JP2007043268A - Television receiver and television broadcast receiving system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a television receiver capable of viewing single-screen display with high definition and multi-screen display automatic switching only by mounting one down-convert circuit. <P>SOLUTION: The television receiver 1 is provided with broadcast receivers 10, 11; format converters 14, 15 for respectively outputting the HD signals received by the receivers during dual screen display as SD signals; an image synthesizing circuit 16 for synthesizing the SD signals output from the format converters and an SD signal from an external video signal input circuit 17, via an image processing circuit 20 with a video signal for multi-screen; and format switching command means 23-26, 30 each outputting an operation signal used for commanding to convert the format of the video signal in response to single screen display, and dual screen display and to output the format-converted signal to an external apparatus 4. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a television receiver. In particular, when a multi-screen display is performed using video sources having a plurality of formats, the video source can be automatically switched and selected so as to be optimal for multi-screen synthesis. The present invention relates to a television receiver.

Conventionally, in a television receiver, a multi-screen display method for combining and displaying a sub-screen in a main screen is known. In this case, a signal of the same format is not necessarily received and input as the source format of the video signal. As a type of source format, for example, a 480i format (number of effective scanning lines 480, Interlaced) handled by an NTSC television receiver is used.
scan: Interlaced scanning method, hereinafter referred to as SD format. An SD format video signal is referred to as an SD signal. ), 1080i format (1080 effective scanning lines, interlaced scanning method, hereinafter referred to as HD format, and HD format video signal is referred to as HD signal).

  FIG. 3 shows an example when two screens are displayed on the video display unit 3 of the television receiver. A shows the main screen and B shows the sub-screen. In this example, the main screen A and the sub screen B are displayed equally on the left and right. FIG. 4 shows another example in which the sub screen B is included in the main screen A.

  FIG. 5 shows a configuration example of a signal synthesis circuit of a conventional television receiver having such a multi-screen display function. Reference numeral 4 denotes an external video receiver in which an external device externally attached to the television receiver is configured as a set top box (hereinafter referred to as STB), which can receive a television broadcast by itself, such as a cable television receiver. There is a video receiver. A television receiver 31 includes a television receiver 32 and a video display unit 3. The television receiver 32 can receive a television broadcast alone. The television receiver 32 includes an external video signal input circuit 17 for receiving other video signals in addition to receiving a television broadcast from the antenna 10. Reference numeral 3 denotes a video display unit provided on the output side of the television receiving unit 32, which displays a video by a video signal from the television receiving unit 32. Examples of the video display unit 3 include a cathode ray tube display (CRT), a liquid crystal display, and a plasma display (PDP).

  Next, details of the configuration of each of the external video receiver 4, the television receiver 32, and the video display unit 3 will be described.

  The external video receiver 4 is an external video receiver that is externally attached as an external device to the television receiver 32 and can receive broadcasts independently of the television receiver 32. As the external video receiver 4, an STB for receiving a dedicated broadcast or a pay broadcast is generally set in many cases. However, it is not limited to STB. In practicing the present invention, a video signal playback device such as a DVD or a video device capable of switching and outputting a video signal having the same content to an HD signal or an SD signal with a remote controller or the like is externally attached to the television receiver 32. It can also be used in place of the external video receiver 4 as a device.

  As shown in FIG. 5, the external video receiver 4 includes an antenna 5, a receiving circuit 6, a down-conversion circuit (a conversion circuit for converting a video format from an HD format to an SD format, hereinafter referred to as an HD-SD conversion circuit) 7, It comprises an HD / SD switching circuit 8, an external video signal output circuit 9, a microcomputer 27, a remote control light receiving unit 28, and the like.

  Broadcast radio waves received by the antenna 5 are input to the reception circuit 6, detected and demodulated, and a selected broadcast video signal is generated. The video signal from the receiving circuit 6 is directly input to the g side of the HD / SD switching circuit 8 and also input to the h side of the HD / SD switching circuit 8 via the HD-SD conversion circuit 7. The HD-SD conversion circuit 7 is a circuit that generates an SD signal by down-converting the HD signal. Therefore, when the external video receiver 4 is receiving an HD signal, the HD signal directly input from the receiving circuit 6 to the HD / SD switching circuit 8 and the SD of the same broadcast content via the HD-SD conversion circuit 7 are received. A signal is being input. The HD / SD switching circuit 8 selects either the g side (HD signal) or the h side (SD signal) according to a command from the microcomputer 27 and outputs the selected signal to the external video signal output circuit 9. The external video signal output circuit 9 outputs this external video signal to the television receiver 32.

  Further, when an operation signal is sent to the remote control light receiving unit 28 by operating the remote control 29 using infrared rays or the like, the remote control light receiving unit 28 that receives this operation signal converts it into a voltage signal and outputs this operation signal to the microcomputer 27. . By operating the remote controller 29, the HD / SD switching circuit 8 can be switched to the g side or the h side.

  In the external video receiver 4 shown in FIG. 5, it is possible to switch between the HD signal and the SD signal and output them. However, depending on the connected device, when only the HD signal is output, only the SD signal is output. In some cases, both HD and SD signals are output. When both the HD signal and the SD signal are output simultaneously, it is general that both signals are the same program.

  The television receiver 32 includes an antenna 10, a receiving circuit 11, an external video signal input circuit 17, an external video signal switching circuit 18, image processing circuits 12, 19, and 20, a main image switching circuit 13, an HD-SD conversion circuit 14, It comprises an HD / SD switching circuit 15, an image composition circuit 16, a microcomputer 23, a remote control light receiving unit 24, and the like.

  The antenna 10 is a television broadcast receiving antenna. The receiving circuit 11 is a circuit that detects and demodulates a broadcast signal from the antenna 10 and generates a selected television broadcast video signal. The antenna 10 and the receiving circuit 11 constitute a television broadcast receiving unit and can receive both HD and SD video signals. The image processing circuit 12 is a circuit that adjusts the image quality, color tone, and the like of the video signal from the receiving circuit 11.

  The external video signal input circuit 17 is an interface for inputting an external video signal from the external video receiver 4. The external video signal switching circuit 18 is a switching circuit that switches the external video signal input from the external video receiver 4 to the a side or the b side. On the a side, an external video signal for main screen of HD signal or SD signal passes. On the b side, the external video signal for the sub screen passes, and this video signal is only the SD signal. The image processing circuit 19 is a circuit for adjusting the image quality, color tone and the like of the external video signal for the main screen. The image processing circuit 20 is a circuit for adjusting the image quality, color tone and the like of the external video signal for sub-screen.

  The main image switching circuit 13 is a switching circuit that switches whether the main screen A is based on a received video signal from the antenna 10 or an external video signal from the external video signal input circuit 17. When the image of the received video signal from the antenna 10 is the main screen A, the c side is selected, and when the external video signal from the external video signal input circuit 17 is the main screen A, the d side is selected. The HD-SD conversion circuit 14 is a conversion circuit that down-converts the HD signal of the main screen A when displaying two screens and converts it into an SD signal.

  The HD / SD switching circuit 15 is a switch circuit that switches whether the video signal from the main image switching circuit 13 is directly passed through the e side or the f side through the HD-SD conversion circuit 14. When the video signal from the main image switching circuit 13 is an HD signal in two-screen display, the f side is selected to convert the HD signal into an SD signal, and down-conversion is performed for one screen (HD signal or SD signal). Since there is no need, e side is selected. That is, the f side of the HD / SD switching circuit 15 is selected when the two-screen display is used and the video signal from the main image switching circuit 13 is an HD signal. 33 is an HD / SD discriminating unit for discriminating whether the video signal of the receiving circuit 11 is an HD signal or an SD signal. The microcomputer 23 reads the discrimination result of the HD / SD discriminating unit 33, and the HD / SD switching circuit 15 is connected to the e side. Or switch to f side.

  A circuit from the output unit of the main image switching circuit 13 to the output unit of the HD / SD switching circuit 15 is switched by an instruction from the microcomputer 23 and output as an SD format suitable for image composition when displaying two screens. Is configured.

  The image synthesis circuit 16 is a circuit that synthesizes the main screen video signal and the sub screen external video signal, and the main screen video signal from the HD / SD switching circuit 15 and the sub screen external video signal from the image processing circuit 20. Are combined into a two-screen video signal.

  The microcomputer 23 switches the external video signal switching circuit 18, the main image switching circuit 13, and the HD / SD switching circuit 15 according to the operation content of the remote controller 26, and controls the entire television receiving unit 32. When the remote control 26 is operated to send an infrared operation signal to the remote control light receiving unit 24, the remote control light receiving unit 24 that has received this operation signal converts it into a voltage signal and outputs the operation signal to the microcomputer 23.

  As described above, the television receiver 32 converts the received video signal from the antenna 10 and the external video signal from the external video signal input circuit 17 into the external video signal according to each case of one-screen display and two-screen display. The switching circuit 18, the main image switching circuit 13, and the HD / SD switching circuit 15 are switched, and in the case of a two-screen display, the image composition circuit 16 performs two-screen composition. In the case of displaying as two screens, it is necessary to combine the video format when combining the images, so the HD-SD conversion circuit 14 converts the video signal for the main screen from the HD signal to the SD signal, and the image is displayed. The sub-screen SD signal from the processing circuit 20 is combined with the image combining circuit 16.

  The video display unit 3 includes a panel control circuit 21, a video display panel 22, and the like. The video signal output from the television receiver 32 enters the panel control circuit 21 and is converted into a signal suitable for panel control. The video display panel 22 is a display device such as a CRT, liquid crystal, or PDP, and displays an image in accordance with a signal from the panel control circuit 21.

Next, the operation of the conventional circuit will be described.
The prior art system shown in FIG. 5 can display both images of the received video signal from the antenna 10 and the external video signal from the external video signal input circuit 17 in the case of one screen, and the HD signal is displayed on the main screen A. Alternatively, an image based on the SD signal can be displayed. In the case of two screens, the image of the received video signal from the antenna 10 is displayed on the main screen A, and the image of the external video signal from the external video signal input circuit 17 is displayed on the sub screen B.

  The screen display form from the viewpoint of the HD signal and SD signal that can be displayed on one screen in this conventional system configuration is the HD video signal received from the antenna 10 and the external video signal from the external video signal input circuit 17 respectively. There are four types of video signals such as signals and SD signals.

  Further, the screen display form viewed from the viewpoint of the HD signal and SD signal that can be displayed in two screens is as follows: the main screen A receives the HD video signal or SD signal received from the antenna 10 and the external video signal input circuit 17 Since an external video signal of SD signal can be considered, there are two types. When the video signal is in a different source format when displaying two screens, it is necessary to combine these video formats together. Both the video signal from the HD / SD switching circuit 15 and the video signal from the image processing circuit 20 input to the image composition circuit 16 need to be SD signals. In the conventional system shown in FIG. Since there is no HD-SD conversion circuit for down-converting the HD signal into the SD signal in the path from the signal input circuit 17 to the external video signal switching circuit 18 and the image processing circuit 20 to the image composition circuit 16, an external video receiver Only the SD signal is accepted as the sub-picture external video signal input from 4. Therefore, there are two types of screen display modes that can be displayed in two screens.

First, the operation during one screen will be described.
When the received video signal from the antenna 10 is displayed as one screen, the external video signal switching circuit 18 may be on either the a side or the b side. The main image switching circuit 13 selects the video signal from the image processing circuit 12 on the c side. In the HD / SD switching circuit 15, the e side is selected in order to pass the video signal from the image processing circuit 12 as it is. This is because HD-SD conversion is not performed in the case of one screen. Therefore, the video signal is output to the video display unit 3 through the antenna 10, the receiving circuit 11, the image processing circuit 12, the c side of the main image switching circuit 13, the e side of the HD / SD switching circuit 15, and the screen synthesis circuit 16, and is output to the panel. It is converted into a signal suitable for panel control by the control circuit 21 and displayed on the video display panel 22. The screen composition circuit 16 does not perform screen composition.

  When displaying the external video signal from the external video signal input circuit 17 as one screen, the external video signal switching circuit 18 selects the a side. The main image switching circuit 13 selects the video signal from the image processing circuit 19 placed on the d side. In the HD / SD switching circuit 15, the e side is selected in order to pass the video signal from the image processing circuit 12 as it is. This is because HD-SD conversion is not performed in the case of one screen. Therefore, the external video signal from the external video receiver 4 is input to the external video signal input circuit 17, the a side of the external video signal switching circuit 18, the image processing circuit 19, the d side of the main image switching circuit 13, and the HD / SD switching circuit 15. The image is displayed on the video display panel 22 through the e side, the image composition circuit 16 and the panel controller circuit 21. The screen composition circuit 16 does not perform screen composition.

  Note that the switching state of the HD / SD switching circuit 8 of the external video receiver 4 in one screen can be considered on either the g side (HD signal side) or the h side (SD signal side). That is, when the external video receiver 4 receives the HD signal and the HD video is output from the external video receiver 4, the HD / SD switching circuit 8 is switched to the g side, and the received video signal from the antenna 5 is received. Is input to the external video signal input circuit 17 of the television receiver 32 through the receiving circuit 6, the g side of the HD / SD switching circuit 8 and the external video signal output circuit 9. Further, when the external video receiver 4 receives the HD signal and the external video receiver 4 outputs the SD signal, the HD / SD switching circuit 8 is switched to the h side, and the received signal from the antenna 5 is The signal is input to the external video signal input circuit 17 of the television receiver 32 through the receiver circuit 6, the HD-SD conversion circuit 7, the h side of the HD / SD switching circuit 8, and the external video signal output circuit 9. When the external video receiver 4 receives the SD signal and outputs the SD signal from the external video receiver 4, the HD / SD switching circuit 8 is switched to the g side, and the received video signal from the antenna 5 is received. Is input to the external video signal input circuit 17 of the television receiver 32 through the receiving circuit 6, the g side of the HD / SD switching circuit 8 and the external video signal output circuit 9.

Next, the operation during two screens will be described.
In this case, the main screen A is displayed with the HD signal of the received video signal from the antenna 10 or the video signal of the SD signal. Further, when the external video signal from the external video signal input circuit 17 is an SD signal, the sub screen B can be displayed.

  When the received video signal from the antenna 10 is displayed as the two-screen main screen A and the external video signal from the external video signal input circuit 17 is displayed as the two-screen sub-screen B, the external video signal switching circuit 18 Select the b side. The main image switching circuit 13 selects the video signal from the image processing circuit 12 on the c side. When the video signal from the image processing circuit 12 is an SD signal, the HD / SD switching circuit 15 is selected to pass e as it is, and when it is an HD signal, the f side is selected. As a result, regardless of whether the video signal from the image processing circuit 12 is an HD signal or an SD signal, it is input to the image composition circuit 16 as an SD signal.

  Therefore, when the received video signal from the antenna 10 is an SD signal, it passes through the receiving circuit 11 and the image processing circuit 12, passes through the c side of the main image switching circuit 13 and the e side of the HD / SD switching circuit 15, and then synthesizes the screen. Input to the circuit 16. When the received video signal from the antenna 10 is an HD signal, it passes through the receiving circuit 11 and the image processing circuit 12 and passes through the c side of the main image switching circuit 13, the HD-SD conversion circuit 14, and the HD / SD switching circuit 15. The signal passes through the f side and is input to the screen composition circuit 16. The external video signal of the SD signal from the external video signal input circuit 17 is input to the screen synthesis circuit 16 through the external video signal input circuit 17, the b side of the external video signal switching circuit 18, and the image processing circuit 20. . The received video signal from the antenna 10 input to the screen synthesis circuit 16 and the external video signal from the external video signal input circuit 17 are synthesized into two screens by the screen synthesis circuit 16 and output to the video display unit 3. The synthesized video signal is converted into a signal suitable for panel control by the panel control circuit 21 and displayed on the video display panel 22 as two screens.

  Note that the video signal from the external video receiver 4 in two screens needs to be an SD signal. That is, when the external video receiver 4 receives the HD signal and outputs the SD signal from the external video receiver 4, the switching state of the HD / SD switching circuit 8 must be switched to the h side. At this time, the received video signal from the antenna 5 passes through the receiving circuit 6, the HD-SD conversion circuit 7, the h side of the HD / SD switching circuit 8, the external video signal output circuit 9, and the external video signal input to the television receiver 32. Input to the circuit 17. When the external video receiver 4 receives the SD signal and outputs the SD signal from the external video receiver 4, the HD / SD switching circuit 8 is switched to the g side, and the received signal from the antenna 5 is received by the receiving circuit 6. The signal is input to the external video signal input circuit 17 of the television receiver 32 through the g side of the HD / SD switching circuit 8 and the external video signal output circuit 9. If the HD / SD switching circuit 8 is switched to the g side when the external video receiver 4 is receiving the HD signal, the HD signal is output, so this switching state cannot be used.

  Further, the external video receiver 4 shown in FIG. 5 can switch and output the HD signal and the SD signal internally, but other devices such that the external video receiver 4 outputs only the HD signal. In this case, even if an HD signal is output to the external video signal input circuit 17, it cannot be combined into two screens, so that it cannot be received for the sub screen and cannot be displayed on two screens.

Next, the operation when switching from the one-screen display to the two-screen display will be described.
When the video from the external video receiver 4 is input as an HD signal and switched from the state of viewing on one screen to the two-screen display, the sub-screen video signal at the time of two screens needs to be an SD signal. However, the HD signal is input from the external video receiver 4, and the HD signal cannot be automatically changed to the SD signal. Accordingly, the remote control 29 is manually operated to switch the HD / SD switching circuit 8 of the external video receiver 4 to the h side and output the SD signal.

Next, the operation when switching from the two-screen display to the single-screen display will be described.
In the case of two screens, an image of the received video signal from the antenna 10 is displayed for the main screen (image display by either an HD signal or an SD signal is conceivable), and an SD signal from the external video receiver 4 is used for the sub screen. The image by is displayed.

  If the screen is switched from this state to the one-screen display by the video signal from the external video receiver 4, the HD / SD switching circuit 8 of the external video receiver 4 cannot automatically switch, so the external video receiver 4 is a one-screen display in which the SD signal is output. When the external video receiver 4 is receiving an HD signal, when the one-screen display is performed by the HD signal from the external video receiver 4, the remote control 29 is manually operated to move the HD / SD switching circuit 8 to the g side. Switch to.

Japanese Patent Laid-Open No. 2001-268473 is another example of the prior art that displays video signals of different source formats on a multi-screen. This prior art has a plurality of input terminals, and according to the received or input video format, these video sources are converted into an optimized combination format and output, thereby enabling an optimal two-screen display. A television broadcast receiver to perform is shown.
JP 2001-268473 A

  In the conventional video display system, when the screen is a single screen, the main screen A can display a video based on the received video signal from the antenna 10 or the external video signal from the external video signal input circuit 17, and the source format of the video signal is the HD format. Any of the SD format may be used. In the case of two screens, an image based on the received video signal from the antenna 10 can be displayed on the main screen A, and an image based on the external video signal from the external video signal input circuit 17 can be displayed on the sub screen B. In this case, the video signal, which is both SD signals, can be combined and displayed on the two screens by the image combining circuit 16. Therefore, when one of the video signals is an HD signal, the HD signal is converted into an SD signal by the HD-SD signal conversion circuit in order to match the video format in order to display it on two screens. Considering the case where both the received video signal from the antenna 10 and the external video signal from the external video signal input circuit 17 are HD signals, it is ideal that two HD-SD signal conversion circuits are provided. However, since the HD-SD signal conversion circuit has a large circuit scale, it is a general form that only one HD-SD signal conversion circuit is mounted in consideration of the limitation on the number of gates of the IC and the cost. Therefore, in the case of one screen, the main screen A can display both HD signals and SD signals, but in the case of two screens, only the SD signal can be displayed on the sub screen B from the external video receiver 4.

  Here, attention is paid to viewing by the external video signal of the external video receiver 4. When viewing video from the external video receiver 4 as a single screen, viewing with an HD signal and viewing with an SD signal are possible, but in view of higher quality viewing, the viewer usually chooses an HD signal. is there. Therefore, the viewer views the HD / SD switching circuit 8 of the external video receiver 4 by switching to the g side.

  Next, when the viewer tries to switch from the one-screen display to the two-screen display, the HD / SD switching circuit 8 is on the g side and outputs an HD signal from the external video receiver 4. Think. In this state, as described above, sub-screen B at the time of 2 screens cannot be synthesized by the SD signal by the image composition circuit 16, so the message “Cannot display 2 screens” appears as 1 screen without shifting to 2 screens. End up. In order for the viewer to perform two-screen display, the HD / SD switching circuit 8 must be set to the h side, but conventionally, the HD / SD switching circuit 8 cannot be automatically switched to the h side.

  Next, when the external video receiver 4 receives the HD signal and the viewer is watching with a two-screen display, the video signal from the external video receiver 4 is the SD signal (the HD / SD switching circuit 8 is on the h side). However, when the video signal from the external video receiver 4 is switched to a state where the video signal from the external video receiver 4 is viewed on one screen, the video from the external video receiver 4 is viewed as an SD signal. In order to view with higher quality, the viewer must switch the HD / SD switching circuit 8 of the external video receiver 4 to the g side, but conventionally, the viewer could not automatically switch to the g side.

  In this way, in order to achieve both the two-screen viewing of the external input signal and the one-screen viewing using the high-definition HD signal, the viewer switches the HD / SD of the external video receiver 4 every time the screen is switched to the two screens. Since the circuit 8 has to be switched, the labor of the switching operation increases. In this conventional example, the case where the HD / SD switching circuit 8 of the external video receiver 4 is switched by the operation of the remote controller 29 has been described. However, a method of switching by the OSD display menu is also a general method. Further complicated operations are required.

  The prior art disclosed in Japanese Patent Application Laid-Open No. 2001-268473 has a plurality of input terminals, and converts these video sources into an optimized combination format according to the received or input video format. A television broadcast receiver that performs optimal two-screen display by outputting is shown. However, having a plurality of format conversions may be difficult on the product due to cost and LSI chip size limitations. The correspondence in that case is not described, and in such a limited product, there is a problem that the video display of the sub-screen B can be displayed only in a specific format suitable for image composition.

  As described above, in a multi-screen television receiver that includes a plurality of external input circuits that can input video signals of a plurality of video formats and that can display only a specific video format suitable for image synthesis as a multi-screen sub-screen. When there is the same program with video signals in multiple video formats, if you try to watch in a high-definition video format when viewing external input video on a single screen, the external video signal input from the external video receiver 4 will be high-definition. It was necessary to manually switch to the video format signal. In addition, when the viewer performs a switching operation from one screen to a multi-screen and tries to display an external input signal on the multi-screen sub-screen, the external video signal input from the external video receiver 4 is used for image synthesis. It was necessary to manually switch to a suitable specific video format.

As described above, in the conventional multi-screen display television receiver, the video format switching HD-SD signal conversion circuit (down-conversion circuit) required for multi-screen display video synthesis has a large circuit scale. Since there was a situation where only one circuit could implement HD-SD signal conversion due to the limitation of the number and cost, the viewer was able to view one screen of external input video with high quality and multi-screen external In order to achieve both viewing of the input video, the external input is changed to a high-definition video format for single-screen display and a specific video format suitable for image composition for multi-screen display. It was inconvenient to switch the video format.
The present invention has been made in view of such conventional problems, and the viewer can switch from single-screen display to multi-screen display only by mounting one down-conversion circuit in the television receiver. The video format from the external video receiver can be automatically changed when performing the video, and the external video is displayed when the viewer switches from the multi-screen display to the single screen display by the video output of the external video receiver. Provided is a television receiver that can automatically switch the video format of the receiver, and that does not require a complicated operation for the viewer, and that enables high-quality single-screen viewing and multi-screen display automatic switching. There is.

The gist of the invention according to claim 1 of the present invention is to receive video signals of a plurality of types of source formats, and to input video signals of a plurality of types of source formats from an external device and display them on a video display panel as a multi-screen. In a video display device capable of receiving a video signal, a receiving unit capable of receiving video signals of a plurality of types of source formats, and a video having a format suitable for combining the video signals received by the receiving unit during multi-screen display into a multi-screen A format conversion unit that outputs signals, an external video signal input unit that inputs video signals from the external device, a video signal output from the format conversion unit, and a video signal from the external video signal input unit The image synthesis circuit that synthesizes to the video signal for use and the command to change the format of the video signal output from the external device are output. That an operation signal with a format switching command means for outputting to the external device existing in the image display device according to claim.
The gist of the invention according to claim 2 of the present invention is that the format switching command means is a format that can synthesize the format of a video signal output from the external device in multi-screen display by the image synthesis circuit. 2. The video display device according to claim 1, wherein an operation signal instructing to output is output to the external device.
The gist of the invention according to claim 3 of the present invention is that the format switching command means converts the format of the video signal output from the external device from the source format of the original video signal when displaying on one screen. The video display device according to claim 1, wherein an operation signal for instructing to output is output to the external device.
The gist of the invention according to claim 4 of the present invention is that the format switching command means is a format that can synthesize the format of the video signal output from the external device in multi-screen display by the image synthesis circuit. An operation signal for instructing output is output to the external device, and when displaying on a single screen, the format of the video signal output from the external device is instructed to be output without being converted from the source format of the original video signal. 2. The video display device according to claim 1, wherein an operation signal is output to the external device.
The gist of the invention according to claim 5 of the present invention is that the plurality of types of source formats received by the receiving unit are HD signals and SD signals, and the format suitable for multi-screen composition is an SD signal. It exists in the video display apparatus as described in any one of Claim 1 thru | or 4 characterized by the above-mentioned.
The subject matter of claim 6 of the present invention is characterized in that the format converter comprises only one HD-SD signal converter circuit for down-converting the source format of the video signal from the HD signal to the SD signal. It exists in the video display apparatus as described in any one of Claim 1 thru | or 5.
The gist of the invention according to claim 7 of the present invention is characterized in that the format switching command means includes a remote control light emitting unit for transmitting an operation signal for switching the format of a video signal output from the external device. It exists in the video display apparatus as described in any one of Claim 1 thru | or 6.
The gist of the invention according to claim 8 of the present invention resides in the video display device according to claim 7, wherein the remote control light emitting unit is a video mouse.
The gist of the invention according to claim 9 of the present invention is that the format switching command means includes an HD / SD discriminating unit for discriminating a format of a video signal input from the external video signal input unit, and a two-screen display. When the HD / SD discriminating unit discriminates the format of the video signal input from the external video signal input unit as an HD signal, an operation signal for switching the video signal format output from the external device to the remote control light emitting unit. 9. A video display device according to claim 7 or 8, further comprising format switching signal transmission means for transmitting.
The gist of the invention according to claim 10 of the present invention is that the format switching command means converts the format of the video signal output from the external device from the source format of the original video signal when displaying on one screen. The video display device according to claim 7, further comprising: a format switching signal transmission unit that transmits an operation signal instructing to output without transmitting to the remote controller light emitting unit. .
The gist of the invention according to claim 11 of the present invention is that video signals of a plurality of types of source formats are received, and video signals of a plurality of types of source formats are input from an external device and displayed as a multi-screen on a video display panel. In a video display system capable of receiving, a receiving unit capable of receiving video signals of a plurality of types of source formats, and a source format of video signals received by the receiving unit during multi-screen display are combined into a multi-screen. A format converter for outputting as a suitable format, the external device capable of switching the source format of the video signal by an operation signal and outputting it as a video signal in a format suitable for multi-screen synthesis, and a video signal from the external device The external video signal input unit for inputting the video signal and the video signal output from the format conversion unit. And an image synthesizing circuit for synthesizing a video signal from the external video signal input unit into a multi-screen video signal, and an operation signal for instructing to output by changing the format of the video signal output from the external device. And a format switching command means for outputting to the video display system.
The gist of the invention according to claim 12 of the present invention is that the format switching command means outputs the format of the video signal output from the external device in a format that can be synthesized by the image synthesis circuit during multi-screen display. 12. The video display system according to claim 11, wherein the operation signal to be commanded is output to the external device.
The gist of the invention according to claim 13 of the present invention is that the format switching command means does not convert the format of the video signal output from the external device from the source format of the original video signal when displaying one screen. 12. The video display system according to claim 11, wherein the operation signal instructing output is transmitted to the external device.
The gist of the invention according to claim 14 of the present invention is that the format switching command means outputs the format of the video signal output from the external device in a format that can be synthesized by the image synthesis circuit during multi-screen display. The operation signal for instructing to be output is output to the external device, and when displaying one screen, the format of the video signal output from the external device is instructed to be output without being converted from the source format of the original video signal. 12. The video display system according to claim 11, wherein an operation signal is transmitted to the external device.
The gist of the invention according to claim 15 of the present invention is that video signals of a plurality of types of source formats are received, and video signals of a plurality of types of source formats are input from an external device and displayed as a multi-screen on a video display panel. In the multi-screen display method of the video display device that can perform the display, the screen display is instructed to be output by changing the format of the video signal output from the external device according to the display state of multi-screen display or single-screen display. The present invention resides in a multi-screen display method for a video display device, wherein an operation signal is output to the external device.
The gist of the invention according to claim 16 of the present invention is that video signals of a plurality of types of source formats are received, and video signals of a plurality of types of source formats are input from an external device and displayed as a multi-screen on a video display panel. In the multi-screen display method of the video display device that can perform, when multi-screen display, the format of the video signal output from the external device is selected and output so that it is suitable for multi-screen synthesis When displaying one screen with the video signal from the external device, the output from the external device is selected so that the video signal output from the external device is the highest quality video signal. There exists in the multi-screen display method of the video display apparatus characterized by switching.
The gist of the invention according to claim 17 of the present invention is that video signals of a plurality of types of source formats are received, and video signals of a plurality of types of source formats are input from an external device and displayed as a multi-screen on a video display panel. In the multi-screen display method of the video display device that can be performed, the external device is configured so that the format of the video signal output from the external device is output in a format suitable for combining with a multi-screen when the multi-screen display is performed. A first step of outputting an operation signal to the first step, and receiving a video signal and outputting the received video signal as a video signal having a format suitable for being combined into a multi-screen when the source format of the received video signal is displayed on a multi-screen. When the multi-screen display is performed in two steps, the video signal output in the second step and the video signal input from the external device are combined into a multi-screen video signal. It consists in multi-screen display method of the image display apparatus characterized by comprising a third step.
The gist of the invention according to claim 18 of the present invention is that the plurality of types of source formats are HD signals and SD signals, and the format suitable for multi-screen composition is an SD signal. Item 18. A multi-screen display method for a video display device according to Item 17.
The gist of the invention according to claim 19 of the present invention is that, in the first step, an operation signal for switching a format of a video signal output from the external device is transmitted from the remote control light emitting unit to the remote control light receiving unit of the external device. 19. The video display device according to claim 17, further comprising a fourth step.
The gist of the invention according to claim 20 of the present invention is that the first step is a fifth step of determining whether the format of the video signal input from the external video signal input unit is an HD signal or an SD signal. 6. A sixth step of transmitting an operation signal for switching a format of a video signal output from the external device to the remote control light emitting unit when the HD signal is determined in the fifth step. 19 in the video display device.
The gist of the invention according to claim 21 of the present invention is that the format of the video signal output from the external device is output without being converted from the source format of the original video signal during single screen display. 21. The video display apparatus according to claim 18, further comprising a seventh step of transmitting an operation signal to be commanded to the external device.

According to the present invention, the video format from the external video receiver is automatically changed when the viewer switches from the single-screen display to the multi-screen display only by mounting one down-conversion circuit in the television receiver. The viewer can switch to multi-screen display without having to perform complicated operations.
Also, when the viewer switches from multi-screen display to single-screen display by video output of the external video receiver by only mounting one down-conversion circuit in the television receiver, the video of the external video receiver is displayed. The format can be switched automatically, and the viewer can perform high-definition viewing on one screen without performing complicated operations.

An embodiment of a television receiver according to the present invention is shown in FIG.
In FIG. 1, 1 is a television receiver, 2 is a television receiver, 3 is a video display unit, 4 is an external video receiver externally attached to the television receiver 2 as an external device, and 26 is a remote controller.

  The television receiver system of the present invention differs from the conventional television receiver system shown in FIG. 5 in the following points. That is, the television receiver 1 includes a remote control light emitting unit 25 and transmits an operation signal by infrared rays to the remote control light receiving unit 28 of the external video receiver 4 according to a command from the microcomputer 23. When the remote control 26 is operated to transmit an operation signal to the remote control light receiving unit 24, the remote control light receiving unit 24 converts the operation signal into a voltage signal and outputs the voltage signal to the microcomputer 23. The microcomputer 23 switches the external video signal switching circuit 18, the main image switching circuit 13, and the HD / SD switching circuit 15 in accordance with the operation content of the remote control 26, and the HD / SD switching circuit 8 of the external video receiver 4 to the remote control light emitting unit 25. Outputs a command to switch between. The microcomputer 23 controls the entire television receiver 2. Reference numeral 30 denotes an HD / SD discrimination unit. The conventional HD / SD discriminating unit 33 in FIG. 5 only discriminates whether the video signal of the receiving circuit 11 is an HD signal or an SD signal, but the HD / SD discriminating unit 30 of the present invention additionally includes an external signal. It is also determined whether the video signal input from the video signal input circuit 17 is an HD signal or an SD signal. The microcomputer 23, the remote control light receiving unit 24, the remote control light emitting unit 25, the remote control 26, the HD / SD discriminating unit 30 and the like constitute a format switching command means.

  In addition, the same reference numerals as those in FIG. 5 denote the same elements, and the same operation as that described with reference to FIG. In the following description, the same parts as those in the prior art shown in FIG.

  First, the remote controller light emitting unit 25 added in the present invention is provided for controlling the external video receiver 4 from the television receiver 2 and serves as the remote controller 29 of FIG. For example, a video mouse or the like can be used as the remote control light emitting unit 25, and the remote control light emitting unit 25 can be extended from the television receiving unit 2 with a cord and pasted in the vicinity of the remote control light receiving unit 28 of the external video receiver 4. When a video mouse is used, the external video receiver 4 can use the remote control light receiving unit 28 that receives an operation signal from the remote control 29 as it is. A signal can be transmitted from the microcomputer 23 to the microcomputer 27 by the added remote controller light emitting unit 25. When a display switching command for one screen or two screens is issued by operating the remote controller 26, the microcomputer 23 that has received this display switching command switches the HD / SD switching circuit 8 to the g side, h, as will be described with reference to the flowchart of FIG. Judge which side should be selected and switch.

Hereinafter, the display switching operation for one screen and two screens will be described with reference to FIG.
First, it is set in advance whether the external video receiver 4 has a built-in HD-SD signal conversion circuit that can down-convert from HD signal to SD signal by switching the HD signal and SD signal. Shall be kept. When the external video receiver 4 is receiving the HD signal, it cannot be switched to the two screens unless it can be switched to the SD signal. This setting is stored in storage means (not shown) provided in the television receiver 2. For example, if switching to the SD signal is possible, 1 is set in the storage means, and 0 is set if switching is not possible.

  In step S1, it is checked whether there is an instruction to switch between one screen and two screens. This is performed by the microcomputer 23 checking whether or not a display switching command by the operation of the remote controller 26 has been input.

  If the display switching command is not input, the process proceeds to step S11 to check whether one screen is being displayed.

  If it is determined in step S11 that one screen is being displayed, the process returns to step S1 and continues.

  If it is determined in step S11 that one screen is not being displayed, the process proceeds to step S12.

  In step S12, although the screen switching is not instructed, it is checked whether the reception state of the external video receiver 4 is changed during the two-screen display and the HD signal reception is changed from the SD signal reception. This is performed by the microcomputer 23 reading the discrimination result of the HD / SD discrimination unit 30. When the external video receiver 4 is displaying two screens and receiving an SD signal, the HD / SD switching circuit 8 is set to be on the g side. However, when the reception state is an HD signal, the external video receiver 4 is set. This is because the HD signal is output from 4 and the image composition circuit 16 cannot synthesize two screen images.

  If it is determined in step S12 that the input from the external video receiver 4 is not an HD signal (SD signal), the process returns to step S1 and the processing is continued.

  If it is determined in step S12 that the input from the external video receiver 4 is an HD signal, the process proceeds to step S4. At this time, it is determined that the reception state of the external video receiver 4 has changed, and the SD signal reception has changed to the HD signal reception.

  In step S4, it is checked whether or not switching is possible so that the external video receiver 4 outputs an SD signal. Whether or not the external video receiver 4 can be switched so as to output the SD signal is stored in advance in the storage means provided in the television receiver 2 as described above. Therefore, the contents stored in the storage means are stored in the storage means. This can be determined by checking.

  If it is determined in step S4 that the external video receiver 4 cannot be switched to output an SD signal (No), the process proceeds to step S5. In step S5, since it is not possible to switch to two screens, the screen remains as one screen, and the HD / SD switching circuit 8 of the external video receiver 4 is set to the g side, and the received HD signal or SD is set. The signal can be output directly. In this case, if the display such as “cannot be displayed on two screens” is made, the viewer can recognize that switching is impossible.

  If it is determined in step S4 that the external video receiver 4 can be switched to output an SD signal (Yes), the process proceeds to step S6.

  In step S6, a command path for switching the HD / SD switching circuit 8 of the external video receiver 4 to the h side is output from the microcomputer 23 to the remote control light emitting unit 25. The microcomputer 27 that has received the switching command for the HD / SD switching circuit 8 from the remote control light receiving unit 28 switches the HD / SD switching circuit 8 to the h side. As a result, the SD signal is output to the external video signal output circuit 9 of the external video receiver 4.

  In step S7, the external video signal switching circuit 18 is switched to the b side so that the video signal from the external video receiver 4 becomes the sub-screen B. The main screen A switches the main image switching circuit 13 and the HD / SD switching circuit 15 so as to display the received video from the antenna 10. As a result, two screens are displayed on the video display panel 22 in which the video received from the antenna 10 is the main screen A and the video signal from the external video receiver 4 is the sub-screen B.

  In step S1, when a display switching command is input (in the case of Yes), the process proceeds to step S2, and it is checked whether or not it is a switching instruction from one screen to two screens. If it is an instruction to switch from the first screen to the second screen in step S2 (in the case of Yes), the process proceeds to step S3.

  In step S3, it is checked whether or not the input from the external video receiver 4 is an HD signal. This is performed by the microcomputer 23 reading the discrimination result of the HD / SD discrimination unit 30. If the determination result of the HD / SD determination unit 30 is an HD signal in step S3 (Yes), the process proceeds to step S4.

  In step S4, it is checked whether or not switching is possible so that the external video receiver 4 outputs an SD signal. Whether or not the external video receiver 4 can be switched so as to output the SD signal is stored in advance in the storage means provided in the television receiver 2 as described above. Therefore, the contents stored in the storage means are stored in the storage means. This can be determined by checking.

  If it is determined in step S4 that the external video receiver 4 cannot be switched to output an SD signal (No), the process proceeds to step S5. In step S5, since it is not possible to switch to two screens, the screen remains as one screen, and the HD / SD switching circuit 8 of the external video receiver 4 is set to the g side, and the received HD signal or SD is set. The signal can be output directly. In this case, if the display such as “cannot be displayed on two screens” is made, the viewer can recognize that switching is impossible.

  If it is determined in step S4 that the external video receiver 4 can be switched to output an SD signal (Yes), the process proceeds to step S6.

  In step S6, a command path for switching the HD / SD switching circuit 8 of the external video receiver 4 to the h side is output from the microcomputer 23 to the remote control light emitting unit 25. The microcomputer 27 that has received the switching command for the HD / SD switching circuit 8 from the remote control light receiving unit 28 switches the HD / SD switching circuit 8 to the h side. As a result, the SD signal is output to the external video signal output circuit 9 of the external video receiver 4.

  In step S7, the external video signal switching circuit 18 is switched to the b side so that the video signal from the external video receiver 4 becomes the sub-screen B. The main screen A switches the main image switching circuit 13 and the HD / SD switching circuit 15 so as to display the received video from the antenna 10. As a result, two screens are displayed on the video display panel 22 in which the video received from the antenna 10 is the main screen A and the video signal from the external video receiver 4 is the sub-screen B.

  If the discrimination result of the HD / SD discrimination unit 30 is an SD signal in step S3 (No), the process proceeds to step S7. In this case, since it is not necessary to switch the video signal from the external video receiver 4 to the SD signal, the HD / SD switching circuit 8 is not switched. That is, it remains set on the g side. In step S7, as described above, two screens are displayed on the video display panel 22, with the video received from the antenna 10 as the main screen A and the video signal from the external video receiver 4 as the sub-screen B.

  If it is determined in step S2 that the switching instruction from the remote control 26 is not a switching instruction from the first screen to the second screen (in the case of No), that is, a switching instruction from the second screen to the first screen, the process proceeds to step S8. move on.

  In step S8, it is checked whether or not the main screen as one screen is to be an external video signal input. When it is determined in step S8 that the main screen is an external video signal input (Yes), the process proceeds to step S9.

  In step S9, the HD / SD switching circuit 8 is switched to the g side, and the video signal from the external video receiver 4 is displayed on one screen as the main screen. At this time, the external video signal switching circuit 18 is switched to the a side, the main image switching circuit 13 is switched to the d side, and the HD / SD switching circuit 15 is switched to the e side.

  When the main screen is based on the received video signal from the antenna 10 in step S8 (in the case of No), the process proceeds to step S10. In step S10, the main image switching circuit 13 is switched to the c side, the HD / SD switching circuit 15 is switched to the e side, and the received video signal from the antenna 10 is displayed on one screen as the main screen. At this time, the HD / SD switching circuit 8 may be set on either the g side or the h side. However, if the HD / SD switching circuit 8 is set on the g side in order to be consistent with other one-screen display states, the control becomes easier.

  As described above, according to the present embodiment, when the viewer switches from the single-screen display to the two-screen display, the external video receiver 4 having the HD-SD conversion circuit 7 is prepared. For example, the video output of the external video receiver 4 can be automatically changed from the HD signal to the SD signal. Further, when the viewer switches from the two-screen display to the one-screen display by the video output of the external video receiver 4, if the external video receiver 4 having the HD-SD conversion circuit 7 is prepared, The video output of the external video receiver 4 can be automatically switched from the SD signal to the HD signal. As a result, if the external video receiver 4 having the HD-SD conversion circuit 7 is prepared, only one down-conversion circuit is mounted on the television receiving unit 2 and one screen and two screens can be displayed. The screen can be switched automatically and can be viewed with a high-quality image display on a single screen.

In the above embodiment, the HD signal and the SD signal are described as examples of the video signals having different formats, but the present invention is not limited to the HD signal and the SD signal.
In the above embodiment, the television receiver has been described as an example. However, the present invention is not limited to this, and a video display that inputs a plurality of video signals of different source formats and displays them as a plurality of screens on a video display panel. The present invention can be applied to a device (corresponding to the television receiver 1). In this case, a video format converter (a format conversion circuit such as a down converter or an up converter, which corresponds to the HD-SD conversion circuit 7 in the above embodiment) of an external device externally attached to the video display device is used. The video format converter built in the video display device can be reduced.

  In the above embodiment, switching between one screen and two screens has been described as an example. However, in the present invention, a plurality of external video receivers are connected as external devices connected externally, and a plurality of screens of two or more screens are displayed. It can also be applied to multi-screen display. In this case, when synthesizing video signals from a plurality of external devices, a video format input to an image synthesis circuit (corresponding to the image synthesis circuit 16) is converted into a video format converter (HD) built in each external device. -Corresponding to the SD conversion circuit 7), it may be adapted to a specific video format suitable for image composition.

  As mentioned above, although it demonstrated by specific embodiment, it cannot be overemphasized that this invention can be suitably changed and implemented in the range which is not limited to the said embodiment and does not change the summary of invention.

  INDUSTRIAL APPLICABILITY The present invention can be widely used for multi-screen switching when a video display apparatus having a plurality of types of source formats of input video signals and the number of down-conversion circuits to be used must be reduced.

It is a figure which shows specific embodiment of the television receiver by this invention. It is an operation | movement flowchart of embodiment shown in FIG. 1 of this invention. It is a figure which shows a specific example of 2 screen display. It is a figure which shows another specific example of 2 screen display. It is a figure which shows specific embodiment of the television receiver by a prior art.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 31 ... Television receiver 2, 32 ... Television receiving part 3 ... Video display part 4 ... External video receiver 5, 10 ... Antenna 6, 11 ... Reception circuit 7, 14... HD-SD conversion circuits 8, 15... HD / SD switching circuit 9... External video signal output circuits 12, 19, 20. 16: Image composition circuit 17: External video signal input circuit 18: External video signal switching circuit 21 ... Panel control circuit 22 ... Video display panels 23, 27 ... Microcomputers 24, 28 ..Remote control light receiving unit 25 ... Remote control light emitting unit 26, 29 ... Remote control 30, 33 ... HD / SD discrimination unit

Claims (21)

In a video display device capable of receiving video signals of a plurality of types of source formats, and inputting video signals of a plurality of types of source formats from an external device and displaying them on a video display panel as a multi-screen,
A receiver capable of receiving video signals of a plurality of types of source formats;
A format conversion unit that outputs video signals received by the receiving unit at the time of multi-screen display as video signals in a format suitable for combining with a multi-screen;
An external video signal input unit for inputting a video signal from the external device;
An image synthesis circuit for synthesizing the video signal output from the format conversion unit and the video signal from the external video signal input unit into a multi-screen video signal;
A video display device, comprising: format switching command means for outputting an operation signal for commanding to change the format of a video signal output from the external device to the external device. The format switching command means includes
2. An operation signal for instructing to output a format of a video signal output from the external device in a multi-screen display in a format that can be combined by the image combining circuit is output to the external device. The video display device described in 1. The format switching command means includes
An operation signal for instructing to output a video signal format output from the external device without converting from a source format of the original video signal is output to the external device during one-screen display. Item 2. The video display device according to Item 1. The format switching command means includes
An operation signal is output to the external device for instructing to output the format of the video signal output from the external device in multi-screen display in a format that can be combined by the image combining circuit. 2. The video display according to claim 1, wherein an operation signal for instructing to output a format of a video signal output from the external device without converting from a source format of the original video signal is output to the external device. apparatus.   The plurality of types of source formats received by the receiving unit are HD signals and SD signals, and the format suitable for multi-screen composition is an SD signal. The video display device according to one item.   6. The format converter according to claim 1, wherein the format converter includes only one HD-SD signal converter circuit that down-converts the source format of the video signal from the HD signal to the SD signal. The video display device described.   The said format switch instruction | indication means is provided with the remote control light emission part which transmits the operation signal which switches the format of the video signal output from the said external apparatus, The Claim 1 thru | or 6 characterized by the above-mentioned. Video display device.   The video display device according to claim 7, wherein the remote control light emitting unit is a video mouse. The format switching command means includes
An HD / SD discriminating unit for discriminating the format of a video signal input from the external video signal input unit;
The format of the video signal output from the external device to the remote control light emitting unit when the HD / SD discriminating unit discriminates the format of the video signal input from the external video signal input unit as an HD signal during two-screen display 9. The video display device according to claim 7, further comprising format switching signal transmission means for transmitting an operation signal for switching between the two. The format switching command means includes
Format switching signal transmission means for transmitting an operation signal for instructing to output the format of the video signal output from the external device without converting from the source format of the original video signal to the remote control light emitting unit during one-screen display The video display device according to claim 7, further comprising: In a video display system capable of receiving video signals of a plurality of types of source formats and inputting video signals of a plurality of types of source formats from an external device and displaying them on a video display panel as a multi-screen,
A receiver capable of receiving video signals of a plurality of types of source formats;
A format conversion unit that outputs the source format of the video signal received by the receiving unit during multi-screen display as a format suitable for synthesizing the multi-screen;
The external device capable of switching the source format of the video signal by an operation signal and outputting it as a video signal in a format suitable for multi-screen synthesis;
An external video signal input unit for inputting a video signal from the external device;
An image synthesis circuit for synthesizing the video signal output from the format conversion unit and the video signal from the external video signal input unit into a multi-screen video signal;
A video display system comprising: a format switching command means for outputting an operation signal for commanding to change the format of a video signal output from the external device to the external device. The format switching command means includes
12. The operation signal for instructing to output a format of a video signal output from the external device in a multi-screen display in a format that can be combined by the image composition circuit is output to the external device. Video display system. The format switching command means includes
The one or more operation signals for instructing to output the video signal format output from the external device without converting from the source format of the original video signal during one-screen display are transmitted to the external device. 11. The video display system according to 11. The format switching command means includes
At the time of multi-screen display, the video signal output from the external device is output to the external device, the operation signal instructing to output in a format that can be combined by the image combining circuit,
The one or more operation signals for instructing to output the video signal output from the external device without converting from the source format of the original video signal during one-screen display are transmitted to the external device. Item 12. The video display system according to Item 11. In a multi-screen display method of a video display device capable of receiving video signals of a plurality of types of source formats, and inputting video signals of a plurality of types of source formats from an external device and displaying them on a video display panel,
An operation signal is output to the external device for instructing to change the format of the video signal output from the external device according to the display state of multi-screen display or single-screen display. Multi-screen display method for video display device. In a multi-screen display method of a video display device capable of receiving video signals of a plurality of types of source formats, and inputting video signals of a plurality of types of source formats from an external device and displaying them on a video display panel,
When displaying multiple screens, select and output the format of the video signal output from the external device so that it is suitable for multi-screen synthesis,
When displaying one screen with a video signal from the external device, the output of the external device is switched so as to select and output a format in which the video signal output from the external device is the highest quality video signal. A multi-screen display method for a video display device characterized by the above. In a multi-screen display method of a video display device capable of receiving video signals of a plurality of types of source formats, and inputting video signals of a plurality of types of source formats from an external device and displaying them on a video display panel,
A first step of outputting an operation signal to the external device so that the format of a video signal output from the external device is output in a format suitable for combining on a multi-screen when displaying on a multi-screen;
A second step of receiving a video signal and outputting the received video signal as a video signal in a format suitable for synthesis on a multi-screen when the source format of the received video signal is displayed on a multi-screen;
An image display apparatus comprising: a third step of combining the video signal output in the second step and the video signal input from the external device into a multi-screen video signal when performing multi-screen display. Multi-screen display method.   18. The multi-screen display method of a video display device according to claim 17, wherein the plurality of types of source formats are an HD signal and an SD signal, and the format suitable for the multi-screen synthesis is an SD signal.   18. The first step includes a fourth step of transmitting an operation signal for switching a format of a video signal output from the external device from a remote control light emitting unit to the remote control light receiving unit of the external device. Or the video display apparatus as described in any one of Claim 18. The first step includes
A fifth step of determining whether the format of the video signal input from the external video signal input unit is an HD signal or an SD signal;
20. The method according to claim 19, further comprising a sixth step of transmitting an operation signal for switching a format of a video signal output from the external device to the remote control light emitting unit when the HD signal is determined in the fifth step. The video display device described in 1.   A seventh step of transmitting, to the external device, an operation signal for instructing to output the video signal output from the external device without converting it from the source format of the original video signal during one-screen display; 21. The video display device according to claim 18, further comprising:

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