JP2812463B2 - Video signal synthesizer - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video signal synthesizing apparatus, and in particular, a plurality of composite video signals are input simultaneously, and one of the input composite video signals is used as a main screen, The present invention relates to an apparatus for obtaining a composite video signal representing a composite screen inserted into a main screen with the remaining sub-screens being sub-screens. [Prior Art] FIG. 2 shows a video signal synthesizing device for obtaining a so-called picture-in-picture signal as a composite video signal, that is, a synthesized screen in which another sub-screen is inserted as a reduced screen with respect to a main screen. FIG. 2 is a block circuit diagram showing a conventional example of an apparatus for obtaining a composite video signal. This conventional example shows a case where there is one sub-screen. In FIG. 2, (11) is a first input terminal to which a first composite video signal (hereinafter, referred to as "main screen signal") (1) serving as a main screen is input, and (12) is a first YC. A separator, (13) a first chroma (color signal) demodulator, (14) a first synchronizing signal separator, and (15) a second composite video signal (hereinafter, referred to as a “sub-screen”) serving as a sub-screen. (2) is input, (16) is a second YC separator, (17) is a second chroma (color signal) demodulator, and (18) is a second Synchronous signal separators, (19), (20), and (21) are first, second, and third AD converters (analog-to-digital converters), (22), (2)
3) and (24) are the first, second, and third aspects in which writing and reading can be performed simultaneously and at mutually asynchronous timing.
Digital memory of (25), (26), (27) are the first and second
2, the third DA converter (digital / analog converter), (28) is an analog switch, (29) is a chroma modulator, (30) is a YC adder, (31) is an output terminal, (32), ( Three
3) are first and second digital signal processing controllers. Next, the operation will be described. The main screen signal (1) input from the first input terminal (11) is supplied to a first YC separator (12).
As a result, the signal is separated into a first luminance signal (34) and a first chrominance subcarrier signal (35). The first chrominance subcarrier signal (35) is demodulated by a first chroma demodulator (13) into a first red difference signal (36) and a first blue difference signal (37). On the other hand, the sub-screen signal (2) input from the second input terminal (15) is converted by the second YC separator (16) into the second luminance signal (38) and the second color sub-carrier signal ( 39). The second chrominance subcarrier signal (39) is demodulated by a second chroma demodulator (17) into a second red difference signal (40) and a second blue difference signal (41). First, second, and third AD converters (19), (20), (21)
Are the second luminance signal (38), the second red color difference signal (40),
The second blue difference signal (41) is converted into a digital signal, respectively, and the first, second, and third digital memories (22), (2)
Write to 3) and (24). At this time, the first and second control signals (42) and (43) required for the write control are generated by the first digital signal processing system controller (32). It is synchronized with the synchronization signal (44) separated by the signal separator (18), that is, synchronized with the sub-screen signal. Next, the first, second, and third digital memories (22),
When reading the contents from (23) and (24), the sub-screen is reduced, that is, compressed in the time direction. The compression in the time direction uses digital memories (22), (23),
The scanning speed of the content of (24) is k times (k>
1) can be realized, and as a result, a digital signal compressed to 1 / k in the time direction is obtained. The digital signal compressed in the time direction is converted into an analog signal by the first, second and third DA converters (25), (26) and (27). Through this digital signal processing system, the second luminance signal (38), the second red difference signal (40), and the second blue difference signal (41) are time-compressed into the third luminance signal (45). ), A third red color difference signal (46) and a third blue color difference signal (47). Here, the third and fourth control signals (4
8) and (49) are generated by the second digital signal processing system controller (33).
Is synchronized with the synchronizing signal (50) separated by the synchronizing signal separator (14), that is, with the main screen signal (1). Of course,
The obtained third luminance signal (45) and third red difference signal (4
6), the third blue difference signal (47) is also synchronized with this. The three analog switches (28) are connected to the main screen signal,
Used for time division multiplexing with time-compressed sub-screen signals,
Switching command signal (51) for this analog switch (28)
Is a timing synchronized with the main screen signal. Since the result of the time division multiplexing of the analog switch (28) is separated into a luminance signal, a red difference signal, and a blue difference signal, a chrominance subcarrier signal is generated in the chroma modulator (29) and then added. The target composite video signal (3) is obtained at the output terminal (31) by adding the luminance signal in the device (30). [Problems to be Solved by the Invention] Since the conventional video signal synthesizing apparatus is configured as described above, it is necessary to demodulate and modulate the main screen signal (1) which does not need to perform time compression. Not
This causes deterioration of image quality, and also requires three analog switches for time division multiplexing, which is a significant cost factor when the number of sub-screens is increased. SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and it is possible to eliminate the deterioration of the image quality of the main screen and to make the analog switch a single system regardless of the number of sub-screens.
It is an object of the present invention to obtain a video signal synthesizing device capable of reducing costs. [Means for Solving the Problems] A video signal synthesizing apparatus according to the present invention comprises a separating means for separating a first composite video signal inserted into a main screen and serving as a sub-screen into a luminance signal and a chrominance sub-carrier signal. A chroma demodulator for chroma-demodulating the chrominance subcarrier signal separated by the separator, a luminance signal separated by the separator, and a color difference signal chroma-demodulated by the chroma demodulator are A / D
A / D conversion means for D-conversion, memory means for storing luminance signals and color difference signals digitized by the A / D conversion means, digitized luminance signals and color difference signals read from the memory means / D conversion means for D / A conversion, chroma modulation means for chroma-modulating the first and second color difference signals output from the D / A conversion means, and color subcarrier output from the chroma modulation means Signal and D /
An adder for adding the luminance signal output from the A converter, a first controller for performing write control of the memory in synchronization with a synchronization signal of the first composite video signal, A reduced screen creating means for creating a second composite video signal to be a sub-screen by compressing and reducing the composite video signal on the time axis; the second composite video signal;
Switching means for switching and outputting the composite video signal, and carrier generating means for synchronizing with the color burst signal of the third composite video signal and generating first and second carriers having a phase difference of 90 degrees from each other And delaying the first and second carriers by a predetermined amount so as to synchronize the phases of the color burst signal of the third composite video signal and the color burst signal of the second composite video signal, respectively. A delay unit that generates a second continuous wave signal and supplies the first and second continuous wave signals to the chroma modulation unit; and reads out the memory unit based on a synchronization signal of the third composite video signal. And a second control means for controlling the switching means and performing a read control so as to execute at a higher speed than the writing of the memory means. [Operation] In the present invention, the configuration described above eliminates the need for processing relating to chroma demodulation and chroma modulation for the main screen, and enables the synthesis of the main and sub-screens in the state of a composite video signal. The hue signals of the main screen and the sub-screen are automatically synchronized. Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block circuit diagram of an embodiment of the present invention, and the same reference numerals in FIG. 2 denote the same parts. In the figure, (52) is a phase locked loop circuit (hereinafter, referred to as "PLL circuit"), (53) is a first delay circuit, (54) is a second delay circuit, and (55) and (56) are PLLs ( 52) The first and second carrier signals generated in (52), (70) a reduced sub-screen signal generation circuit,
YC separator (16), second chroma demodulator (17), second sync separator (18), AD converters (19), (20), (2)
1), digital memory (22), (23), (24), DA converter (25), (26), (27), chroma modulator (2
9), an adder (30) and a first digital processing controller (32). (57) is a time-compressed sub-screen signal. Next, the operation will be described. The PLL circuit (52) is phase-synchronized with the color burst signal included in the first chrominance subcarrier signal (35) separated by the first YC separator (12) and has a phase difference of 90 degrees from each other. The first and second carrier signals (55) and (56) are generated. However, in the YC separator (12) and the PLL circuit (52), a fixed delay time is generated. To compensate for this, the first and second carrier signals (55) and (56) are respectively converted to the first and second carrier signals.
1, after being connected to the first and second continuous wave signals (58) and (59) delayed by a predetermined amount by the second delay circuits (53) and (54), respectively, to the chroma modulator (29). A third luminance signal, which is inputted and time-compressed, modulates the third red difference signal (46) and the blue difference signal (47) into a third color subcarrier signal and time-compresses them by an adder (30) (45) is added to form a third composite video signal (hereinafter, referred to as "reduced sub-screen signal") (57) representing the reduced sub-screen, and the analog switch (28) is used as the main screen signal (1). It is divided and multiplexed into a composite video signal (3), which is output from an output terminal (31). The delay time in the first and second delay circuits (53) and (54) is a value at which the phase of the color burst signal of the main screen signal (1) matches the phase of the color burst signal of the reduced sub-screen signal (57). Is set to In the above embodiment, one sub-screen signal (2) to be synthesized is shown. However, the number of sub-screens may be two or more. In this case, the reduced sub-screen signal generation circuit ( 70) are provided by the number of sub-screens, the first and second carrier signals (58) and (59) are shared by each reduced sub-screen signal generation circuit, and the number of input terminals of the analog switch (28) is reduced. What is necessary is just to make it according to the number of screens. [Effects of the Invention] As described above, according to the video signal synthesizing apparatus of the present invention, the separating means for separating the first composite video signal inserted into the main screen and serving as a sub-screen into a luminance signal and a chrominance sub-carrier signal. An A / D converter that performs A / D conversion on chroma demodulation means for chroma-demodulating the color subcarrier signal separated by the separation means, the luminance signal separated by the separation means, and the color difference signal chroma-demodulated by the chroma demodulation means. D conversion means, a memory means for storing a luminance signal and a color difference signal digitized by the A / D conversion means, and a digitized luminance signal and color difference signal read from the memory means.
D / A conversion means for D / A conversion, chroma modulation means for chroma-modulating the first and second color difference signals output from the D / A conversion means, and color subcarrier signal output from the chroma modulation means And an adder that adds the luminance signal output from the D / A converter and a first controller that performs write control of the memory in synchronization with a synchronization signal of the first composite video signal. A reduced screen creating means for creating a second composite video signal to be a sub-screen by compressing the first composite video signal by time axis and reducing the second composite video signal;
Switching means for switching and outputting a third composite video signal serving as a main screen, and first and second carrier waves synchronized with the color burst signal of the third composite video signal and having a phase difference of 90 degrees from each other And a predetermined amount for synchronizing the phase of the color burst signal of the third composite video signal with the phase of the color burst signal of the second composite video signal. Delay means for generating first and second continuous wave signals by delaying, and supplying the first and second continuous wave signals to the chroma modulation means;
A second control unit for performing read control based on a synchronization signal of the third composite video signal so as to execute reading of the memory unit at a higher speed than writing of the memory unit, and controlling the switching unit; The main screen and the sub-screen can be combined in the state of a composite video signal in which predetermined signal components of the main screen and the sub-screen are automatically synchronized with each other. Modulation becomes unnecessary, and there is a practical effect that deterioration of the image quality of the main screen can be prevented and the cost of the entire system can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block circuit diagram showing an example of video signal synthesis according to the present invention, and FIG. 2 is a block circuit diagram of a conventional video signal synthesis device. (28) Analog switch, (52) Phase locked loop circuit, (53), (54) Delay circuit, (70) Reduced sub-screen signal generation circuit. In the drawings, the same reference numerals indicate the same or corresponding parts.

Claims (1)

(57) [Claims] Separation means for separating the first composite video signal inserted into the main screen and serving as a sub-screen into a luminance signal and a chrominance sub-carrier signal; chroma demodulation means for chroma-demodulating the chrominance sub-carrier signal separated by the separation means; A / D conversion means for A / D-converting the luminance signal separated by the means and the color difference signal chroma-demodulated by the chroma demodulation means, and converts the luminance signal and color difference signal digitized by the A / D conversion means. The memory means for storing, and the digitalized luminance signal and color difference signal read from the memory means
D / A conversion means for A-conversion, chroma modulation means for chroma-modulating the first and second color difference signals output from the D / A conversion means, the color subcarrier signal output from the chroma modulation means, and An adder for adding the luminance signal output from the D / A converter to a first signal for controlling writing of the memory in synchronization with a synchronization signal of the first composite video signal;
A reduced screen creating means for compressing the first composite video signal on a time axis and reducing the same to create a second composite video signal serving as a sub-screen; A switching means for switching and outputting a third composite video signal serving as a screen; and a first and second carrier waves synchronized with the color burst signal of the third composite video signal and having a phase difference of 90 degrees from each other. Generating carrier wave generating means; and delaying the first and second carrier waves by a predetermined amount so as to synchronize the phases of the color burst signal of the third composite video signal and the color burst signal of the second composite video signal. The first and second continuous wave signals are generated to supply the first and second continuous wave signals to the chroma modulating means, and the synchronizing signal of the third composite video signal is generated. Read the above memory means A video signal synthesizing apparatus, comprising: a second control unit that performs read control so as to execute at a higher speed than writing in the memory unit and controls the switching unit.