JPH02100585A - Video signal processing device - Google Patents

Abstract

PURPOSE:To display a picture as converting the scanning frequency of a video signal by switching the read and the write of two picture memories at every field so that picture data is written as being synchronized with the scanning frequency of the video signal, and is read as being synchronized with the scanning frequency of a CRT display device. CONSTITUTION:A write address counter 22 operates in synchronism with the scanning frequency of the video signal to be inputted, and the picture data of the video signal of one field portion is written in the picture memory 14. On the other hand, the picture data of the video signal of an odd field is read out from the picture memory 16 by a read address counter 24 to operate in synchronism with the scanning frequency of the CRT display device to display the picture. Henceforward, the write and the read operations of the picture memories 14,16 are switched alternately at every even and odd field of the video signal to be inputted from a terminal 100. Thus, the picture shown by the video signal can be displayed on the CRT display device acquiring synchronism by using a horizontal and a vertical scanning frequencies different from that of said video signal to be inputted.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a video signal processing device used in a CRT display device, and more particularly to a video signal processing device that converts the scanning frequency of an NTS C video signal. .

[Conventional technology]

C that synchronizes at the same horizontal scanning frequency and vertical scanning frequency as the horizontal scanning frequency and vertical scanning frequency of the input video signal when displaying an image on a conventional CRT display device.
Images were displayed using an RT display device.

[Problem to be solved by the invention]

The conventional CRT display device described above is configured such that an image cannot be displayed unless the horizontal scanning frequency and vertical scanning frequency of the input video signal match the scanning frequency. Furthermore, when a video signal having a horizontal scanning frequency and a vertical scanning frequency different from the vertical scanning frequency is input, there is a problem that the image indicated by the video signal cannot be displayed.

The present invention was made in view of these circumstances, and
Provided is a video signal processing device capable of displaying an image indicated by a video signal on a CRT display device that synchronizes using a horizontal scanning frequency and a vertical scanning frequency different from the horizontal scanning frequency and vertical scanning frequency of an input video signal. The purpose is to

[Means to solve the problem]

In order to achieve the above object, the present invention includes an A-D converter that performs A-D conversion of an input video signal, a first image memory that stores image data representing an even field video signal, and an odd field a second image memory for storing image data representing a field video signal; and a first switching means for switching between inputting the A-D converted image data into the first or second image memory. a second switching means for switching to read image data from either the image memory or the second image memory; and a D- for converting the image data read from the first or second image memory. A converter determines the field from the decoded synchronization signal in the input video signal, and if the input video signal is an even field, writes the image data to the first image memory, and At the same time, the image data is read from the second image memory, and if the input video signal is an odd field, the image data is written to the second image memory, and at the same time, the image data is read from the first image memory. The first and second switching means are switched and controlled so as to read the image data, the image data is written into the first and second image memories in synchronization with the scanning frequency of the input video signal, and the image data is read out. The present invention is characterized by comprising a control means for controlling the image display to be performed in synchronization with the scanning frequency of a CRT display device that performs image display.

A video signal processing device according to the present invention includes a first image memory that stores image data of an even field of an input video signal, and a second image memory that stores image data of an odd field. The writing and reading of two image memories are switched field by field, and the writing of image data is performed at the scanning frequency of the input video signal, and the reading of image data is performed using the CR that displays the image.
This is done in synchronization with the scanning frequency of the T display device.

Therefore, according to the present invention, an image indicated by an input video signal can be displayed on a CRT display device that synchronizes using a horizontal scanning frequency and a vertical scanning frequency different from the input video signal.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows the configuration of an embodiment of a video signal processing device according to the present invention. In the figure, the video signal processing device includes an A-D converter 10 that performs A/D conversion of an input video signal, and an A-D converter 10 that is stored in an image memory 14.16.
an input video signal switch 12 that switches the output signal of the input video signal, an image memory 14 that stores image data of the even field video signal, an image memory 16 that stores the image data of the odd field video signal, and an address switch 18 . 20
, a write address counter 22, a read address counter 24, and an output video signal switch 26 that selectively outputs image data read from the image memory 14.16.
and a memory control unit 28 that controls writing and reading of the image memories 14 and 16.

In the above configuration, the video signal inputted from the input terminal 100 is A-D converted by the A-D converter 10, and the output signal is sent to the input video signal switch 12. Here, if the video signal at a certain point in time is an even field, the memory control unit 28 determines the field from the composite synchronization signal in the video signal, writes the image data of the video signal into the image memory 14, and writes the image data of the video signal into the image memory 14. The image data of the odd field video signal that has already been written is controlled to be read out from the . Accordingly, the memory control unit 28 moves the address switch 18 that sends address data to the image memory 14 to the write address counter 22 side, and moves the address switch 20 that sends address data to the image memory 16 to the read address counter 24 side. At the same time, the input video signal switch 12 is switched to the image memory 14.
Then, the output video signal switch 26 is further switched to the image memory 16 side.

The write address counter 22 operates in synchronization with the scanning frequency of the input video signal, and the image data of the video signal for one field is written into the image memory 14.

On the other hand, image data of an odd field video signal is read out from the image memory 16 by an IJ + door address counter 24 which operates in synchronization with the scanning frequency of the CRT display device that displays the image. The read image data is inputted to the DA converter 30 via the output video signal switch 26 and subjected to DA conversion, and an analog video signal is output from the video signal output terminal 102.

When the writing of the video signal for one field into the image memory 14 is completed and the input video signal changes from an even field to an odd field, the memory control unit 28 writes the image data of the even field video signal from the image memory 14. The address switch 18.2 reads the image data of the odd field video signal and writes the image data of the odd field video signal to the image memory 16.
0, input video signal switch 12, output video signal switch 26
Switch.

Therefore, the image data of the odd field video signal is written to the image memo IJ 16, while the image data of the video signal of the odd field is written to the image memo IJ 14.
The image data of the even-numbered field video signal that has already been written is read out from. This read image data is sent to the D-A converter 3 via the output video signal switch 26.
0, is D/A converted, and an analog video signal is output from the video signal output terminal 102.

Thereafter, the writing and reading operations of the image memories 14 and 16 are alternately switched for each even field and odd field of the video signal input from the terminal 100.

〔Effect of the invention〕

As explained above, the present invention includes a first image memory that stores image data of even fields of an input video signal and a second image memory that stores image data of odd fields. Writing and reading of the image memory are switched field by field, and writing of image data is performed in synchronization with the scanning frequency of the input video signal, and reading of image data is performed in synchronization with the scanning frequency of the CRT display device that displays the image. Therefore, according to the present invention, a CRT that synchronizes using a horizontal scanning frequency and a vertical scanning frequency different from the input video signal.
The image indicated by the video signal can be displayed on the display device.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of a video signal processing device according to the present invention. 10...A-D converter, 12...Input video signal switch, 14.16...
...Image memory, 18.20...Address switch, 22...
...Write address counter, 24...Read address counter, 26...Output video signal switch, 28...Memory control unit, 30...
D-A converter.

Claims (1)

[Claims] An A/D converter that converts an input video signal from A to D;
A first image memory that stores image data representing an even field video signal; a second image memory that stores image data representing an odd field video signal; and A/D converted image data that is stored in the first or second image memory. a first switching means for switching to input image data into a second image memory; a second switching means for switching to read image data from either the first image memory or the second image memory; A D/A converter converts the image data read from the second image memory into D/A, and a field is determined from the decoded synchronization signal in the input video signal, and the input video signal is an even field. If the image data is an odd field, the image data is written to the first image memory, and at the same time the image data is read from the second image memory, and if the input video signal is an odd field, the image data is written to the first image memory. Switching control is performed on the first and second switching means so as to write image data to the memory and simultaneously read image data from the first image memory, and to write image data to the first and second image memories. It is characterized by comprising a control means for controlling so that the writing is performed in synchronization with the scanning frequency of the input video signal and the reading of the image data is performed in synchronization with the scanning frequency of the CRT display device that displays the image. A video signal processing device.