JPS6378680A - Video output device - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a video output device that can simultaneously output a plurality of video signals on one screen.

[Conventional technology]

Conventional video output devices display a reference video signal (hereinafter referred to as main video signal) and other video signals (hereinafter referred to as main video signal) on one screen.
The sync signal of the main video signal is separated into an inter-horizontal M signal and a vertical sync signal, and the horizontal sync signal is used as a frequency counter. The horizontal position and width of the sub-video signal are determined by resetting the sub-video signal and counting the frequency to a certain fixed value, and the sub-video signal is read out.

Similarly, the vertical position is determined using the vertical synchronization signal, and by replacing part of the main video signal with the sub video signal, the sub video signal can be inserted in synchronization with the main video signal. It was output on the screen.

As this type of video output device, TV Technology Vol. 32, 9
Examples include those described in Monthly Issue (1984) P, 25-29.

The conventional video output device described above does not take into consideration the fact that the sub video signal is output when there is no reference synchronization signal obtained from the main video signal.

[Problem that the invention seeks to solve]

In the above conventional technology, when there is no main video signal,
In other words, if there is no Mff signal as a reference, it is not possible to determine the insertion position of the sub video signal, and furthermore, since there is no synchronization signal as a reference, synchronization cannot be achieved on the screen, and the sub video signal cannot be inserted. Since the signals are out of synchronization, there is a problem in that a circuit configuration must be adopted in which the sub-video signal is not inserted when the main video signal is absent.

SUMMARY OF THE INVENTION An object of the present invention is to provide a video output device that can normally display a sub video signal on a screen even when there is no main video signal.

[Means for solving problems]

The above purpose is to provide a synchronization signal detection circuit, a synchronization signal generation circuit, a synchronization signal switching circuit and a video signal switching circuit controlled by the detection circuit, and a replacement circuit that inserts a sub video signal into the main video signal, and If there is no sub video signal, create a pseudo synchronization signal and a pseudo video signal, use this pseudo synchronization signal to count the frequency with a frequency counter to determine the insertion position of the sub video signal, and then add this part of the pseudo video signal to the sub video signal. This is achieved by outputting a signal substituted with a video signal as a composite video signal.

[For production]

The synchronization detection circuit determines the presence or absence of a synchronization signal output obtained from the main video signal through the synchronization separation circuit, and outputs a control signal in accordance with the output. The synchronization signal generation circuit generates a pseudo synchronization signal, and when there is no main video signal, the pseudo synchronization signal is used to read out the sub video signal and determine the insertion position using the control '4'B signal from the synchronization detection circuit. decide. Furthermore, by operating the replacement circuit according to this position, inserting the sub video signal into the pseudo video signal created by the synchronization signal processing circuit, and outputting this as a composite video signal, it is possible to It is also possible to synchronize sub-video signals on the screen.

〔Example〕

Embodiments of the present invention will be described below using screens.

FIG. 1 is a block diagram showing an embodiment of a video output device according to the present invention, in which 1 is a sync separation circuit, 2 is a sync signal detection circuit, 3 is a sync signal generation circuit, 4 is a sync signal switching circuit, and 5 6 is a video signal switching circuit, 6 is a sub video signal processing circuit,
6' is a frequency counter, 7.8 is a clamp circuit, 9 is a replacement circuit, and 10 is a synchronous signal processing circuit. In the figure, the main video signal is input to a synchronization separation circuit 1, and the synchronization signal obtained here is sent to a synchronization detection circuit 2 and a synchronization signal switching circuit 4. The synchronization signal detection circuit 2 determines the presence or absence of the input synchronization signal by integrating it, and outputs a corresponding control signal.

This control signal is connected to one input of the synchronization signal switching circuit 4 and one input of the video signal switching circuit 5,
Each switching circuit 4, 5 is operated depending on the presence or absence of a control signal. The output of the switching circuit 4 is the sub video signal processing circuit 6.
It is connected to the.

The sub video signal processing circuit 6 separates the input synchronization signal into a vertical synchronization signal and a horizontal synchronization signal, resets the frequency counter 6' with the horizontal synchronization signal, counts a certain frequency from there, and converts the input synchronization signal into a vertical synchronization signal and a horizontal synchronization signal. Determine the horizontal position and width by reading the signal. Further, the insertion position in the vertical direction is determined by counting from the vertical synchronization signal.

Here, the sub video signal is, for example, a video signal that is A/D converted and stored in a storage device such as a digital memory, which is then read out using the synchronization signal and subjected to D/A conversion.
By appropriately selecting the clock frequency at the time of conversion, the video signal can be reduced and output.

On the other hand, the output of the synchronization signal generation circuit 3 is connected to the other input of the synchronization signal switching circuit 4. Further, this synchronization signal output is connected to the video signal switching circuit 5 through the synchronization signal processing circuit 10.

The synchronization signal processing circuit 10 performs level processing on the pseudo synchronization signal obtained by the synchronization signal generation circuit 3 so that it can be handled as a video signal (for example, a solid black signal at a pedestal level) to obtain a pseudo video signal.

The main video signal is input to the other input of the video signal switching circuit 5, and its output is sent to the replacement circuit 9 through the clamp circuit 8.
is input. On the other hand, the output of the sub-video signal processing circuit 6 is inputted to a replacement circuit 9 through a clamp circuit 7. The replacement circuit 9 operates according to the positioning signal of the sub-video signal determined by the above-mentioned synchronization signal, inserts the sub-video signal into the main video signal, and outputs this as a composite video signal.

Now, if there is a main video signal, the synchronization signal switching circuit 4 selects the output of the synchronization separation circuit 1 according to the control signal Cs output from the synchronization signal detection circuit 2, and sends it to the sub video signal processing circuit 6. This makes it possible to determine the insertion position of the sub-video signal in synchronization with the main video signal, and input this to the replacement circuit 9 through the clamp circuit 7. Also, the video signal switching circuit 5 selects the main video signal at this time,
The signal is input to a replacement circuit 9 through a clamp circuit 8 .

Therefore, in this case, the replacement circuit 9 outputs a signal obtained by inserting a sub-video signal synchronized with the main video signal as a composite video signal.

Next, if there is no main video signal, the synchronization signal switching circuit 4
selects the pseudo synchronization signal output from the synchronization signal generation circuit 3 using the control signal C8, and determines the position of the sub-video signal based on this synchronization signal. Further, the video signal switching circuit 5 selects a pseudo video signal obtained from the pseudo synchronization signal through the synchronization signal processing circuit 10, and inputs it to the replacement circuit 9 through the clamp circuit 8. Therefore, in this case, the output of the replacement circuit 9 is a composite video signal in which a sub-video signal synchronized with the pseudo video signal obtained from the synchronization signal generation circuit 3 is inserted.

According to this embodiment, when there is a main video signal,
A sub video signal is inserted and output in synchronization with this, and if there is no main video signal, a sub video signal is inserted and output in synchronization with the pseudo video signal obtained from the synchronization signal generation circuit 3. Therefore, even when there is no main video signal, synchronization can be achieved using the pseudo synchronization signal and the sub video signal can be output on the screen.

〔Effect of the invention〕

As explained above, according to the present invention, a plurality of video signals are displayed on one screen, one of which is a reference video signal,
In the case where another video signal is inserted and output as part of the reference video signal, if the reference video signal disappears, for example, the reference video signal is a playback signal of a video magnetic recording/playback device, etc. Even if there is no signal due to a recording break, other inserted video signals can be output in synchronization on the screen, regardless of the presence or absence of the reference video signal. First, images can be displayed on the screen without any discomfort, the problems of the prior art described above can be solved, and a video output device with new and excellent functions can be provided.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing one embodiment of the present invention. 1... Synchronization separation circuit, 2... Synchronization signal detection circuit, 3
... Synchronous signal generation circuit, 4... Synchronous signal switching circuit,
5... Video signal switching circuit, 6... Sub video No. 43 processing circuit, 6'... Frequency counter, 7... Clamp circuit, 8... Clamp circuit, 9... Replacement circuit, 10
...Synchronous signal processing circuit.

Claims (1)

[Claims] 1. A frequency counter that is reset by a reference synchronization signal obtained through a synchronization separation circuit, and replacing a part of the video signal with one or more other video signals at a predetermined set time from a predetermined set value of the counter. In a video output device that has a replacement circuit that simultaneously outputs a plurality of video signals on one screen, the video output device includes a synchronization signal detection circuit, a synchronization signal generation circuit, and a synchronization signal switching circuit controlled by a discrimination signal of the detection circuit. 1. A video output device comprising a video signal switching circuit and configured to be able to output other video signals even when there is no reference synchronization signal.