JP3957653B2 - Broadcast receiver - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a broadcast receiving apparatus capable of receiving a television broadcast.
[0002]
[Prior art]
A digital broadcast receiving apparatus that receives a digital broadcast using a terrestrial wave selects an arbitrary broadcast wave from a plurality of broadcast waves received through a terrestrial antenna using a digital tuner, and includes a plurality of broadcast waves included in the selected broadcast wave. An arbitrary channel is selected from among these channels by demultiplexing processing, a digital signal of the selected channel is taken out, and a video / audio signal is output by decoding it. There is known a technique that can receive both analog broadcasting and terrestrial digital broadcasting, and that eliminates the influence of modulation interference caused by digital broadcasting channels (see Patent Document 1).
[0003]
[Patent Document 1]
JP 2002-374469 A [0004]
[Problems to be solved by the invention]
By the way, terrestrial digital broadcasting is scheduled to start in 2003 in Japan. The channel used for terrestrial digital broadcasting is the UHF (Ultra High Frequency) band. In this UHF band, channels of conventional analog terrestrial broadcasting and digital terrestrial broadcasting are mixed. The allocated channels will be centered on 13 to 32 channels that are rarely used in terrestrial analog broadcasting.
[0005]
However, when a channel cannot be allocated for terrestrial digital broadcasting in a certain area, the channel of terrestrial analog broadcasting is changed (this change is hereinafter referred to as analog-ana conversion). For example, when terrestrial digital broadcasting uses 20 ch, the terrestrial analog broadcast of the A broadcast station that has been using 20 ch before will move to 50 ch, for example. Further, when 20ch is set at position 8 of the receiving apparatus, it is necessary to reset 50ch at position 8 in order to continue watching the program of the broadcasting station A at the same position. For example, in order for a trader (seller, etc.) to make this setting by visiting each home, a great amount of cost and time are spent. Of course, the user can call the channel setting screen from the menu screen to perform setting work, but there are many people who do not know the operation until the channel setting screen is called or are bothered.
[0006]
In view of the above circumstances, the present invention provides a broadcast receiver that can easily perform a channel change process on the side of a broadcast receiving apparatus corresponding to a change in a terrestrial analog broadcast channel accompanying the introduction of terrestrial digital broadcast. An object is to provide an apparatus.
[0007]
[Means for Solving the Problems]
In order to solve the above-described problems, the broadcast receiving apparatus of the present invention is a tuner that receives terrestrial digital broadcast and analog broadcast (for example, the terrestrial digital tuner 2 and the terrestrial analog tuner 4 in FIG. 1), and is currently receiving. The channel number and the position number corresponding to this channel number (for example, the sub-CPU 21 in FIG. 1), and the channel corresponding to the position currently selected for reception are in the state of no broadcasting as an analog broadcast. When a user operates a specific key (for example, the analog CH conversion key 19a in FIG. 3), a channel change setting screen (for example, displayed on the picture tube 11 in FIG. 4) showing the current channel number and position number. (For example, sub-CP in FIG. 1) 21, main CPU 18 and OSD circuit 15) and means for performing channel change setting based on the information input on the channel change setting screen (for example, remote control transmitter 19, remote control light receiver 20 and sub CPU 21 in FIG. 1) A second memory 22, a main CPU 18, and an OSD circuit 15) are provided.
[0008]
With the above configuration, even if the channel change setting screen is not called from the menu screen, the channel change setting screen is directly displayed when the user operates the specific key. In this screen display, the channel number and position number currently being received are shown, so that the channel change for the position can be easily performed.
[0009]
The channel change setting screen is displayed on the condition that the channel corresponding to the position currently selected for reception is in a state of no broadcasting as analog broadcasting. In the so-called analog-analog conversion, broadcasts that have been received so far will be transferred to other channels, and although digital broadcasts will exist on the original channels, the analog broadcasts will become non-stationary. As shown in the figure, if the configuration is such that the channel corresponding to the currently selected position for reception is in a state where it is a no-station state as an analog broadcast, the processing suitable for analog-analog conversion is performed. It will be.
[0010]
The broadcast receiving apparatus of the present invention also provides information on correspondence between tuners (for example, terrestrial digital tuner 2 and terrestrial analog tuner 4 in FIG. 1) that receive terrestrial digital broadcasts and analog broadcasts, and channel numbers and position numbers. First storage control means for storing (for example, the second memory 22 and sub CPU 21 in FIG. 1), the channel number and the position number when it is determined that the channel associated with the position has become non-stationary as an analog broadcast. Are stored in the second storage control means (for example, the second memory 22 and the sub CPU 21 in FIG. 1), and a specific key (for example, the analog CH conversion key 19a in FIG. 3) is operated by the user. , Stored in the second storage control means, and determined to be neutralized Means for displaying a channel change setting screen (for example, a screen displayed on the picture tube 11 in FIG. 4) indicating the channel number and the corresponding position number (for example, the sub CPU 21, the main CPU 18 and the OSD circuit 15 in FIG. 1). And means for performing channel change setting based on information input on the channel change setting screen (for example, remote control transmitter 19, remote control light receiver 20, sub CPU 21, second memory 22, main CPU 18 and OSD in FIG. 1). And a circuit 15). The broadcast receiving apparatus of the present invention also provides information on correspondence between tuners (for example, terrestrial digital tuner 2 and terrestrial analog tuner 4 in FIG. 1) that receive terrestrial digital broadcasts and analog broadcasts, and channel numbers and position numbers. Corresponding to each position number when the storage control means (for example, the second memory 22 and the sub CPU 21 in FIG. 1) and the specific key (for example, the analog CH conversion key 19a in FIG. 3) are operated by the user. The channel change setting screen (for example, FIG. 4) showing the channel number and the corresponding position number determined to be non-stationary as analog broadcasting based on the determination result is performed. Means for displaying the image displayed on the picture tube 11 (for example, in FIG. Second memory 22, sub CPU 21, terrestrial analog tuner 4) and means for performing channel change setting based on information input on the channel change setting screen (for example, remote control transmitter 19 and remote control light receiver in FIG. 1) 20, sub CPU 21, second memory 22, main CPU 18, and OSD circuit 15).
[0011]
With the above configuration, even if the channel change setting screen is not called from the menu screen, the channel change setting screen is directly displayed when the user operates the specific key. In this screen display, the channel number and position number of the abolished channel are shown, so that processing corresponding to the analog-ana conversion is suitably performed. In the above configuration, after the channel change setting is performed, when there are other non-stationary channels, the channel change setting screen for the position corresponding to the channel may be displayed.
[0012]
In these configurations, an in-menu channel change setting screen that is displayed based on the operation of the menu screen is prepared, and the in-menu channel change setting screen and the channel change setting screen have different display modes. It may be.
[0013]
In addition, in these configurations, the reception channel is sequentially changed in response to the user's operation, and the channel change setting screen is superimposed on the video of the reception channel and the channel already associated with the position number is displayed. It is preferable that reception is skipped at the time of the sequential change. Alternatively, the reception channel is automatically changed sequentially in response to the user's operation, and when a channeled channel is detected, the reception state of the channel is maintained and the channel change setting screen is displayed overlaid on the received video. At the same time, it is preferable that reception is skipped for the channel that is already associated with the position number even when it is a channel channel. With such a configuration, it is possible to prevent a preset channel (channel associated with a position number) from being set erroneously due to the skip.
[0014]
Further, in the configuration for performing the skip, a tuner for receiving a digital broadcast may be provided, and the digital broadcast reception channel already associated with the position number may be configured to skip the reception.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 to 4. Here, a digital / analog broadcast receiving apparatus that receives both terrestrial digital broadcast and terrestrial analog broadcast is illustrated.
[0016]
FIG. 1 is a block diagram showing a broadcast receiving apparatus 30 of this embodiment for receiving both terrestrial digital broadcast and terrestrial analog broadcast, and FIG. 2 is a flowchart showing processing contents for channel change. FIG. 3 is an explanatory diagram showing a remote control transmitter, and FIG. 4 is an explanatory diagram showing a channel change screen.
[0017]
In FIG. 1, a terrestrial antenna 1 receives a terrestrial broadcast wave and provides a received signal to a terrestrial digital tuner 2 and a terrestrial analog tuner 4. Each tuner includes a channel selection processing circuit, a mixer (mixer), and the like. The mixer mixes the signal of the desired channel and the local oscillation signal to generate an intermediate frequency signal. The circuit that generates the local oscillation signal includes, for example, a variable capacitance diode whose capacitance changes depending on the applied voltage, and is changed according to the frequency of the desired channel so that a signal with a constant intermediate frequency is output from the mixer. Generate a local oscillation signal. The channel selection processing circuit receives applied voltage (tuning voltage) data corresponding to each channel from, for example, the first memory 13 or the second memory 22, and converts the data into an analog signal (voltage conversion) by a D / A converter (not shown). ) To give to the variable capacitance diode.
[0018]
The terrestrial digital tuner 2 takes out a signal of a specific frequency from the high frequency digital modulation signal including video / audio data by the above-described channel selection process. Further, the terrestrial digital tuner 2 includes a deinterleave circuit, an error correction circuit, a demodulation circuit, and the like, thereby demodulating the selected digital modulation signal and outputting a transport stream.
[0019]
The demultiplexer (DEMUX) 6 separates the transport stream received from the terrestrial digital tuner 2 into an MPEG2 (Moving Picture Experts Group 2) video stream, an audio stream, and a PSI / SI (Program Specific Information / Service Information). Decrypt. The demultiplexer 6 supplies the video stream and the audio stream to the AV decoder 7 and supplies service information included in the PSI / SI to the main CPU 18. As described above, a plurality of channels are multiplexed in the transport stream, and processing for selecting an arbitrary channel from among these is performed in the transport stream from the PSI / SI. Thus, it becomes possible by taking out data such as which packet ID is multiplexed.
[0020]
The AV decoder 7 includes a video decoder that decodes a video stream and an audio decoder that decodes an audio stream. The video decoder decodes the input variable length code to obtain a quantization coefficient and a motion vector, and performs inverse DCT conversion, motion compensation control based on the motion vector, and the like. The audio decoder decodes the input encoded signal to generate audio data. The video data generated by the decoding is output to the video processing circuit 8, and the audio data is output to the audio processing circuit 9.
[0021]
The video processing circuit 8 receives video data from the AV decoder 7 and performs D / A conversion to generate a video signal. The audio processing circuit 9 receives the audio data output from the AV decoder 7 and performs D / A conversion to generate an analog audio signal.
[0022]
The video / audio processing unit 5 demodulates the reception signal supplied from the terrestrial analog tuner 4 to generate a video signal and an audio signal.
[0023]
The OSD (on-screen display) circuit 15 outputs a video signal based on the bit map data of the character information instructed to be output from the main CPU 18 to the adder 16 or the adder 17. The adder 16 and the adder 17 incorporate a video signal based on the bitmap data into the received video signal and supply the video signal to the drive circuit 10. The OSD circuit 15 can display a menu screen and various setting screens.
[0024]
The picture tube 11 performs video display using video signals (R, G, B signals and vertical / horizontal synchronization signals) supplied from the drive circuit 10. The speaker 12 inputs an audio signal and outputs an audio.
[0025]
The main CPU 18 performs channel selection control for the terrestrial digital tuner 2, control for writing / reading information in the first memory (RAM, ROM, EEPROM, etc.) 13, control for the demultiplexer 6, control for the AV decoder 7, OSD circuit 15, and commands to the sub CPU 21.
[0026]
The remote control transmitter 19 is a transmitter for sending a command to the broadcast receiving apparatus 30. As shown in FIG. 3, the remote control transmitter 19 includes various keys in addition to the analog CH conversion key 19a. When a key provided on the remote control transmitter 19 is operated, signal light (remote control signal) indicating a command corresponding to the key is transmitted from a light emitting unit (not shown). The remote control light receiver 20 receives the signal light, converts it into an electric signal, and gives it to the sub CPU 21.
[0027]
The sub CPU 21 receives a remote control signal from the remote control transmitter 19 and a signal from a key operation of an operation unit (not shown) and notifies the main CPU 18, a process of executing a command from the main CPU 18, and a terrestrial analog tuner 4. In addition to channel selection control, terrestrial analog broadcast presence / absence determination processing is also performed. This presence / absence determination processing can be performed, for example, depending on whether or not a horizontal synchronization signal is included in a video signal after detection in a reception channel.
[0028]
A ROM (not shown) stores a position-channel setting table associated with the area number. For example, the area number can be input on the channel change setting screen in the menu screen using the OSD circuit 15, and the correspondence table is selected by inputting the area number on this screen. The channel is automatically set for each position. In addition, an individual setting for setting a desired channel at a desired position on the channel change setting screen in the menu screen can be performed. Individual setting information in the analog broadcasting is stored in the second memory (EEPROM, etc.) 22 by the processing of the sub CPU 21. Further, as described above, when no channel determination is made at the time of channel selection or the like for the channel associated with each position, the information is stored in the second memory 22 by the processing of the sub CPU 21.
[0029]
In addition to the channel change setting screen in the menu screen, the channel change setting screen is displayed directly by operating the analog CH conversion key 19a, and the individual change setting of the channel can be performed on this channel change setting screen. Yes. For the individual channel change setting on the channel change setting screen displayed directly, (1) the setting mode for changing the current reception channel at the corresponding position number, and (2) stored. There are two types of settings mode: a set mode in which the unpositioned channel information or the unpositioned channel information obtained by performing a channel search when the key 19a is operated is changed at the corresponding position number. .
[0030]
[▲ 1 ▼ Setting mode]
Execution of this mode is conditional on the present receiving channel being unstationary in this embodiment. That is, when the current channel is no station (no analog broadcasting), the channel change setting screen is displayed directly when the analog CH conversion key 19a is operated. For example, as shown in FIG. 4, the channel change setting screen is a position number display (CH button: currently selected position), a reception channel display (reception CH: initially the current channel, but the numerical value is changed by the change operation. Display channel display (display CH: current channel is initially displayed, but the numerical value can be changed by a change operation), fine adjustment display, and skip setting display, which are displayed superimposed on the received video. In addition, a notation is provided on the channel change setting screen in the menu screen, such as “Please check the CH number in a newspaper etc. when changing by analog frequency conversion”. A black triangle on this screen indicates the currently set cursor position. The channel change setting screen is displayed at the position corresponding to the reception channel display (second line from the top) from the beginning, and in this respect also, the display mode is different from the channel change setting screen in the menu screen. ing.
[0031]
As shown in the flowchart of FIG. 2, the broadcast receiving apparatus 30 determines whether or not the currently selected channel is no-station (step S1), and if it is no-station, determines whether or not the analog CH conversion key 19a is pressed. Judgment is made (step S2). When the pressing of the analog CH conversion key 19a is detected, the channel change setting screen shown in FIG. 4 is OSD displayed (step S3). In this screen display state, the reception channel can be set.
[0032]
When the pressing of the CH + key is detected (YES in step S4), a receivable (stationary) channel is searched in the channel UP direction (step S5), and the detected receivable channel is a preset channel (position button is already set). If there is, the process returns to step S5 to search for the next receivable channel. When the depression of the CH-key is detected (YES in step S7), a receivable channel is searched in the channel DOWN direction (step S8). If the detected receivable channel is a preset channel, the process returns to step S8 and the next A receivable channel is searched.
[0033]
When the user finds a setting channel (transfer destination channel) by the above key operation, the user presses the menu key. When receiving the menu key press (YES in step S10), the broadcast receiving apparatus 30 sets the receivable channel detected in step S5 or step S8 to the position button (step S11).
[0034]
[▲ 2 ▼ Setting mode]
In this mode, when the analog CH conversion key 19a is operated, the information of the channel that has been made non-stationary stored in the second memory 22 is acquired, and the channel change setting screen is directly displayed based on this information. indicate. If there are a plurality of non-stationary channels, the one with the smallest position number corresponding to it is selected. For example, if there is information such as position 3 → channel 19 (no station), position 8 → channel 30 (no station), first, “3” is displayed for the position number and “19” is displayed for the reception channel. Is displayed (in this case, the same display as in FIG. 4 is performed). The subsequent processing is the same as the processing shown in FIG. In addition, when there are a plurality of channels that are abolished as described above, when the menu key is pressed or when another key (for example, the enter key) is pressed, another abandoned channel You may make it display the channel change setting screen about. Further, in the above example, when the analog CH conversion key 19a is operated, the information on the channel that has been stored in advance in the second memory 22 is acquired, and the channel change setting screen is obtained based on this information. Is displayed directly, but when the analog CH conversion key 19a is operated, a search for the channel set for each position number (for example, in order of decreasing position number) is started. In the case of tuning, the tuning of the next channel may be performed, while the channel change setting screen may be displayed directly when a channel that has become non-stationary is detected. Then, after the setting on this screen, the search may be started again to try to detect other unequalized channels.
[0035]
If the user knows the transfer destination channel in a newspaper or the like, the channel change setting can also be made by directly inputting the channel number using the numeric keypad of the remote control transmitter 19, for example.
[0036]
In the above processing example, reception of preset channels is skipped, but skipping may be performed. When skipping, not only the analog broadcast channel but also the digital broadcast channel may be skipped. For example, when the analog CH conversion key 19a is operated, the main CPU 18 reads the position-channel correspondence table in the digital broadcast from the first memory 13, and informs the sub CPU 21 of the preset channel information for the digital broadcast. That's fine.
[0037]
Also, in the above processing example, the reception channel is automatically and sequentially changed in response to the user's operation, and when a channel channel is detected, the reception state of that channel is maintained and the channel change setting screen is displayed on the received video. In addition to displaying in a superimposed manner, even if it is a channeled channel, the channel already associated with the position number was skipped, but this is not restrictive. Change sequentially (for example, when the CH + key is pressed once, reception of the channel one level above is executed), and the channel change setting screen is displayed overlaid on the video of the reception channel, and the position number is already set. The channel that is associated may be configured to skip reception.
[0038]
In the above embodiment, the channel change setting screen is displayed when the analog CH conversion key 19a provided on the remote control transmitter 19 is operated. You may comprise so that a change setting screen may be displayed. In addition, it is possible to use a key existing on the remote control transmitter 19 or the receiver main body so that the channel change setting screen is displayed when the corresponding key is pressed, for example, for 3 seconds. . Also, depending on the time zone, there may be a case where the wave is stopped. In this case, even if it is a stationed station, it may be determined that the station is not stationed. Even if it is determined that there is no station, the processing after step S2 and the recording processing to the second memory 22 may not be performed.
[0039]
【The invention's effect】
As described above, according to the present invention, even when a channel of terrestrial analog broadcasting is changed due to the introduction of terrestrial digital broadcasting, the channel changing process on the side of the broadcast receiving apparatus corresponding to the channel can be easily performed. There is an effect.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a digital / analog broadcast receiving apparatus according to an embodiment of the present invention;
FIG. 2 is a flowchart showing channel change processing.
FIG. 3 is an explanatory diagram showing an example of a remote control transmitter.
FIG. 4 is an explanatory diagram showing an example of a channel change setting screen.
[Explanation of symbols]
1 Antenna 2 Terrestrial Digital Tuner 4 Terrestrial Analog Tuner 5 Analog Video / Audio Processing Unit 6 Demultiplexer (DEMUX)
7 AV decoder 15 OSD circuit 16 Adder 17 Adder 18 Main CPU
19 Remote control transmitter 19a Analog CH conversion key 21 Sub CPU
22 Second memory

Claims (8)

A tuner for receiving digital terrestrial broadcasting and analog broadcasting, a judging means for judging a channel number currently being received and a position number corresponding to this channel number, and a channel corresponding to the position currently selected for reception as analog broadcasting Means for displaying a channel change setting screen showing the current channel number and position number when a specific key is operated by the user when it is determined that there is no station, and is input on the channel change setting screen. Means for performing channel change setting based on the received information.   It is determined that a tuner that receives digital terrestrial broadcasts and analog broadcasts, first storage control means that stores correspondence information between channel numbers and position numbers, and a channel associated with a position has become non-stationary as an analog broadcast. A second storage control means for storing the channel number and the position number in the case, and the denoising stored in the second storage control means when the user operates a specific key. Means for displaying a channel change setting screen indicating the channel number determined to have been received and its corresponding position number, and means for performing channel change setting based on information input on the channel change setting screen. A broadcast receiver characterized by that.   A tuner for receiving digital terrestrial broadcasting and analog broadcasting, storage control means for storing correspondence information between channel numbers and position numbers, and corresponding to each position number when a specific key is operated by the user Means for determining whether the channel is stationed / not stationed, and displaying a channel change setting screen indicating the channel number determined to be unstationary as an analog broadcast based on the determination result and the corresponding position number; Means for performing channel change setting based on information input on the change setting screen.   4. The broadcast receiving apparatus according to claim 2 or 3, wherein, after the channel change setting is executed, when there is another channel that is determined to be non-stationary as an analog broadcast, a position corresponding to the channel. A broadcast receiving apparatus configured to shift to a channel change setting screen for.   5. The broadcast receiving device according to claim 1, wherein an in-menu channel change setting screen that is displayed based on an operation on a menu screen is prepared, and the in-menu channel change setting screen and the A broadcast receiving apparatus having a display mode different from a channel change setting screen.   The broadcast receiving device according to any one of claims 1 to 5, wherein the receiving channel is sequentially changed in response to a user operation, and the channel change setting screen is displayed overlaid on the receiving channel image. A broadcast receiving apparatus, wherein a channel already associated with a position number is configured to skip reception upon the sequential change.   6. The broadcast receiving apparatus according to claim 1, wherein the reception channel is automatically and sequentially changed in response to a user's operation, and when a channel is detected as an analog broadcast, the channel While maintaining the reception state, the channel change setting screen is displayed overlaid on the received video, and for the channel already associated with the position number even if it is the stationed channel, reception is skipped at the time of the sequential automatic change. A broadcast receiver characterized by being configured to do so.   8. The broadcast receiving apparatus according to claim 6 or 7, wherein reception of a digital broadcast receiving channel already associated with a position number is skipped.

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