JPH06110403A - Display device and display panel - Google Patents

Abstract

PURPOSE:To provide a display device which has superior secrecy keeping characteristics for information invisible except to a specific user and also provide a display device which has secrecy keeping characteristics for information by instantaneously switching the screen. CONSTITUTION:This main display device is constituted having, for example, a display panel 14, an optical shutter 15, and a display control part 17. Further, the output part of pixel electrodes and a 1st driving element is equipped with a memory element with a memory function and a 2nd driving element which writes a display signal to the respective pixel electrodes at the same time for all the pixels of the display panel to obtain an instantaneous switching type display panel. Therefore, a portable information processor which enables only the specific user to see a desired image, but disables others to see it is provided, and the operator can operate the processor while the secrecy is kept. Further, a flash switching type display panel which turns on and off a visualizing means synchronously is provided and the secrecy is more kept.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly,
The present invention relates to a portable display device and a display panel that can be seen only by a specific user.

[0002]

2. Description of the Related Art A conventional display device is disclosed, for example, in JP-A-61-161.
As described in Japanese Patent No. 138288, development of a display with good visibility is under study. FIG. 6 shows an example of a system to which a conventional display device is applied. This system is an example in which a liquid crystal display is applied to a display unit of a desk-top computer, and includes a computer main body 1, a keyboard 2 and a liquid crystal display 3. Compared with a conventional display using a cathode ray tube (hereinafter referred to as "CRT"), the display is lighter and more compact, and has a feature that the installation area and the like can be extremely reduced. In particular, with respect to one computer main body 1, a system in which a plurality of operators can work at the same time by a plurality of keyboards 2 and a liquid crystal display 3, and knees that are required to be lightweight By applying it to a ride-on type computer, its characteristics are fully exhibited. Therefore, by using the liquid crystal display 3 for the display unit of the computer, a lightweight and space-saving portable computer for personal use such as a notebook computer can be realized. It is needless to say that a similar system can be applied to realize a portable device having an excellent document processing function such as a word processor. Furthermore, with the recent advances in semiconductor processing technology that have made microprocessors more sophisticated and high-density packaging technology advanced, these computers for personal use are becoming more sophisticated, and complex and sophisticated information can be easily handled. The environment for handling is being prepared. However, in the development of conventional display devices, since emphasis was placed on thinness, wide viewing angle, high brightness, long life, low power consumption, etc., almost no consideration was given to confidentiality of displayed information. Was not configured.

[0003]

Under the circumstances described above, confidentiality of information is an important issue even for personal use. That is, since these devices are portable, the environment in which they are used varies, and it is fully conceivable that these devices are used, for example, in a transportation system that can be seen by unspecified people around. However, conventional display devices have hardly paid attention to the confidentiality of information displayed to unspecified persons in the surroundings, that is, to prevent others from seeing the displayed image at necessary places. Further, depending on the environment, no consideration is given to canceling the unnecessary confidentiality protection function as in the case where a plurality of people view a display device having a confidentiality protection function.
Further, in the conventional display device, most of flat displays such as a dot sequential drive, a liquid crystal display and an EL display adopt a line sequential drive in a CRT, so that the display screen cannot be switched instantaneously. Therefore, an object of the present invention is to provide a display device excellent in confidentiality of information that can be seen only by a specific user. Furthermore, another object of the present invention is to switch the screens instantly and to be suitable for a display device having excellent information confidentiality protection characteristics. To provide the display panel of.

[0004]

As means for solving the above problems, the following means are conceivable. A display device including a display device and a display control unit further includes a visualization unit, and the display control unit is at least 2
The display control unit has a function of sequentially displaying images of more than one kind on the display device, and the display control unit has at least the above-mentioned 2
It is a display device having a function of driving the visualizing means and visualizing the specific image through the visualizing means when a specific image is displayed out of the images of more than one kind sequentially displayed. Further, in the above display device, the display control unit further has a function of displaying a specific image on a display device and creating a display image that can be viewed without using the visualization unit. The image display state by the function is set to the first mode, and the display state of visualizing a specific image displayed on the display device through the visualization means is set to the second mode, and the first and second modes are set. A display device having a function of switching the mode is also conceivable. Further, in the display device, the display device in which the at least two or more kinds of sequentially displayed images include a normal image and a reversed image thereof may be considered. Further, the visualization means may be a display device having an optical shutter, and the optical shutter may be a liquid crystal optical shutter. Further, in the display device, the visualization means may be a display device having a portable portion.

Further, in the display device, the visualization means comprises an optical shutter section and a drive section thereof, and the visualization section has a spectacle frame shape as a whole, and the drive section is provided in the spectacle frame. A display device in which an optical shutter is provided in the spectacle lens section is also conceivable.

Further, in the display device, the display control unit may be provided with means for varying the display cycle of each image when at least two or more kinds of images are sequentially displayed on the display device. Furthermore, in the display device, the display device includes a receiver, and the display control unit includes a transmitter, and transmission / reception of a signal between the display device and the display control unit is performed by an electromagnetic wave or an ultrasonic wave. In the display device using the information transmission medium, or in the display device, the display control unit includes a transmitter, and the visualization unit includes a receiver, and a signal between the display control unit and the visualization unit. For transmission and reception, a display device using an information transmission medium of either electromagnetic waves or ultrasonic waves can be considered. Further, in the display device, when the display control unit displays a specific image of two frames or more, the display control unit displays two specific images.
It may be a display device having a function of transmitting an image after the frame by the visualization means. Further, a display device in which the first frame of the frames forming the specific image has a shorter display time than other display frames may be used. Further, in the display device, the display device section is configured to include liquid crystal pixels, and further, at least a clear or strobe signal line is connected to all of the pixels, and each of the pixels is driven by the clear signal. A display device having a function of simultaneously erasing the display contents and switching the updating process of the data of each pixel by driving the strobe signal is also conceivable. In the above display device,
A display device in which the time for switching the display image is shorter than 200 milliseconds is also conceivable. By the way, a method described below can be considered as a method for performing flash display. First, at least two or more signal wirings and at least two or more scanning wirings are crossed in a grid pattern and provided corresponding to each crossing portion. In an active matrix type display panel in which a first driving element for driving each liquid crystal element is arranged at each intersection, a display signal is written in all the memory elements connected to each pixel forming the display panel. Later, there is a method of driving a display panel in which a drive signal for writing the display signal written in the memory element to each pixel electrode is applied. Also,
At least two or more signal wirings and at least two or more scanning wirings are intersected in a grid pattern, and a first drive element for driving each liquid crystal element provided corresponding to each intersection is provided at each intersection. In the arranged active matrix display panel, a drive signal for writing the display signal written in the memory element after writing the display signal in all the memory elements connected to each pixel constituting the display panel. A driving method of the display panel is also conceivable, in which a clear signal for erasing the display signal written in each pixel electrode is applied to the third driving element before applying the driving signal written in each pixel electrode. . Further, at least two or more signal wirings and at least two or more scanning wirings are crossed in a grid pattern, and first driving elements for driving each liquid crystal element provided corresponding to each crossing portion are crossed with each other. A memory element having a memory function at the output portion of the first driving element, and the output of the memory element is used to write a display signal to each pixel electrode at the same time in all pixels of the display panel. In the active matrix type display panel having the driving element, the pixel electrodes for bringing the first driving element and the second driving element into the conductive state at the same time are cleared, and the memory element and the pixel electrodes are sequentially processed. A display panel that performs a display process of inputting a predetermined voltage and further performs a second display process of inputting a predetermined voltage for creating an inverted image of the image displayed in the first display process. It may be the driving method. The following means can be considered as means for realizing the above method. That is, at least two or more signal wirings and at least two or more scanning wirings are intersected in a grid pattern, and the first drive elements for driving each liquid crystal element provided corresponding to each intersection are crossed each other. In the active matrix type display panel placed in the
A memory element that holds an output voltage for display is connected to each of the output sections of all the first drive elements, and the output voltage of the memory element is simultaneously input as a display signal to each corresponding liquid crystal pixel. It is a display panel having a second drive element.

In this case, each liquid crystal element has a third driving element having a function of simultaneously changing the display voltage input to the electrodes of all the liquid crystal pixels forming the display panel to the intermediate potential of the liquid crystal. Can also be considered. Furthermore, the means described below is conceivable as means for utilizing the afterimage time of human eyes and not being able to capture the information displayed on the display screen by a third party who does not use the visualization means. A display device including a display device and a display control unit further includes a visualization unit, and the display control unit displays at least two or more types of images on the display device by human eyes. The display control unit has a function of displaying within an afterimage time, further canceling each other's images by shading each other, and displaying a specific image in a state incapable of being caught by human eyes. A display device having a function of driving the visualization unit to visualize a specific image among the displayed images of more than one kind when the specific image is displayed.

In addition, the following means can be considered as means for realizing the multi-view system. A display device including a display device and a display control unit further includes at least two visualization units, and the display control unit displays at least two or more types of images on the display device. The display control unit has a function of sequentially displaying, and further, the display control unit has a plurality of output terminals corresponding to a specific image in advance among the at least two or more types of sequentially displayed images, and A display device having a function of connecting the visualization means to drive the visualization means when the particular image is displayed and visualize the particular image via the visualization means is also conceivable. In this device, the display control unit further has a function of displaying a specific image on a display device, and the image has a function of creating a display image that can be viewed without using the visualization unit. The image display state is set to the first mode, and the display state for visualizing a specific image displayed on the display device through the visualization means is set to the second mode, and the first and second modes are set. A display device having a switching function is also conceivable.

[0009]

[Operation] The operation will be described below. The display device sequentially displays a plurality of images at desired times and switches the images to mix the images, so that unspecified people in the surroundings cannot read the images. That is, the unspecified person can only observe the unpatterned screen of the intermediate color between white and black. On the other hand, when the specific user uses the visualization means that selectively transmits only the image at the desired time, it can be made readable only by the specific user. Further, since it is possible to be viewed by a plurality of users by displaying in a normal display mode without using a visualization means, it is desirable to have a configuration in which both modes can be selected. Further, by switching between the normal image and the reverse image, the image can be made completely invisible, so that confidentiality of information can be secured. Further, the visualization means may be configured by using a liquid crystal optical shutter or the like, and the portability is further improved by using a portable device such as glasses. Furthermore, signals can be transmitted and received between the respective devices by using an airborne transmission medium such as electromagnetic waves and ultrasonic waves, whereby the harness can be made wireless and the portability can be further improved. In such a display device, it is desirable to have a display panel in which the display contents of all the liquid crystal pixels forming the display panel are switched at the same time, but even if a display panel in which simultaneous switching is not performed is used, The above device can be realized. In such a case, it may be configured to visualize the image of two or more frames among the plurality of frames. Now, as an implementation example of the means for performing the above simultaneous switching (hereinafter also referred to as “flash switching”), for example, the following display panel may be configured.

That is, a memory element having a memory function is connected to the electrode of the liquid crystal pixel and the output section of the first driving element, and the output signal of the element is simultaneously applied to each pixel electrode in all the pixels of the display panel. By providing a second drive element for inputting a display signal and driving a drive signal line connected to each pixel (a clear signal for erasing pixel display contents, a strobe signal line for writing pixel display contents, etc.) , It becomes possible to instantly switch the display images of all the pixels. This makes it possible to synchronize the switching between the visualization unit and the image, so that it is possible to prevent the display images from being mixed. Therefore, it is possible to provide a system in which only a specific user can see a high-quality image and at the same time, cannot be seen by others. Further, by providing a plurality of the visualization means, to the specific visualization means,
It is also possible to construct a multi-view system that visualizes a specific self-portrait, and multiple people can share the system.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS A display device and a display method thereof according to the present invention will be described with reference to FIG. The display device includes a display panel 14, for example, an optical shutter 15 that controls transmission and blocking of a display image in front of the user, and a display control unit 17. The display control unit 17 is means for controlling opening / closing of the optical shutter 15, and is configured to include, for example, an oscillation circuit, an ON / OFF signal output circuit, and the like. In addition, the display image 16
Is a display image that the user actually sees via the optical shutter 15.

The display panel 14 may be a direct-view type that directly displays an image on the panel or a projection type that projects an image on a screen.
And the inverted image 12 of the normal image 11 is, for example, 60 Hz
Every (16.7 (ms)) cycle, the display is switched and displayed at substantially equal time intervals. On the other hand, in front of the user, there is an optical shutter 15 in which liquid crystal is sandwiched between simple electrodes, and repeats transmission and blocking like a sequence 13. The optical shutter 15 may be a mechanical shutter or the like in addition to the liquid crystal type optical shutter shown in this embodiment, and may be any means that realizes transmission and blocking of light. The display control unit 17 may be built in the optical shutter 15 or may exist independently. A medium that propagates in the air, such as electromagnetic waves or ultrasonic waves, may be used for the signal transmitted to the display panel 14 and synchronized with the transmission / blocking operation of the optical shutter 15. Further, the display control unit 17 includes the display panel 1
4 may be built in. In this case, by making the control signal a signal propagating in the air, it is possible to provide a system in which a large number of users can see the normal image 11 at the same time. At this time, first, the display control unit 17 sets the image on the display panel 14 to the normal image 11 and the normal image 1
The reversed image 12 in which the black and white and the light and shade of 1 are reversed is displayed at substantially the same display interval. As a result, the switching cycle is shorter than the response time of the human eye.
If it is 00 (ms) or less, it cannot be recognized as an independent image, and the normal image 11 and the reverse image 1
Since it is perceived as a superposed density of 2, the entire display panel is uniformly grayed in halftone. Therefore, no matter what image is displayed, the unspecified person in the surroundings cannot read the displayed content. On the other hand, the display control unit 17 sets the optical shutter 15 in the transmission state in synchronization with the normal image 11 as shown in the sequence 13. As a result, the user sees only the normal image 11 and can obtain the display image 16. By forming the optical shutter 15 in the shape of glasses, it is possible to provide a device having excellent portability without being seen by an external unspecified person. Further, the display control unit 17 randomly changes the display interval to provide a device that cannot be seen because the image is not synchronized even if an outsider attempts to read it by using the same optical shutter as the present invention. You can According to the present embodiment, by switching the display image at every desired time, the respective images are mixed, so that there is no possibility of being read by an unspecified person around. Further, by displaying the normal image and the reverse image in combination, the image can be made completely invisible, so that the confidentiality of information can be completely secured. Further, by using the visualization means for selectively transmitting only a specific image at a desired time, the specific user can provide a device in which only the specific user can read the desired image. Further, in a place where confidentiality of information is not required, a user can select a mode to set a display mode for displaying only a normal image, and a device configuration used as a normal display device. You can also do it. Next, FIG. 2 shows an embodiment of a display panel according to the present invention, and FIG. 3 shows a timing chart for explaining a driving method of the panel. The basic configuration is almost the same as that of the conventional active matrix type liquid crystal display element, and although not shown, for example, m × n (m and n are integers)
Of pixels arranged in a matrix.
FIG. 2 shows the structure of one pixel of the pixels arranged in the matrix, and the on / o of the TFT 23 is shown.
a scanning wiring 21 for controlling ff for each line, a signal wiring 22 for applying a signal voltage 42 based on an image signal to a drain electrode of the TFT 23, and a first thin film transistor 23 (TFT) whose gate electrode is connected to the scanning wiring 21. In addition to the liquid crystal element 24 sandwiched between the pixel electrode connected to the source of the first TFT 23 and the common electrode of the counter substrate 25, a storage capacitor 26 for temporarily storing display information and its gate electrode are A second TFT 27 which is connected to the liquid crystal signal 31 and writes data to the liquid crystal element, and a gate electrode of which is connected to the clear signal 41, which is data clear for initializing the pixel electrode potential for each frame. Of the first, second and third TFTs 23, 2
The feature is that 7 and 28 are connected in series between the adjacent signal wirings Dj and Dj + 1. The clear wiring 41 and the strobe wiring 31 are commonly connected to all pixels,
The clear wiring 41 is connected to the gate electrode of the TFT 28, and the straw portion wiring 31 is connected to the gate electrode of the TFT 27. Clear signal 5 applied to the clear wiring 41
By setting 5 to High level (corresponding to "1" of the digital signal), the voltage input as the image signal to the liquid crystal element 24 is cleared and the display image is erased.
The main erasing process is simultaneously performed on all pixels. Further, by setting the strobe signal 56 applied to the strobe wiring 31 to the high level, the signal voltage 42 stored in the storage capacitor 26 via the TFT 23 is
All the liquid crystal pixels corresponding to the respective storage capacities 26 are simultaneously input, and the display image is instantaneously switched. next,
The operation of this embodiment will be described in more detail with reference to FIGS. First, in the first frame, the scanning signals Vg1 and Vg
, ..., Vgi, ..., Vgn are sequentially Hi by line sequential driving.
The signal voltage VData 42 is written in the storage capacitor 26 by setting the gh level signal and making the first TFT 23 conductive. In this embodiment, the first TFT 23
Is different from the operation in a normal active matrix type liquid crystal element, and is a TFT for inputting a voltage to the storage capacitor 26.
To work as. After the display image information for one frame is written in the storage capacitor 26, all the third TFTs 28 in the liquid crystal panel are turned on by the clear signal 55. At the same time, the voltage VData 42 of each signal wiring Dj, Dj + 1, ...
Give one. At this time, the potential Vsij of the pixel electrode becomes equal to the potential of the counter electrode 25. This is a process for erasing the image information of the previous frame when the charge accumulated in the storage capacitor 26 by the first TFT 23 is written in the liquid crystal display element according to the display information. After the potential of the liquid crystal display element becomes substantially equal to the potential of the signal wiring, the third TFT 28
After making the non-conducting state, by the strobe signal 56,
By simultaneously turning on all the second TFTs in the liquid crystal panel, it is possible to instantaneously switch the display content for one frame to the image information written in the storage capacitor 26. This completes the display operation of the first frame, and then creates and displays a reverse image in the second frame, thereby making it possible for others to make the display contents unreadable. According to this embodiment, the display panel has a storage capacity as a memory element having a memory function at the pixel electrode and the output part of the first TFT, and its output voltage is simultaneously applied to each pixel electrode in all the pixels of the display panel. By providing the second TFT for writing, it becomes possible to instantaneously switch the display images of all the pixels by the drive signal commonly connected to each pixel. By synchronizing this switching function and the operation of the visualization means, it becomes possible to visualize a specific image from a mixed state of display images. As a result, only a specific user can see a specific high-quality image, and others cannot understand the display content at all. Of course, in FIG. 2, by setting the clear signal 55 to Low and the strobe signal 56 to High so that the TFT 28 is always OFF and the TFT 27 is always ON, a display mode similar to a normal active matrix display device can be realized. Therefore, a device configuration capable of switching between the instantaneous switching mode and the normal display mode is also possible. FIG. 8 illustrates another display panel circuit configuration example according to the present invention, and FIG. 9 illustrates a method for driving the display panel. The basic configuration of this display panel is the same as that of the embodiment shown in FIG. 2, but by controlling the drive timing and the storage capacity 26, the third TFT 28 and the clear signal wiring are not required, and two lines are included. The feature is that the number of strobe signal wirings is halved as compared with the embodiment of FIG. 2 by collecting the strobe signal wirings. The drive timing will be described with reference to FIGS. 8 and 9.
At the start of the first frame, the strobe signal 56 and all the gate signals Vg1 to Vgn are simultaneously set to the high level to bring the TFT 23 and the TFT 27 into a conductive state. At this time, the potential VDat of each signal wiring Dj, Dj + 1, ...
The potential a 101 at which no voltage is applied to the liquid crystal is applied to the liquid crystal by using a42 as an intermediate potential of the alternating signal of the liquid crystal, that is, an effective value.
Next, the gate signals Vg1 to Vgn applied to the scanning wiring 21
Are line-sequentially scanned and written in the storage capacitor 26. At this time, T
Strobe signal 31 applied to the gate of FT27 is Low
The level remains as it is and is not written in the liquid crystal element, so no display is made. In the second frame, the signal voltage written in the storage capacitor 26 in the first frame is written to each pixel electrode 24 by setting the strobe signal 56 to the high level to display a normal image.

The strobe signal 56 is set to low level,
An inversion image signal of the image written in the storage capacitor 26 in the second frame cancels the amount of charge written in each pixel in the second frame, and charges are additionally written in the storage capacitor 26. In the third frame, similarly to the above-described embodiment of the present invention, the signal voltage of the inverted image written in the storage capacitor 26 is written in each pixel electrode 24 to perform display.

Further, at this time, the potentials of the counter electrodes of the liquid crystal elements are made alternating for each frame, so that the voltages written in the second frame and the third frame can be made equal. By repeating the operation of the three frames described above, it is possible to realize a display panel having high confidentiality and high display quality. FIG. 4 shows another example of a display panel circuit configuration according to the present invention. The basic structure is the same as that of the embodiment shown in FIG. 2, except that the counter electrode of the storage capacitor 26 and the third TFT are
28 gate electrodes are commonly connected to the clear signal 41. At the time of initializing the voltage applied to the liquid crystal element, a signal voltage is temporarily applied to the storage capacitor 26 by the clear signal 41, but the clear signal 41 is turned off.
After that, it is possible to reduce the number of ground lines without affecting the writing of the image information to the storage capacity by the line-sequential operation. FIG. 5 shows an embodiment in which the present invention is applied to a dot-sequential scanning display panel such as a CRT or a line-sequential scanning display panel such as an ordinary liquid crystal display panel.
The basic configuration is the same as that of the embodiment shown in FIG. 1, but in the case of dot sequential scanning or line sequential scanning, a frame in which a normal image and a reverse image are mixed, such as display images 61 and 63.
There is a mu. Therefore, in the present embodiment, a frame (61,
63) and a frame (64) which becomes a completely inverted image, and a transmission period 65 is provided by the visualization means. As shown in this embodiment, the display in the transmission period after the frame inversion is completely completed is the same as the previous frame.
If it is the same as the frame, even if the display panel is a dot-sequential scanning type, a high-quality image can be seen because the inverted image at the time of frame switching cannot be seen. Further, by making the display images 61 and 63 of the frame in which the image inversion occurs display at high speed, the time period of the unnecessary frame is shortened, so that the transmission period of the visualization means is relatively lengthened. This makes it possible to prevent the display brightness from decreasing. Further, FIG. 7 shows an embodiment in which the present invention is applied to a multiview system. The basic configuration is the same as that of the embodiment shown in FIG. 2, but a plurality of display images (16-1, 16-2) are displayed.
Is displayed and synchronized so that a plurality of users can respectively visualize desired images, and the visualization device 15
-1, or the optical shutter of 15-2 is operated. According to the present system, a single display device allows a plurality of users to select and view a desired image from a plurality of images. At this time, each image may be made invisible by combining it with a normal image and a reverse image, or confidentiality can be maintained even if only a plurality of types of normal images are displayed.

Of course, it is possible to provide an apparatus in which only a normal image is displayed so that the display mode can be selected. According to the present embodiment, one display device allows a plurality of users to select and view a desired image from a plurality of types of images. As described above, a display device that switches and displays a plurality of display images at desired time intervals, and a display device that displays in combination with a reverse image, and a visualization that selectively transmits a specific image from the plurality of display images Only a specific user can see the desired display image by using the means, while others cannot read the display image. It is possible to provide a device that is not readable. Further, by combining the normal image and its inverted image, the image can be made completely invisible, so that further confidentiality of information can be secured.
Further, for example, by providing a pixel element and a memory element having a memory function in the output portion of the first driving element and a second driving element for writing the output voltage to all the pixels of the display panel at the same time, common to each pixel. The display signals of all the pixels can be instantly switched by the drive signal connected to. As a result, since it is possible to synchronize with the on / off of the visualization means, it is possible to provide a device in which only a specific user can see a desired image and at the same time, others cannot see it.

[0016]

As described above, it is possible to provide a portable information processing apparatus in which only a specific user can see a desired image and at the same time, others cannot see the desired image, and the operator can operate while maintaining confidentiality. I can do it. Further, it is possible to provide a flash switching type display panel which can be synchronized with the on / off of the visualization means, and further improve the confidentiality.

[Brief description of drawings]

FIG. 1 is an explanatory diagram of an example of a display device of the present invention.

FIG. 2 is a circuit configuration example of a display panel of the present invention.

FIG. 3 is a timing diagram showing a method of driving a circuit of a display panel of the present invention.

FIG. 4 is a circuit configuration example of another display panel of the present invention.

FIG. 5 is an explanatory diagram of an operation of the present invention in another display device.

FIG. 6 is an example of a conventional display device.

FIG. 7 is an explanatory diagram of an application example of the present invention to a multi-view system.

FIG. 8 is a circuit configuration example of another display panel of the present invention.

FIG. 9 is a timing diagram showing a method for driving a circuit of a display panel of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Computer main body, 2 ... Keyboard, 3 ... Liquid crystal display, 11 ... Normal image, 12 ... Reversed image, 13 ... Basic sequence of this invention, 14 ... Display panel, 15 ... Visualization means ( Liquid crystal shutter), 15-1 ... Visualization device, 15
-2 ... Optical shutter, 16 ... Display image, 16-1 ... Display image, 16-2 ... Display image, 17 ... Display control part, 21 ... Scan wiring, 22 ... Signal wiring, 23 ... TFT, 24 ... Liquid crystal element, 25 ... Counter electrode, 26 ... Storage capacity, 27 ... TFT,
28 ... TFT, 31 ... Strobe signal wiring, 41 ... Clear signal wiring, 42 ... Signal voltage, 55 ... Clear signal, 56
... Strobe signal, 61 ... Display image, 62 ... Display image,
63 ... Display image, 64 ... Display image, 65 ... Transparent period, 1
01 ... Intermediate potential of alternating signal

Claims (18)

[Claims] 1. A display device including a display device and a display control unit, further comprising a visualization unit, wherein the display control unit displays at least two types of images in the display device. Further, the display control unit drives the visualization means when a specific image is displayed among the at least two or more kinds of sequentially displayed images, and the visualization means is provided. A display device having a function of visualizing a specific image via a display device. 2. The function according to claim 1, wherein the display control unit further causes a display device to display a specific image, and the image creates a display image that can be viewed without using the visualization means. And an image display state by the function is a first mode, and a display state for visualizing a specific image displayed on a display device through the visualization means is a second mode, and A display device having a function of switching a second mode. 3. A display device according to claim 1, wherein the at least two or more kinds of sequentially displayed images are a normal image and an inverted image thereof. 4. The display device according to claim 1 or 2, wherein the visualization means includes an optical shutter. 5. The display device according to claim 4, wherein the optical shutter is a liquid crystal optical shutter. 6. The display device according to claim 1, wherein the visualization means has a portable portion. 7. The visualizing means according to claim 1 or 2, wherein the visualizing means includes an optical shutter portion and a driving portion thereof, and the visualizing means has a spectacle frame shape as a whole, and the driving portion is spectacles. A display device comprising an optical shutter provided in a frame and an eyeglass lens portion. 8. The display control unit according to claim 1, further comprising means for varying a display cycle of each image when at least two or more types of images are sequentially displayed on the display device. And display device. 9. The display device according to claim 1, wherein the display device is provided with a receiver, and the display control unit is provided with a transmitter, and signals are transmitted and received between the display device and the display control unit by electromagnetic waves. A display device characterized by using any one of information transmission media such as ultrasonic waves. 10. The display control unit according to claim 1 or 2, wherein the display control unit includes a transmitter, and the visualization unit includes a receiver, and transmission and reception of a signal between the display control unit and the visualization unit includes: A display device using an information transmission medium of electromagnetic waves or ultrasonic waves. 11. The display control unit according to claim 1 or 2, wherein, when displaying a specific image of two frames or more, the visualization unit transmits images of two or more frames of the specific image. A display device having a function. 12. A display device according to claim 11, wherein the display time of the first frame is shorter than that of the other display frames among the frames forming the specific image. 13. The display device section according to claim 1, wherein the display device section is configured to include liquid crystal pixels, and further, at least clear and strobe signal lines are connected to all of the pixels, A display device having a function of simultaneously performing erasing processing of display contents of each pixel by driving and switching of updating processing of data of each pixel by driving the strobe signal. 14. A first for driving at least two or more signal wirings and at least two or more scanning wirings in a grid pattern and driving each liquid crystal element provided corresponding to each intersection.
In the active matrix type display panel in which the driving elements of the above are arranged at each intersection, a memory element holding an output voltage for display is connected to each of the output sections of all the first driving elements, 2. A display panel having a second drive element for simultaneously inputting the output voltage of 1) as a display signal to each corresponding liquid crystal pixel. 15. The third function according to claim 14, further comprising the function of simultaneously setting the display voltage input to the electrodes of all liquid crystal pixels forming the display panel to an intermediate potential for driving the liquid crystal.
A display panel characterized in that each liquid crystal element has the driving element of. 16. A display device including a display device and a display control unit, further comprising a visualization unit, wherein the display control unit causes the display device to display at least two types of images. Is displayed within the afterimage time of the human eye, and
The images have a function of canceling each other's images by shading each other and displaying a specific image in a state in which it cannot be seen by human eyes. Further, the display control unit has at least two types of images to be displayed. A display device having a function of driving the visualization means when a particular image is displayed and visualizing the particular image through the visualization means. 17. A display device comprising a display device and a display control unit, further comprising at least two visualization means, wherein the display control unit displays at least two types of images. A display control unit has a plurality of output terminals corresponding to a specific image in advance among the at least two types of images to be sequentially displayed, When a specific image is displayed by connecting a visualization means to a specific output terminal,
A display device having a function of driving the visualization means and visualizing a specific image through the visualization means. 18. The function according to claim 17, wherein the display control unit further causes a display device to display a specific image, and the image creates a display image that can be viewed without using the visualization means. And an image display state by the function is a first mode, and a display state for visualizing a specific image displayed on a display device through the visualization means is a second mode, and A display device having a function of switching a second mode.