WO1989003108A1 - Display device - Google Patents

Abstract

Red, green and blue video signals of ''1'' and ''0'' produced from a color display control unit (11) are combined to form binary data of three bits. The 3-bit video data are converted by a D/A converter (12) into luminance signals of 8 steps, which are used for brightness modulation to display black and white images on a monochromatic CRT (13).

Description

 Specification

 Display device

 Technical field

 The present invention relates to a display device, and more particularly to a display device that renders a monochromatic image having light and dark in accordance with red, green, and blue video signals. .

 Background art

 Because color-brown pipes are expensive, the system can be replaced with a black-and-white tube instead of a color-planned tube. When drawing a three-dimensional solid figure, it is possible to draw a three-dimensional figure from a monochromatic pipe. It is possible to display light and dark by thinning out; the problem is that the appearance is not dirty and the existing hardware can not be used. ·:

 As described above, the purpose of the present invention is to use an existing color discrimination control unit, and to provide a clear 3D figure while also displaying light and dark in a simple M display. It is possible to provide an electronic device that can be used.

 Disclosure of the invention

The gif of the present invention. The color device includes a coloraden go-go control unit for generating red, green, and blue video signals at "1" or "0", respectively. The blue and blue video signals are combined into three binary data, each representing a brightness of three bits, and a DA converter for converting the binary-one V luminance signal and a DA converter. Luminance signal output: J-! Do the brightness modulation-Morro CR 7 Draw an image with 8 levels of brightness: Brief description of the drawing

FIG. 1 is a block diagram of the disk drive of the present invention, FIG. 2 is a DA conversion chart,

FIG. 3 is an explanatory diagram of light / dark data.

 BEST MODE FOR CARRYING OUT THE INVENTION FIG. 1 is a block diagram of a display device according to the present invention, wherein .11 is a known color display control. Section, 12 is a DA converter, and 13 is a monochrome flank tube:

For the color display control unit 11, 11a is a display processor, and 11b is a input from a host (not shown). (For example, RAM), 11c is a buffer RBF for red, a buffer GBF for blue, and a buffer for blue. Each of the buffers having a buffer BBF, 11 d to 11 f are the buffers RBF, 11 b to 11 c provided in the readout circuit. GBF and BBF each have one memory area corresponding to one picture element of the CRT, and each readout circuit 11 d to l 1f is a beam corresponding to the CRT. The image is read one bit (picture element) at a time from the corresponding buffer in synchronization with the raster scan of the D / A converter: The DA converter 12 performs the color display control. Readout circuit of section 11 1 1 d to 11 ί The red, green, and blue video signals of “_,“ C '”output from the above are regarded as 3-bit binary data, and the 3-bit video data (00Π ~ 1〗 i is converted to an 8-level luminance signal BP-S. --As shown in Fig. 2, a luminance signal is generated from the darkest (black) color to the brightest (white) color as the value changes from 0000 to 1111. _C

 Drawing data (including shape data and 3-bit light / dark data) corresponding to a 3D image of a monochromic camera (not shown) When sent to the preprocessor 11a, the display processor stores the drawing data in the drawing data storage memory 11b. Store in.

 The display processor 11a performs color image processing on the light and dark data to generate subsequent images and performs a memory processing. For example, as shown in Fig. 3, if the brightness of the front is 7, the brightness of the top is 5, and the brightness of the right side is 1, the brightness data of each surface is 1 1 1, 1 0 It becomes 0, 0 0 1 and matches white, red and blue color data.

After that, the display processor 11a reads out the drawing data one by one from the memory 11b, and reads the light and shade included in the drawing data. The data is regarded as color data, and a known color image generation process is performed, and the data is stored in predetermined buffers RBF, GBF, and BBF. For example, if each of the shape data of brightness 1 (001) or brightness 2 (010) or brightness 4 (100) is obtained, the shape data is used. the image that occurred Te I the only blue bus Tsu Tsu Ma BBF, or the body of Ma GBF Tsu Midoriba Tsu, or _c also it serial billion to only Aqaba off Ma RBF is -. Akira If the shape data of degree 2 (0 1) is obtained, the shape data generated based on the shape data are divided into a buffer GBF and a blue bath. If it is recorded in the BBF and the shape data of brightness 5 (101) is used, the image generated based on the shape data is used as a red buffer RBF and a blue buffer BBF. In the case of shape data with a lightness of 6 (110), the image generated based on the shape data is recorded in a red buffer HBF and a large buffer GBF. Billion o

 As a result, a bright and dark monochrome image is stored in the frame lock 11c.

The readout circuits 11 d to 11 f synchronize with the raster scan of the beam to the CRT and synchronize the image with one bit (picture element) from the corresponding buffer. ) Are read out and input to the DA converter 12, and the DA converter 12 outputs “1J,“ 0 ”red, which is output from each of the readout circuits 11 d to 11 f. The blue video signal is regarded as 3-bit binary data, and the 3-bit video data (0000 to 111) is converted into a luminance signal BRS corresponding to eight levels of brightness. Input to Monochrome CRT 1 S: As a result, Monoc σ CRT 1S modulates the luminance based on the luminance signal BRS, and converts the Monoc image with eight levels of brightness. According to the present invention, since it is possible to draw a solid figure as a real, and in the case of character drawing, it is possible to draw emphasized characters. The red, green, and blue video signals output from the display control unit are not regarded as three-bit binary data, and the three-bit video data is regarded as binary data. The data is converted into a luminance signal corresponding to eight levels of brightness by a D / A converter, and the luminance signal is modulated by the luminance signal on the CRT to obtain an image in which the sun is dark. Since it is configured for drawing, the existing color discipline control unit can be used, and it is also possible to easily display light and dark and to clearly display three-dimensional figures. (B) You can draw:

Claims

The scope of the claims

 1 * A color display control unit that generates red, green, and blue video signals,

 A D / A converter that combines the red, blue, and blue video signals, regards them as S-bit binary data, and converts the 3-bit binary data into a luminance signal;

 A display device characterized in that it has a monochromatic CRT whose luminance is modulated according to the luminance signal output from the DA converter.

 2. When the data for specifying the shape and the 3-bit lightness data for specifying the lightness of the shape are input, the color display control unit receives the lightness. A display processor that generates red, green, and blue color images by regarding the data as color data, and displays each color image in red, green, and blue. Read the three frame buffers to be recorded for each blue color and the red, green, and blue color images for each frame buffer. 3. The display according to claim 1, wherein the display has an image read-out circuit that outputs as red, green, and blue video signals. The display device according to claim 2, wherein eight levels of brightness are designated according to the brightness data.