JPH0580717A - Color LCD display system - Google Patents

Abstract

(57) [Abstract] [Purpose] To realize color liquid crystal display with a monochrome display transmissive liquid crystal panel with a simple panel structure. [Structure] When one color image display data is selected from the RGB color image display data and is sent to a monochrome display transmissive liquid crystal display panel 1, it is sent twice in succession, and this second data sending time corresponds to One of the color light sources RL, GL, and BL is turned on, and this operation is performed for each color image display data. As a result, when one of the color light sources RL, GL, BL is turned on, the previous color data disappears completely from the display of the liquid crystal display panel 1 and is displayed by the corresponding color image display data. The color image display data to be displayed match, and a color image of a faithful color is displayed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color liquid crystal display system for realizing a color liquid crystal display device by using, for example, an active matrix having a function of retaining image data and a transparent liquid crystal panel of a black and white display of ferroelectricity. is there.

[0002]

2. Description of the Related Art Conventionally, a color transmission type liquid crystal display device has column lines (called source lines or data lines) and row lines (called gate lines) arranged in a two-dimensional matrix in a liquid crystal panel. , A row line is sequentially selected by a gate line drive circuit arranged in the periphery of the panel, and in synchronization with this row line selection, a source line drive circuit arranged in the periphery of the panel makes R,
The color image display data of R, G, B colors are transferred to the pixel electrodes having the G, B color filters through the respective column lines. This row line selection and source line driving are sequentially repeated over all the row lines in the liquid crystal panel as a unit of operation, and a white light source is constantly turned on from the back surface of the panel to perform color display.

The arrangement of pixel electrodes having color filters is a vertical stripe pixel arrangement in which vertically long pixel electrodes of three primary colors are arranged in the horizontal direction, and delta pixels in which pixel electrodes of three primary colors are arranged at the apexes of a triangle. There are various arrangements such as arrangements.

In each of these color pixel arrangements, one color pixel is provided. For example, in the above vertical stripe pixel arrangement, one row line is provided.
Although it is a book, three column lines are required for three colors, and in the delta pixel array, 1.5 column lines and two row lines are required by sharing with adjacent pixels. Further, a color filter accompanied by fine processing is required.

On the other hand, a monochrome display transmissive liquid crystal panel does not require a color filter that requires fine processing for each pixel, and has one column line and one row line for each monochrome pixel, thus forming a two-dimensional matrix. It is possible to reduce the number of wirings and the number of driving circuits for driving these.

[0006]

In the color transmission type liquid crystal panel, the number of pixels, the number of wirings and the number of drive circuits for driving the pixels in the liquid crystal panel are larger than those in the monochrome display transmission type liquid crystal panel, and the panel is large. Above, an RGB color filter is required for RGB color pixels, the panel structure is complicated, and the manufacturing yield is affected. Further, the respective RGB color pixels forming these 1 color pixels are arranged at different positions on the panel. For example, when only the R color is displayed, the other G color and B color pixels are shielded from light. The light transmission area is about ⅓ of the total pixel area, and there is a problem that the color saturation decreases.

As a method for solving these problems, RG
A monochrome display transmissive liquid crystal is used by selecting one color image display data from the color image display data of RGB colors in time order using a monochrome display transmissive liquid crystal panel in which monochrome pixels corresponding to the area of B color pixels are formed. It is considered that color liquid crystal display is performed by sending the image to a panel, displaying an image, and controlling lighting of a color light source of a color corresponding to display data in this time sequence.

However, regarding the relationship between the transfer of the color image display data to the liquid crystal panel and the lighting of the color light source, it is considered that the color light source is turned on after the color image display data is transferred, and the lighting time of the color light source is considered. There was a problem that it was short and the display was dark. Furthermore, in order to make the display brighter, it has been considered to transfer the color image display data at a high speed and make the lighting time of the color light source thereafter as long as possible. There were many restrictions such as the operating speed and the driving circuit speed.

When the color light source is turned on while transferring the image display data to the liquid crystal panel, the image display data of the color transferred immediately before and already displayed on the liquid crystal panel is not completely rewritten. There is a problem in that the portion displayed by the color image display data does not match the color of the light source that is currently lit, and the image of the expected color cannot be displayed.

The present invention has been made to solve the above problems, and an object thereof is to realize a color liquid crystal display by a monochrome display transmissive liquid crystal panel having a simple panel structure. Furthermore, using a monochrome display transmissive liquid crystal panel,
To provide a color liquid crystal display method that realizes a color display faithful to the data by matching the display image of the color image display data with the color of the light source to be turned on without significantly shortening the lighting time of the color light source. is there.

[0011]

SUMMARY OF THE INVENTION In order to solve the above problems and to achieve the object, the present invention operates so as to be in a light transmission state when image display data desired to be color-displayed is displayed on a monochrome display transmissive liquid crystal panel. Mode (normally black mode)
In the invention according to claim 1, when the color image display data of a plurality of colors are selected one by one in time order and sent to the liquid crystal panel, each color image display data is sent twice in succession. The color light source of the corresponding color is turned on in accordance with the second display of the color image display. In the invention according to claim 2, color image display data of a plurality of colors are selected one by one in time sequence. When sending to the liquid crystal panel, black data is sent between each color image display data, and the color light source of the corresponding color is turned on according to the display of each color image display data.

[0012]

In the color liquid crystal display system of the present invention, a black and white display transmissive liquid crystal panel and color image display data of a plurality of colors are stored in one.
The circuit part that selects each one and sends them to the liquid crystal panel in time division, the color light source corresponding to the color of the color image display data of multiple colors, and the color light source is turned on in synchronization with the sending of this color image display data to the liquid crystal panel. A liquid crystal display device is configured from a control circuit unit, and the display image of the color image display data and the light source to be turned on are controlled by controlling the sending of the image display data of a plurality of colors to the panel and the lighting of the color light source as follows. Match the colors of and display a faithful color image.

First, in the invention according to claim 1 of the present invention,
When selecting one color image display data from the image display data of multiple colors and sending it to the monochrome display transmissive liquid crystal panel, 2
The light source of the corresponding color is turned on during the second data feeding time, and this operation is performed for each color image display data. As a result, when the color light source is turned on, the data of the previous color has completely disappeared from the liquid crystal panel display and is displayed by the corresponding color image display data. A match and a faithful color image is displayed.

According to the second aspect of the present invention, when one color image display data is selected from the image display data of a plurality of colors and sent to the monochrome display transmissive liquid crystal panel, black is displayed between the color image display data. The data is sent and the previous color data is completely erased from the liquid crystal panel display by the black data. As a result, the liquid crystal panel will be in a light-blocking state when transmitting the data of the next color, and by turning on the color light source of the corresponding color in accordance with the transfer / display of each color image display data to the liquid crystal panel. , The color light source and the displayed color image display data match, and a faithful color image is displayed.

[0015]

Embodiments of the present invention will now be described in detail with reference to the drawings. As an embodiment of the color liquid crystal display system of the present invention, color image display data of a plurality of colors are converted into R color, G color, B color data.
A case will be described below as an example where color image display data of a color is selected, and the data is selected in this order and sent to the liquid crystal display panel. In each figure, the negative logic signal is shown by adding a bar above the reference sign, but in the following description, a − is added before the reference sign.

First, a first embodiment for carrying out the invention according to claim 1 of the present invention will be described. FIG. 1 shows a relationship in which R, G, and B color image display data are displayed on a liquid crystal panel and a color light source corresponding to a color of the color image display data is turned on in the present embodiment. 1 is a liquid crystal display panel (hereinafter,
In some cases, it is simply abbreviated as a panel or a liquid crystal panel), -VS is a vertical synchronizing signal, t _{0 to} t ₆ are times between them,
RL, GL and BL indicate light sources of respective colors.

Transfer of the color image display data and turning on of the color light source in this embodiment are performed as follows. Time t ₀ immediately before the time the color image display data of the B color which has been displayed on up to t ₀
Over a time t ₁ from the rewritten by the color image display data of R color. During this time, since the images of the color image display data of R color and B color are mixed, the R color light source R
Without turning on L, the same color image display data of R color is sent to the panel 1 again from time t ₁ to time t _2, and when displaying this, the R light source RL is turned on. Subsequently, the same color image display data of G color is sent to the panel 1 for display from time t ₂ to time t ₃ and time t ₃ to time t ₄ , but the G color light source GL is turned on at time t _3. From time t ₄ to. Furthermore, from time t ₄ to time t ₅ and time t ₅
Displaying sends the same B-color color image display data of the panel 1 between times t ₆ from, but the lighting of the B-color light source BL is performed between time t ₅ the time t _6. The above operation is repeated.

FIG. 2 shows an embodiment of the control circuit configuration of the color image display data and the color light source at this time, and FIG. 3 shows a timing chart thereof. 1 is a liquid crystal display panel, 2 is a source line driver (S / DR), 3 is a gate line driver (G
· DR), 4 is a color light source lighting control unit (LCONT), a frame memory (M _Rf ~M _Br 5), the timing controller 6 for generating various timing signals (CONT). The timing controller 6, R externally, G, B of color image display data _{(R D, G D, B} D) 7 1, 7 2, 7 3 and vertical, horizontal synchronizing signal (-VS, - HS) 8 ₁ and 8 ₂ are input. Reference numeral 9 denotes a switch (SW) for selecting the image display data read from the frame memory 5, and when the image display data is digital data, a logical product (AND) output of the color selection control signals A, B, and C is added (AND). If the input data of the source line driver 2 is analog data, the AC circuit (ALT) 10 also performs analogization. 11
Is a decoder (DEC).

The timing waveforms of the color selection control signals A, B, C are the waveforms shown in FIG. 3, and the vertical synchronization signal (-V
Decoder 1 for receiving the LC signal triple speed of the S) 8 ₁
1 is the output signal, which is the basic signal for selection of color image display data and color light source lighting control. The frame memory 5 has both front and rear sides,
When one is for writing, the other is for reading. The symbols r and f shown in FIGS. 2 and 3 indicate the front and back of the frame memory. Writing to the frame memory 5 is performed by the write enable signals -r _WE , -f _WE for R, G,
B of color image display data R _D of, G _D, parallel write B _D, the read enable signal -r _RE1 ~-r _RE3 used for reading from the frame memory 5, -f _RE1 ~-f _RE3
For this, a negative logical product (NAND) output of the color selection control signals A, B and C and the front / back selection signal -f / r for selecting the front / back of the frame memory 5 or this negation (NOT) signal is used. As the read clock RC, a clock that is 6 times faster than the write clock WC is used. As described with reference to FIG. 1, the image display data of the same color is used to continuously display the liquid crystal panel 1 twice. synchronizing signal (-VS) 8 ₁ of using a 6x of the signal. As a result, "the selected image display data S / DA
As shown in FIG. 3, “→ TA” is R → R for each frame.
The data is sent to the liquid crystal panel 1 through the source line driver 2 in the order of G → G → B → B → R → R .... Timing required for the gate line driver 3 and the source line driver 2, for example, the gate start GS, the gate clock GCK, the source output OE, the shift pulse DL, etc., is determined by the timing control unit 6 between the vertical synchronizing signal 8 ₁ and the horizontal synchronizing signal 8 ₂ . It is generated from each 6 × speed timing signal. On the other hand, the color light source lighting control unit 4 determines the negative (NOT) of the LC signal and the color control control signal A,
By using the logical product (AND) output with B and C, R, G, and
Turn on the B color light source.

Next, a second embodiment for carrying out the invention according to claim 2 of the present invention will be described. The same reference numerals are used for elements and signals in the present embodiment that are similar to those in the first embodiment.

FIG. 4 shows the relationship between the display state on the liquid crystal panel and the lighting of the color light sources in this embodiment. In the present embodiment, black data (that is, data in which the liquid crystal panel is in a light blocking state) is displayed while displaying each R, G, B color image display data on the liquid crystal panel 1, and these R color image display data are displayed. And black data, G color image display data and black data, and B color image display data and black data for RL and G respectively.
The L and BL color light sources are turned on. The R color color image display data is displayed on the liquid crystal panel 1 from the time t ₀ to the time t ₁ , and the black data displayed on the liquid crystal panel 1 is rewritten from the time t ₀ with the R color image display data. ₁
Then, the rewriting is completed with the R color image display data over the entire liquid crystal panel 1. Subsequently, from time t ₁ to time t ₂ , black data is sent to the liquid crystal panel 1, the liquid crystal panel 1 is displayed in black (light blocking state), and the next G color image display data is transferred to the liquid crystal panel 1. Prepare for sending. The R color light source is turned on from time t ₀ to time t ₂ when black data and R color data are mixed on the liquid crystal panel. Next, G color image display data is sent from time t ₂ to time t ₃ and black data is sent to and displayed on the liquid crystal panel 1 from time t ₃ to time t ₄ , and the G color light source is turned on at time. Performed between t ₂ and time t ₄ .
Similarly, color image display data of B color is sent from time t ₄ to time t ₅ and black data is sent to and displayed on the liquid crystal panel 1 from time t ₅ to time t ₆ , and the B color light source is turned on at time. Perform from t ₄ to time t ₆ .

FIG. 5 shows an embodiment of a control circuit configuration of the color image display data and the color light source at this time, and FIG. 6 shows a timing chart thereof. In FIG. 1 showing the first embodiment, the image display data of the same color are displayed twice successively, but in the present embodiment they are displayed once. Therefore, R, G,
Read enable signal -r _RE1 ~-r _RE3 used for reading the B-color color image display data, -f _RE1 ~-f _RE3 is 1/2 the signal width shown in FIG. 3 of the first embodiment. A switch for selecting black data from the switch 12 and selecting the image display data read from the frame memory 5 as shown in FIG. 5 while the read enable signal is not in the active state (memory read state). The logical sum (AND) output with the 9 outputs is sent to the source line driver 2 through the AC circuit 10 as “selected image display data S · DATA”. Therefore, the logic is the output color selection control signal A decoder 11 which receives the LC signal 3 double-speed of 2 similar vertical synchronizing signal (-VS) 8 _1, B, and each and LC signal C AND (AND)
The output of the switch 9 is the logical product (AND) of this output and the image display data read from the frame memory 5. Further, the read enable signal -r _RE1 ~-r _RE3 of the frame memory 5, the -f _RE1 ~-f _RE3, the color control signals A, B, a logical product (AND) output and a frame memory of C and LC signal 5 front / back selection signal for selecting front / back-
f / r or a NAND operation output (NAND) with this NOT signal is used. Read reset signal used when reading from the frame memory 5 -RRS may be three double speed as shown in FIG. 6 in the signal of the vertical sync signal (-VS) 8 ₁ of 6 double-speed as shown in FIG. As a result, as the "selected image display data S / DATA", as shown in FIG. 6, R → black → G → black → B → black → R → black for each frame.
The signals are sent to the liquid crystal panel 1 through the source line driver 2 in this order. On the other hand, in the color light source lighting control unit 4, the R, G and B color light sources are turned on by the color selection control signals A, B and C, respectively, as shown in the timing chart of FIG.

In the above embodiments, the gate start driver GS, the gate clock GCK, the source output OE, the shift pulse DL, and the like are used as the normal vertical synchronizing signal (-) as the timing required by the gate line driver 3 and the source line driver 2. The above description has been made by using the timing signals of the respective 6 × speeds without using the timing signals of the same speed as the VS) 8 ₁ and the horizontal synchronizing signal (−HS) 8 ₂ . In accordance with this, the timing enable signals such as the read enable signal, the color selection control signal and the like of the frame memory 5 and the related LC signal, the read reset signal and the like are also set to 6 times speed or 3 times speed.
This is due to the time-division lighting of the three primary color light sources,
This is because one cycle of the color light sources of the three primary colors is matched with the conventional vertical synchronizing signal to make the flicker of the liquid crystal panel inconspicuous. Therefore, these speeds are not specified, and may be determined depending on the stability of the display state on the liquid crystal display panel, the operating speed of the liquid crystal, whether to display a still image, a moving image, or both. It is not particularly limited.

Further, in the above embodiment, the switches 9 and 1
Although 2 has been described as having a logical product (AND) operation function, if the data read from the frame memory is not analogized by the AC circuit and is analogized before passing through the switches 9 and 12, It can be considered as an analog switch, and color image display data and black data are assigned to the switch input at this time, and color selection control signals A, B, and C or a logical product output of these and the LC signal are used as the gate signal of the switch. Assigned.

Further, in the above embodiment, the color image display data of R, G, and B colors was taken up as the color image display data of a plurality of colors, but the plurality of colors of magenta, yellow, and cyan were used. Image display data may be used, and a color corresponding to the display data may be used as the color light source. Further, it does not matter whether or not the color image display data has gradation. If it has gradation, full-color liquid crystal display can be realized. Further, the plural colors are not limited to the three primary colors as described above, and any two colors may be used. In this case, in the description of the above embodiment, the speed of 6 times the speed at various timings is multiplied by 4 times. To speed,
The triple speed may be considered as the double speed.

As described above, the present invention can be applied in various ways in accordance with the gist thereof and can take various embodiments.

[0027]

As described above, in the color liquid crystal display system of the present invention, a monochrome liquid crystal display type liquid crystal panel and a color light source corresponding to the color of the color image display data are used, and the color image display data of a plurality of colors is displayed. According to the invention of claim 1, the color image display data of each color is selected from the color image display data of a plurality of colors by the circuit section which selects each one and sends them to the liquid crystal panel by time division and the circuit section which controls the lighting of the color light source. The color light source of the corresponding color is turned on during the time when the second data is continuously sent.
Black data is sent during the transfer of the color image display data of each color, the previous color data is completely erased from the liquid crystal panel display by the black data, the liquid crystal panel is turned off, and each color image display data The color light source of the corresponding color is turned on at the time of transfer / display to the panel. For this reason, the lighting of the color light source and the color image display data displayed on the liquid crystal panel match, and a color image of a faithful color can be displayed.

Since a color liquid crystal display can be performed by using a transmissive liquid crystal panel for monochrome display, the number of pixels and the number of wirings can be reduced, and since the RGB color filter is not required for each pixel, the structure of the liquid crystal panel is simple. It is expected that the manufacturing yield of panels will be improved.

Further, when the plural color light sources are RGB colors, for example, the image is displayed from the same pixel in a time-sharing manner, so that the color liquid crystal panel has the RGB color pixels arranged at different positions. The light transmission area can be increased about three times, and the color saturation can be increased.

[Brief description of drawings]

FIG. 1 is a diagram showing a lighting relationship of a color light source corresponding to color display image data showing a first embodiment of the present invention.

FIG. 2 is a circuit diagram showing an embodiment of a control circuit configuration of color image display data and a color light source in the first embodiment.

FIG. 3 is a timing chart for explaining the operation of the control circuit in the first embodiment.

FIG. 4 is a diagram showing a lighting relationship of a color light source corresponding to color display image data showing a second embodiment of the present invention.

FIG. 5 is a circuit diagram showing an embodiment of a control circuit configuration of color image display data and a color light source in the second embodiment.

FIG. 6 is a timing chart for explaining the operation of the control circuit in the second embodiment.

[Explanation of symbols]

1 ... Liquid crystal display panel, 2 ... Source line driver, 3 ... Gate line driver, 4 ... Color light source lighting control unit, 5 ... Frame memory, 6 ... Timing control unit, 7 ₁ , 7 ₂ , 7 ₃ ... R,
G and B color image display data, 8 ₁ , 8 ₂ ... Vertical and horizontal synchronizing signals, 9 ... Switch, 10 ... Alternating circuit, 11 ...
Decoder, 12 ... Switch.

Claims (2)

[Claims] 1. A transmission / reception type liquid crystal panel for monochrome display, a circuit section for selecting color image display data by color and sending each to the liquid crystal panel in a time division manner, and a color light source corresponding to the color of the color image display data. In a liquid crystal display device composed of a circuit section for controlling lighting of the color light source in synchronization with sending of the color image display data to the liquid crystal panel, color image display data of a plurality of colors are selected one by one in time sequence. A color liquid crystal display method characterized in that when sending to a liquid crystal panel, color image display data of the same color is sent twice in succession and the color light source of the corresponding color is turned on in accordance with the second display. 2. A transmission / reception type liquid crystal panel for monochrome display, a circuit section for selecting color image display data by color and sending each to the liquid crystal panel in a time division manner, a color light source corresponding to the color of the color image display data, In a liquid crystal display device composed of a circuit section for controlling lighting of the color light source in synchronization with sending of color image display data to a liquid crystal panel, color image display data of a plurality of colors are selected one by one in time sequence and the liquid crystal is selected. When sending to the panel, black data is sent between the selected color image display data, and the color light source of the corresponding color is turned on according to the display of the selected color image display data and black data. Liquid crystal display method.