KR100764993B1 - Liquid crystal display device and mobile station having the same - Google Patents

Abstract

An LCD and a mobile communication terminal including the same are provided to display an image in both directions of front and rear directions by forming a first absorptive polarizer plate at a front portion of a liquid crystal panel and a second absorptive polarizer plate at a second portion thereof, and a reflective polarizer plate between the liquid crystal panel and the second absorptive polarizer plate. A first absorptive polarizer plate is formed at a front portion of a liquid crystal panel(110). A second absorptive polarizer plate is formed at a rear portion of the liquid crystal panel, and has a transmission axis which is identical or orthogonal to a transmission axis of the first absorptive polarizer plate. A reflective polarizer plate is formed between the liquid crystal panel and the second absorptive polarizer plate and has a transmission axis which is identical to a transmission axis of the first absorptive polarizer plate or a transmission axis of the second absorptive polarizer plate.

Description

Liquid crystal display device and mobile communication terminal having same {Liquid crystal display device and mobile station having the same}

1 conceptually illustrates a liquid crystal display device according to the present invention;

2 is a view for explaining an image display when a voltage is not applied to the liquid crystal panel in the liquid crystal display according to the present invention.

3 is a view for explaining an image display when a voltage is applied to the liquid crystal panel in the liquid crystal display device according to the present invention.

4 is a view showing an example of a clamshell mobile communication terminal employing a liquid crystal display according to the present invention.

5 illustrates an example of a bar type mobile communication terminal employing a liquid crystal display device according to the present invention.

<Explanation of symbols for main parts of the drawings>

100 ... liquid crystal display 101 ... first substrate

103 second substrate 105 liquid crystal layer

110 ... liquid crystal panel 111 ... first polarizer

113 ... Diffusion Plate 115 ... Reflective Polarizer

117 ... 2nd polarizer 120 ... Front light unit

121 ... light source

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device capable of displaying an image in both front and rear directions of a liquid crystal panel using one transmissive liquid crystal panel and a mobile communication terminal having the same.

In general, CRT (or CRT: Cathode Ray Tube) has been the most used screen display device for displaying image information on the screen, which is inconvenient to use because it is bulky and heavy compared to the display area. Followed.

Accordingly, a thin film type flat panel display device having a small display area that can be easily used in any place even though the display area is large has been developed, and is gradually replacing the CRT display device. In particular, the liquid crystal display device has superior display resolution than other flat panel display devices, and exhibits a fast response speed as compared with CRTs when a moving image is realized.

The driving principle of the liquid crystal display device is to use the optical anisotropy and polarization property of the liquid crystal. Since the liquid crystal is thin and long in structure, the direction of the molecular arrangement can be controlled by artificially applying an electric field to the liquid crystal molecules having directionality and polarization in the molecular arrangement. Therefore, if the alignment direction is arbitrarily adjusted, light may be transmitted or blocked according to the alignment direction of the liquid crystal molecules by optical anisotropy of the liquid crystal, thereby displaying colors and images.

The active matrix liquid crystal display device adds an active element having a nonlinear characteristic to each pixel arranged in a matrix form, and controls the operation of each pixel by using the switching characteristics of the element. The memory function is implemented through.

On the other hand, in recent years, a variety of researches on a bidirectional display device (dual display) that can display the image in both the front and rear, the liquid crystal display device.

It is an object of the present invention to provide a liquid crystal display device which can display an image in both front and rear directions of a liquid crystal panel using one transmissive liquid crystal panel.

Another object of the present invention is to provide a thin mobile communication terminal capable of displaying images in both directions by using a liquid crystal display device employing one transmissive liquid crystal panel.

In order to achieve the above object, a liquid crystal display device includes a liquid crystal panel; A first polarizer formed on the front portion of the liquid crystal panel; A second polarizing plate formed on a rear surface of the liquid crystal panel and having a transmission axis that is the same as or perpendicular to the transmission axis of the first polarizing plate; And a reflective polarizing plate formed between the liquid crystal panel and the second polarizing plate and having the same transmission axis as the transmission axis of the first polarizing plate or the transmission axis of the second polarizing plate.

In addition, another embodiment of the liquid crystal display device according to the present invention to achieve the above object, a liquid crystal panel; A first polarizer formed on the front portion of the liquid crystal panel; A second polarizing plate formed on a rear surface of the liquid crystal panel and having a transmission axis that is the same as or perpendicular to the transmission axis of the first polarizing plate; A reflective polarizer formed between the liquid crystal panel and the second polarizing plate and having a transmission axis equal to the transmission axis of the first polarizing plate or the transmission axis of the second polarizing plate and transmitting through the liquid crystal panel. A first display mode for displaying an image on the front side of the liquid crystal panel using light reflected from the polarizing plate and an image on the rear side of the liquid crystal panel using light passing through the liquid crystal panel and passing through the reflective polarizing plate The image is displayed in both directions of the second display mode.
In addition, the mobile communication terminal according to the present invention to achieve the above object, the liquid crystal panel; A first polarizer formed on the front portion of the liquid crystal panel; A second polarizing plate formed on a rear surface of the liquid crystal panel and having a transmission axis that is the same as or perpendicular to the transmission axis of the first polarizing plate; A liquid crystal display device formed between the liquid crystal panel and the second polarizing plate and having a reflective polarizing plate having the same transmission axis as the transmission axis of the first polarizing plate or the transmission axis of the second polarizing plate; Communication means for performing communication with the outside; A control unit controlling image display of the communication means and the liquid crystal display device; It includes.

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According to the present invention, there is an advantage that it is possible to provide a liquid crystal display device for displaying an image in both the front direction and the rear direction of the liquid crystal panel using one transmissive liquid crystal panel.

In addition, according to the present invention, by using a liquid crystal display device employing one transmissive liquid crystal panel, there is an advantage that it is possible to provide a thin mobile communication terminal capable of displaying images in both directions.

In addition, according to the present invention, since the image displayed on the front portion and the rear portion is implemented so that the driving modes are opposite to each other, the direction in which the main image is displayed is selected, there is an advantage to protect the privacy of the user.

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

1 is a view conceptually showing a liquid crystal display according to the present invention.

As shown in FIG. 1, the liquid crystal display device 100 according to the present invention includes a liquid crystal panel 110, a first polarizing plate 111, a reflective polarizing plate 115, a second polarizing plate 117, and a front light unit ( 120).

The first polarizing plate 111 is formed on the front side of the liquid crystal panel 100, and the reflective polarizing plate 115 and the second polarizing plate 117 are formed on the rear side of the liquid crystal panel 110. . In addition, the front light unit 120 is formed on the front portion of the first polarizing plate 111.

The first polarizing plate 111 and the second polarizing plate 117 are composed of an absorption type polarizing plate to transmit linearly polarized light in a direction corresponding to the transmission axis. The transmission axis of the first polarizing plate 111 and the transmission axis of the second polarizing plate 117 may be implemented to have the same direction or may be implemented to be orthogonal to each other. This may selectively implement a suitable optical system according to the purpose required, which will be described in more detail later.

The reflective polarizer 115 reflects light linearly polarized in a first direction and transmits light linearly polarized in a direction perpendicular to the first direction. The transmission axis of the reflective polarizer 115 is designed to have the same direction as the transmission axis of the second polarizer 117. As an example of the reflective polarizer 115, a Dual Brightness Enhancement Film (DBEF) may be used. Here, the first direction and the second direction are for explaining a direction orthogonal to each other, and a substantial direction thereof associated with the liquid crystal panel 110 may be changed according to the configuration of the optical system.

The liquid crystal display device 100 according to an exemplary embodiment of the present invention uses a light transmitted through the liquid crystal panel 110 and reflected from the reflective polarizer 115 to display an image on the front surface of the liquid crystal panel 110. Provide a display mode. In addition, the liquid crystal display device 100 according to the present invention may display an image on the rear surface of the liquid crystal panel 110 by using the light transmitted through the liquid crystal panel 110 and the reflective polarizer 115. It will provide a display mode.

As such, the image may be displayed in both directions of the front part and the rear part of the liquid crystal panel 100. In this case, the image displayed on the front portion of the liquid crystal panel 100 is implemented in a normally white mode, and the image displayed on the rear portion of the liquid crystal panel 100 is a normally black mode. ) Can be implemented. In addition, the image displayed on the front portion of the liquid crystal panel 100 is implemented in a normally black mode, and the image displayed on the rear portion of the liquid crystal panel 100 is a normally white mode. May be implemented as In this case, the image displayed on the front part and the rear part is implemented so that the driving modes are opposite to each other according to the selected mode, so that the direction in which the main image is displayed is selected, so that one of the front part and the rear part is displayed in a dark image. You can make it invisible.

The liquid crystal panel 110 includes a first substrate 101, a second substrate 103, and a liquid crystal layer 105. Since details of each of the above components are already well known, only a brief description will be provided herein.

The first substrate 101 includes an array element having a thin film transistor and a pixel electrode formed on the array element to transmit incident light to display an image. The array element may include a plurality of gate lines formed in a first direction, a plurality of data lines formed in a direction perpendicular to the gate line, a pixel region divided by the gate lines and the data lines, and an intersection of the gate lines and the data lines. It comprises a thin film transistor formed in the region.

In addition, the second substrate 103 is provided at a position opposite to the first substrate 101, the color filter formed at a corresponding position in the region where the pixel electrode of the first substrate 101 is formed, and the color And a black matrix formed between the filters and a common electrode formed below the color filter.

The liquid crystal layer 105 is filled between the first substrate 101 and the second substrate 103. Further, by further forming a diffusion plate 113 between the liquid crystal panel 100 and the reflective polarizing plate 115, it is possible to further improve the light efficiency. In addition, by forming an anti reflection film on the front surface of the first polarizing plate 111, it is possible to further improve the quality of the displayed image. The reflective ring film may be formed on the rear surface of the front light unit 120.

The front light unit 120 may include a light source 121 at a side thereof, and the light source 121 may be formed of an LED. Here, the LED may be configured as a white LED, it may be composed of a red LED / green LED / blue LED. In addition, the light source 121 may be configured of a cold cathode fluorescent lamp (CCFL) or an external electrode fluorescent lamp (EEFL).

Next, in the liquid crystal display having the above configuration, a process of displaying an image will be described with reference to FIGS. 2 and 3. FIG. 2 is a view illustrating an image display when a voltage is not applied to a liquid crystal panel in the liquid crystal display according to the present invention. FIG. 3 is a view illustrating a voltage on the liquid crystal panel in the liquid crystal display according to the present invention. It is a figure for explaining the image display in the case of application.

As illustrated in FIG. 2, when the voltage is not applied to the liquid crystal panel 110, the liquid crystal display device 100 according to the present invention emits light provided from the light source 121 of the front light unit 120. The image may be displayed in white on the front surface of the liquid crystal panel 110 by using the same.

The light provided from the front light unit 120 becomes light linearly polarized in a first direction (for example, ↔ direction) while passing through the first polarizing plate 111. This is because the optical system is designed such that the transmission axis of the first polarizing plate 111 is configured in a direction parallel to the first direction (↔ direction).

The light transmitted through the first polarizing plate 111 passes through the liquid crystal panel 110 so that no change occurs. This can be implemented by forming the liquid crystal layer 105 so that a phase delay does not occur when no voltage is applied to the liquid crystal panel 110. Accordingly, the light transmitted through the liquid crystal panel 110 is still present as linearly polarized light in the first direction (↔ direction).

Light transmitted through the liquid crystal panel 110 is incident on the reflective polarizer 115 via the diffusion plate 113. Light incident on the reflective polarizer 115 is reflected to be incident back to the liquid crystal panel 110. The reflective polarizer 115 reflects light linearly polarized in the first direction (↔ direction) and transmits light linearly polarized in the second direction (⊙ direction) perpendicular to the first direction. Because is configured.

Since the light incident back to the liquid crystal panel 110 is not applied to the liquid crystal panel 110, the light is transmitted through the liquid crystal panel 110 without any phase delay and is still in the first direction (↔ direction). Proceed to linearly polarized light. The light transmitted through the liquid crystal panel 110 passes through the first polarizing plate 111 to display an image on the front surface of the liquid crystal panel 110. This is because the linearly polarized direction (↔ direction) of the light transmitted through the liquid crystal panel 110 and the transmission axis direction (↔ direction) of the first polarizing plate 111 are the same.

As such, when no voltage is applied to the liquid crystal panel 110, an image is displayed in white on the front side of the liquid crystal panel 110 (Normally White Mode), and a rear portion of the liquid crystal panel 110 is used. The image is displayed in black (Normally Black Mode).

In addition, as shown in FIG. 3, when the voltage is applied to the liquid crystal panel 110, the liquid crystal display device 100 according to the present invention emits light provided from the light source 121 of the front light unit 120. The image may be displayed in white on the rear surface of the liquid crystal panel 110.

The light provided from the front light unit 120 becomes light linearly polarized in a first direction (for example, ↔ direction) while passing through the first polarizing plate 111. This is because the optical system is designed such that the transmission axis of the first polarizing plate 111 is configured in a direction parallel to the first direction (↔ direction).

The light transmitted through the first polarizing plate 111 becomes light linearly polarized in a second direction (⊙ direction) perpendicular to the first direction (↔ direction) while passing through the liquid crystal panel 110. This can be implemented by forming the liquid crystal layer 105 such that a phase delay of λ / 2 occurs when a voltage is applied to the liquid crystal panel 110. Accordingly, the light transmitted through the liquid crystal panel 110 exists as linearly polarized light in a second direction (⊙ direction) perpendicular to the first direction (↔ direction).

Light transmitted through the liquid crystal panel 110 is incident on the reflective polarizer 115 via the diffusion plate 113. The diffusion plate may be located at the rear of the liquid crystal panel or at the front of the liquid crystal panel. Light incident on the reflective polarizer 115 is transmitted to enter the second polarizer 117. The reflective polarizer 115 reflects light linearly polarized in the first direction (↔ direction) and transmits light linearly polarized in the second direction (⊙ direction) perpendicular to the first direction. Because is configured.

The light incident on the second polarizer 117 may display an image in white on the rear surface of the liquid crystal panel 110. This is because the linearly polarized direction (⊙ direction) of the light incident on the second polarizing plate 117 and the transmission axis direction (⊙ direction) of the second polarizing plate 117 are the same.

That is, as described with reference to FIGS. 2 and 3, the transmission axis direction of the first polarizing plate 111 is the first direction (↔ direction), and phase delay according to whether the voltage of the liquid crystal panel 110 is applied. When the difference is λ / 2, the transmission axis direction of the reflective polarizer 115 is in the second direction (⊙ direction), and the transmission axis direction of the second polarizer 117 is in the second direction (⊙ direction). The front part of the liquid crystal panel 110 is driven in a normally white mode, and the rear part of the liquid crystal panel 110 is driven in a normally black mode. Can be displayed.

Meanwhile, in the liquid crystal display according to the present invention, the configuration of the optical system may be adjusted as necessary, and the driving mode may be changed according to the adjustment. For example, the transmission axis direction of the first polarizing plate 111 is the first direction (↔ direction), the phase delay difference depending on whether the voltage of the liquid crystal panel 110 is λ / 2, and the reflective polarizing plate ( When the transmission axis direction of the 115 is also in the first direction (↔ direction) and the transmission axis direction of the second polarizing plate 117 is also in the first direction (↔ direction), the front part of the liquid crystal panel 110 is normally It is driven in the black mode, the rear portion of the liquid crystal panel 110 is driven in the normally white mode, it is possible to display the image in both directions of the front portion and the rear portion of the liquid crystal panel 110. Since the principle is similar to that described above, the detailed description will be omitted here.

In addition, although not shown in the drawings, the liquid crystal display according to the present invention displays an image in both front and rear portions of the liquid crystal panel 110 by using light provided from an external light source such as the sun or an ambient lighting device. can do. That is, when the front light unit 120 is in an OFF state, the image may be displayed in both directions of the liquid crystal panel 110 using light incident from an external light source.

On the other hand, the liquid crystal display device having such a configuration can be utilized as a double-sided display device. Accordingly, when the liquid crystal display device according to the present invention is applied to a mobile communication terminal (mobile portable communication, PDA, etc.), it is possible to display images in both directions of the front part and the rear part of the liquid crystal panel. The video display function can be implemented. Such application examples are shown in FIGS. 4 and 5. 4 is a view showing an example of a folder-type mobile communication terminal employing a liquid crystal display device according to the present invention, Figure 5 is a view showing an example of a bar type mobile communication terminal employing a liquid crystal display device according to the present invention; to be.

In addition, in the case of employing the liquid crystal display device according to the present invention, the image displayed on the front portion and the rear portion of the liquid crystal panel applied to the mobile communication terminal is implemented so that the driving mode is opposite to each other. Accordingly, the image displayed on the front part of the liquid crystal panel and the image displayed on the back part of the LCD display an image inverted from each other in luminance. Therefore, when the user views a bright image through the front portion of the liquid crystal panel, the image displayed on the rear portion is displayed with the inverted dark image, thereby providing a function of protecting the privacy of the user. When the user uses the mobile communication terminal, it is possible to select the driving mode of the front panel of the liquid crystal panel, and the driving mode and the control signal are generated according to the selection so that the main image can be displayed in the selected direction.

The mobile communication terminal includes the liquid crystal display, the communication means, and the controller. The communication means performs a function of performing communication with the outside, and the controller performs a function of controlling an image display of the communication means and the liquid crystal display device.

According to the liquid crystal display according to the present invention as described above, there is an advantage that the image can be displayed in both the front direction and the rear direction of the liquid crystal panel using one liquid crystal panel.

In addition, according to the mobile communication terminal according to the present invention, by using a liquid crystal display device employing one liquid crystal panel, there is an advantage that it is possible to provide a thin mobile communication terminal capable of displaying images in both directions. For example, according to the present invention, the thickness of the liquid crystal display module for bidirectional image display can be made thinner than 3.5 mm.

In addition, according to the mobile communication terminal according to the present invention, the image displayed on the front portion and the rear portion is implemented so that the driving mode is opposite to each other, by selecting the direction in which the main image is displayed, it is possible to protect the privacy of the user There is an advantage.

Claims (24)

A liquid crystal panel; A first absorption type polarizer formed on the front of the liquid crystal panel; A second absorption type polarizing plate formed on a rear side of the liquid crystal panel and having a transmission axis that is the same as or perpendicular to the transmission axis of the first absorption type polarizing plate; A reflective polarizing plate formed between the liquid crystal panel and the second absorption type polarizing plate and having a transmission axis equal to the transmission axis of the first absorption type polarizing plate or the transmission axis of the second absorption type polarizing plate; Liquid crystal display comprising a. A liquid crystal panel; A first absorption type polarizer formed on the front of the liquid crystal panel; A second absorption type polarizing plate formed on a rear side of the liquid crystal panel and having a transmission axis that is the same as or perpendicular to the transmission axis of the first absorption type polarizing plate; A reflective polarizing plate formed between the liquid crystal panel and the second absorption type polarizing plate and having a transmission axis equal to the transmission axis of the first absorption type polarizing plate or the transmission axis of the second absorption type polarizing plate; It is configured to include, A first display mode for displaying an image on the front surface of the liquid crystal panel by using the light reflected from the reflective polarizer and the light transmitted through the liquid crystal panel and transmitted through the reflective polarizer And displaying an image in both directions of a second display mode for displaying an image on a rear surface of the liquid crystal panel. The method according to claim 1 or 2, And a front light unit formed on the front portion of the first absorption type polarizing plate. The method of claim 3, wherein And the front light unit includes a light source at a side thereof. The method according to claim 1 or 2, The liquid crystal panel, A first substrate including an array element having a thin film transistor and a pixel electrode formed on the array element to transmit incident light to display an image; A second substrate provided at an opposite position of the first substrate and having a color filter formed at a corresponding position of a region where the pixel electrode of the first substrate is formed, and a black matrix formed between the color filters; A liquid crystal layer filled between the first substrate and the second substrate; Liquid crystal display comprising a. The method according to claim 1 or 2, And a phase delay difference of λ / 2 occurs between light transmitted when voltage is applied to the liquid crystal panel and light transmitted when voltage is not applied to the liquid crystal panel. delete delete delete delete delete The method according to claim 1 or 2, The reflective polarizer is a liquid crystal display, characterized in that consisting of DBEF (Dual Brightness Enhancement Film). The method according to claim 1 or 2, And an anti-reflection film formed on the front portion of the first absorption type polarizing plate. The method of claim 3, wherein And an anti-reflection film formed on a rear portion of the front light unit. The method according to claim 1 or 2, And a diffuser plate formed on the front part or the rear part of the liquid crystal panel. The method according to claim 1 or 2, An image displayed on the front and rear of the liquid crystal panel is one of which is implemented in a normally white mode, and the other is a liquid crystal display, which is implemented in a normally black mode. Device. A liquid crystal panel; A first absorption type polarizer formed on the front of the liquid crystal panel; A second absorption type polarizing plate formed on a rear side of the liquid crystal panel and having a transmission axis that is the same as or perpendicular to the transmission axis of the first absorption type polarizing plate; A liquid crystal display device formed between the liquid crystal panel and the second absorption type polarizing plate and including a reflection type polarizing plate having a transmission axis equal to the transmission axis of the first absorption type polarizing plate or the transmission axis of the second absorption type polarizing plate; Communication means for performing communication with the outside; A control unit controlling image display of the communication means and the liquid crystal display device; Mobile communication terminal comprising a. The method of claim 17, The mobile communication terminal further comprises a front light unit formed on the front portion of the first absorption type polarizer. The method of claim 17, And a phase delay difference of λ / 2 occurs between light transmitted when voltage is applied to the liquid crystal panel and light transmitted when voltage is not applied to the liquid crystal panel. delete delete delete delete delete

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