JPH03125581A - Multi-screen television receiver - Google Patents

Abstract

PURPOSE:To generate a slave pattern using a video signal of a different system by switching plural inputted slave pattern video signals in a timing in the case of the multi-screen mode. CONSTITUTION:A different video signal is inputted to input terminals for slave pattern video signals. An input changeover switch 4 is switched by an input switching control means 5. A signal presence detection circuit 13 uses a horizontal synchronizing pulse whose phase is coincident with the phase of the video signal outputted from a synchronizing signal generating circuit 12 to detect the presence of the video signal and its detected output signal is inputted to the input switching control means 5. Thus, the television receiver is provided with 1st-3rd slave pattern video signal input terminals 1-3, the input changeover switch 4, an input switching means 5, the synchronizing signal generating circuit 12 and the signal presence detection circuit 13. Thus, the slave pattern of the video signal of different system is sequentially generated and the input slave pattern video signal is switched at a high speed.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention is one of the additional functions of a television receiver that performs digital processing, and relates to a multi-screen television that uses input signals from a plurality of systems, such as broadcast waves and VTRs.

BACKGROUND OF THE INVENTION In recent years, multi-screen televisions have been added as a means of increasing added value to television receivers that perform digital processing.

Hereinafter, an example of the conventional multi-screen television mentioned above will be described with reference to the drawings. Fig. 4 shows a block diagram of a conventional multi-screen television (``6 special effects in digital processing technology for television'', Journal of the Television Engineering Society, Vol. 33, No. 4, P, pp. 301-322, 1979).
. In the figure, 1 is an input terminal for a child screen video signal, 6 is a signal processing circuit including a memory, 8 is an input terminal for a main screen video signal, 9 is an output signal changeover switch, and 10 is for controlling the output changeover switch 9. 11 is an output terminal for the combined video signal.

The operation of the multi-screen television configured as described above will be described below.

A signal processing circuit 6 including a memory performs interpolation and thinning of the video signal to create a small screen video signal reduced to a desired size. The output switching control means 10 determines where on the main screen the child screen is to be displayed, and controls the output changeover switch 9. A video signal obtained by combining the main screen and the child screen is output from the output terminal 11.

Problem to be Solved by the Invention However, with the above configuration, there is a problem that only one sub-screen with the same signal can be created even if there are multiple screens, since the input of the video signal for the sub-screen is one line. Ta.

SUMMARY OF THE INVENTION In view of the above-mentioned problems, an object of the present invention is to (1) provide a multi-screen television having a plurality of input systems for sub-screen video signals, each of which has a different video signal. (2)
Another object of the present invention is to provide a multi-screen television capable of switching input signals at high speed. (3)
Furthermore, the present invention aims to provide a multi-screen television that can be used with television receivers having different screen aspect ratios.

Means for Solving the Problems In order to solve the above problems, the present invention provides (1) first, second... a signal processing circuit including an input terminal for a third sub-screen video signal, an input selector switch for selecting one of the three input terminals, and a memory connected to the output end of the input switch input terminal; An input switching control section that controls writing to the memory of the signal processing circuit including the input switching switch and the memory, an input terminal for the main screen video signal, and a signal processing circuit including the input main screen video signal and the memory. This device includes an output changeover switch that changes output signals, and an output changeover control section that controls the output changeover switch. (2) Furthermore, the input switching control section in the present invention includes a synchronization generation circuit connected to the output end of the input selection switch;
The apparatus includes a signal presence/absence detecting circuit connected to the synchronization generating circuit, and an input switching control means to which the output signal of the synchronization generating circuit is supplied and controls the switching of the input switching switch. (3) The present invention also provides an input terminal for a reduced child screen video signal, a first time axis compression circuit connected to the input terminal for the child screen video signal, and an input terminal for a main screen video signal. terminal, a second time-base compression circuit connected to the input terminal for the main screen video signal, and the first. An output changeover switch that switches the output signal of the second time-base compression circuit, an output switching control section that controls the output switch, and a screen aspect ratio that controls the first and second time-base compression circuits and the output control section. It has a configuration called a changeover switch.

Effects of the present invention With the above-described configuration, (1) when a multi-screen is used, by switching a plurality of input sub-screen video signals at a certain timing, it is possible to create sub-screens each using a different system of video signals; can. (2) In addition, the presence or absence of a video signal is detected, and when the presence of a video signal is detected, that one screen is stored in the memory and the input changeover switch is switched, so the input video signal can be switched at high speed. can. (3) Furthermore, the aspect ratio switch for the TV screen makes it compatible with landscape TV receivers.

Embodiment Hereinafter, a multi-screen television according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a block diagram of a multi-screen television in a first embodiment of the present invention. In FIG. 1, a signal processing circuit including a 6B memory,
8 is an input terminal for a main screen video signal, 9 is an output changeover switch, 10 is an output changeover control means, and 11 is an output terminal for a synthesized video signal, which is the same as in FIG. 3 described in the conventional example. be. 1.2.3 is the first. Second and third input terminals for the small screen video signal, 4 are input changeover switches for selecting the small screen video signal. Reference numeral 5 denotes an input changeover control means for controlling the input changeover switch 4 and the signal processing circuit 6 including a memory; 12 is connected to the output end of the input changeover switch 4; A synchronization generation circuit 13 compares the phases of horizontal synchronization pulses in the signals, and 13 is a signal presence/absence detection circuit that detects when the phases of both horizontal synchronization pulses match in the synchronization generation circuit 12 and generates a detection output signal.

The operation of the multi-screen television configured as described above will be described below. Different video signals are input to the input terminals 1, 2, and 3 of the video signals for the small screen. The input changeover switch 4 is changed over by the input changeover control means 5. A signal processing circuit 6 including a memory performs signal processing such as interpolation and thinning to create a reduced video signal for a small screen.

The output switching control means 10 determines the output position of the child screen, controls the output changeover switch 9, and outputs a combined video signal of the main screen and the child screen. The synchronization generation circuit 12 compares the phase of the horizontal synchronization pulse reproduced together with a clock based on the vertical synchronization pulse in the input video signal and the horizontal synchronization pulse in the input video signal. The signal presence/absence detection circuit 13 detects the presence or absence of a video signal using the phase-matched horizontal synchronization pulses output from the synchronization generation circuit 12, and inputs the detected horn signal to the input switching control means 5.

The input switching control means 5 generates the timing for large horn switching based on this detection output signal. For example, if it has been connected to input terminal 1, it is switched to input terminal 2. At the same time, the signal processing circuit 6 including a memory is controlled to write one field of the video signal of the input terminal 1.

As described above, according to this embodiment, the first. Second and third sub-screen video signal input terminals 1, 2.3, an input changeover switch 4, an input changeover control means 5, a synchronization generation circuit 12,
By providing the signal presence/absence detection circuit 13, sub-screens of different systems of video signals can be sequentially created, and input sub-screen video signals can be switched at high speed.

A second embodiment of the present invention will be described below with reference to the drawings. FIG. 2 is a block diagram of a multi-screen television showing a second embodiment of the present invention, and FIG. 3 is a schematic diagram for explaining the operation of FIG. 2. In FIG. 2, 7 is an input terminal for the reduced video signal, 9 is an output selector switch, 11 is an output terminal for the synthesized video signal, and 10 is an output terminal for the synthesized video signal.
This output switching control means controls the output switching switch 9 and has the same configuration as that shown in FIG. 1. The difference from the configuration shown in FIG. 1 is that the first one compresses the time axis of each video signal for the child screen and the main screen. Second time base compression circuit 14.
15, and a screen aspect ratio switch 16 is provided.

The operation of the multi-screen television configured as described above will be explained below.

If the screen aspect ratio of the TV receiver is 3:4, the first
．． The second time axis compression circuits 14 and 15 do not perform signal processing. Normally, the output selector switch 9 is connected to the second time-base compression circuit 15 side. Therefore, only the parent image is displayed on the screen. When there is an instruction to display multiple screens by an external key input, etc., the output switching control means 10
determines the output position of the child screen and controls the output changeover switch 9. The output changeover switch 9 is connected to the second time axis compression circuit 15 during the period when the main screen is displayed, and connected to the first time axis compression circuit 14 during the period when the child screen is displayed.

FIG. 3(a) shows an example of multi-screen display. In this case, 1/3 of the picture on the main screen will be missing.

On the other hand, if the screen aspect ratio of the television receiver is 9:16, the first. The second time axis compression circuits 14 and 15 compress the time axis of each video signal to 3/4. FIG. 3(b) shows an example of multi-screen display. In this case, multiple screens can be displayed without missing the picture on the main screen.

As mentioned above, the first. By providing the second time axis compression circuit 1415 and the screen aspect ratio switch 16 for the television receiver, it is possible to support television receivers with different screen aspect ratios.

Effects of the Invention As described above, the present invention has (1) first. Second. a signal processing circuit including an input terminal for a third sub-screen video signal, an input selection switch for selecting one of the three input terminals, a memory connected to an output terminal of the input selection switch, and the input terminal for the third sub-screen; An input switching control unit that controls memory writing using a signal processing circuit that includes a changeover switch and memory, an input terminal for a main screen video signal, and an output signal of the signal processing circuit that includes the input main screen video signal and memory. By providing an output changeover switch that changes over the output changeover switch and an output changeover control section that controls the output changeover switch, it is possible to realize a plurality of child screens each using a different input system. (2) The present invention also provides a synchronization generation circuit connected to the output end of the input selector switch for comparing the phases of the reproduced horizontal synchronization pulse and the horizontal synchronization pulse in the input video signal; a signal presence/absence detection circuit that is connected and detects that the phases of both horizontal synchronizing pulses match; and an input switching control means that is supplied with a coincidence detection output signal of the signal presence/absence detection circuit and controls an input changeover switch based on the signal. By providing this, the input sub-screen video signal can be switched at high speed. (3) The present invention further provides an input terminal for a reduced child screen video signal, a first time axis compression circuit connected to the input terminal for the child screen video signal, and an input terminal for a main screen video signal. terminal, a second time-base compression circuit connected to the input terminal for the main screen video signal, and the first. Second
an output changeover switch that changes over the output signal of the time axis compression circuit; an output changeover control unit that controls the output changeover switch; 2nd 1 2 By providing a screen aspect ratio switch that controls the time axis compression circuit and the output control section, the picture on the main screen will not be cut off in the case of a landscape TV receiver with a screen aspect ratio of 9-16. A multi-screen TV can be realized.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a multi-screen television according to a first embodiment of the present invention, FIG. 2 is a block diagram of a multi-screen television according to a second embodiment of the present invention, and FIG. 3 is an explanation of the operation of FIG. FIG. 4 is a block diagram of an example of a conventional multi-screen television. 1...First sub-screen video signal input terminal, 2...
...Second sub-screen video signal input terminal, 3...
・Third sub-screen video signal input terminal, 4...Input changeover switch, 5...Input changeover control means, 6
...Signal processing circuit including memory, 7...
・Video signal input terminal for reduced child screen, 8--Video signal input terminal for main screen, 9...output selector switch,
10...Output switching control means, 11...Synthesized video signal output terminal, 12...Synchronization generation circuit, 13...Signal presence/absence detection circuit, 14...・・・
・First time axis compression circuit, 15...Second time axis compression circuit, 16...Screen aspect 1-ratio switching switch.

Claims (3)

[Claims] (1) Input terminals for the first, second, and third sub-screen video signals, an input selector switch that selects one of the three input terminals, and a memory connected to the output terminal of the input selector switch. an input switching control unit that controls writing to the memory of the signal processing circuit including the input switching switch and the memory; an input terminal for a main screen video signal;
A multi-screen television comprising: an output changeover switch that changes over an input main screen video signal and an output signal of a signal processing circuit including a memory; and an output changeover control section that controls the output changeover switch. (2) The input switching control section is connected to the output end of the input changeover switch, and includes a synchronization generation circuit that compares the phase of the reproduced horizontal synchronization pulse and the horizontal synchronization pulse in the input video signal, and the output end of the synchronization generation circuit. a signal presence/absence detection circuit that is connected to and detects that the phases of both horizontal synchronization pulses match, and input switching control means that is supplied with a coincidence detection output signal of the signal presence/absence detection circuit and generates a signal that controls the input changeover switch. A multi-screen television according to claim 1, comprising: (3) An input terminal for the reduced child screen video signal, a first time axis compression circuit connected to the input terminal for the child screen video signal, an input terminal for the main screen video signal, and the first time axis compression circuit connected to the input terminal for the child screen video signal, a second time-base compression circuit connected to the input terminal of the screen video signal; an output changeover switch that switches output signals of the first and second time-base compression circuits; and an output changeover that controls the output changeover switch. A multi-screen television comprising: a control section; and a screen aspect ratio changeover switch that controls the first and second time axis compression circuits and the output changeover control section.