JP4405169B2 - Video reception system, external broadcast receiver and broadcast receiver - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
According to the present invention, in a system using a TV and an external receiver connected to the TV, a user selects a tuner built in the TV and selects a channel of the external receiver connected to the TV using only a channel up button and a channel down button. A mechanism that can be switched was givenVideo reception system, external broadcast receiver and broadcast receiverAbout.
[0002]
[Prior art]
For example, a conventional technique will be described using a television as an example of a receiver. In a system in which a television incorporating a terrestrial tuner and an analog BS tuner is connected to an external receiver such as a digital BS broadcast or a CS broadcast, a user By pressing the channel up / down button a plurality of times, it is possible to select all channels of terrestrial broadcasting and analog BS broadcasting. In order for the user to view the broadcast from the external receiver connected to the TV, the input switch button on the TV remote control is operated to switch to the desired video input, and then the channel is operated using the remote receiver remote control. .
[0003]
In order to improve complicated remote control operation, the receiver of FIG. 19 has been devised. (Refer to Patent Document 1) 1901 is a tuner and a receiver having a display, 1902 is a remote control signal light receiving unit, 1903 is a control signal oscillation unit, 1904 is an external tuner connected to the receiver, and 1905 is a receiver indicated by 1901. A remote controller 1906 is a cable for connecting the control signal oscillator and the display. In this conventional example, the number of channels that can be received by the external tuner 1904 needs to be set in the receiver 1901 in advance.
[0004]
[Patent Document 1]
JP 2002-118794 A
[0005]
[Problems to be solved by the invention]
With the increase in broadcasting systems that can be received by general viewers, the number of viewers who view by connecting an external receiver to a TV is increasing. Examples of external receivers used in Japan include BS digital broadcast receivers, CS digital broadcast receivers, and CATV broadcast receivers.
[0006]
Normally, a TV remote control with a built-in terrestrial broadcast tuner is equipped with a channel up button and a channel down button for switching the channel selection forward or backward, and the user can easily press the button to press the button. Channels that can be received by the tuner can be selected. In the case of a television equipped with both a terrestrial tuner and an analog BS tuner, terrestrial broadcasting and analog BS broadcasting can be selected only by operating the channel up / down button.
[0007]
However, in order for the user to select the broadcast of the external receiver connected to the TV, the input switch button on the TV remote control is operated to switch to the desired video input, then the external receiver remote control is switched to The channel operation must be performed with the remote controller of the receiver, which is troublesome.
[0008]
Also, the user needs to remember which external receiver is connected to which input terminal of the television, which is troublesome.
[0009]
The present invention has been made in view of the above problems, and its purpose is that the user can only perform the up / down channel selection operation of the television without performing the input switching operation of the television, and the tuner and the external receiver incorporated in the television. Channel selection can be performed continuously and cyclically.
[0010]
[Means for Solving the Problems]
In order to solve the above problems, a video reception system according to the present invention is a video reception system in which a broadcast receiver and an external broadcast receiver are connected using a digital interface, and the external broadcast receiver receives a broadcast reception. First transmission / reception means for transmitting / receiving data using a digital interface with a receiver, first reception means for receiving broadcast signals, and first demodulation for demodulating the broadcast signals received by the first reception means and outputting a transport stream Means, first video / audio output means for extracting video data and audio data of a specific channel from the transport stream output by the first demodulating means, and outputting them as digital video signals and digital audio signals, and a first preset channel list. First storage means for storing and received by the first transmitting / receiving meansChannel upAccording to the request, the tuning status of the first preset channel list isWhether the last channel is selectedDetermine whether or notThe channel selection status of the first preset channel list is the status of selecting the last channel.In the case, the predetermined message is transmitted to the first transmission / reception means,The channel selection status of the first preset channel list is not the status of selecting the last channel.In this case, the first receiving means, the first demodulating means and the first video / audio output means are controlled according to the first preset channel list.Channel upA first control unit that outputs a digital video signal and a digital audio signal corresponding to the request, and transmits the output digital video signal and the digital audio signal to the first transmission / reception unit.Channel upA channel selection request receiving means for receiving a request, a second transmitting / receiving means for transmitting and receiving data using an external broadcast receiver and a digital interface, a second receiving means for receiving a broadcast signal, and a broadcast received by the second receiving means. Second demodulating means for demodulating the signal and outputting a transport stream; and extracting video data and audio data of a specific channel from the transport stream output by the second demodulating means and outputting them as digital video data and digital audio data Second video / audio output means, second storage means for storing a second preset channel list and video input switching information, digital video data and digital audio data received by the second transmitting / receiving means, or second video / audio output means Selector to output either digital video data or digital audio data output by And,Channel upAccording to the predetermined message and the video input switching information received by the second transmission / reception means, the request is transmitted to the second transmission / reception means.The digital video signal and the digital audio signal corresponding to the first channel in the second preset channel list are output by controlling the second receiving means, the second demodulating means and the second video / audio output means, and the selecting means outputs the second video. The digital video signal and digital audio signal output by the audio output means are output.And a second control means..
[0011]
Also,An external broadcast receiver according to the present invention is an external broadcast receiver that receives a predetermined channel selection request from a broadcast receiver in a video reception system in which the broadcast receiver and the external broadcast receiver are connected using a digital interface. A first transmission / reception means for transmitting / receiving data using the broadcast receiver and the digital interface; a first reception means for receiving a broadcast signal; and demodulating the broadcast signal received by the first reception means to output a transport stream First demodulating means, first video and audio output means for extracting video data and audio data of a specific channel from the transport stream output by the first demodulating means, and outputting the data as digital video signals and digital audio signals; A first storage means for storing a preset channel list and a predetermined channel selection request received by the first transmission / reception means When it is determined whether the channel selection state of the first preset channel list satisfies a predetermined condition and the predetermined condition is satisfied, a predetermined message is transmitted to the first transmission / reception means, and the predetermined condition is not satisfied Causes the first receiving means to receive the broadcast signal corresponding to the predetermined channel selection request according to the first preset channel list, and causes the first transmitting / receiving means to transmit the digital video signal and the digital audio signal output from the first video / audio output means. And a first control means.
[0012]
  Also,The broadcast receiver according to the present invention receives a predetermined message or a digital video signal and a digital audio signal from the external broadcast receiver in a video reception system in which the broadcast receiver and the external broadcast receiver are connected using a digital interface. A broadcast receiver, a channel selection request receiving unit for receiving a predetermined channel selection request from a user, a second transmission / reception unit for transmitting and receiving data using a digital interface with the external broadcast receiver, and a second for receiving a broadcast signal Receiving means, second demodulating means for demodulating a broadcast signal received by the second receiving means and outputting a transport stream, and video data and audio data of a specific channel from the transport stream output by the second demodulating means Second video and audio output means for extracting and outputting as a digital video signal and a digital audio signal; 2 Second storage means for storing preset channel list and video input switching information, digital video signal and digital audio signal received by second transmission / reception means, or digital video signal and digital audio signal output by second video / audio output means And a second control for causing the second transmission / reception means to transmit a predetermined channel selection request and controlling the output of the selection means in accordance with the predetermined message and video input switching information received by the second transmission / reception means. And means.
  Also, the broadcast receiver according to the present invention is a video reception system in which a broadcast receiver and a plurality of external broadcast receivers are connected using a digital interface. A broadcast receiver that receives a digital audio signal, a channel selection request receiving unit that receives a predetermined channel selection request from a user, and a second transmission / reception unit that transmits and receives data to and from a plurality of external broadcast receivers using a digital interface; Second storage means for storing video input switching information; selection means for selecting and outputting digital video signals and digital audio signals from a plurality of external broadcast receivers received by the second transmission / reception means; and a predetermined channel selection request Is transmitted to the second transmitting / receiving means, and the selecting means according to the predetermined message and the video input switching information received by the second transmitting / receiving means. Characterized in that it comprises a second control means for controlling the output, a.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
(Embodiment 1)
In the first embodiment, when a channel of an external receiver such as an STB makes a round, the TV receives a message output from the STB, switches the video input source of the TV, and further channel selection is displaying the video. By being performed on the STB, the user can select the TV built-in tuner and external receiver continuously and cyclically by simply selecting the TV's up / down channel selection operation without having to switch the TV input. Is possible.
[0014]
FIG. 1 is a diagram showing a configuration of a video receiving system according to the first embodiment. Here, it will be described as a television with a built-in terrestrial tuner and equipped with a plurality of external inputs.
[0015]
Reference numeral 100 denotes a television that receives broadcast waves and presents video and audio, or presents externally input video or audio. Reference numeral 101 denotes a television remote controller, which is used by the user to operate the television. Reference numeral 102 denotes a television antenna that receives broadcast waves. A TV control unit 103 controls the entire TV, and is a CPU, for example. Reference numeral 104 denotes a television memory unit which stores channel selection information and video input switching information described later.
[0016]
Reference numeral 105 denotes a TV remote control receiving unit which receives a signal from the remote control 101. Reference numeral 106 denotes a television channel selection unit that selects a broadcast wave received by the antenna 102. Reference numeral 107 denotes a television demodulator that demodulates the signal selected by the channel selection unit 106 and converts it into a video and audio signal. Reference numeral 108 denotes a first digital interface receiver of a television that can receive video or audio from an external device such as an STB, and further enables bidirectional communication of control signals between the television and the STB and the external device. It is.
[0017]
The first embodiment will be described using HDMI (High Definition Multimedia Interface) as an example. Reference numeral 109 denotes a second digital interface receiver of the television, which is the same as the first digital interface receiver 108. Reference numeral 110 denotes a television selector, which selects one video and audio signal from the television demodulator 107, the first digital interface receiver 108, and the second digital interface receiver 109 under the control of the controller 103, Output.
[0018]
A television display unit 111 presents video and audio output from the selector unit 110. A first STB 112 outputs video and audio. An internal configuration example of the first STB 112 will be described later. Reference numeral 113 denotes a second STB, which is the same as the first STB 112.
[0019]
A digital cable 114 connects the television 100 and the first STB 112. In the first embodiment, the digital cable 114 is an HDMI cable. Reference numeral 115 denotes a digital cable that connects the television 100 and the second STB 113, and is an HDMI cable, like the digital cable 114.
[0020]
An example of the internal configuration of the first STB 112 will be described with reference to FIG. Here, it is described as an STB that receives a digital broadcast.
[0021]
Reference numeral 200 denotes a first STB that receives broadcast waves and outputs video and audio. A control unit 201 of the first STB controls the entire first STB, and is, for example, a CPU. Reference numeral 202 denotes a memory unit of the first STB that stores channel selection information described later.
[0022]
Reference numeral 203 denotes a first STB antenna which receives a broadcast wave, and is a satellite dish for example. Reference numeral 204 denotes a tuner unit of the first STB, which extracts a specific transmission channel from a broadcast wave input from the antenna 203 of the first STB. Reference numeral 205 denotes a first STB demodulator that demodulates and corrects an error output from the tuner unit 204 to reproduce a TS (transport stream).
[0023]
Reference numeral 206 denotes a TS decoder section of the first STB, which extracts a packet (video, audio data, etc.) of a program selected by the user from a TS in which a plurality of programs extracted by the demodulation section 205 are multiplexed. . Reference numeral 207 denotes a first STB AV decoder which decompresses the video packet and audio packet extracted by the coder unit 206 in TS and outputs a digital video signal and audio signal.
[0024]
Reference numeral 208 denotes a digital interface transmission unit which can transmit video or audio, and enables bidirectional communication between connected devices.
[0025]
The first embodiment will be described using HDMI (High Definition Multimedia Interface) as an example. The internal structure of the digital interface transmission unit 208 will be described later.
[0026]
An example of the internal structure of the second STB 113 will be described with reference to FIG. The configuration is the same as that of the first STB 112, and is described here as an STB that receives digital broadcasting.
[0027]
Reference numeral 300 denotes a second STB that receives broadcast waves and outputs video and audio. Reference numeral 301 denotes a control unit of the second STB, which controls the entire second STB, for example, a CPU. Reference numeral 302 denotes a memory unit of the second STB that stores channel selection information described later.
[0028]
Reference numeral 303 denotes a second STB antenna that receives broadcast waves, and is a satellite dish for example. Reference numeral 304 denotes a tuner unit of the second STB, which extracts a specific transmission channel from the broadcast wave input from the antenna 303 of the second STB.
[0029]
Reference numeral 305 denotes a second STB demodulating unit that demodulates and corrects an error output from the tuner unit 304 and reproduces a TS (transport stream). Reference numeral 306 denotes a second STB TS decoder, which extracts a packet (video, audio data, etc.) of a program selected by the user from a TS in which a plurality of programs extracted by the demodulator 305 are multiplexed. .
[0030]
Reference numeral 307 denotes a second STB AV decoder which decompresses the video packet and audio packet extracted by the coder 306 in TS and outputs a digital video signal and audio signal. Reference numeral 308 denotes a digital interface transmission unit that can transmit video or audio, and enables bidirectional communication between connected devices.
[0031]
In the first embodiment, HDMI (High Definition Multimedia Interface) is described as an example, but a digital interface such as DVI or IEE1394 may be used. The internal structure of the digital interface transmission unit 308 will be described later.
[0032]
Next, the configuration of the above-described digital interface transmission unit and digital interface reception unit will be described with reference to FIG. As described above, in the first embodiment, the digital interface transmission unit and the digital interface reception unit will be described using HDMI as an example.
[0033]
The specification of HDMI is described in High Definition Multimedia Interface Specification Ver0.9. HDMI consists of a transmission unit (transmitter) and a reception unit (receiver). The transmission unit is provided in a device that is a source of video and audio such as STB, DVD, VTR, or personal computer, while the reception unit is a TV, a display, etc. Equipment that can present video and audio is provided.
[0034]
The transmission unit and the reception unit are connected by an HDMI cable. The names of the transmission unit and the reception unit indicate the direction of transmission and reception of video and audio signals, but communication between connected devices is performed bi-directionally using a CEC line 407 and a DDC line 408 described later. is there.
[0035]
By using the CEC line 407, communication between devices is performed. Examples of messages communicated on the CEC line 407 include the following. The preset selection message (Select Preset) is used to select a specific preset channel in the preset channel list of the receiver.
[0036]
A tuner step decrement message is used to select a preset channel one lower than the preset channel currently selected as a message request destination. A tuner step increment message is used to select a preset channel one channel higher than the preset channel currently selected as a message request destination.
[0037]
The preset channel list transmission start message (Start Preset Transfer) is a message for starting transmission of a preset channel list held by the receiver of the message request destination to the message request source. In addition to these messages, in the first embodiment, when a channel up / down operation is performed using a manufacturer command <Vendor Command> or the like, a preset loop end message indicating that the preset channel has been tuned is added. .
[0038]
The preset channel is a channel that is sequentially selected when the user presses the channel up button or the channel down button, and the preset channel list is a list of preset channels held by the receiver. . The preset channel list may be set in the receiver by the user, or may be searched for and set in a channel that can be automatically received by the receiver.
[0039]
Reference numeral 401 denotes an HDMI digital interface transmission unit provided in the STB, which TMDS encodes video signals (Y, Pb, Pr) and an audio signal (IEC 958) and outputs them to the reception unit 402 in a format suitable for high-speed transmission. It is. A TMDS encoder 402 converts 8-bit parallel X3 channel video data into serial 10-bit X3 channel for video data, and converts parallel 4-bit audio data to serial 10-bit for audio data. .
[0040]
Reference numeral 403 denotes an STB control unit, which is the same as the first STB control unit 201 in FIG. 2 and the second STB control unit 301 in FIG. 3, and controls the HDMI digital interface transmission unit 401 and CEC described later. Two-way communication is performed between devices connected using the line 407 and the DDC line 408. Reference numeral 404 denotes an HDMI digital interface reception unit provided in the television, which performs TMDS decoding on video data and audio data output from the HDMI digital interface transmission unit 401 and reproduces baseband video data and audio data.
[0041]
A TMDS decoder 405 converts serial 10-bit X3 channel video data into 8-bit parallel X3 channel, and converts serial 10-bit audio data into parallel 4 bits. A TV control unit 406 is the same as the TV control unit 103 in FIG. 1, and controls the HDMI digital interface reception unit 404 and connects between devices connected using a CEC line 407 and a DDC line 408 described later. Two-way communication.
[0042]
Reference numeral 407 denotes a CEC (Consumer Electronics Control) line for transmitting control signals for consumer equipment. Reference numeral 408 denotes a DDC (Display Data Channel) line for transmitting a display control signal.
[0043]
Next, the relationship between the configuration of the first embodiment shown in FIGS. 1 to 3 and the configuration of the HDMI digital interface of FIG. 4 will be described. The digital interface transmission unit 208 in FIG. 2 and the digital interface transmission unit 308 in FIG. 3 in Embodiment 1 correspond to the HDMI digital interface transmission unit 401 in FIG. 4, and the first digital interface reception unit 108 in FIG. The digital interface receiver 109 corresponds to the HDMI digital interface receiver 404 of FIG.
[0044]
Next, a configuration example of the remote controller 101 of the television 100 will be described with reference to FIG. A remote controller 500 is used by the user to operate the television. Reference numeral 501 denotes a channel up button, which is pressed up to increase the channel. Reference numeral 502 denotes a channel down button, which is pressed down when pressed.
[0045]
When the channel up button 501 of the remote controller 500 is pressed, the remote control receiving unit 105 issues a channel up request to the control unit 103. Further, when the channel down button 502 of the remote controller 500 is pressed, the remote control receiving unit 105 issues a channel down request to the control unit 103.
[0046]
Next, a TV channel up processing routine when the user presses the channel up button 501 will be described with reference to FIG. This processing routine is started when the remote control receiving unit 105 of the television receives a channel up signal from the remote control 101 and the remote control receiving unit 105 issues a channel up request to the control unit 103.
[0047]
Step 601
When the television control unit 103 recognizes the channel up request, first, it is determined by checking the state of the selector unit 110 whether the television display unit 111 is currently displaying an image from the television demodulation unit 107.
[0048]
Step 602
When the television display unit 111 displays the video from the television demodulation unit 107 in step 601, the channel currently selected by the television channel selection unit 106 and the television demodulation unit 107 is a television preset channel. Check if the last channel in the list is being selected.
[0049]
Step 603
If the channel selected by the television at step 602 is not the last channel in the preset channel list of the television, the control unit 103 controls the channel selection unit 106 and the demodulation unit 107 to select the channel currently selected. Select the next preset channel of the preset channel. Then, the channel up processing routine ends.
[0050]
Step 604
If the channel selected by the TV in step 602 is the last channel in the TV preset channel list, the TV control unit 103 controls the first digital interface reception unit 108 to control the CEC line. Is transmitted to the first STB 112, and the first STB 112 selects the first channel in the preset channel list of the first STB 112.
[0051]
Step 605
The television control unit 103 controls the selector unit 110 so that the video from the first STB 112 is output to the television display unit 111.
[0052]
Step 606
In step 601, if the television display unit 111 does not display the video from the television demodulation unit 107, it is checked whether the television display unit 111 displays the video from the first STB 112.
[0053]
Step 607
If the television display unit 111 is displaying video from the first STB 112 in step 606, the television control unit 103 controls the first digital interface unit 107 to the first STB 112 using the CEC line. A tuner step increment message is transmitted, and the first STB 112 selects a preset channel next to the preset channel currently being received.
[0054]
Step 608
When the channel of the first STB 112 is changed in step 607, there is a possibility that the preset channel list of the first STB 112 goes around, so it is confirmed whether a preset loop end message has been output from the first STB. If the preset loop end message is not output from the first STB, the channel up processing routine is ended.
[0055]
Step 609
When a preset loop end message is output from the first STB in step 608, the television control unit 103 controls the second digital interface unit 109 and transmits a preset selection message to the second STB 113 using the CEC line. The second STB 113 selects the first channel in the preset channel list of the second STB 113.
[0056]
Step 610
The TV control unit 103 controls the selector unit 110 to control the video from the second STB 113 to be output to the TV display unit 111, and the channel up processing routine ends.
[0057]
Step 611
If the television display unit 111 does not display the video from the first STB 112 in step 606, the television control unit 103 controls the second digital interface unit 109 and uses the CEC line to the second STB 113. A tuner step increment message is transmitted, and the second STB 113 selects the next preset channel after the preset channel currently being received.
[0058]
Step 612
When the channel of the second STB 113 is changed in step 611, there is a possibility that the preset channel list of the second STB 113 goes around. Therefore, it is confirmed whether a preset loop end message is output from the second STB 113. If the preset loop end message is not output from the second STB 113, the channel up processing routine is ended.
[0059]
Step 613
When a preset loop end message is output from the second STB in step 612, the TV control unit 103 controls the channel selection unit 106 and the demodulation unit 107 to select the first channel in the TV preset channel list. To do.
[0060]
Step 614
The television control unit 103 controls the selector unit 110 so that the video from the television demodulation unit 107 is output to the television display unit 111, and the channel up processing routine ends.
[0061]
Next, a television channel down processing routine when the user presses the channel down button 502 will be described with reference to FIG. This processing routine is started when the remote control receiving unit 105 of the television receives a channel down signal from the remote control 101 and the remote control receiving unit 105 outputs a channel down request to the control unit 103.
[0062]
Step 701
When the television control unit 103 recognizes the channel down request, first, it is determined by checking the state of the selector unit 110 whether the television display unit 111 is currently displaying the video from the television demodulation unit 107.
[0063]
Step 702
When the television display unit 111 displays the video from the television demodulation unit 107 in step 701, the channel currently selected by the television channel selection unit 106 and the television demodulation unit 107 is a television preset channel. Check if the first channel in the list is being selected.
[0064]
Step 703
If the channel selected by the television in step 702 is not the first channel in the preset channel list of the television, the control unit 103 controls the channel selection unit 106 and the demodulation unit 107 to select the channel currently selected. Select the preset channel immediately before the preset channel. Then, the channel down processing routine ends.
[0065]
Step 704
If the channel selected by the television in step 702 is the first channel in the preset channel list of the television, the preset selection message is transmitted to the second STB 113 using the CEC line 407, and the first channel is selected. The second STB 113 selects the last channel in the preset channel list of the second STB 113.
[0066]
Step 705
The television control unit 103 controls the selector unit 110 so that the video from the second STB 113 is output to the television display unit 111.
[0067]
Step 706
If the TV display unit 111 does not display the video from the TV demodulation unit 107 in step 701, it is confirmed whether the TV display unit 111 displays the video from the first STB 112.
[0068]
Step 707
If the display unit 111 of the television is displaying video from the first STB 112 in step 706, a tuner step decrement message is transmitted to the first STB 112 using the CEC line 407, and the first STB 112 is transmitted. Selects the preset channel immediately before the currently received preset channel.
[0069]
Step 708
When the channel of the first STB 112 is changed in step 707, there is a possibility that the preset channel list of the first STB 112 goes around. Therefore, it is confirmed whether a preset loop end message is output from the first STB 112. If the preset loop end message is not output from the first STB 112, the channel down processing routine is ended.
[0070]
Step 709
When a preset loop end message is output from the first STB 112 in step 718, the TV control unit 103 controls the channel selection unit 106 and the demodulation unit 107 to select the last channel in the TV preset channel list. To do.
[0071]
Step 710
The television control unit 103 controls the selector unit 110 so that the video from the television demodulation unit 107 is output to the television display unit 111, and the channel down processing routine ends.
[0072]
Step 711
If the television display unit 111 does not display the video from the first STB 112 in step 706, a tuner step decrement message is transmitted to the second STB 113 using the CEC line 407, and the second STB 113 is transmitted. Selects the preset channel immediately before the currently received preset channel.
[0073]
Step 712
When the channel of the second STB 113 is changed in step 711, there is a possibility that the preset channel list of the second STB 113 goes around. Therefore, it is confirmed whether a preset loop end message is output from the second STB 113. If the preset loop end message is not output from the second STB 113, the channel down processing routine is ended.
[0074]
Step 713
When a preset loop end message is output from the second STB 113 in step 712, a preset selection message is transmitted to the first STB using the CEC line 407, and the first STB 112 transmits the preset channel list of the first STB 112. Select the last channel.
[0075]
Step 714
The television control unit 103 controls the selector unit 110 so that the video from the first STB 112 is output to the television display unit 111.
[0076]
Next, data stored in the memory unit 202 of the first STB will be described with reference to FIG.
[0077]
Reference numeral 800 denotes a memory area named STB1_NUM, which is a list of preset numbers. In the first embodiment, numbers from “01” to “10” are stored. Reference numeral 801 denotes a memory area named STB1_CH, which is a list of channel selection channel numbers corresponding to each preset number.
[0078]
A preset channel list 802 is a combination of a preset number list 800 and a channel selection channel number list. Reference numeral 803 denotes a memory area named STB1_TUNING, which stores a preset number selected by the first STB 112.
[0079]
Reference numeral 804 denotes a memory area named MAX_STB1_NUM, which is the number of preset numbers stored in the first STB 112, and is ten from “01” to “10” in the first embodiment.
[0080]
The control unit 201 of the first STB 112 can perform channel up and channel down processing by referring to the memory unit 202. Further, the data stored in the memory unit 302 of the second STB is the same and is omitted.
[0081]
Next, the step / increment processing routine will be described with reference to FIG. The step / increment processing routine is started when the digital interface transmission unit 208 of the first STB 112 receives the step / increment message via the CEC line 407 and the digital interface transmission unit 208 outputs a step / increment request to the control unit 201. The
[0082]
Step 901
The control unit 201 refers to the STB1_TUNING 803 of the memory unit 202 and reads the preset number of the channel currently being received.
[0083]
Step 902
The control unit 201 compares the read preset number with MAX_STB1_NUM804 in which the last value of the preset number is stored.
[0084]
Step 903
If the comparison does not match in step 902, a value obtained by adding “01” to the read preset number is calculated. Then, the calculation result is searched from STB1_NUM800, and the channel selection channel number corresponding to the search result is read from STB1_CH801. Also, the addition operation result is overwritten on STB1_TUNING.
[0085]
Step 904
The control unit 201 controls the tuner unit 204, the demodulation unit 205, the TS decoder unit 206, and the AV decoder unit 207 to select the channel selection channel number read in step 903, and ends the step / increment processing.
[0086]
Step 905
If the comparisons match in step 902, the control unit 201 controls the digital interface transmission unit 208, outputs a preset loop end message using the CEC line 407, and ends the step increment process.
[0087]
Next, the step decrement processing routine will be described with reference to FIG. In the step decrement processing routine, the digital interface transmission unit 208 of the first STB 112 receives a step decrement message via the CEC line 407, and the digital interface transmission unit 208 outputs a step decrement request to the control unit 201. Is started.
[0088]
Step 1001
The control unit 201 refers to the STB1_TUNING 803 of the memory unit 202 and reads the preset number of the channel currently being received.
[0089]
Step 1002
The control unit 201 compares the read preset number with “01” which is the first value of the preset number.
[0090]
Step 1003
If the comparison does not match in step 902, a value obtained by subtracting “01” from the read preset number is calculated. Then, the calculation result is searched from STB1_NUM800, and the channel selection channel number corresponding to the search result is read from STB1_CH801. Further, the subtraction operation result is overwritten on STB1_TUNING.
[0091]
Step 1004
The control unit 201 controls the tuner unit 204, the demodulation unit 205, the TS decoder unit 206, and the AV decoder unit 207 to select the channel selection channel number read in step 903, and ends the step decrement process.
[0092]
Step 1005
If the comparisons match in step 1002, the control unit 201 controls the digital interface transmission unit 208, outputs a preset loop end message using the CEC line 407, and ends the step decrement processing.
[0093]
Next, the preset selection processing routine will be described with reference to FIG. The preset selection processing routine is started when the digital interface transmission unit 208 of the first STB 112 receives a preset selection message via the CEC line 407 and the digital interface transmission unit 208 outputs a preset selection request to the control unit 201.
[0094]
Step 1101
The preset number requested by the preset selection message is searched from STB1_NUM800, and the channel selection channel number corresponding to the search result is read from STB1_CH801. In addition, the requested preset number is overwritten on STB1_TUNING.
[0095]
Step 1102
The control unit 201 controls the tuner unit 204, the demodulation unit 205, the TS decoder unit 206, and the AV decoder unit 207 to select the channel selection channel number read in step 903, and ends the preset selection processing routine.
[0096]
An example of the channel selection operation of the first STB 112 will be described using the above-described step / increment processing routine, step / decrement processing routine, and preset selection routine. Since the channel selection operation of the second STB 113 is the same, the description is omitted.
[0097]
A case where the channel selection channel number “151” of the preset number “05” is being selected is taken as an example. In this case, “05” is stored in the STB1_TUNING 803.
[0098]
When the control unit 201 receives the step / increment message, the control unit 201 refers to the STB1_TUNIG 803 in the memory unit 202 and confirms that the preset number of the currently received channel is “05”. Since the preset number “05” is not “10” which is the last preset number, the preset number which is the next preset number is calculated by adding “01” to the currently selected preset number “05”.
[0099]
In this case, the calculation result is “06”. Next, the channel selection channel number corresponding to the preset number “06” is read. In this case, it is “161”. Then, the control unit 201 controls the tuner unit 204, the demodulation unit 205, the TS decoder unit 206, and the AV decoder unit 207 to select the channel “161”. Then, the control unit 201 overwrites STB1_TUNING 803 in the memory unit 202 with “06”, which is the preset number currently selected.
[0100]
Next, a case where the control unit 201 receives a step decrement message in this state will be described. The control unit 201 refers to the STB1_TUNING 803 in the memory unit 202 and confirms that the preset number of the channel currently being received is “06”. Since the preset number “06” is not the first preset number “01”, the previous preset number is calculated by subtracting “01” from the preset number “06” currently selected. In this case, the calculation result is “05”.
[0101]
Next, the channel selection channel number corresponding to the preset number “05” is read. In this case, “151”. Then, the control unit 201 controls the tuner unit 204, the demodulation unit 205, the TS decoder unit 206, and the AV decoder unit 207 to select the channel “151”.
[0102]
Then, the control unit 201 overwrites STB1_TUNING 803 in the memory unit 202 with “05”, which is the preset number currently selected.
[0103]
Next, a case where the channel selection channel number “200” of the preset number “10” is being selected is taken as an example. In this case, “10” is stored in STB1_TUNING 803.
[0104]
When the control unit 201 receives the step / increment message, the control unit 201 refers to the STB1_TUNIG 803 in the memory unit 202 and confirms that the preset number of the currently received channel is “10”. Since the preset number “10” matches the last preset number “10”, the control unit 201 controls the digital interface transmission unit 208 and outputs a preset loop end message using the CEC line 407.
[0105]
Next, a case where the channel selection channel number “101” of the preset number “01” is being selected is taken as an example. In this case, “01” is stored in the STB1_TUNING 803. When the control unit 201 receives the step decrement message, the control unit 201 refers to the STB1_TUNIG 803 in the memory unit 202 and confirms that the preset number of the currently received channel is “01”.
[0106]
Since the preset number “01” matches the last preset number “01”, the control unit 201 controls the digital interface transmission unit 208 and outputs a preset loop end message using the CEC line 407.
[0107]
As described above, according to the first embodiment of the present invention, when a plurality of devices such as STBs are connected to a television, it is automatically performed when the television channel is completed due to a user's channel up request and channel down request. A connection where the input is switched to display the video of the external device, and when the TV is displaying the video of the connected device, the TV is displaying the video when receiving a channel up request or a channel down request from the user A tuner with a built-in TV by issuing a channel up request and a channel down request to the device, returning a message to the TV when the channel of the connected device has gone through, and automatically switching the TV input according to the message from each connected device. And the channel of each connected device continuously, channel up button and channel down It can be switched only by button.
[0108]
(Embodiment 2)
Next, a second embodiment will be described. In the first embodiment, the tuner is built in the television, but in the second embodiment, the television functions purely as a display and has no channel selection means. However, a remote controller similar to that of the first embodiment is attached.
[0109]
Further, the STB connected to the television is the same as that in Embodiment 1, and thus the description thereof is omitted. The configurations of the digital interface transmission unit and the digital interface reception unit are the same as those in the first embodiment, and will be described using HDMI as an example.
[0110]
FIG. 12 is a diagram showing a configuration of the video receiving system in the second embodiment. The same components as those of the first embodiment are denoted by the same reference numerals as those in FIG. 1, and the description thereof is omitted. Reference numeral 1200 denotes a television set according to the second embodiment, which displays an input video or outputs audio.
[0111]
The second embodiment does not include a channel selection unit and a demodulation unit for receiving broadcast waves on the television. Reference numeral 1201 denotes a television control unit which controls the entire television, and is a CPU, for example. Reference numeral 1202 denotes a television memory unit which stores video input switching information.
[0112]
Reference numeral 1203 denotes a television selector, which selects and outputs one video and audio signal from the first digital interface receiver 108 and the second digital interface receiver 109 under the control of the controller 1201.
[0113]
Next, the TV channel up processing routine according to the second embodiment when the user presses the channel up button 501 will be described with reference to FIG. This processing routine is started when the remote control receiving unit 105 of the television receives a channel up signal from the remote control 101 and the remote control receiving unit 105 issues a channel up request to the control unit 1201.
[0114]
Step 1301
It is confirmed whether the display unit 111 of the television is displaying an image from the first STB 112.
[0115]
Step 1302
If the television display unit 111 is displaying video from the first STB 112 in step 1301, the television control unit 1201 controls the first digital interface unit 107 to the first STB 112 using the CEC line. A tuner step increment message is transmitted, and the first STB 112 selects a preset channel next to the preset channel currently being received.
[0116]
Step 1303
When the channel of the first STB 112 is changed in step 1302, there is a possibility that the preset channel list of the first STB 112 goes around, so it is confirmed whether a preset loop end message is output from the first STB. If the preset loop end message is not output from the first STB, the channel up processing routine is ended.
[0117]
Step 1304
When a preset loop end message is output from the first STB in step 1303, the TV control unit 1201 controls the second digital interface unit 109 and transmits a preset selection message to the second STB 113 using the CEC line. The second STB 113 selects the first channel in the preset channel list of the second STB 113.
[0118]
Step 1305
The television control unit 1201 controls the selector unit 1203 so that the video from the second STB 113 is output to the television display unit 111, and the channel up processing routine is completed.
[0119]
Step 1306
When the television display unit 111 does not display the video from the first STB 112 in step 1301, the television control unit 1201 controls the second digital interface reception unit 109 and uses the CEC line to adjust the tuner step, step. The increment message is transmitted to the second STB 113, and the second STB 113 selects the next preset channel after the currently received preset channel.
[0120]
Step 1307
When the channel of the second STB 113 is changed in step 1306, there is a possibility that the preset channel list of the second STB 113 goes around, so it is confirmed whether a preset loop end message is output from the second STB 113. If the preset loop end message is not output from the second STB 113, the channel up processing routine is ended.
[0121]
Step 1308
When a preset loop end message is output from the second STB in step 1307, the television control unit 1201 controls the first digital interface reception unit 108 to send a preset selection message to the first STB 112 using the CEC line. The first STB 112 selects the first channel in the preset channel list of the first STB 112.
[0122]
Step 1309
The TV control unit 1201 controls the selector unit 1203 so that the video from the first STB 112 is output to the TV display unit 111, and the channel up processing routine is completed.
[0123]
Next, a TV channel down processing routine according to the second embodiment when the user presses the channel down button 502 will be described with reference to FIG. This processing routine is started when the remote control receiving unit 105 of the television receives a channel down signal from the remote control 101 and the remote control receiving unit 105 issues a channel down request to the control unit 1201.
[0124]
Step 1401
It is confirmed whether the display unit 111 of the television is displaying an image from the first STB 112.
[0125]
Step 1402
If the television display unit 111 is displaying video from the first STB 112 in step 1301, the television control unit 1201 controls the first digital interface unit 107 to the first STB 112 using the CEC line. A tuner step decrement message is transmitted, and the first STB 112 selects the preset channel immediately before the preset channel currently being received.
[0126]
Step 1403
When the channel of the first STB 112 is changed in step 1302, there is a possibility that the preset channel list of the first STB 112 goes around, so it is confirmed whether a preset loop end message is output from the first STB. If the preset loop end message is not output from the first STB, the channel down processing routine is ended.
[0127]
Step 1404
When a preset loop end message is output from the first STB in step 1303, the TV control unit 1201 controls the second digital interface unit 109 and transmits a preset selection message to the second STB 113 using the CEC line. Then, the second STB 113 selects the last channel in the preset channel list of the second STB 113.
[0128]
Step 1405
The TV control unit 1201 controls the selector unit 1203 so that the video from the second STB 113 is output to the TV display unit 111, and the channel down processing routine is completed.
[0129]
Step 1406
When the television display unit 111 does not display the video from the first STB 112 in step 1301, the television control unit 1201 controls the second digital interface reception unit 109 and uses the CEC line to adjust the tuner step, step. The decrement message is transmitted to the second STB 113, and the second STB 113 selects the preset channel immediately before the preset channel currently being received.
[0130]
Step 1407
When the channel of the second STB 113 is changed in step 1306, there is a possibility that the preset channel list of the second STB 113 goes around, so it is confirmed whether a preset loop end message is output from the second STB 113. If the preset loop end message is not output from the second STB 113, the channel down processing routine is ended.
[0131]
Step 1408
When a preset loop end message is output from the second STB in step 1307, the television control unit 1201 controls the first digital interface reception unit 108 to send a preset selection message to the first STB 112 using the CEC line. The first STB 112 selects the last channel in the preset channel list of the first STB 112.
[0132]
Step 1409
The TV control unit 1201 controls the selector unit 1203 so that the video from the first STB 112 is output to the TV display unit 111, and the channel down processing routine is completed.
[0133]
As described above, according to the second embodiment of the present invention, when a plurality of devices such as an STB are connected to the television, when the television displays the video of the connected device, the channel up request and the channel from the user are displayed. When a down request is received, the TV issues a channel up request and a channel down request to the connected device displaying the video. When the channel of the connected device is completed, a message is returned to the TV. By automatically switching the input of the television, the channel of each connected device connected to the television can be continuously switched using only the channel up button and the channel down button.
[0134]
(Embodiment 3)
Next, a third embodiment will be described. In Embodiment 3, the TV downloads the channel list of each STB from each STB and issues a channel selection request to each STB, so that the user can perform only the TV up / down channel selection operation without performing the TV input switching operation. It is possible to continuously and cyclically select a tuner and an external receiver built in the television.
[0135]
Since the configuration of the video reception system in the third embodiment is the same as that in the first embodiment, description thereof is omitted.
[0136]
FIG. 15 illustrates data stored in the memory unit 104 of the television 100 according to the third embodiment.
[0137]
Reference numeral 1501 denotes a memory area named DISP_NUM, which is a list of preset numbers of the television 100, and stores numbers “01” to “12” in the third embodiment. Reference numeral 1502 denotes a memory area named DISP_CH, which is a list of channel selection channel numbers of the television 100 and corresponds to each preset number of DISP_NUM1501.
[0138]
Reference numeral 1503 denotes a preset channel list of the television 100, which is a combination of the preset number list of the television 100 and the selected channel number list of the television 100. A memory area 1504 named EXT1_NUM stores a list of preset numbers acquired from the first STB 112.
[0139]
In the case of the third embodiment, numbers from “01” to “10” are stored, but the memory area may be increased or decreased depending on the connected external device. A memory area 1505 named EXT1_CH stores a list of channel selection channel numbers acquired from the first STB 112.
[0140]
This corresponds to each preset number of EXT1_NUM1504. Reference numeral 1506 denotes a preset channel list of the first STB 112, which is a combination of the preset number list of the first STB 112 acquired from the first STB 112 and the selected channel number list of the first STB 112.
[0141]
A memory area 1507 named EXT2_NUM stores a list of preset numbers acquired from the second STB 113. In the case of the third embodiment, numbers from “01” to “10” are stored, but the memory area may be increased or decreased depending on the connected external device.
[0142]
Reference numeral 1508 denotes a memory area named EXT2_CH, which stores a list of channel selection channel numbers acquired from the second STB 113. This corresponds to each preset number of EXT2_NUM1507. Reference numeral 1509 denotes a preset channel list of the second STB 113, which is a combination of a preset number list of the second STB 113 acquired from the second STB 113 and a list of channel selection channel numbers of the second STB 113.
[0143]
Reference numeral 1510 denotes a memory area named NUM_TUNING, which stores a preset number being selected. Reference numeral 1511 denotes a memory area named MAX_DISP_NUM, which is the number of preset numbers stored in the television 100, which is 12 from “01” to “12” in the third embodiment.
[0144]
Reference numeral 1512 denotes a memory area named MAX_EXT1_NUM, which is the number of preset numbers stored in the first STB 112, which is ten from “01” to “10” in the third embodiment. Reference numeral 1513 denotes a memory area named MAX_EXT2_NUM, which is the number of preset numbers stored in the second STB 113, which is ten from “01” to “10” in the third embodiment.
[0145]
A memory area 1514 named DISP_INPUT_SEL indicates the state of the selector unit 110 of the television 100. When the value “0” is stored in the area of the DISP_INPUT_SEL 1514, it indicates that the video from the demodulation unit 107 of the television 100 is selected by the selector unit 110 and output to the display unit 111, and the value “1” is stored in the DISP_INPUT_SEL 1514. When stored in the area, it indicates that the video from the first digital interface receiving unit 108 of the television 100 is selected by the selector unit 110 and output to the display unit 111, and the value “2” is displayed in the DISP_INPUT_SEL 1514 area. When stored, it indicates that the video from the second digital interface receiving unit 109 of the television 100 is selected by the selector unit 110 and output to the display unit 111.
[0146]
Next, a preset list / download processing routine when the television 100 of the third embodiment acquires a preset list from an external receiver such as an STB connected to the television 100 will be described with reference to FIG. The preset list / download processing routine is started when the first digital interface reception unit 108 of the television 100 detects the connection of the first STB 112 and outputs a connection detection signal to the control unit 103.
[0147]
When the second digital interface reception unit 109 of the television 100 detects the connection of the second STB 113, the same processing as when the connection of the first STB 112 is detected is performed, and the description thereof is omitted.
[0148]
Step 1601
The control unit 103 of the television 100 controls the first digital interface reception unit 108 and transmits a preset list transmission start message to the first STB 112 using the CEC line 407.
[0149]
Step 1602
The first digital interface receiver 108 of the television 100 receives the preset channel list sent from the first STB 112.
[0150]
Step 1603
The control unit 103 of the television 100 stores the preset channel list received by the first digital interface reception unit 108 in the preset list 1506 of the first STB in the memory unit 104. Then, MAX_EXT1_NUM 1512 that is the number of preset numbers stored in the first STB 112 is updated.
[0151]
Through the above processing, the preset channel list possessed by the first STB 112 is stored in the memory unit 104. Even when the second STB 113 is connected to the second digital interface unit 109, the preset channel list possessed by the second STB 113 can be acquired in the same procedure.
[0152]
In the third embodiment, the preset list / download processing routine is executed only when the STB connection is detected, but may be repeatedly executed at certain time intervals. In the third embodiment, the preset list / download processing routine is executed only when the STB connection is detected. However, the preset list / download processing routine may be executed by using a factor such as a channel list update message output from the STB as a trigger.
[0153]
Next, the channel up processing routine in the third embodiment will be described with reference to FIG. This processing routine is started when the remote control receiving unit 105 of the television receives a channel up signal from the remote control 101 and the remote control receiving unit 105 outputs a channel up request to the control unit 103.
[0154]
Step 1701
When the television control unit 103 recognizes the channel up request, first, it is determined by checking the state of the selector unit 110 whether the television display unit 111 is currently displaying an image from the television demodulation unit 107. The state can be confirmed by comparing the value stored in DISP_INPUT_SEL 1514 of the memory unit 104 with the value “0”. If the comparisons match, it can be confirmed that the television display unit 111 is currently displaying an image from the television demodulation unit 107.
[0155]
Step 1702
If the comparisons match in step 1701, it is confirmed whether the channel currently selected by the television channel selection unit 106 and the television demodulation unit 107 is currently selecting the last channel in the television preset channel list. The status can be confirmed by comparing the value stored in the NUM_TUNING 1510 of the memory unit 104 with the value stored in the MAX_DISP_NUM 1511.
[0156]
If the comparisons match, it can be confirmed that the channel currently selected by the TV channel selection unit 106 and the TV demodulation unit 107 is the last channel in the TV preset channel list.
[0157]
Step 1703
If the comparison does not match in step 1702, the control unit 103 controls the channel selection unit 106 and the demodulation unit 107 to select the preset channel next to the currently selected preset channel, and finishes the channel up processing routine. To do. More specifically, the control unit 103 calculates a value obtained by adding “1” to the value stored in the NUM_TUNING 1510 of the memory unit 104, and searches the DISP_NUM1501 that is a list of preset numbers of the television 100 for searching. The channel selection channel number corresponding to the result is read from DISP_CH 1502 which is a list of the channel selection channel numbers of the television, the channel selection channel number read is set in the channel selection unit 106 and the demodulation unit 107, the calculation result is overwritten in the NUM_TUNING 1510, and the channel The up processing routine is terminated.
[0158]
Step 1704
If the comparisons match in step 1702, the control unit 103 controls the first digital interface receiving unit 108 to select the first preset number of the first STB 112 and use the CEC line to select a preset selection message. To the first STB 112, and overwrites the first value in the preset channel list of the first STB 112 with the NUM_TUNING 1510, which is a memory area for storing the preset number of the channel being selected.
[0159]
Step 1705
The television control unit 103 controls the selector unit 110 so that the video from the first STB 112 is output to the television display unit 111, and the DISP_INPUT_SEL 1514, which is an area for storing the state of the selector unit 110, stores the first. The value “1” indicating that the input from the digital interface receiver is selected is overwritten, and the channel up processing routine is terminated.
[0160]
Step 1706
If the comparison does not match in step 1701, it is determined by checking the state of the selector unit 110 whether the display unit 111 of the television is currently displaying an image from the first digital interface receiver 108. The status can be confirmed by comparing the value “1” with the value stored in the DISP_INPUT_SEL 1514 of the memory unit 104.
[0161]
If the comparisons match, it can be confirmed that the display unit 111 of the television is currently displaying the video from the first digital interface receiver 108. If the comparison does not match, it can be confirmed that the display unit 111 of the television is currently displaying the video from the second digital interface receiving unit 109.
[0162]
Step 1707
If the comparisons match in step 1706, it is confirmed whether the channel currently selected by the first STB 112 is selecting the last channel in the preset channel list of the first STB 112. In order to confirm the state, it is possible to compare the value stored in the NUM_TUNING 1510 of the memory unit 104 with the value stored in the MAX_EXT1_NUM 1512. If the comparisons match, it can be confirmed that the channel currently selected by the first STB 112 is the last channel in the preset channel list of the first STB 112.
[0163]
Step 1708
If the comparison does not match in step 1702, the control unit 103 controls the first digital interface reception unit 108, selects the first STB 112 as the preset channel next to the currently selected preset channel, The channel up processing routine is terminated. More specifically, the control unit 103 calculates a value obtained by adding “1” to the value stored in the NUM_TUNING 1510 of the memory unit 104, and uses the CEC line as the preset number of the preset selection message as the first number of the preset selection message. The result is transmitted to the STB 112, the calculation result is overwritten in the NUM_TUNING 1510, and the channel up processing routine is terminated.
[0164]
Step 1709
If the comparisons match in step 1707, the control unit 103 controls the second digital interface reception unit 109 to select the first preset number of the second STB 113 and use the CEC line to select a preset selection message. Is transmitted to the second STB 113, and the NUM_TUNING 1510, which is a memory area for storing the preset number of the channel being selected, is overwritten with the first value in the preset number list of the second STB 113.
[0165]
Step 1710
The TV control unit 103 controls the selector unit 110 so that the video from the second STB 113 is output to the TV display unit 111, and the DISP_INPUT_SEL 1514, which is an area for storing the state of the selector unit 110, stores the second image. The value “2” indicating that the input from the digital interface receiver is selected is overwritten, and the channel up processing routine is terminated.
[0166]
Step 1711
If the comparison does not match in step 1706, it is confirmed whether the channel currently selected by the second STB 113 is selecting the last channel in the preset channel list of the second STB 113. In order to confirm the state, it is possible to compare the value stored in the NUM_TUNING 1510 of the memory unit 104 with the value stored in the MAX_EXT2_NUM1513. If the comparisons match, it can be confirmed that the channel currently selected by the second STB 113 is the last channel in the preset channel list of the second STB 113.
[0167]
Step 1712
If the comparison does not match at step 1711, the control unit 103 controls the second digital interface reception unit 109 to select the second STB 113 as the preset channel next to the currently selected preset channel, The channel up processing routine is terminated. More specifically, the control unit 103 calculates a value obtained by adding “1” to the value stored in the NUM_TUNING 1510 of the memory unit 104, and uses the CEC line as the preset number of the preset selection message as the second number of the preset selection message. The data is transmitted to the STB 113, the calculation result is overwritten in the NUM_TUNING 1510, and the channel up processing routine is terminated.
[0168]
Step 1713
If the comparisons match in step 1711, the control unit 103 controls the channel selection unit 106 and the demodulation unit 107 to select the first channel of the television preset channel, and ends the channel up processing routine. More specifically, the control unit 103 retrieves the smallest value from DISP_NUM, which is a list of preset numbers of the television 100, and reads the selected channel number corresponding to the retrieval result from the DISP_CH 1502, which is a list of selected channel numbers of the television. The read channel selection channel number is set in the channel selection unit 106 and the demodulation unit 107, the minimum value of DISP_NUM1501 is overwritten in the NUM_TUNING 1510, and the channel up processing routine ends.
[0169]
Step 1714
The TV control unit 103 controls the selector unit 110 so that the video from the TV demodulator 107 is output to the TV display unit 111, and the DISP_INPUT_SEL 1514, which is an area for storing the state of the selector unit 110, A value “0” indicating that the input from the demodulator 107 is selected is overwritten, and the channel up processing routine is terminated.
[0170]
Next, the channel down processing routine in the third embodiment will be described with reference to FIG. This processing routine is started when the remote control receiving unit 105 of the television receives a channel down signal from the remote control 101 and the remote control receiving unit 105 outputs a channel down request to the control unit 103.
[0171]
Step 1801
When the television control unit 103 recognizes the channel down request, first, it is determined by checking the state of the selector unit 110 whether the television display unit 111 is currently displaying the video from the television demodulation unit 107. The state can be confirmed by comparing the value stored in DISP_INPUT_SEL 1514 of the memory unit 104 with the value “0”. If the comparisons match, it can be confirmed that the television display unit 111 is currently displaying an image from the television demodulation unit 107.
[0172]
Step 1802
If the comparisons in step 1801 match, it is confirmed whether the channel currently selected by the television channel selection unit 106 and the television demodulation unit 107 is currently selecting the first channel in the television preset channel list. In order to check the state, it is possible to compare the value stored in the NUM_TUNING 1510 of the memory unit 104 with the value “01”. If the comparisons match, it can be confirmed that the channel currently selected by the television channel selection unit 106 and the television demodulation unit 107 is the first channel in the television preset channel list.
[0173]
Step 1803
If the comparison does not match in step 1802, the control unit 103 controls the channel selection unit 106 and the demodulation unit 107 to select the preset channel immediately before the preset channel currently selected, and execute the channel down processing routine. finish. More specifically, the control unit 103 calculates a value obtained by subtracting “1” from the value stored in the NUM_TUNING 1510 of the memory unit 104, and searches the DISP_NUM1501 which is a list of preset numbers of the television 100 for searching. The channel selection channel number corresponding to the result is read from DISP_CH 1502 which is a list of the channel selection channel numbers of the television, the channel selection channel number read is set in the channel selection unit 106 and the demodulation unit 107, the calculation result is overwritten in the NUM_TUNING 1510, and the channel The down processing routine is terminated.
[0174]
Step 1804
If the comparisons match in step 1802, the control unit 103 controls the second digital interface reception unit 109 to select the last preset number of the second STB 113 and use the CEC line to select a preset selection message. Is transmitted to the second STB 113, and the NUM_TUNING 1510, which is a memory area for storing the preset number of the channel being selected, is overwritten with the maximum value of the preset number list of the second STB 113, MAX_EXT2_NUM1513.
[0175]
Step 1805
The TV control unit 103 controls the selector unit 110 so that the video from the second STB 113 is output to the TV display unit 111, and the DISP_INPUT_SEL 1514, which is an area for storing the state of the selector unit 110, stores the second image. The value “2” indicating that the input from the digital interface receiver is selected is overwritten, and the channel down processing routine is terminated.
[0176]
Step 1806
If the comparison does not match in step 1801, it is determined by checking the state of the selector unit 110 whether the display unit 111 of the television is currently displaying an image from the first digital interface receiver 108. The status can be confirmed by comparing the value “1” with the value stored in the DISP_INPUT_SEL 1514 of the memory unit 104. If the comparisons match, it can be confirmed that the display unit 111 of the television is currently displaying the video from the first digital interface receiver 108. If the comparison does not match, it can be confirmed that the display unit 111 of the television is currently displaying the video from the second digital interface receiving unit 109.
[0177]
Step 1807
If the comparisons match in step 1806, it is confirmed whether the channel currently selected by the first STB 112 is selecting the first channel in the preset channel list of the first STB 112. In order to check the state, it is possible to compare the value stored in the NUM_TUNING 1510 of the memory unit 104 with the value “01”. If the comparisons match, it can be confirmed that the channel currently selected by the first STB 112 is the first channel in the preset channel list of the first STB 112.
[0178]
Step 1808
If the comparison does not match in step 1807, the control unit 103 controls the first digital interface reception unit 108 to select the first STB 112 as the preset channel immediately before the preset channel currently selected. The channel down processing routine is terminated. More specifically, the control unit 103 calculates a value obtained by subtracting “1” from the value stored in the NUM_TUNING 1510 of the memory unit 104, and uses the CEC line as the preset number of the preset selection message as the first number of the preset selection message. The result is transmitted to the STB 112, the calculation result is overwritten in the NUM_TUNING 1510, and the channel down processing routine is terminated.
[0179]
Step 1809
If the comparisons match in step 1807, the control unit 103 controls the channel selection unit 106 and the demodulation unit 107, selects the last channel of the television preset channel, and ends the channel down processing routine. More specifically, the control unit 103 searches a maximum value from DISP_NUM that is a list of preset numbers of the television 100, and reads a channel selection channel number corresponding to the search result from a DISP_CH 1502 that is a list of channel selection channel numbers of the television. The read channel selection channel number is set in the channel selection unit 106 and the demodulation unit 107, the maximum value of DISP_NUM1501 is overwritten in the NUM_TUNING 1510, and the channel down processing routine is terminated.
[0180]
Step 1810
The TV control unit 103 controls the selector unit 110 so that the video from the TV demodulator 107 is output to the TV display unit 111, and the DISP_INPUT_SEL 1514, which is an area for storing the state of the selector unit 110, A value “0” indicating that the input from the demodulator 107 is selected is overwritten, and the channel down processing routine is terminated.
[0181]
Step 1811
If the comparison does not match in step 1806, it is confirmed whether the channel currently selected by the second STB 113 is selecting the first channel in the preset channel list of the second STB 113. In order to check the state, it is possible to compare the value stored in the NUM_TUNING 1510 of the memory unit 104 with the value “01”. If the comparisons match, it can be confirmed that the channel currently selected by the second STB 113 is the first channel in the preset channel list of the second STB 113.
[0182]
Step 1812
If the comparison does not match in step 1811, the control unit 103 controls the second digital interface reception unit 109 to select the second STB 113 as the preset channel immediately before the preset channel currently selected. The channel down processing routine is terminated. More specifically, the control unit 103 calculates a value obtained by subtracting “1” from the value stored in the NUM_TUNING 1510 of the memory unit 104, and uses the CEC line as the preset number of the preset selection message. The result is transmitted to the STB 113, the calculation result is overwritten in the NUM_TUNING 1510, and the channel down processing routine is terminated.
[0183]
Step 1813
If the comparisons match in step 1811, the control unit 103 controls the first digital interface reception unit 108 to select the last preset number of the first STB 112 and use the CEC line to select a preset selection message. To the first STB 112, and the NUM_TUNING 1510, which is a memory area for storing the preset number of the channel being selected, is overwritten with the maximum value of the preset number list of the first STB 113, MAX_EXT1_NUM1512.
[0184]
Step 1814
The TV control unit 103 controls the selector unit 110 so that the video from the first STB 112 is output to the TV display unit 111, and the DISP_INPUT_SEL 1514, which is an area for storing the state of the selector unit 110, stores the first. A value “1” indicating that the input from the digital interface receiver is selected is overwritten, and the channel down processing routine is terminated.
[0185]
As described above, according to Embodiment 3 of the present invention, when a plurality of devices such as STBs are connected to a television, information on the preset channels of the connected devices is acquired, and the device to which the television is connected is selected. By managing the station status collectively, it is possible to continuously switch the channel of the tuner built in the TV and the channels of each connected device using only the channel up button and the channel down button. In the third embodiment, the TV controls channel selection of an external device connected to the TV, but the external device may control channel selection and input switching of all the connected devices including the TV.
[0186]
【The invention's effect】
As described above, according to the present invention, in an environment where a plurality of devices such as STBs are connected to a television, the channels of all connected devices can be selected only by pressing the up / down channel selection button on the television remote control. Thus, there is an effect that the user does not have to perform the operation of pressing the input switching button of the television and the operation of the channel of the device connected to the remote controller other than the television.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a first embodiment according to the present invention.
FIG. 2 is a diagram showing a configuration of a first STB according to the first embodiment of the present invention.
FIG. 3 is a diagram showing a configuration of a second STB according to the first embodiment of the present invention.
FIG. 4 is a diagram showing an outline of the configuration of HDMI.
FIG. 5 is a diagram showing a configuration of a television remote control according to the first embodiment of the present invention;
FIG. 6 is a diagram showing a channel up processing routine by the television according to the first embodiment of the present invention;
FIG. 7 is a diagram showing a channel down processing routine by the television according to the first embodiment of the present invention;
FIG. 8 is a diagram showing a memory configuration of the first STB according to the first embodiment of the present invention;
FIG. 9 is a diagram showing a step / increment processing routine of the first STB according to the first embodiment of the present invention;
FIG. 10 is a diagram showing a step decrement processing routine of the first STB according to the first embodiment of the present invention;
FIG. 11 is a diagram showing a first STB preset selection processing routine according to the first embodiment of the present invention;
FIG. 12 is a diagram showing a configuration of a second embodiment according to the present invention.
FIG. 13 is a diagram showing a channel up processing routine by the television according to the second embodiment of the present invention;
FIG. 14 is a diagram showing a channel down processing routine by the television according to the second embodiment of the present invention;
FIG. 15 is a diagram showing a memory configuration of a television according to the third embodiment of the present invention.
FIG. 16 is a diagram showing a preset list download processing routine by the television according to the third embodiment of the present invention;
FIG. 17 is a diagram showing a channel up processing routine by the television according to the third embodiment of the present invention;
FIG. 18 is a diagram showing a channel down processing routine by the television according to the third embodiment of the present invention;
FIG. 19 is a diagram showing a configuration of a conventional example.
[Explanation of symbols]
100 TV
101 TV remote control
102 TV antenna
103 TV control section
104 TV memory
105 Remote control receiver for TV
106 TV selection
107 Demodulator of TV
108 The first digital interface part of TV
109 Second digital interface part of TV
110 TV selector
111 TV display
112 First STB
113 Second STB
114 digital cable
115 digital cable
200 First STB
201 Control section of the first STB
202 First STB memory section
203 First STB antenna
204 Tuner of the first STB
205 Demodulator of first STB
206 TS decoder section of the first STB
207 AV decoder section of the first STB
208 Digital interface transmitter
300 Second STB
301 Control part of second STB
302 Second STB memory section
303 Second STB antenna
304 Second STB tuner
305 Second STB demodulation unit
306 TS decoder section of the second STB
307 AV decoder section of second STB
308 Digital interface transmitter
401 HDMI digital interface transmitter
402 TMDS encoder
403 STB control
404 HDMI digital interface receiver for TV
405 TMDS decoder
406 TV control unit
407 CEC line
408 DDC line
500 remote control
501 Channel up button
502 Channel down button
800 STB1_NUM
801 STB1_CH
802 Preset channel list
803 STB1_TUNING
804 MAX_STB1_NUM
1201 Television control unit
1202 TV memory
1203 Television selector
1501 DISP_NUM
1502 DISP_CH
1503 Preset channel list of TV 100
1504 EXT1_NUM
1505 EXT1_CH
1506 First STB 112 preset channel list
1507 EXT2_NUM
1508 EXT2_CH
1509 Preset channel list of second STB 113
1510 NUM_TUNING
1511 MAX_DISP_NUM
1512 MAX_EXT1_NUM
1513 MAX_EXT2_NUM
1514 DISP_INPUT_SEL

Claims (3)

A video receiving system in which a broadcast receiver and an external broadcast receiver are connected using a digital interface,
The external broadcast receiver is
First transmission / reception means for transmitting / receiving data using the broadcast receiver and the digital interface;
First receiving means for receiving a broadcast signal;
First demodulation means for demodulating the broadcast signal received by the first reception means and outputting a transport stream;
First video and audio output means for extracting video data and audio data of a specific channel from the transport stream output by the first demodulating means, and outputting them as a digital video signal and a digital audio signal;
First storage means for storing a first preset channel list;
According to the channel up request received by the first transmission / reception means, it is determined whether or not the channel selection state of the first preset channel list is the state of selecting the last channel, and the first preset channel list When the channel selection state is a state of selecting the last channel , a predetermined message is transmitted to the first transmission / reception means, and the channel selection state of the first preset channel list is to select the last channel. If not , the first receiving means, the first demodulating means, and the first video / audio output means are controlled according to the first preset channel list, and the digital video signal and digital audio signal corresponding to the channel up request are controlled. And transmit the output digital video signal and digital audio signal to the first transmitting / receiving means. Comprising a first control means for the,
The broadcast receiver
Channel selection request receiving means for receiving the channel up request from the user;
Second transmission / reception means for transmitting / receiving data using the external broadcast receiver and the digital interface;
Second receiving means for receiving a broadcast signal;
Second demodulation means for demodulating the broadcast signal received by the second reception means and outputting a transport stream;
Second video / audio output means for extracting video data and audio data of a specific channel from the transport stream output by the second demodulating means, and outputting them as a digital video signal and a digital audio signal;
Second storage means for storing a second preset channel list and video input switching information;
Selecting means for outputting either the digital video signal and digital audio signal received by the second transmitting / receiving means or the digital video signal and digital audio signal output by the second video / audio output means;
A digital video signal corresponding to the first channel of the second preset channel list in accordance with the predetermined message and the video input switching information received by the second transmission / reception means and causing the second transmission / reception means to transmit the channel up request. And the digital audio signal and the digital audio signal output from the second video / audio output means to the selection means by controlling the second receiving means, the second demodulating means, and the second video / audio output means. And a second control means for outputting an audio signal . A broadcast receiver having a second preset channel list and an external broadcast receiver having a first preset channel list are connected using a digital interface, and the first preset channel list and the second preset channel list are successively connected by a channel up request. in manner selectable video receiving system, an external broadcast receiver for receiving the channel up request from the broadcast receiver,
First transmission / reception means for transmitting / receiving data using the broadcast receiver and the digital interface;
First receiving means for receiving a broadcast signal;
First demodulation means for demodulating the broadcast signal received by the first reception means and outputting a transport stream;
First video and audio output means for extracting video data and audio data of a specific channel from the transport stream output by the first demodulating means, and outputting them as a digital video signal and a digital audio signal;
A first storage means for storing the first preset channel list,
In accordance with the channel up request received by the first transmission / reception means, it is determined whether or not the channel selection state of the first preset channel list is the state of selecting the last channel, and the first preset channel list If the channel selection state is the state in which the last channel is selected , a predetermined message is transmitted to the first transmission / reception means, and the channel selection state in the first preset channel list selects the last channel. If not , the first receiving means, the first demodulating means, and the first video / audio output means are controlled according to the first preset channel list to control the digital video signal and digital audio corresponding to the channel up request. And outputting the output digital video signal and digital audio signal to the first transmitting / receiving means. External broadcast receiver, characterized in that it comprises a first control means for signal, a. A broadcast receiver having a second preset channel list and an external broadcast receiver having a first preset channel list are connected using a digital interface, and the first preset channel list and the second preset channel list are successively connected by a channel up request. In a video receiving system capable of selecting a channel, a broadcast receiver that receives a predetermined message or a digital video signal and a digital audio signal from the external broadcast receiver,
Channel selection request receiving means for receiving the channel up request from the user;
Second transmission / reception means for transmitting / receiving data using the external broadcast receiver and the digital interface;
Second receiving means for receiving a broadcast signal;
Second demodulation means for demodulating the broadcast signal received by the second reception means and outputting a transport stream;
Second video / audio output means for extracting video data and audio data of a specific channel from the transport stream output by the second demodulating means, and outputting them as a digital video signal and a digital audio signal;
Second storage means for storing a second preset channel list and video input switching information;
Selecting means for outputting either the digital video signal and digital audio signal received by the second transmitting / receiving means or the digital video signal and digital audio signal output by the second video / audio output means;
A digital video signal corresponding to the first channel of the second preset channel list according to the predetermined message and the video input switching information received by the second transmission / reception means and causing the second transmission / reception means to transmit the channel up request. And the digital audio signal and the digital audio signal output from the second video / audio output means to the selection means by controlling the second receiving means, the second demodulating means, and the second video / audio output means. And a second control means for outputting an audio signal .

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