JP2008103908A - Television apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a television apparatus capable of informing a user of existence of broadcasting at a channel currently displayed on screen and expressing a new selectable channel while displaying existence of broadcasting on screen, when there is no broadcasting. <P>SOLUTION: A synchronizing separator circuit 12 separates a color television signal, and a microcomputer 15 detects a synchronizing signal of the separated color television signal and determines whether there is broadcasting or not. When the microcomputer 15 determines that there is no broadcasting, a sub screen for broadcasting a plurality of channels beforehand registered on screen is displayed on scaler portion 13. Accordingly, a user can select a channel while he/she looks at a video image displayed on the sub screen. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a television apparatus that displays a television broadcast, and more particularly to a television apparatus that determines whether a program displayed on a screen is broadcast and prompts switching to another program when the program is not broadcast.

  The television apparatus is mainly for receiving a television broadcast and displaying video and audio. Television broadcasts include normal analog broadcasts, satellite broadcasts transmitted via satellites, and cable broadcasts distributed via cables. Furthermore, in the future, analog broadcasting will be converted into digital broadcasting, and the number of programs to be broadcast is expected to increase accordingly. Currently, television broadcasts can be viewed on a television device for 24 hours, and viewers can enjoy watching television broadcasts regardless of time.

  One of the reasons for the increase in the broadcast time of the television broadcast described above is a change in the lifestyle of the viewer. As a specific example, for a user who works late at night, the return time may reach midnight, and in such a case, the user may sufficiently watch a television broadcast after returning home. Therefore, the side that produces television broadcasts enhances late-night broadcasts to meet the needs of users in the above example.

  When watching a television broadcast at midnight described above, the television broadcast may not be temporarily broadcast depending on the viewing time zone and the selected channel. In such a case, an invention is disclosed that detects that broadcasting of a selected channel is not being performed and displays on the screen that broadcasting is not being performed (for example, Patent Document 1, Patent). Reference 2). In such a case, it goes without saying that other channels continue broadcasting by switching the channel. In this case, the channel may be switched using a remote control device or the like. However, as described above, the number of channels is currently increasing, and the number of channels is expected to increase further after the broadcasting has shifted to digital broadcasting. For this reason, selecting an enormous number of channels using the remote control device is very troublesome.

Therefore, the following invention is disclosed in order to eliminate the troublesomeness of the user in selecting a channel when broadcasting corresponding to the selected channel is not performed. That is, when the selected broadcast is not being performed (no signal state), in order to simplify selection by channel, a channel having a high user preference and reception frequency is automatically selected and displayed (for example, Patent Document 3, (See Patent Document 4).
Utility model registration No. 3078497 JP 07-170466 A JP2003-18484 JP 2000-125218 A

  The inventions of Patent Document 3 and Patent Document 4 described above have the following problems. In other words, when the broadcast of the channel initially displayed on the screen has ended, the channel is naturally selected again according to the user's preference and reception frequency. However, there may be a case where the selected channel is not broadcast again. This is because it is highly possible that other channels are also closed during a time period when broadcasting is not being performed due to the end. Therefore, the user selects a program that is not broadcast again, and may perform a useless operation.

  The present invention has been made in view of the above problems. In addition to notifying the user of the presence / absence of a broadcast of the channel currently displayed on the screen, if there is no broadcast, a new selectable channel is broadcast on the screen. It is an object of the present invention to provide a television device that can display presence / absence while displaying.

In order to solve the above problems, the invention according to claim 2 is a television device capable of receiving and displaying a television broadcast at a tuner unit and displaying a sub screen on the screen.
Synchronization signal detection means for detecting a synchronization signal of a television broadcast, broadcast determination means for determining that the program displayed on the screen is broadcast when the synchronization signal detection means detects the synchronization signal, and the broadcast determination When it is determined that the broadcast is not being performed by the means, another program display means for displaying a broadcast corresponding to a channel registered in advance on a plurality of sub-screens configured on the screen is provided.

  In the invention configured as described above, when the synchronization signal detection unit does not detect the synchronization signal of the television broadcast, the broadcast determination unit determines that the broadcast is not being performed. Thereby, the other program display means displays the broadcast corresponding to the channel registered in advance on the screen on the sub screen. Thus, on the screen, it is possible to view on the sub-screen the channel that is currently being broadcast among the previously registered channels. Therefore, it is possible to notify the user of the presence / absence of the broadcast of the channel currently displayed on the screen, and when there is no broadcast, it is possible to display a newly selectable channel while displaying the presence / absence of the broadcast on the screen.

Further, as an example of a specific configuration in which the synchronization signal detection means detects the synchronization signal, in the invention according to claim 3, the synchronization signal detection means compares the synchronization signal of the television broadcast with a predetermined threshold value. By doing so, the synchronization signal is detected.
In the invention configured as described above, the synchronization signal detecting means detects the synchronization signal by comparing the input synchronization signal with a predetermined threshold value. For this reason, the synchronization signal can be detected by a simple method using a threshold value.

Furthermore, as an example of another specific configuration in which the synchronization signal detection unit detects the synchronization signal, in the invention according to claim 4, the synchronization signal detection unit detects a change in waveform in a predetermined cycle of the input signal. The synchronization signal is detected based on this.
In the invention configured as described above, the synchronization signal detecting means detects the presence or absence of the synchronization signal based on the change in the waveform of the synchronization signal in a predetermined cycle. Since the synchronization signal is a pulse wave having a waveform with a constant period, the presence or absence of the synchronization signal is detected by detecting the duty ratio in the pulse wave. Therefore, it becomes possible to detect the synchronization signal by a simple method.

Next, as an example of a specific configuration of the other program display means, the invention according to claim 5 is characterized in that the other program display means is a screen that is not broadcasted among the broadcasts displayed on the sub-screen. On the other hand, it is configured to visually display that broadcasting is not being performed by changing the color of the sub screen.
In the invention configured as described above, when the channel displayed on the sub screen is not broadcasted, the color of the screen is changed to differentiate it from the sub screen being broadcast, When selecting a channel, the user can more easily select a channel.

According to another aspect of the invention, the other program display means switches the broadcast received by the tuner section at a predetermined cycle. The program is displayed on the plurality of sub-screens.
In the invention configured as described above, it is possible to use an existing apparatus to simultaneously display images on a plurality of sub-screens configured on the screen.

As an example of a specific configuration for determining whether the other program display means broadcasts a channel to be displayed on the sub screen, in the invention according to claim 7, the other program display means is displayed on the sub screen. By detecting the synchronization signal of the program to be detected by the synchronization signal detecting means, it is determined that the broadcast is not being performed.
In the invention configured as described above, the other program display means detects the presence or absence of the broadcast by detecting the broadcast synchronization signal displayed on the sub-screen by the synchronization signal detection means. Therefore, it is possible to determine whether there is a broadcast of the channel displayed on the sub screen by a simple method.

  Further, as an example of a specific configuration for determining whether the channel display to be displayed on the sub screen is present or not, the other program display means is displayed on the sub screen. The presence / absence of broadcast of a program to be determined is determined using an electronic program guide. In the invention configured as described above, the other program display means determines whether the channel to be displayed on the sub-screen is broadcast or not by referring to the electronic program guide. Therefore, the circuit configuration for detecting the synchronization signal is not required and the configuration can be simplified.

In addition, as an example of a specific configuration for solving the above-described problem, the invention described in claim 1 includes a tuner unit that receives a television broadcast, and a video signal synchronized with the television broadcast received by the tuner unit. A synchronization signal separating circuit that separates signals from each other, a scaler unit that generates a video that forms one screen based on the video signal, and that can display a video by forming a plurality of sub-screens on the screen, and the tuner In a television device having a microcomputer for controlling the synchronization unit, a synchronization signal separation circuit, a scaler unit, and a ROM for recording a program for starting the microcomputer,
The microcomputer detects the synchronization signal by comparing the synchronization signal separated by the synchronization signal separation circuit with a predetermined threshold value, and the ROM, when the microcomputer does not detect the synchronization signal, When the scaler unit displays a plurality of sub-screens on the screen, broadcasts corresponding to channels registered in advance are displayed on the sub-screens, and the channels displayed on the sub-screens are not broadcasting Is configured to record a broadcast determination program for changing the color of the sub-screen that is not broadcasting on the scaler unit.

As described above, according to the present invention, the user is notified whether broadcasting is being performed on the selected channel, and when there is no broadcasting, a newly selectable channel is displayed on the screen while broadcasting is present. An object is to provide a television device that can be represented.
According to the invention of claim 3, it is possible to detect the synchronization signal by a simple method using a threshold value.
According to the fourth aspect of the present invention, therefore, it is possible to detect the synchronization signal by a simple method.
Furthermore, according to the fifth aspect of the invention, it is possible to differentiate the sub screen from which the broadcast is performed by changing the color of the screen, and to make it easier for the user to select the channel when selecting the channel. Is possible.

According to the sixth aspect of the present invention, it is possible to display an image simultaneously on a plurality of sub-screens configured on the screen using an existing apparatus.
According to the seventh aspect of the present invention, it is possible to determine whether or not there is a broadcast of the channel displayed on the sub screen by a simple method.
Furthermore, according to the eighth aspect of the invention, it is possible to simplify the configuration without requiring a circuit configuration for detecting the synchronization signal.
Furthermore, it is needless to say that in a more specific configuration as in claim 1, the same effects as those of the inventions of claims 2 to 8 described above are exhibited.

As a specific description of the television apparatus of the present invention, embodiments of the present invention will be described in the following order.
(1) First Embodiment (1-1) Configuration of Television Device (1-2) Synchronization Signal Detection Method (1-3) Sub Screen Display Method (2) Summary of First Embodiment ( 3) Second embodiment (4) Summary of second embodiment

(1) First Embodiment (1-1) Configuration of Television Device A first embodiment that embodies the television device according to the present invention will be described below with reference to FIGS. To do. FIG. 1 is a block diagram of the television device 10. From the figure, the television apparatus 10 synchronizes with the video signal from the tuner unit 11 that extracts a color television signal corresponding to a predetermined broadcast from the television signal received by the antenna 20, and the color television signal extracted by the tuner unit. Controls the sync separation circuit 12 that separates the signals, the scaler unit 13 that performs predetermined signal processing based on the video signal separated by the sync separation circuit 12, the scaler unit 13, the sync separation circuit 12, and the tuner unit 11 And a display panel 16 for displaying video based on the video signal and the synchronization signal.

  The function of the television device 10 will be described below. The tuner unit 11 extracts a color television signal superimposed on a predetermined carrier wave from a television broadcast received by the antenna 20 according to an instruction from the microcomputer 14. The color television signal has a video signal and an audio signal for expressing a video, and a synchronization signal for assembling the video signal on the screen. The synchronization separation circuit 12 separates the video signal, the audio signal, and the synchronization signal from the color television signal described above, outputs the video signal to the scaler unit 13, and outputs the synchronization signal to the microcomputer 14. The video signal input to the scaler unit 13 is a luminance / color difference signal in which a color signal and a luminance signal are superimposed. The scaler unit 13 generates an RGB color signal again from the input luminance / color difference signal, and the signal Correction is performed by the processing and the result is output to the display panel 16.

  As a function of the scaler unit 13, the display panel 16 can be divided to display a plurality of sub-screens. Furthermore, the scaler unit 13 has an OSD unit 13a in which data constituting video such as a menu screen displayed on the screen is recorded. Based on an instruction from the microcomputer 14, the OSD unit 13a performs image quality and sound quality adjustment. Menu screens and other OSD images are displayed. Since the function of the scaler unit 13 described above is a well-known technique, the description of the specific configuration is omitted here.

  The display panel 16 displays an image corresponding to one screen based on the RGB color signal output from the scaler unit 13 and the synchronization signal input from the microcomputer 14. The display panel 16 is driven to apply each pixel of the display screen 16a based on a display screen 16a in which pixels for displaying RGB colors are arranged in a matrix and a video signal input from the scaler unit 13. The circuit 16b and a timing controller 16c that takes a timing for the drive circuit 16b to apply a drive voltage to the display screen 16a based on a synchronization signal output from the microcomputer 14 are configured. The synchronization signal input to the microcomputer 14 is composed of a horizontal synchronization signal for synchronizing the display screen 16 in the horizontal direction and a vertical synchronization signal for synchronizing in the vertical direction. As a result, the RGB video signal output from the scaler unit 13 is converted into an analog signal drive signal by the drive circuit 16b, and then the timing controller 16c is perpendicular to the horizontal direction based on the synchronization signal output from the microcomputer 14. By taking the timing of the driving signal in the direction, an image is displayed by horizontal scanning.

  Examples of the display panel 16 include a liquid crystal panel, a plasma panel, and a cathode ray tube. In the case of a liquid crystal panel, the pixels constituting the display screen 16a are filled with liquid crystal elements, the arrangement of the liquid crystal elements is changed by the drive voltage from the drive circuit 16b, and the transmittance of light from the backlight is changed. Display video. In the case of a plasma panel, the pixels constituting the display screen 16a are filled with a gas that emits plasma, and the pixels are caused to emit light by the drive voltage from the drive circuit 16b to display an image. Further, in the case of a cathode ray tube, the drive circuit 16b becomes an electron gun, and the pixels constituting the display screen 16a are irradiated with electrons to emit light from the pixels and display an image.

  Furthermore, the television apparatus 10 of the present invention determines whether a broadcast is being displayed on the screen, and if it is determined that the broadcast is not being performed, displays a broadcast corresponding to a channel registered in advance on the screen. It has a function to do. The broadcast corresponding to the registered channel is displayed on the sub screen, and it is possible to visually display to the user whether the channel is displayed on the channel displayed on the sub screen. In the above-described series of flows, the microcomputer 14 sends an instruction to each circuit based on the program recorded in the ROM 15. The configuration of the television device 10 for realizing the functions of the present invention will be described below based on a program executed by the microcomputer 14.

  FIG. 2 is a flowchart showing a broadcast determination program executed by the microcomputer 14. From the figure, the microcomputer 14 determines whether or not the selected channel is currently broadcasting, and displays the previously registered channel on the sub-screen when the broadcasting is not being performed. When the user turns on the power of the television device 10 and displays the selected channel on the screen, the microcomputer 14 reads the broadcast determination program recorded in the ROM 15. Further, the color television signal received via the tuner unit 11 is output to the synchronization separation circuit 12, and the microcomputer 14 instructs the synchronization separation circuit 12 to separate the synchronization signals (step S100).

(1-2) Synchronization Signal Detection Method The television apparatus 10 according to the present invention detects the synchronization signal of the color television signal to determine whether or not the selected channel is currently broadcasting. Make a decision. As described above, the television apparatus 10 includes the synchronization separation circuit 12 that separates the synchronization signal from the color television signal. When the synchronization separation circuit 12 separates the synchronization signal from the color television signal, the synchronization separation circuit 12 outputs the separated synchronization signal to the microcomputer 14. The microcomputer 14 detects a horizontal synchronization signal among the input synchronization signals, and determines whether there is a broadcast (step S110). FIG. 3 is a signal diagram showing a synchronization signal separated by the synchronization separation circuit 12. From the figure, the synchronization signal is separated from the color television signal by the synchronization separation circuit 12 as a pulse wave having a predetermined period.

  Next, a method for detecting the synchronization signal by the microcomputer 14 will be described. For example, when the television broadcast received by the tuner unit is an analog broadcast, the synchronization signal is separated from the color television signal by the synchronization separation circuit 12, and the analog signal is converted into a digital signal by the built-in analog / digital conversion unit. 15 is output. At this time, the synchronization signal input from the synchronization separation circuit 12 to the microcomputer 15 is a pulse wave having a predetermined period. Therefore, the microcomputer 14 can detect the synchronization signal by comparing the input synchronization signal with a threshold value T having a predetermined voltage value. Specifically, if the maximum voltage of the synchronization signal is B and the execution voltage is V0, the synchronization signal is a pulse wave that rises and falls every predetermined period, so the voltage at the rise of the synchronization signal is the threshold. Compare with the value. The value of the threshold voltage Vt for comparison is set to V0> Vt, which is smaller than the execution voltage. As a result, the case where the voltage at the rising edge of the synchronization signal is equal to or higher than Vt is regarded as the presence of the synchronization signal, and the signal equal to or lower than Vt is regarded as no synchronization signal.

  Further, since the synchronization signal is a pulse wave having a predetermined period, a method of detecting the synchronization signal by reading a change in the signal at a predetermined frequency may be used. Furthermore, at present, it is the mainstream to incorporate the tuner unit 11, the microcomputer 14, and the scaler unit 13 of the television device 10 in one chip and to make the circuit into one chip. In such a one-chip circuit configuration, the synchronization signal detection signal indicating that the synchronization signal has been detected after the synchronization signal is separated at the portion where the synchronization signal is separated is the center corresponding to the microcomputer 14. Output to the calculation unit. For this reason, in the above-described single-chip circuit, it is possible to detect a synchronization signal by using a conventional function. Thereby, the microcomputer 14 implements a synchronization signal detecting means.

(1-3) Sub-Screen Display Method When the microcomputer 14 detects a synchronization signal by the method described above, the microcomputer 14 instructs the scaler unit 13 to display a sub-screen on the screen (step S120). At this time, the number of sub-screens displayed on the screen is determined based on the number of channels registered in advance. Specifically, when seven channels are registered on the menu screen or the like, seven sub-screens are displayed on the screen. FIG. 4 is an image diagram showing a sub-screen displayed on the screen. As shown in the figure, eight sub-screens are displayed at the center of the screen, and images are displayed on seven of them by a method described later. In addition, the text “Broadcast has ended. Select a channel below” is displayed at the top of the screen, and the text “Power will turn off in 15 minutes if not selected” is displayed at the bottom of the screen. The The data constituting the screen shown in FIG. 4 is generated by the OSD unit 13a of the scaler unit 13. Thereby, the microcomputer 14 and the ROM 15 realize broadcast determination means, and the microcomputer 14, ROM 15, and scaler unit 13 realize other program display means. Further, the screen shown in FIG. 4 is an example, and the sub screen, the arrangement method of character strings, and the like are design matters.

  Next, the microcomputer 14 instructs the tuner unit 11 to receive a video to be displayed on the sub screen (step S130). At this time, the microcomputer 14 switches the carrier wave detected by the tuner unit 11 at predetermined intervals so that an image is output to each sub-screen. As a result, the tuner unit 11 receives a carrier wave superimposed on a pre-registered channel broadcast one after another and extracts a color television signal. As a result, video is displayed on a plurality of sub-screens. Specifically, when displaying seven sub-screens on the screen, the microcomputer 14 instructs the tuner unit 11 to detect the carrier waves corresponding to the seven channels recorded in advance at predetermined intervals. By the method described above, the tuner unit 11 detects a carrier wave and outputs a color television signal every predetermined period. After that, when the scaler unit 13 receives the video signal from which the synchronization signal is separated, the screen shown in FIG. 4 is configured by superimposing the video input for each period on the sub-screen configured by the OSD unit 13a.

  Finally, when the user selects a channel corresponding to the broadcast displayed on the sub-screen while viewing the screen shown in FIG. 4 (step S140), the microcomputer 14 displays the selected channel on a single screen. An instruction is issued to the unit 11 (step S160). On the contrary, when the user does not select anything, the power of the television device 10 is turned off (step S150). Thereafter, the microcomputer 14 shifts to a normal standby mode and accepts an instruction from the user.

(2) Summary of First Embodiment As described above, the television apparatus 10 according to the embodiment of the present invention determines whether a selected channel is broadcasting based on a synchronization signal and broadcasts it. If not, a sub-screen is displayed on the screen and a broadcast corresponding to a pre-registered channel is displayed. Therefore, the user can determine the next channel to be selected while viewing the sub screen when broadcasting is not being performed. For this reason, it is possible to easily select a channel to be selected next from a large number of channels, and it is possible to prevent a channel that is not being broadcast from being selected in order to determine the broadcast while viewing the sub screen.

(3) Second Embodiment In the first embodiment described above, when the selected channel is not broadcasting, a sub-screen is displayed on the screen to display other pre-registered channels. It is configured. In the first embodiment described above, the content of the broadcast displayed on the sub screen and whether the broadcast is being performed are determined by having the user refer to the sub screen. Therefore, in the second embodiment, the color of the sub-screen displayed on the screen can be visually distinguished depending on whether there is a broadcast, thereby making it easier for the user to select a channel.

  FIG. 5 is a diagram illustrating a sub-screen displayed on the screen according to the second embodiment. As shown in the figure, eight sub-screens are displayed at the center of the screen, and images are displayed on seven of them by a method described later. In addition, a character string “Broadcast has ended. Please select a channel below” is displayed at the top of the screen. In addition, the sub-screen in which the color indicating no broadcast is changed and the color indicating that the broadcast is being performed are not changed so that the user can determine which sub-screen is being broadcast at the bottom of the screen. The sub screen is displayed. Furthermore, a character string “The power will be turned off in 15 minutes if not selected” is displayed below.

  From the figure, among the channels registered in advance, since channels 3, 9, and 11 are not broadcasted, the screen color is changed compared to the other sub-screens. As a result, the user can easily determine a channel on which broadcasting is not performed. FIG. 6 is a flowchart showing the flow of a program executed by the microcomputer 14 in the second embodiment. Also in the second embodiment, the function of the present invention is realized based on the control of the microcomputer 14 as in the first embodiment. The second embodiment according to the present invention will be described below with reference to FIGS.

  The function of the television device 10 according to the second embodiment will be described below based on the flowchart shown in FIG. The flowchart shown in FIG. 6 is the same as the flowchart shown in FIG. 2 described above up to step S230, and therefore, description will be made focusing on the flow after S230. In step S230, the microcomputer 14 instructs the tuner unit 11 to extract a color television broadcast corresponding to a channel to be displayed on each sub-screen, and then the microcomputer 14 performs the current broadcast on the extracted channel. It is determined whether or not (step S240).

  At this time, as a method for determining whether the channel displayed on the sub screen by the microcomputer 14 is broadcasting, the television apparatus 10 in the second embodiment is based on the detection of the synchronization signal of the color television broadcasting described above. Judge whether or not there is a broadcast. That is, after the sync separation circuit 12 separates the synchronization signal from the color television signal to be displayed on the sub screen extracted by the tuner unit 11, the microcomputer 14 detects the separated synchronization signal and displays it on the sub screen. The presence or absence of broadcast on the channel to be determined.

  As another example of determining whether there is a broadcast, the microcomputer 14 may refer to an electronic program guide that is superimposed on the television broadcast and output to determine whether there is a broadcast. Since the channels to be displayed on the sub-screen are registered in advance according to the user's instruction, the microcomputer 14 can determine the presence / absence of broadcasting by comparing the registered channels with the electronic program guide. .

  Further, when the microcomputer 14 determines that broadcasting is not being performed on the channel displayed on the sub screen (step S250), the microcomputer 14 instructs the scaler unit 13 to change the color of the sub screen (step S260). As an example of a specific method of changing the color of the sub screen, the television apparatus 10 according to the second embodiment emphasizes any one of the RGB colors of the video signal input to the scaler unit 13. The color of the sub-screen is changed by performing signal processing so as to do this. Specifically, when the color of the sub screen is red, correction may be performed so as to emphasize R of the video signal constituting the sub screen.

  The presence / absence of the broadcast of the channel displayed on the sub-screen as described above is executed for all sub-screens displayed on the screen (step S270). After the video shown in FIG. 5 is displayed on the screen by the method described above, when the user selects a channel corresponding to the broadcast displayed on the sub-screen while looking at the screen (step S280), the microcomputer 14 The tuner unit 11 is instructed to display the selected channel on one screen (step S300). On the other hand, when the user does not select anything, the power of the television device 10 is turned off (step S290). Thereafter, the microcomputer 14 shifts to a normal standby mode and accepts an instruction from the user.

(4) Summary of Second Embodiment As described above, the television apparatus 10 in the second embodiment determines whether the selected channel is broadcasting as in the first embodiment. In addition, when the broadcast is not being performed, the sub screen is displayed on the screen to display the broadcast corresponding to the pre-registered channel on the sub screen, and the following effects are obtained. That is, since the sub-screen displayed on the screen is color-coded without broadcasting, the user can identify whether the channel to be selected is being broadcast using the color on the screen. Therefore, the user can prevent selection of a channel that is not being broadcast, and can perform channel selection more accurately.

Needless to say, the present invention is not limited to the above embodiments. It goes without saying for those skilled in the art,
・ Applying mutually interchangeable members and configurations disclosed in the above embodiments by appropriately changing the combination thereof.− Although not disclosed in the above embodiments, it is a publicly known technique and the above embodiments. The members and configurations that can be mutually replaced with the members and configurations disclosed in the above are appropriately replaced, and the combination is changed and applied. It is an embodiment of the present invention that a person skilled in the art can appropriately replace the members and configurations that can be assumed as substitutes for the members and configurations disclosed in the above-described embodiments, and change the combinations and apply them. It is disclosed as.

It is a block block diagram of a television apparatus. It is a flowchart showing the broadcast determination program which a microcomputer performs. It is a signal diagram showing the synchronous signal isolate | separated by the synchronous separation circuit. It is an image figure showing the sub screen displayed on a screen. It is a figure showing the sub screen displayed on a screen in 2nd embodiment. It is a flowchart showing the flow of the program which a microcomputer performs in 2nd embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Television apparatus, 11 ... Tuner part, 12 ... Synchronization separation circuit, 13 ... Scaler part, 13a ... OSD part, 14 ... Microcomputer, 15 ... ROM, 16 ... Display panel, 16 ... Display screen, 16a ... Display screen, 16b ... Drive circuit, 16c ... Timing controller, 20 ... Antenna

Claims (8)

A tuner for receiving television broadcasts;
A synchronization signal separation circuit that separates the video signal and the synchronization signal from the television broadcast received by the tuner unit;
A scaler unit that generates a video that constitutes one screen based on the video signal and that can display a video by configuring a plurality of sub-screens on the screen;
A microcomputer that controls the tuner unit, the synchronization signal separation circuit, and the scaler unit;
In a television apparatus having a ROM for recording a program for starting the microcomputer,
The microcomputer detects the synchronization signal by comparing the synchronization signal separated by the synchronization signal separation circuit with a predetermined threshold value, and
When the microcomputer does not detect the synchronization signal, the ROM causes the scaler unit to display a plurality of sub-screens on the screen, and displays broadcasts corresponding to pre-registered channels on the sub-screen,
Furthermore, when the channel displayed on the sub-screen is not broadcasting, a television broadcast recording program is recorded which causes the scaler unit to change the color of the non-broadcasting sub-screen and display it. apparatus. In a television device capable of receiving and displaying a television broadcast at a tuner unit and displaying a sub-screen on the screen,
Synchronization signal detecting means for detecting a synchronization signal of television broadcasting;
Broadcast determination means for determining that the program displayed on the screen is broadcast when the synchronization signal detection means detects the synchronization signal;
And having other program display means for displaying broadcasts corresponding to channels registered in advance on a plurality of sub-screens configured on the screen when it is determined by the broadcast determination means that no broadcast is being performed. A television apparatus characterized by the above.   3. The television apparatus according to claim 2, wherein the synchronization signal detecting means detects the synchronization signal by comparing the synchronization signal of the television broadcast with a predetermined threshold value.   The television apparatus according to claim 2, wherein the synchronization signal detecting means detects the synchronization signal based on a change in waveform of the input signal in a predetermined cycle.   The other program display means visually displays, by changing the color of the sub screen, that the broadcast is not being performed on the screen that is not being broadcast among the broadcasts displayed on the sub screen. The television apparatus according to any one of claims 2 to 4, wherein:   6. The television apparatus according to claim 5, wherein the other program display means displays the program on the plurality of sub-screens by switching the broadcast received by the tuner unit at a predetermined cycle.   The said other program display means judges that the broadcast is not performed by detecting the synchronizing signal of the program displayed on the said sub-screen in the said synchronizing signal detection means, or characterized by the above-mentioned. The television apparatus according to claim 6.   7. The television apparatus according to claim 5, wherein the other program display means determines whether the program displayed on the sub-screen is broadcast or not using an electronic program guide. .

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