a gamma correction circuit 113 that performs gamma correction as shown in FIG. Furthermore, it is characterized by having prepared. Hereinafter, differences from the first embodiment will be described in detail.

  In FIG. 4, the light emission amount control circuit 112 includes a gamma correction circuit 113 before the correction processing circuit 131. The gamma correction circuit 113 is a table conversion means in video signal processing, as well as a signal output voltage amplification factor and a signal output current amplification factor of a source driver that applies an analog voltage or an analog current to a source signal line according to the display panel signal. You may implement | achieve by the control means or the gradation control means by light emission DUTY control. In particular, when the display device is an active matrix type display device, it may be realized by voltage control means of a pixel driving circuit constituted by thin film transistors.

  In the second embodiment, the gamma correction circuit 113 is provided before the correction processing circuit 131, but the present invention is not limited to this, and may be provided after the correction processing circuit 131, or the correction processing circuit 131. It may be provided instead of.

  As described above, according to the second embodiment of the present invention, the gamma correction is performed by the gamma correction circuit 113 provided in the display panel drive circuit 111 in order to correct the element characteristic deterioration, thereby It is possible to realize a display device and a video signal processing system that can maintain image quality display performance over a long period of use even when the light emission characteristics of the self-light-emitting element deteriorate.

(Third embodiment)
FIG. 5 is a cross-sectional view of the display panel 101 showing the arrangement of the deterioration detecting light emitting element 104 and the deterioration detecting light receiving element 105 according to the third embodiment of the present invention. In FIG. 5, a substrate 121 is provided with a deterioration detecting light emitting element 104, a deterioration detecting light receiving element 105, and a self-emitting element 122 that constitutes a video display area 102. It is desirable that the deterioration detection light-receiving element 105 be disposed adjacent to the light-receiving element 104 for detecting the deterioration effectively. Further, the deterioration detecting light receiving element 105 needs to be unaffected by other light sources in order to accurately detect the light emission amount of the deterioration detecting light emitting element 104. For this reason, it is preferable that the light-receiving element 105 for detecting deterioration is disposed sufficiently apart from the self-light-emitting element 122 constituting the video display area. The viewer views the video displayed from the viewing direction shown.

(Modification of the third embodiment)
FIG. 6 is a cross-sectional view of the display panel 101 showing the arrangement of the deterioration detecting light emitting element 104 and the deterioration detecting light receiving element 105 according to a modification of the third embodiment of the present invention. As shown in FIG. 6, in order to optically shield the deterioration detection light-receiving element 105 from light sources other than the deterioration detection light-emitting element 104, a partition wall 123 that shields light emitted from an adjacent light-emitting element is disposed. It is effective to arrange a light shielding plate 124 that shields light. Since the deterioration detection light-receiving element 105 and the deterioration detection light-emitting element 104 are arranged in the image non-display area, it is possible to install the light shielding plate 124 without disturbing the image display.

  As described above, according to the third embodiment and the modification of the third embodiment of the present invention, the deterioration detection light-receiving element 105 is not affected by other than the deterioration detection light-emitting element 104, and the deterioration detection light-receiving element 105 is not affected. It is possible to accurately detect the light emission of the light emitting element 104.

(Fourth embodiment)
FIG. 7 is a block diagram showing a configuration of a video signal processing system according to the fourth embodiment of the present invention. Compared to the video signal processing system 100A according to the second embodiment in FIG. 4, the video signal processing system 100B according to the fourth embodiment, instead of the representative value extraction unit 135, as illustrated in FIG. An average value calculation circuit 114 that calculates an average signal level of the display panel signal output to the video display area 102 and outputs the average signal level to the deterioration detecting light emitting element 104 is provided. Hereinafter, differences from the second embodiment will be described in detail.

  The average value calculation circuit 114 calculates the average signal level by dividing the input display panel signal by adding the signal levels of all elements in the video display area 102 in one frame period, and calculating the average signal level. A value displaced by a predetermined amount in the darker or darker direction is output to the deterioration detecting light emitting element 104 and the deterioration state detecting circuit 133 as a deterioration detecting light emitting element signal. Thereby, it is possible to easily make the deterioration detecting light emitting element 104 deteriorated to the same extent as the average luminance deterioration state of the image display region 102.

  In the fourth embodiment, the average value calculation circuit 114 calculates the average signal level by using a simple addition average. However, the present invention is not limited to this, and the average value calculation circuit 114 depends on the display position in the video display area 102. A weighted average such as increasing the weight as it is in the center of the screen may be used. As a result, the image quality display performance at the center of the screen, which is easily noticeable, can be maintained for a longer time, and the viewer is less likely to notice the deterioration of the image quality display performance.

  As described above, according to the fourth embodiment of the present invention, by providing the average value calculation circuit 114, the deterioration detecting light-emitting element 104 is deteriorated to the same extent as the average luminance deterioration state of the video display region 102. It is easily possible to be in a state of being. As a result, it is possible to realize a display device and a video signal processing system capable of maintaining the image quality display performance over a long period of use even in the case of continuing to display an image in which the luminance distribution of the display image is significantly biased. Is possible.

(Fifth embodiment)
The deterioration characteristics of the self-light-emitting element generally vary depending on the emission color. FIG. 8 is a graph showing the relationship between the drive time and the amount of light emission, showing the degradation characteristics for each self-luminous element having the light emission color A, the light emission color B, and the light emission color C. For example, the emission color A, emission color B, and emission color C are red, green, and blue, respectively. In FIG. 8, even for each light emitting color element having the same amount of light emission in the initial characteristics, the amount of decrease in the light emission amount varies for each light emitting color, that is, for each self light emitting element as the drive time elapses. It is difficult to analogize the degree of deterioration of the luminescent color A from the degree of deterioration of the luminescent color B. Therefore, when the display panel is composed of sub-pixels having a plurality of emission colors, it is desirable to provide the configurations of the first to fourth embodiments for each emission color.

  FIG. 9 is a cross-sectional view of the display panel 101 showing the arrangement of the deterioration detecting light emitting elements and the deterioration detecting light receiving elements in the fifth embodiment of the present invention. In FIG. 9, a deterioration detecting light emitting element A104A having a light emission color A on a substrate 121, a deterioration detecting light receiving element A105A that receives light emitted from the deterioration detecting light emitting element A104A, a deterioration detecting light emitting element B104B having a light emission color B, and Deterioration detection light receiving element B105B for receiving the light emission of the deterioration detection light emitting element B104B, deterioration detection light emitting element C104C having emission color C, and deterioration detection light receiving element C105C for receiving the light emission of the deterioration detection light emitting element C104C. The light emitting color A, the light emitting color B, and the light emitting color C constituting the video display area 102 are provided. A partition wall 123 for shielding light emitted from adjacent light emitting elements other than the deterioration detecting light emitting elements 104A, 104B, and 104C corresponding to the respective deterioration detecting light receiving elements 105A, 105B, and 105C is provided with each deterioration detecting light emitting element 104A, 104B, A light shielding plate 124 that is provided between 104C and shields external light to the respective deterioration detection light receiving elements 105A, 105B, and 105C faces the respective deterioration detection light receiving elements 105A, 105B, and 105C across the substrate. In the position.

  In the fifth embodiment, the light emission color A, the light emission color B, and the light emission color C are red, green, and blue, respectively, but the present invention is not limited thereto, and the light emission color A, the light emission color B, and the light emission color C are Each may be cyan, magenta, and yellow. In the fifth embodiment, the emission colors are three. However, different emission colors may be added to obtain four colors of red, green, blue and white, or two colors of blue and yellow, or red and cyan. Two colors may be used.

  As described above, the display panel includes a plurality of emission colors having different deterioration characteristics by including the deterioration detection light emitting elements 104A, 104B, and 104C and the deterioration detection light receiving elements 105A, 105B, and 105C for each emission color. However, it is possible to realize a display device and a video signal processing system that can maintain image quality display performance over a long period of use.

(Sixth embodiment)
In the case of a display panel composed of a plurality of light emission colors having different deterioration characteristics as in the fifth embodiment, the white balance changes because the deterioration characteristics differ as the light emission amount for each light emission color deteriorates. There is a problem to do. FIG. 10 is a block diagram showing a configuration of a video signal processing system according to the sixth embodiment of the present invention. Compared with the video signal processing system 100 according to the first embodiment of FIG. 2, the video signal processing system 100 </ b> C according to the sixth embodiment has a display panel 101 </ b> C that emits each of the emission colors A, as shown in FIG. 10. Three deterioration detection circuits 103A, 103B, and 103C corresponding to B and C are provided, and the light emission amount control circuit 112C is replaced with the correction processing circuit 131, the correction value calculation circuit 132, and the deterioration state detection circuit 133, and the white balance control circuit 141. , A deterioration degree ratio calculation circuit 142 and a deterioration degree calculation circuit 143 are provided, and the characteristic table is only the characteristic table 136 before deterioration. Hereinafter, differences from the first embodiment will be described in detail.

  In FIG. 10, the display panel 101C has an image display area 102 of the display panel 101C composed of light emission color A, light emission color B, and light emission color C sub-pixels, and deterioration corresponding to the light emission color A of the display panel 101C. A detection circuit A103A; a deterioration detection circuit B103B corresponding to the emission color B of the display panel 101C; and a deterioration detection circuit C103C corresponding to the emission color C of the display panel 101C. Further, the deterioration detection circuit A103A, the deterioration detection circuit B103B, and the deterioration detection circuit C103C are respectively a deterioration detection light emitting element A104A, a deterioration detection light receiving element A105A, a deterioration detection light emitting element B104B, and a deterioration detection light receiving element B105B. A deterioration detecting light emitting element C104C and a deterioration detecting light receiving element C105C are provided. The light emission amount control circuit 112 </ b> C includes an image processing circuit 134, a representative value extraction unit 135, a white balance control circuit 141 that keeps the white balance constant according to the light emission color that is most deteriorated, and the deterioration that is most advanced. A deterioration degree ratio calculation circuit 142 that calculates a deterioration degree ratio of each emission color based on the deterioration degree of the emission color, a deterioration degree calculation circuit 143 that calculates a deterioration degree of each emission color, and a characteristic table 136 before deterioration. With.

  The operation of the video signal processing system 100C configured as shown in FIG. 10 will be described below. Details will be described with reference to FIG. The representative value extraction unit 135 extracts representative values of the respective emission colors from the input display panel signal, and uses the representative values as the respective degradation detection light emitting element A signal, degradation detection light emitting element B signal, and degradation detection use. The light-emitting element C signals are output to the respective deterioration detection light-emitting elements A104A, deterioration detection light-emitting elements B104B and deterioration detection light-emitting elements C104C. Further, the deterioration detection light-emitting element A signal, the deterioration detection light-emitting element B signal, and the deterioration The detection light emitting element C signal is output to the deterioration degree calculation circuit 143.

  The deterioration degree calculation circuit 143 receives a light emission element signal for detecting deterioration of each emission color input from the representative value extraction unit 135C and also receives a received light amount signal of each emission color. The deterioration degree calculation circuit 143 reads the set light emission amount of each light emission color with respect to the signal level of the light emission element signal for deterioration detection of each light emission color from the characteristic table 136 before deterioration, The degree of deterioration of each emission color, which is the ratio of the emission color to the detected emission amount, is calculated, and the degree of deterioration of each emission color is added to the deterioration ratio calculation circuit 142.

  The deterioration degree ratio calculation circuit 142 calculates the deterioration degree ratio of each emission color based on the deterioration degree of the emission color that is most deteriorated based on the calculated deterioration degree of each emission color. The deterioration ratio of each emission color is sent to the white balance control circuit 141.

  The white balance control circuit 141 multiplies the signal component of each emission color of the input video signal by the deterioration ratio, thereby lowering the level of the signal component of the input video signal of the emission color whose progress of deterioration is slow, and the video display area 102. Even when the deterioration state of each light emitting element is different for each emission color, the white balance of the video display area 102 can be kept constant.

  FIG. 11 is a graph showing an example of the relationship between the display panel signal and the light emission amount. In FIG. 11, in the case of the luminescent color C whose progress of deterioration is slow, the light emission amount is R when the display panel signal value is P, but in the case of the luminescent color A whose deterioration is greatly advanced, when the display panel signal value is P The light emission amount is S smaller than R. At this time, in order to keep the white balance constant, the white balance control circuit generates the display panel signal value Q so that the emission amount of the emission color C becomes S.

  FIG. 12 is a flowchart showing white balance control processing executed by the light emission amount control circuit 112C of FIG. In FIG. 12, a case will be described in which the light emission color B and the light emission color C signal components of the display panel signal are generated so as to maintain the white balance in accordance with the light emission color A that has been most deteriorated.

  The light emission amount signals A, B, and C are set to Xa, Xb, and Xc, respectively, which are set in advance for the respective light emission elements 104A, 104B, and 104C for detecting deterioration of the light emission color A, the light emission color B, and the light emission color C. Assuming that the detected light emission amounts by Ya are Ya, Yb, and Yc, the degradation levels of the respective degradation detection light emitting elements 104A, 104B, and 104C of the emission color A, the emission color B, and the emission color C are Da, Db, and Dc. To do. In step S1, the set emission amounts Xa, Xb, Xc of the respective emission colors extracted by searching the characteristic table 136 before deterioration based on the deterioration detection light emitting element signal of each emission color, and the detected emission amounts of the respective emission colors. Deterioration levels Da, Db, Dc of the respective emission colors are calculated from the ratios of Ya, Yb, Yc.

Da = Xa / Ya

Db = Xb / Yb

Dc = Xc / Yc

  In step S2, the one having the largest value is extracted from the deterioration levels Da, Db, and Dc of the respective emission colors, and the maximum value of the extracted deterioration level is set to Dmax. Here, since the light emission color A is most deteriorated, the maximum value Dmax of the deterioration degree is the deterioration degree Da of the light emission color A. Based on the extracted maximum value Dmax of the deterioration degree, the deterioration ratios of the light emission color A, the light emission color B, and the light emission color C are defined as Ra, Rb, and Rc. In step S3, the deterioration degree ratios Ra, Rb, Rc of the respective emission colors are calculated.

Ra = Da / Dmax

Rb = Db / Dmax

Rc = Dc / Dmax

  In step S4, each light emission color signal component of the display panel signal is obtained by multiplying each signal component of the light emission color A, light emission color B, and light emission color C of the input video signal by the calculated deterioration degree ratio of each light emission color. Is generated. Here, the deterioration rate ratio of each emission color is

Ra = Da / Da = 1

Rb = Db / Da ≦ 1

Rc = Dc / Da ≦ 1

Thus, when the respective deterioration degree ratios Ra, Rb, and Rc are multiplied, the signal component of the emission color A is the same as that of the input video signal, but the signal component of the emission color B and the emission color C is smaller than that of the input video signal. In other words, the light emission amounts of the light emission color B and the light emission color C, whose deterioration progresses slowly, are lowered in accordance with the light emission amount of the light emission color A, which has been most deteriorated.

  In the sixth embodiment, the light emission amount control circuit 112C includes the representative value extraction unit 135C. However, instead of this, similarly to the fourth embodiment, an average value calculation circuit may be included. The average value calculation circuit calculates an average signal level of each element of each emission color in the video display area 102 in one frame period of the input display panel signal, and calculates the calculated average signal level of each emission color. The deterioration detection light emitting element A, the deterioration detection light emitting element B signal, and the deterioration detection light emitting element C signal are output to the deterioration detection light emitting element A 104A, the deterioration detection light emitting element B 104B, and the deterioration detection light emitting element C 104C, respectively.

  As described above, by providing the deterioration detection circuits 103A, 103B, and 103C for each emission color, even in a display panel composed of a plurality of emission colors having different deterioration characteristics, the white balance does not change over a long period of use. It is possible to realize a display device and a video signal processing system capable of maintaining display performance.

(Seventh embodiment)
Some self-luminous elements, such as organic EL elements, do not have a proportional relationship between the signal level to be displayed and the speed of deterioration. FIG. 13 is a graph showing an example of the relationship between the display time and the light emission amount when displayed at a constant display panel signal level. As shown in FIG. 13, when displayed at the signal level U, the time required for the light emission to deteriorate until the light emission amount is halved is 4T, whereas the light emission amount is double the signal level U in the initial characteristics. When displayed at a certain signal level 2U, the time required for deterioration until the light emission amount is halved is T. That is, the degree to which the signal level 2U contributes to the progress of deterioration of the self-luminous element is four times the signal level U.

  Thus, in a self-luminous element whose degree of contribution to the progress of degradation is nonlinear with respect to the signal level to be displayed, the degradation detection light-emitting element degrades to the same extent as the average luminance degradation state of the video display area. In order to achieve this state, it is preferable to set the light emission amount of the deterioration detecting light emitting element by calculating the degree of deterioration contribution due to the signal level to be displayed according to the characteristics of the self light emitting element.

  FIG. 14 is a block diagram showing a configuration of a video signal processing system according to the seventh embodiment of the present invention. Compared with the video signal processing system 100B according to the fourth embodiment in FIG. 7, the video signal processing system 100D according to the seventh embodiment has an average value of the light emission amount control circuit 112D as shown in FIG. Instead of the arithmetic circuit 114, a deterioration contribution degree calculation circuit 116 that calculates the degree of deterioration contribution to the video display area 102 from the display panel signal output to the video display area 102 and outputs it to the deterioration detection light emitting element 104 is provided. It is characterized by that. Hereinafter, differences from the fourth embodiment will be described in detail.

  The deterioration contribution degree calculation circuit 116 is based on a deterioration contribution degree function for a display panel signal that is set in advance according to the characteristics of the self-light emitting element, and the deterioration contribution degree from the display panel signal input to the video display area 102 to the video display area. And the light emission amount of the deterioration detecting light emitting element 104 is set according to the average value of the calculated deterioration contribution for one frame period.

  Hereinafter, description will be made using a general formula. When the signal level is L and the deterioration rate is V, the deterioration contribution function f indicating the relationship between the signal level L and the deterioration rate V when the signal level L is continuously displayed is defined as follows.

V = f (L)

  When the signal level of the video signal input to the display panel is Lx, the number of elements of the signal level of the video signal input to the display panel is N, and the average value of the deterioration rates of all the elements of the display panel is Vave. The light emission amount Lt set for the deterioration detecting light emitting element is calculated as follows.

Vave = (Σf (Lx)) / N

Lt = f ⁻¹ (Vave)

Specifically, as shown in FIG. 13, the relationship of the deterioration rate V when the signal level L is continuously displayed is a self-luminous element in which V = C × L ² using a proportional constant C, and a certain frame period. When the signal level of the video signal input to the 2 × 2 pixel display panel is four elements of 19, 12, 7, and 5, the light emission amount Lt set for the deterioration detecting light emitting element is as follows: It can be calculated.

Vave = (C × 19 ² + C × 12 ² + C × 7 ² + C × 5 ² ) /4=C×144.75

Lt = √ (Vave / C) ≈12

  As described above, according to the seventh embodiment of the present invention, the deterioration detection light emitting element 104 is deteriorated to the same degree as the average luminance deterioration state of the video display region 102 by including the deterioration contribution degree calculation circuit 116. It is possible to be in a state of being easily. As a result, a display device and a video signal capable of maintaining image quality display performance over a long period of use, even in the case of a self-luminous element whose degree of contribution to the progress of degradation is nonlinear with respect to the signal level to be displayed A processing system can be realized.

  The display device and the video signal processing system according to the present invention are useful as a display device using a self-luminous element that needs to maintain image quality display performance over a long period of use even when the light emission characteristics deteriorate.

The figure which shows the display panels 101 and 101C provided with the organic EL element which concerns on the 1st thru | or 7th embodiment of this invention. 1 is a block diagram showing a configuration of a video signal processing system according to a first embodiment of the present invention. Graph showing an example of the relationship between the display panel signal and the amount of light emitted The block diagram which shows the structure of the video signal processing system which concerns on the 2nd Embodiment of this invention. Sectional drawing of the display panel 101 which shows arrangement | positioning of the light emitting element 104 for deterioration detection which concerns on the 3rd Embodiment of this invention, and the light receiving element 105 for deterioration detection Sectional drawing of the display panel 101 which shows arrangement | positioning of the light emitting element 104 for deterioration detection and the light receiving element 105 for deterioration detection which concerns on the modification of the 3rd Embodiment of this invention. The block diagram which shows the structure of the video signal processing system which concerns on the 4th Embodiment of this invention. The graph which shows the deterioration characteristic for each self-light-emitting element which has the luminescent color A, the luminescent color B, and the luminescent color C, and shows the relationship between drive time and luminescence Sectional drawing of the display panel 101 which shows arrangement | positioning of the light emitting element for deterioration detection, and the light receiving element for deterioration detection in the 5th Embodiment of this invention The block diagram which shows the structure of the video signal processing system which concerns on the 6th Embodiment of this invention. Graph showing an example of the relationship between the display panel signal and the amount of light emitted The flowchart which shows the white balance control process performed by the light emission quantity control circuit 112C of FIG. A graph showing an example of the relationship between display time and light emission when displayed at a constant display panel signal level The block diagram which shows the structure of the video signal processing system which concerns on the 7th Embodiment of this invention.

Explanation of symbols

100, 100A, 100B, 100C, 100D Video signal processing system 101, 101C Display panel 102 Video display area 103, 103A, 103B, 103C Degradation detection circuit 104, 104A, 104B, 104C Degradation detection light emitting element 105, 105A, 105B , 105C Deterioration detection light receiving element 111, 111A, 111B, 111C, 111D Display panel drive circuit 112, 112A, 112B, 112C, 112D Light emission amount control circuit 113 Gamma correction circuit 114 Average value calculation circuit 116 Degradation contribution degree calculation circuit 121 Substrate 122 self-luminous element 123 partition 124 light shielding plate 131 correction processing circuit 132 correction value calculation circuit 133 deterioration state detection circuit 134 image processing circuits 135 and 135C representative value extraction unit 136 characteristic table before deterioration 37 characteristic table group 141 characteristics table 138 after degradation after degradation white balance control circuit 142 deterioration degree ratio calculating circuit 143 deterioration level calculating circuit

Claims (19)

A display device for displaying video,
A display panel having two areas, a video display area composed of self-luminous elements and a video non-display area that does not display video,
The video non-display area includes a deterioration detection circuit.   The display device according to claim 1, wherein the deterioration detection circuit includes a deterioration detection light emitting element and a deterioration detection light receiving element that detects a light emission amount of the deterioration detection light emitting element.   The display device according to claim 2, wherein the deterioration detection light-receiving element is optically shielded from a light source other than the deterioration detection light-emitting element. The pixels of the video display area are composed of at least two sub-pixels of different emission colors,
The display device according to claim 2, wherein the display device includes the deterioration detection light emitting element and the deterioration detection light receiving element for each of the emission colors.   The display device according to claim 1, wherein the self-luminous element is an organic EL element. A video signal processing system comprising a display panel for displaying video and a display panel driving circuit,
The display panel includes a video display area composed of self-luminous elements and a video non-display area that does not display video.
The image non-display area includes a deterioration detection circuit,
The video signal processing system, wherein the display panel drive circuit includes a deterioration correction circuit that corrects element characteristic deterioration in a video display area in accordance with an output of the deterioration detection circuit.   The video signal processing system according to claim 6, wherein the deterioration detection circuit includes a deterioration detection light-emitting element and a deterioration detection light-receiving element that detects a light emission amount of the deterioration detection light-emitting element. .   The video signal processing system according to claim 7, wherein the deterioration correction circuit is a light emission amount control circuit that controls a light emission amount of the video display region and the deterioration detection light emitting element.   8. The video signal processing system according to claim 7, wherein the deterioration correction circuit is a gamma correction circuit that performs gamma correction according to an output of the deterioration detection circuit.   8. The video signal processing system according to claim 6, wherein the deterioration correction circuit is an amplification degree control circuit that controls a voltage amplification degree or a current amplification degree of a source driver. The display panel further includes a pixel driving circuit composed of a thin film transistor for driving pixels in the video display area,
8. The video signal processing system according to claim 6, wherein the deterioration correction circuit is a power supply voltage control circuit that controls a power supply voltage of a pixel driving thin film transistor.   8. The video signal processing system according to claim 6, wherein the deterioration correction circuit is a gradation control circuit that controls a light emission duty ratio of the self-light-emitting element constituting the video display area. The display panel drive circuit further includes an average value calculation circuit for calculating an average value of signal levels of video signals input to the display panel,
The video signal processing system according to claim 7, wherein the deterioration detecting light emitting element is driven in accordance with an average signal level obtained by the average value calculation circuit.   The video signal processing system according to claim 13, wherein the average signal level is an average value of a display panel signal input to the video display area in one frame period.   15. The video signal processing system according to claim 13, wherein the average value calculation circuit uses a weighted average in which the weight is increased toward the center of the video display area. The display panel driving circuit further includes a deterioration contribution calculation circuit that calculates a deterioration contribution from a signal level of a video signal input to the display panel.
13. The video signal processing system according to claim 7, wherein the deterioration detecting light emitting element is driven in accordance with a signal level obtained by the deterioration contribution calculation circuit. The pixels of the video display area are composed of at least two sub-pixels of different emission colors,
17. The white balance control circuit according to claim 6, wherein the deterioration correction circuit is a white balance control circuit that maintains a constant white balance of the video display area in accordance with an output of a deterioration detection circuit provided for each emission color. The video signal processing system according to claim 1.   18. The white balance control circuit keeps the white balance constant by lowering the light emission amount of another light emission color in accordance with the light emission amount of the light emission color that is most deteriorated. The video signal processing system described in 1.   The video signal processing system according to claim 6, wherein the self-luminous element is an organic EL element.

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