JP3961328B2 - Reception method, receiver, and television receiver - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a receiving method, a receiver, and a television receiver that effectively execute power saving.
[0002]
[Prior art]
In general, while watching a television broadcast program at midnight, the television receiver may sleep while the power is on. In such a case, the television receiver remains turned on until the viewer (user) notices the end of the television broadcast even though the television broadcast is terminated. ing. As a result, power is wasted.
[0003]
By the way, in a television receiver that receives a terrestrial analog television broadcast signal, if the presence or absence of a television broadcast signal is detected, it is detected whether or not a channel that is not broadcasting (broadcast end channel) is selected. can do. For example, if the presence or absence of a synchronization signal of a video signal output from a tuner unit of a television receiver is monitored, it is easily detected whether or not a channel that is not broadcasting is being selected. Can do.
[0004]
Therefore, if it is detected that a channel that has not been broadcast has been selected for a predetermined time, power is supplied only to a portion (function) that must be operated at a minimum in the television receiver. In order to prevent wasteful power consumption, the supply of power to other parts is stopped.
[0005]
However, in the case of digital satellite broadcasting or analog satellite broadcasting, radio waves from the satellite are not interrupted even when the broadcasting of the television program ends, and for example, test signals and the like are often transmitted. Therefore, according to the same method as in the case of the terrestrial analog television broadcasting described above, the channel on which the television program is broadcast is distinguished from the channel on which the television program is not broadcast. I can't.
[0006]
In order to solve such a problem, for example, a technique described in Japanese Patent Laid-Open No. 2002-16854 is known (hereinafter referred to as a conventional example). In the conventional example, EIT (Event Information Table), which is program related information, is extracted from a digital satellite broadcast signal selected by a tuner using a demultiplexer, and this program related information is supplied to the control unit. The control unit monitors the program related information, and if the broadcast channel is not being broadcast for a predetermined time in the selected channel, the analog block control unit controls the power supply circuit. Thus, the power supply to the analog block is stopped (that is, transition to the power saving mode).
[0007]
As described above, in the conventional example, in digital satellite broadcasting or the like, when the program-related information is monitored and the broadcast channel is not broadcasted for a predetermined time or longer in the channel selection channel, the power saving mode is automatically set. The transition is made. Therefore, even if a channel that is not broadcasting a broadcast program is selected and the power is turned on, it automatically switches to the power saving mode, thus preventing unnecessary power consumption. Will be able to. Such a reception method is not limited to the television receiver, but can be adopted in other receivers.
[0008]
[Problems to be solved by the invention]
Since the conventional television receiver is configured as described above, for example, even if the user sleeps with the television receiver turned on, the power may be turned off unless the broadcast program ends. Absent. That is, if a channel that has been broadcast for 24 hours is selected without interrupting (not ending) the broadcast program, even if the user does not watch the broadcast program, such as sleeping. As long as a broadcast program is received, the power is not automatically turned off, resulting in a problem that power is wasted.
[0009]
The present invention has been made to solve the above-mentioned problems. When the state in which the viewer (user) does not watch the broadcast program continues, the mode shifts to the power saving mode regardless of the presence or absence of the broadcast program. It is an object of the present invention to obtain a receiving method, a receiver, and a television receiver that can reliably save power.
[0010]
[Means for Solving the Problems]
The receiving method according to the present invention comprises at least one channel, each having a broadcast program, and selecting a target channel as a selected channel from a selected broadcast signal having program-related information related to the broadcast program. Channel selection step, extraction step of extracting the program related information from the selected broadcast signal, and switching of the broadcast program in the channel selection channel based on the program related information extracted in the extraction step. A monitoring step of monitoring to obtain the number of times of switching and a power saving mode switching step of shifting from the reception mode to the power saving mode when the number of times of switching reaches a predetermined number of times of switching.
[0011]
The receiving method according to the present invention executes the power saving mode switching step when the channel selection channel is determined in the receiving mode.
[0012]
In the receiving method according to the present invention, the monitoring step is defined in advance by an input operation determining step for determining whether or not a predetermined input operation has been performed in the reception mode, and a selection channel when it is determined that there is no input operation. An event occurrence determination step for determining whether or not an event has occurred, and when it is determined that the event has occurred, the event counts up as the switching of the broadcast program in the selected channel, and the number of switching times And a count-up step.
[0013]
A receiver according to the present invention includes at least one channel, has a broadcast program for each channel, and receives a plurality of broadcast signals having program-related information related to the broadcast program, and receives one of the plurality of broadcast signals. Broadcast signal selection means for selecting a channel selection broadcast signal, channel selection for selecting a target channel from the channel selection broadcast signal as a channel selection channel, and extracting the program related information from the channel selection broadcast signal. Station means, monitoring means for monitoring the switching of the broadcast program in the channel selection channel based on the program related information extracted by the channel selection means, and obtaining the number of switching times; And a control means for controlling the transition from the reception mode to the power saving mode when the predetermined number of switching times is reached.
[0014]
In the receiver according to the present invention, the number of times of switching is changed according to a switching number change command in which the control means changes a predetermined number of times of switching.
[0015]
The receiver according to the present invention is characterized in that the broadcast signal is a digital broadcast signal and the program-related information is electronic program guide information multiplexed on the digital broadcast signal.
[0016]
The receiver according to the present invention includes output means for outputting a broadcast program provided on a channel selection channel, and the control means stops power supply to the output means in the power saving mode.
[0017]
The television receiver according to the present invention includes at least one channel, has a broadcast program for each channel, receives a plurality of broadcast signals having program-related information related to the broadcast program, and among the plurality of broadcast signals, Broadcast signal channel selection means for selecting one as a selected broadcast signal, and selecting a target channel from the selected broadcast signal as a selected channel and extracting the program related information from the selected broadcast signal A channel selection unit, a monitoring unit that monitors the switching of the broadcast program in the channel selection channel based on the program-related information extracted by the channel selection unit, and obtains the number of switchings, and the channel selection channel Display means for displaying a video relating to the broadcast program provided in the screen, and a switch with a predetermined number of times of switching. When the number of times, in which a control means for stopping controlling the power supply to the display means.
[0018]
The television receiver according to the present invention is characterized in that the broadcast signal is a digital broadcast signal and the program-related information is electronic program guide information multiplexed on the digital broadcast signal.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described below.
Embodiment 1 FIG.
Here, a television receiver (hereinafter referred to as a digital television receiver) that receives a digital satellite broadcast by adopting a transmission frame format in the MPEG system called a TS format will be described as an example of the receiver. Note that the TS format digital broadcast signal is so-called time-division multiplexed by packetizing video data and audio data of a plurality of broadcast programs and various digital data related to broadcasting into one broadcast signal. Therefore, in the case of digital television broadcasting, a digital broadcast signal (RF channel) including a channel for broadcasting a target television broadcast program is selected, and a channel for broadcasting a target broadcast program is selected. Thus, data relating to the target broadcast program is extracted from the digital broadcast signal. As a result, the user can view the target broadcast program. Therefore, in the following description, when simply referring to a channel, it means a unit for selecting a broadcast program, and when selecting a channel, not only the selection of a digital broadcast signal but also the selection and purpose of a digital broadcast signal. And selecting (selecting) a broadcast program.
[0020]
1 is a block diagram showing a configuration of a digital television receiver (hereinafter simply referred to as a television receiver) according to Embodiment 1 of the present invention. In the figure, 1 is a receiving antenna, 2 is a digital tuner (hereinafter simply referred to as a tuner), 3 is a descrambling unit, 4 is a demultiplexer, 5 is a decoding unit including a video signal decoder 5a and an audio signal decoder 5b, 6 Is an OSD (On Screen Display) processing unit, 7 is a video signal processing unit, 8 is a DEF (Defection) processing unit, 9 is a display, 10 is an audio signal processing unit, and 11 is a speaker. The tuner 2 is connected to the satellite broadcast receiving antenna 1, and the OSD processing unit 6, the video signal processing unit 7, the DEF processing unit 8, the display 9, the audio signal processing unit 10, and the speaker 11 are analog blocks (output means). ) 6a.
[0021]
Further, the illustrated television receiver includes a control unit (digital control unit) 100, a clock circuit (not shown), a remote control interface unit (hereinafter abbreviated as a remote control I / F unit) 22, a remote control signal light receiving unit (light receiving unit). ) 23, an analog block control unit 25, and a power supply circuit 26, and power is supplied from the power supply circuit 26 to the analog block 6 a. The analog block control unit 25 is connected to the control unit 100 via an interface (hereinafter abbreviated as I / F) 24, and the analog block control unit 25 is controlled by the control unit 100 as described later.
[0022]
The control unit (control means and monitoring means) 100 includes a CPU 101, ROM 102, RAM 103, and EEPROM (Electrically Erasable Programmable ROM) 104, and these CPU 101, ROM 102, RAM 103, and EEPROM 104 are connected via a CPU bus 105. (That is, the control unit 100 is a microcomputer). The control unit 100 controls the television receiver itself.
[0023]
The ROM 102 stores a processing program executed in the television receiver, necessary data, and the like, and the RAM 103 is mainly used as a work area for temporarily storing an intermediate result of the executed processing. Further, as will be described later, the RAM 103 is also used as an area for storing the number of switching times of a program related to the channel currently being viewed in the power saving mode switching process (power saving mode switching process). The EEPROM 104 is a memory for storing various parameter information set by the user, and is a so-called nonvolatile memory in which the stored parameter information does not disappear even when the television receiver is turned off. .
[0024]
In addition, a remote commander (hereinafter abbreviated as “remote control”) 30 is a remote control device for a television receiver, and transmits an infrared remote control signal in accordance with a user input operation. The remote control 30 is provided with a power on / off key, a channel key for channel selection, a channel up / down key, a volume up / down key, and various other function keys. In response to a key operation (input operation) by the user, an infrared remote control signal transmitted from the remote control 30 is received by the remote control signal light receiving unit 23 and converted into an electric signal, and then via the remote control I / F unit 22. To the control unit 100. Thus, the control unit 100 controls each unit (each function) of the television receiver according to the remote control signal. For example, the control unit 100 performs various controls such as power on / off, channel selection, or volume control according to user key operations.
[0025]
Although not shown, the main body of the television receiver is provided with a main power on / off button switch. If the main power is turned on by turning on the main power on / off button switch, the control unit 100 and the like The power is supplied to the minimum necessary part (function) of the TV receiver, and the television receiver enters a so-called standby mode (standby state) in which the television receiver is waiting. In the standby mode, the remote controller 30 can be used to turn on / off the power supply (drive power supply) at a position away from the television receiver. As a result, when the television receiver receives a remote control signal for requesting power-on from the remote controller 30 in the standby state, drive power is supplied to the analog block 6a and the like. After the drive power is turned on, the remote controller 30 can perform various operations such as channel switching and volume adjustment.
[0026]
As described above, when the main power is turned on, power is supplied to the minimum necessary parts such as the control unit 100 to enter the standby mode, and when the drive power is turned on, all parts including the analog block 6a function. Thus, the television receiver can receive and select the digital broadcast signal and watch the target broadcast program (reception mode). That is, when the drive power is turned on by the remote controller 30 after the main power is turned on, the television receiver performs reception of a digital satellite broadcast signal, channel selection processing, and the like as described later, Enable viewing. That is, a digital satellite broadcast signal in TS format (hereinafter simply referred to as a satellite broadcast signal) received by the satellite broadcast receiving antenna 1 is given to the tuner 2.
[0027]
Next, the operation will be described.
The tuner 2 (broadcast signal channel selection means) selects and demodulates one of a plurality of satellite broadcast signals based on the channel selection control signal provided from the control unit 100, and de-scrambles the demodulated satellite broadcast signal. Give to part 3. Note that the above-described channel selection control signal is generated in the control unit 100 in accordance with a user key operation, that is, a channel channel selection input operation or the like.
[0028]
In the descrambling unit 3, for example, key information for decryption is provided from the control unit 100, and the scramble processing (encryption processing) applied to the received satellite broadcast signal is decrypted (released). Thus, the demodulated satellite broadcast signal after decoding the scramble (hereinafter referred to as a decoded satellite broadcast signal) is applied to the demultiplexer 4.
[0029]
As described above, the satellite broadcast signal is a TS format signal, video data and audio data of a plurality of broadcast programs, various digital data related to broadcasting, and digital data for forming an electronic program guide called EPG. Are packetized and so-called time-division multiplexed, and a plurality of broadcast programs and various information can be provided by one satellite broadcast signal. A PID (packet ID: packet identifier) is added to each packet, whereby the television receiver separates and extracts the target packet from the satellite broadcast signal.
[0030]
The demultiplexer 4 (channel selection means) decodes the video data and audio data of the broadcast program broadcast on the channel selected by the user based on the channel selection control signal given from the control unit 100, that is, the satellite. The video data and audio data are extracted from the broadcast signal and supplied to the decoding unit 5.
[0031]
At this time, the demultiplexer 4 extracts various data relating to broadcasting and data for forming an EPG from the decoded satellite broadcast signal, and supplies these data to the control unit 100. In the illustrated example, information (data) given from the demultiplexer 4 to the control unit 100 includes NIT (Network Information Table), PAT (Program Association Table), PMT (Program Map Table), and EIT (Event Information Table). ) Etc.
[0032]
The NIT indicates physical information regarding the transmission path, and includes information regarding the orbit of the satellite, information regarding polarization, information regarding the frequency of each transponder (satellite repeater), and a broadcast program ( Program) information indicating the number. The PID (packet ID: packet identifier) of the NIT itself is specified by the PAT, and the broadcast program number corresponds to the channel selected by the user.
[0033]
The PAT indicates the PID of the PMT that transmits information of packets constituting the broadcast program for each broadcast program number. As the PID of the PAT itself, for example, PID = “0” is fixedly assigned. The PMT indicates the PID of a packet in which a stream such as video, audio, and additional data constituting the broadcast program is transmitted for each broadcast program number. The PID of the PMT itself is specified by PAT.
[0034]
When the user selects a channel that broadcasts a target broadcast program, the NIT information identifies a transponder that broadcasts a satellite broadcast signal including the selected channel. Accordingly, as described above, the control unit 100 generates a channel selection control signal so as to select a satellite broadcast signal from the identified transponder, and provides the channel selection control signal to the tuner 2 for the purpose. The satellite broadcast signal including the channel is selected.
[0035]
On the other hand, a PMT indicating a packet PID of video data and audio data constituting a broadcast program provided by a channel selected by the user is specified by the PAT information. Then, based on the specified PMT, the control unit 100 generates a channel tuning control signal and gives this channel tuning control signal to the demultiplexer 4. The video data and audio data of the broadcast program to be played are separated and extracted from the decoded satellite broadcast signal.
[0036]
The EIT indicates information for generating an EPG such as a channel number, a channel name, a program start time, and a program end time. By this EIT, an EPG having a time axis and a channel axis can be generated, and a channel on which a user is broadcasting a target broadcast program can be quickly searched with reference to the EPG to select a channel.
[0037]
Furthermore, based on the EIT, as will be described later, it is possible to reliably detect whether or not a broadcast program is being broadcast on the selected channel. That is, in a television receiver, EIT is used as program related information.
[0038]
In this television receiver, the ES (Elementary Stream) of the broadcast program that is separated and extracted by the demultiplexer 4, that is, the video data and audio data of the target broadcast program are encoded in MPEG format. The data is compressed by the conversion method.
[0039]
Therefore, the decoding unit 5 is configured to be able to process video data and audio data by decompressing (compressing / decompressing) them. That is, as shown in FIG. 1, the decoding unit 5 includes a video signal decoder 5a and an audio signal decoder 5b, and the decoding unit 5 decompresses video data and audio data according to a predetermined encoding method. Thus, the original digital video data before data compression and the original digital audio data before data compression are restored.
[0040]
The decoding unit 5 performs D / A conversion (digital / analog conversion) on the restored digital video data to generate an analog video signal, and provides the analog video signal to the OSD processing unit 6. Further, the decoding unit 5 performs D / A conversion on the restored digital audio data, generates an analog audio signal, and provides the analog audio signal to the audio signal processing unit 10.
[0041]
The OSD processing unit 6 performs video signal processing in accordance with data given from the control unit 100 and displays an EPG and various messages. The OSD processing unit 6 is a so-called text / graphic processing circuit for displaying information such as characters other than video of a broadcast program, for example. For example, when displaying a character (channel display) indicating a channel selected according to an instruction from the user and a volume bar indicating a volume level, data (information) for displaying the character and the volume bar is displayed. Is supplied from the control unit 100 to the OSD processing unit 6. Then, the OSD processing unit 6 superimposes the channel display and the volume bar display on the analog video signal, and provides them to the video signal processing unit 7 as a superimposed analog video signal.
[0042]
In addition, when the EPG is displayed in accordance with an instruction (input operation) from the user, information for forming the EPG is given from the control unit 100 to the OSD processing unit 6. Then, the OSD processing unit 6 generates an EPG video signal for displaying an EPG, and this EPG video signal is given to the video signal processing unit 7.
[0043]
In the video signal processing unit 7, a signal in a format to be supplied from an analog video signal (including a superimposed analog video signal or the like) to the display 9, for example, three primary colors of R (red), G (green), and B (blue) A signal is formed, and the three primary color signals are given to the display 9. The display 9 is a CRT (Cathode-Ray Tube) display, for example, and displays an image corresponding to the three primary color signals on the screen. As a result, an image related to the broadcast program broadcast on the channel selected by the user is displayed on the display 9. The DEF processing unit 8 generates a deflection signal based on the video synchronization signal, and applies this deflection signal to the deflection yoke of the display 9. As a result, the display 9 scans the electron beam to display an image.
[0044]
On the other hand, the audio signal processing unit 10 amplifies the analog audio signal to a required level and supplies it to the speaker 11 as an audio amplified signal. As a result, the sound of the broadcast program broadcast on the channel selected by the user is output from the speaker 11.
[0045]
In this manner, the television receiver receives and selects a satellite broadcast signal, separates and extracts a target broadcast program from the selected satellite broadcast signal, and plays back the target broadcast program. Can be watched.
[0046]
In this television receiver, when the control unit 100 monitors EIT information extracted by the demultiplexer 4 and detects switching of two or more programs in the selected channel, a power supply circuit 26 is provided with an auto-shutdown function for stopping the power supply to the analog block 6a, thereby preventing wasteful consumption of power. In other words, as described above, this television receiver includes the RAM 103 that stores the number of program switching times in the selected channel, and when the number of program switching times is equal to or greater than a predetermined number of switching times, The control unit 100 controls the analog block control unit 25 via the I / F 24. The analog block controller 25 controls the power supply circuit 26 to control (stop) the power supply to the analog block 6a.
[0047]
In the above-described example, the analog block 6a is a part that processes an analog video signal and an analog audio signal. The OSD processing unit 6, the video signal processing unit 7, and the DEF processing unit surrounded by a dotted line in FIG. 8, a display 9, an audio signal processing unit 10, and a speaker 11.
[0048]
Next, the power saving mode in the television receiver shown in FIG. 1 will be described.
[0049]
Referring to FIGS. 1 and 2, when the main power is turned on, control unit 100 waits until a remote control signal instructing to turn on the drive power is provided from remote controller 30 (step ST101). If it is determined in step ST101 that a remote control signal for instructing to turn on the drive power is received from the remote controller 30, the control unit 100 supplies power to all circuit parts including the analog block 6a. Then, the control unit 100 selects a channel that has been selected until immediately before the power is turned off by the so-called last channel memory function (step ST102).
[0050]
Next, when the control unit 100 determines whether or not there is an input operation (key operation) from the remote controller 30 (step ST103) and determines that there is no channel selection input operation from the remote controller 30, it will be shown in FIG. Proceeding to step ST110, a power saving mode switching routine is executed.
[0051]
On the other hand, when it is determined in step ST103 that there is an input operation from the remote controller 30, the control unit 100 determines whether or not this input operation indicates channel selection, that is, the input operation indicates channel change. (Step ST104). If it is determined in step ST104 that the input operation does not instruct channel selection, control unit 100 determines whether or not the input operation instructs to turn off the drive power of the television receiver. (Step ST105).
[0052]
If it is determined in step ST105 that the input operation is an instruction to turn off the drive power supply, the control unit 100 performs an end process such as stopping the power supply to the analog block 6a or the like (step ST106). It becomes standby mode. Thereafter, the control unit 100 repeats the processing from step ST101.
[0053]
On the other hand, if it is determined in step ST105 that the input operation input does not instruct to turn off the drive power supply, the control unit 100 performs processing corresponding to the input operation, for example, adjustment of volume and / or image quality, Processing such as channel display is performed (other processing: step ST107), and the process proceeds to step ST113 shown in FIG. 2 to be described later, and a power saving mode switching routine is executed.
[0054]
If it is determined in step ST104 that the input operation is an instruction to select a channel, the control unit 100 first includes a channel to be selected based on the NIT that is separated and extracted from the received satellite broadcast signal. A transponder that transmits a satellite broadcast signal is searched (step ST108). Then, based on the search result searched in step ST108, control unit 100 controls tuner unit 2 so as to select the target transponder. Then, the control unit 100 searches for the PAT separated and extracted by the demultiplexer 4 from the satellite broadcast signal received from the transponder (step ST109), and separates the PMT related to the target channel based on the PID in the PAT. Extract (step ST110).
[0055]
The control unit 100 controls the demultiplexer 4 based on the extracted PMT information. The demultiplexer 4 extracts an ES (Elementary Stream) of a target channel, that is, video data and audio data of a broadcast program provided by the channel, and the extracted ES is a decoder unit as described above. 5, decompression processing and D / A conversion are performed, and an analog video signal is given to the display 9 through the OSD processing unit 6 and the video signal processing unit 7, and an analog audio signal is sent through the audio signal processing unit 10. It is given to the speaker 11. As a result, the broadcast program broadcast by the selected channel can be viewed (step ST111).
[0056]
Next, the control unit 100 controls the demultiplexer 4 to separate and extract the EIT from the transponder selected by the demultiplexer 4 (step ST112), and executes a power saving mode switching routine to be described later (Step ST113). Thereafter, the control unit 100 determines whether or not the power saving mode is set (step ST114), and when the power saving mode is set, the processing from step ST101 shown in FIG. 2 is repeated. If the control unit 100 determines in step ST114 that the power saving mode is not set, the process from step ST103 shown in FIG. 2 is repeated.
[0057]
As described with reference to FIG. 2, in the television receiver shown in FIG. 1, when the main power is turned on and the standby mode is set, and the drive power is turned on according to an instruction from the remote controller 30, the satellite broadcast signal is transmitted. The power saving mode switching routine is always executed until the channel selection and the channel for broadcasting the target broadcast program are selected and the drive power of the television receiver is turned off.
[0058]
As will be described below, the power saving mode switching routine stops power supply to the analog block 6a when the switching of the program more than a predetermined number of times is detected in the selected channel, thereby saving power. Transition to mode to prevent wasteful power consumption.
[0059]
FIG. 3 is a flowchart for illustrating the power saving mode switching routine executed in step ST113 in the main routine shown in FIG. Referring to FIG. 3, in the power saving mode switching routine, control unit 100 first sets the current program switching frequency to “0” (initial value), and sets this initial value as the program switching frequency n in RAM 103. Hold (step ST201).
[0060]
Next, control unit 100 determines whether or not there is an input operation from remote controller 30 (step ST202). If it is determined in step ST202 that there is an input operation, the control unit 100 omits (does not perform) the power saving mode switching process, returns to the main routine, and performs the process from step ST103 shown in FIG.
[0061]
On the other hand, if it is determined in step ST202 that there is no input operation, the control unit 100 determines the event (selection) at the current channel in the currently selected channel based on the latest EIT information extracted by the demultiplexer 4. In the channel in the station, it is determined whether or not a program change, video display format change, audio output format change, data browser activation instruction, and the like have occurred (step ST203).
[0062]
As described above, the EIT is information for generating an EPG such as a channel number, a channel name, a program start time, and a program end time. By referring to this EIT, the currently selected channel is selected. Therefore, it is possible to reliably determine whether or not an event has occurred in the broadcast program selected at the present time. If it is determined in step ST203 that no event has occurred in the currently selected broadcast program in the currently selected channel, the process is repeated from step ST202 shown in FIG. On the other hand, if it is determined in step ST203 that an event has occurred in the currently selected broadcast program by the currently selected channel, the control unit 100 determines whether the generated event is a program switch. Judgment is made (step ST204).
[0063]
If it is determined in step ST204 that the generated event is not a program change, the control unit 100 performs other processing such as changing the video display format, changing the audio output format, etc. (step ST205), and then, FIG. The process is repeated from step ST202 shown.
[0064]
On the other hand, when it is determined in step ST204 that the broadcast program has been switched in the selected channel, the control unit 100 performs an operation represented by n = n + 1 (step ST206).
[0065]
Next, the control unit 100 determines whether or not the integer n is smaller than a predetermined number of times (number of times of switching) Noff (step ST207). In step ST207, it is detected whether or not the number n of program switching in the selected channel has exceeded a predetermined number Noff. That is, the predetermined number Noff is a value for determining whether or not to switch to the power saving mode, and is an arbitrary numerical value such as 1, 2 or the like.
[0066]
FIG. 4 is a diagram for explaining the relationship between the predetermined number Noff and the program switching number n. As shown in FIG. 4, the program switching frequency n of the selected channel is counted up every time the program is switched, and when the program switching frequency n becomes a predetermined number Noff, FIG. Is turned on (step ST208). That is, if the program table of the selected channel changes as shown in FIG. 4A, as shown in FIG. 4A, the program A1, the program A2, the program A3,..., The program ANoff + 2, the program A1 At the time, the number of switchings is n = 0. Then, when the broadcast program is switched to the program A2, “1” is counted up, and the number of times of switching is n = 1. Further, when the broadcast program is switched to the program A3, “1” is counted up, and the number of times of switching becomes n = 2. In this way, every time a broadcast program is switched, “1” is counted up. For example, when the broadcast program becomes the program ANoff + 2, the number of switchings becomes n = Noff + 1. Then, when the number of switching times n = Noff + 1, the power saving mode is turned on (see FIG. 4C).
[0067]
By the process of step ST208, the analog block control unit 25 controls the power supply circuit 26 to stop the power supply to the analog block 6a. This shifts to the power saving mode. Here, the power saving mode is a state in which the main power is turned on and waiting for reception of a remote control signal instructing to turn on the driving power from the remote controller 30, and is the same state as the standby mode described above.
[0068]
Therefore, in the illustrated example, after entering the power saving mode, the process from step ST101 of the main routine shown in FIG. 2 is performed to wait for an input operation instructing the user to turn on the drive power. Become.
[0069]
In this manner, in the illustrated television receiver, the tuner 2 functions as broadcast signal channel selection means, the demultiplexer 4 functions as channel channel selection means, the control unit 100 functions as monitoring means and control means, and these means cooperate. When the program switching in the selected channel reaches a predetermined number of times (the number of switching times), the power supply to the analog block 6a is stopped, and unnecessary power consumption is surely prevented.
[0070]
Further, in the illustrated example, when the power saving mode is set, the power supply to the analog block 6a shown in FIG. 1 is stopped. However, the present invention is not limited to such a power supply stop. Only the supply of power to 9 may be stopped, and further, the main power supply may be turned off.
[0071]
Further, the predetermined number of times (number of switching times) Noff is predetermined on the manufacturer side and set in the EEPROM 104 or the like, for example. This predetermined number of times Noff can be any number such as 1, 2, 3, and the like. Then, a predetermined number of times (setting switching number) Noff may be set or changed by the remote controller 30. That is, when a command for changing the number of setting switching is given from the remote controller 30, the control unit 100 changes the number of setting switching to the number of switching corresponding to this command. Further, whether or not to use the auto shutdown function may be set by the user using the remote controller 30 or the like.
[0072]
In the above example, a television receiver that receives digital satellite broadcasting has been described. For example, a receiver called STB (Set-Top Box), IRD (Integrated Receiver Decoder), etc., and a broadcast signal receiving function are provided. The above-described method can also be used for various electronic devices having a receiving function such as a VTR (video tape recorder) and a DVD recording / reproducing device having a broadcasting signal receiving function.
[0073]
Furthermore, as an example of the receiver, for example, a receiver that does not include at least the display 9 in the television receiver illustrated in FIG. 1 (and may not include the speaker 11) may be considered. Also in the case of the receiver, when the power saving mode is set, a power source for a circuit portion that processes the analog video signal and the analog audio signal, for example, the OSD processing unit, the video signal processing unit, the audio signal processing unit, and the like. What is necessary is just to stop supply. In other words, when the power saving mode is set, power is supplied only to the minimum necessary circuit parts such as a control unit that manages the standby mode, and power is not supplied to the other circuit parts. In addition, the processing performed in the receiver may be performed in the same manner as the processing described with reference to FIGS. 2 and 3, and the above-described reception method is applied to both the television receiver and the receiver. be able to. Of course, in the case of the receiver, when the power saving mode is set, all the power supplies may be stopped.
[0074]
As described above, according to the first embodiment, one of a plurality of broadcast signals is selected as a channel selection broadcast signal, and a target channel is selected as a channel selection channel from the channel selection broadcast signal. The program related information is extracted from the selected broadcast signal as the extracted program related information, and the switching frequency of the broadcast program in the selected channel is monitored based on the extracted program related information, and the number of switching is obtained. Since the transition from the reception mode to the power saving mode is made when the predetermined number of switching times is reached, even if the viewer (user) does not watch the broadcast program in the channel selection channel, If the number of times is changed in advance, the power saving mode can be set regardless of whether there is a broadcast program, and the power consumption can be surely reduced.
[0075]
【The invention's effect】
As described above, according to the present invention, the program related information is extracted from the selected broadcast signal as the extracted program related information, and the switching of the broadcast program in the selected channel is monitored based on the extracted program related information. When the number of switching is obtained and the number of switching reaches a predetermined number of switching, the mode shifts from the reception mode to the power saving mode, so even if the state in which the viewer (user) does not watch the broadcast program continues, There is an effect that power saving can be achieved regardless of the presence or absence of broadcast programs.
[0076]
According to the present invention, since the channel selection channel is determined in the reception mode and then the mode is shifted to the power saving mode, the user does not view the broadcast program while determining the target channel and viewing the desired broadcast program. Even when the state is shifted to the state, when the broadcast program is switched, there is an effect that the power saving mode can be achieved by automatically shifting to the power saving mode.
[0077]
According to the present invention, when executing the power saving mode, it is determined whether or not a predetermined input operation has been performed during the reception mode, and if it is determined that there is no input operation, has a predetermined event occurred in the selected channel? When it is determined that an event has occurred, if this event is a broadcast program switch on the selected channel, it counts up to determine the number of switchings, so it is possible to reliably detect a broadcast program switch. There is an effect that can be done.
[0078]
According to the present invention, since the predetermined switching frequency is set as the setting switching frequency and the setting switching frequency is changed according to the switching frequency changing command for changing the setting switching frequency, the user needs There is an effect that the number of times of switching the setting can be changed according to.
[0079]
According to the present invention, since the broadcast signal is a digital broadcast signal and the program-related information is electronic program guide information multiplexed on the digital broadcast signal, power saving is ensured even in satellite broadcasting. There is an effect that can be.
[0080]
According to the present invention, in the power saving mode, the power supply to the output unit that outputs the broadcast program provided on the selected channel is stopped, so that it is possible to effectively save the power.
[0081]
According to the present invention, when the number of times of switching reaches a predetermined number of times of switching, the power supply to the display unit that displays the video related to the broadcast program is stopped, so that it is possible to effectively save power. There is.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a television receiver according to Embodiment 1 of the present invention.
FIG. 2 is a flowchart for explaining a main routine executed by the television receiver shown in FIG.
FIG. 3 is a flowchart for explaining a power saving mode switching routine executed by the television receiver shown in FIG. 1;
FIGS. 4A and 4B are diagrams for explaining the relationship between a predetermined number of times of switching and the number of times of program switching, wherein FIG. 4A is a diagram showing a program table of a selected channel, and FIG. FIG. 4C is a diagram showing ON / OFF of the power saving mode.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Satellite broadcasting receiving antenna, 2 Digital tuner, 3 De-scramble part, 4 De multiplexer, 5 Decoding part, 6 OSD processing part, 7 Video signal processing part, 8 DEF processing part, 9 Display, 10 Audio signal processing part , 11 speakers, 22 remote control interface unit (remote control I / F unit), 23 remote control signal light receiving unit (light receiving unit), 24 interface (I / F), 25 analog block control unit, 26 power supply circuit, 100 control unit, 101 CPU, 102 ROM, 103 RAM, 104 EEPROM, 105 bus.

Claims (9)

A channel selection step of selecting a target channel as a selected channel from a selected broadcast signal having at least one channel and having a broadcast program for each channel and having program-related information related to the broadcast program;
An extraction step of extracting the program related information from the channel selection broadcast signal;
Based on the program related information extracted in the extraction step, a monitoring step of monitoring the switching of the broadcast program in the selected channel and obtaining the number of switching,
And a power saving mode switching step of shifting from the reception mode to the power saving mode when the number of times of switching reaches a predetermined number of times of switching. 2. The reception method according to claim 1, wherein when a channel selection channel is determined in the reception mode, a power saving mode switching step is executed. The monitoring step includes an input operation determination step for determining whether or not a predetermined input operation has been performed during the reception mode, and whether or not an event predefined in the selected channel has occurred when it is determined that there is no input operation. An event occurrence determination step for determining, and a count-up step for counting up that the event is a switching of the broadcast program in the selected channel and determining the number of switching when it is determined that the event has occurred The receiving method according to claim 1. At least one channel is provided, each of the channels has a broadcast program, receives a plurality of broadcast signals having program-related information related to the broadcast program, and selects one of the plurality of broadcast signals as a selected broadcast signal Broadcast signal tuning means;
Channel selection means for selecting a target channel from the channel selection broadcast signal as a channel selection channel and extracting the program related information from the channel selection broadcast signal;
Monitoring means for monitoring the switching of the broadcast program in the channel selection channel to obtain the number of switching based on the program related information extracted by the channel tuning means;
And a control unit configured to control the shift from the reception mode to the power saving mode when the number of switching times is a predetermined number of switching times. 5. The receiver according to claim 4, wherein the control means changes the switching number in response to a switching number change command for changing a predetermined switching number. 5. The receiver according to claim 4, wherein the broadcast signal is a digital broadcast signal, and the program related information is electronic program guide information multiplexed on the digital broadcast signal. An output means for outputting a broadcast program provided by a channel selection channel;
5. The receiver according to claim 4, wherein the control means stops power supply to the output means in the power saving mode. It has at least one channel, has a broadcast program for each channel, receives a plurality of broadcast signals having program-related information related to the broadcast program, and selects one of the plurality of broadcast signals as a selected broadcast signal Broadcast signal channel selection means,
Channel selection means for selecting a target channel from the channel selection broadcast signal as a channel selection channel and extracting the program related information from the channel selection broadcast signal;
Monitoring means for monitoring the switching of the broadcast program in the channel selection channel to obtain the number of switching based on the program related information extracted by the channel tuning means;
Display means for displaying video relating to the broadcast program provided on the channel selection channel;
A television receiver comprising control means for controlling to stop power supply to the display means when the number of times of switching reaches a predetermined number of times of switching. 9. The television receiver according to claim 8, wherein the broadcast signal is a digital broadcast signal, and the program related information is electronic program guide information multiplexed on the digital broadcast signal.

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