1. Field of the Invention
The present invention relates to a broadcast receiver for receiving airwaves of a predetermined channel sent from plural broadcast stations by a directional switching antenna.
2. Description of the Related Art
In Japan, airwaves of television broadcasts etc. are generally sent from a base station of one place. As a result of that, almost all the airwaves sent by plural broadcast stations can be received by directing an antenna for broadcast receiving to the base station and fixing the antenna to a roof or a veranda, etc. of a house and connecting the antenna to a broadcast receiver through a cable. On the other hand, for example, in the U.S.A., airwaves are individually sent from plural broadcast stations, respectively. As a result of that, when an antenna is directed at one place and is fixed, airwaves of the broadcast station located in a direction in which the antenna is directed can be received, but airwaves of the broadcast station located in a direction in which the antenna is not directed cannot be received.
Therefore, it is necessary to switch directivity of an antenna in plural directions in order to receive radio waves from plural broadcast stations located in different bearings by one antenna. An antenna capable of switching such directivity (hereinafter called “a directional switching antenna”) is described in, for example, JP-A-2001-160773 (Paragraphs 0014 to 0017, FIG. 1), JP-A-5-232205 (Paragraphs 0009 to 0018, FIG. 4) and JP-A-56-17536 (Page 5, Line 5 of the upper left field to Page 5, Line 12 of the lower right field), mentioned below. The directional switching antenna is constructed of plural antenna elements and phase shifters, etc. corresponding to each of the antenna elements, and directivity is electrically varied by adjusting phases of signals received in each of the antenna elements by each of the phase shifters and combining the phases. For example, in a smart antenna which is one example of the directional switching antenna, it is stipulated that directivity should be switched in 16 directions.
In the case of using such a directional switching antenna, airwaves from each of the broadcast stations can be received by sending a control signal from a broadcast receiver to the antenna and switching directivity of the antenna in a predetermined direction. As a result of this, a user can receive almost all the airwaves sent from plural broadcast stations interspersed even when the directional switching antenna is fixed and attached to a roof etc. of a house.
Control methods of the directional switching antenna are shown in JP-A-2001-160773, JP-A-5-232205 and JP-A-56-17536. In JP-A-2001-160773, it is constructed so that a load on a phase shifter is reduced to decrease a failure rate by performing control in which frequency of a beam oriented direction in which a received signal becomes a maximum level is counted and the beam oriented direction is fixed in a direction with the largest frequency to conduct communication and when the communication is blocked, the beam oriented direction is switched in a direction with the second largest frequency to conduct communication and when the communication is blocked, the beam oriented direction is switched in a direction with the third largest frequency. In JP-A-5-232205, it is constructed so that when a receiving level in the present oriented direction becomes lower than a reference value, the oriented direction is respectively changed by one step clockwise and counterclockwise and when a receiving level in the oriented direction after the change is higher than the receiving level in the present oriented direction, its direction is set as a new oriented direction and thereby a satellite can be tracked with high accuracy. In JP-A-56-17536, it is constructed so that in the case of switching an oriented direction, directivity is periodically changed by a small amount and a switching direction is decided based on a change state of a received signal at that time and thereby a received signal level is prevented from dropping in a transition process of the oriented direction and stable reception can be performed.
The broadcast receiver for receiving airwaves by the directional switching antenna as described above is provided with a function of automatic scanning so that at the time of selecting a channel, a direction in which airwaves of its channel can be received with the highest sensitivity is retrieved and directivity of the antenna can be adjusted to its direction. In this automatic scanning, with respect to each of the channels, the directivity of the antenna is sequentially switched and a level of a received signal in each of the directions is detected. Then, when the level of the received signal is a threshold value or more, it is determined that its direction is a receivable direction in the corresponding channel, and further a direction with the largest reception level (that is, high reception sensitivity) among the receivable directions is decided as an optimum direction in its channel. Then, airwaves of its channel can be received in the best state by electrically controlling the antenna so that the directivity of the antenna becomes the optimum direction.
By the way, in a broadcast receiver, a preset function for setting channels capable of being viewed in a use region of the receiving apparatus is required like a general television image receiving apparatus. Then, in order to automatically make this presetting, a function of automatic scanning for sequentially switching directivity of an antenna and retrieving receivable channels is required.
However, when the same algorithm as that of the automatic scanning at the time of normal channel selection as described above is used as algorithm of the automatic scanning in the case of presetting a channel, seek processing is performed over all the directions of the antenna every each of the channels and processing for detecting the optimum direction from among receivable directions is performed, so that there is a problem that it takes time to complete the automatic scanning for all the channels and waiting time of a user becomes long.
The automatic scanning at the time of presetting a channel is originally processing performed to retrieve receivable channels, and seek processing for performing detection to the optimum direction is not required in the case of only retrieving the receivable channels. The invention has been implemented from such a standpoint, and an object of the invention is to achieve a speedup in automatic scanning at the time of presetting a channel in a broadcast receiver for receiving airwaves by a directional switching antenna.
A broadcast receiver according to the invention is a receiving apparatus for receiving airwaves by a directional switching antenna capable of switching directivity in plural directions, and includes an automatic scanning function of retrieving a receivable channel, and is constructed so that when a receivable direction is first detected during execution of automatic scanning for a certain channel, the automatic scanning is stopped at a point in time of the detection and transition to automatic scanning for the next channel is made.
In the invention, at a point in time when a receivable direction is first detected, the automatic scanning is stopped and automatic scanning for the next channel is executed. As a result of this, a speedup in the automatic scanning can be achieved by extracting a receivable channel and ensuring a presetting function and also omitting retrieval processing of an optimum direction unnecessary.
In the invention, a smart antenna can be used as a typical directional switching antenna. Five embodiments using the smart antenna are disclosed in the embodiments described below.
In a first embodiment, a broadcast receiver includes a tuner for extracting a signal of a predetermined channel from airwaves received by a smart antenna, a signal processing unit for processing the signal extracted by this tuner, and a control unit for controlling the smart antenna. The control unit performs automatic scanning for each of the channels with respect to each of the directions of the smart antenna and detects a receivable direction. Also, when the control unit first detects the receivable direction during execution of automatic scanning for a certain channel, the automatic scanning is stopped at a point in time of the detection and transition to automatic scanning for the next channel is made. As a result of this, a speedup in the automatic scanning can be achieved.
In a second embodiment, a broadcast receiver includes the tuner, the signal processing unit and the control unit similar to those of the first embodiment. The second embodiment is characterized in that before automatic scanning for a certain channel is executed, the control unit examines a receivable direction detected for the previous channel of the channel and starts the automatic scanning using its direction as an initial point. In the case of being constructed thus, automatic scanning is started from a direction with the possibility of reception, so that time necessary to find the receivable direction can be reduced to achieve a more speedup in the automatic scanning.
In a third embodiment, a broadcast receiver includes the tuner, the signal processing unit and the control unit similar to those of the first embodiment. The third embodiment is characterized in that before automatic scanning for a certain channel is executed, the control unit examines the most direction of receivable directions detected in the past and starts the automatic scanning using its direction as an initial point. In the case of being constructed thus, automatic scanning is started from a direction with a high probability capable of reception, so that time necessary to find the receivable direction can further be reduced to achieve a still more speedup in the automatic scanning.
In a fourth embodiment, a broadcast receiver includes the tuner, the signal processing unit and the control unit similar to those of the first embodiment. The fourth embodiment is characterized in that before automatic scanning for a certain channel is executed, the control unit examines the most direction of receivable directions detected in the past and also examines whether there are more receivable directions in either clockwise direction or counterclockwise direction with respect to its direction and decides a scanning direction and starts the automatic scanning in the scanning direction using the most direction as an initial point. In the case of being constructed thus, automatic scanning is started from a direction with a high probability capable of reception and the scanning is performed in a direction with a high probability capable of reception, so that time necessary to find the receivable direction can further be reduced to achieve a still more speedup in the automatic scanning.
In a fifth embodiment, a broadcast receiver includes the tuner, the signal processing unit and the control unit similar to those of the first embodiment. The fifth embodiment is characterized in that before automatic scanning for a certain channel is executed, the control unit ranks receivable directions detected in the past according to detection frequency and starts the automatic scanning using the direction with the first ranking as an initial point and subsequently executes the automatic scanning in a predetermined direction according to the ranked order. In the case of being constructed thus, automatic scanning is performed in each of the directions in order of higher probability capable of reception, so that time necessary to find the receivable direction can further be reduced to achieve a still more speedup in the automatic scanning.
According to the invention, retrieval processing in an optimum direction at the time of presetting a channel becomes unnecessary and thereby a speedup in automatic scanning can be achieved and waiting time of a user can be reduced.
The smart antenna 2 includes four antenna elements 2a to 2d, and phase shifters, combination devices and control circuits, etc. (the portions other than the antenna elements 2a to 2d are omitted in the drawing) disposed corresponding to each of the antenna elements 2a to 2d, and directivity is electrically switched in 16 directions by adjusting phases of signals received by each of the antenna elements 2a to 2d through each of the phase shifters and combining the signals after the adjustment through the combination devices. Incidentally, the 16 directions mean each of the directions in which the circumference (360°) of the smart antenna 2 is divided into 16 pieces, and each of the directions is shown by numbers of 0 to 15 (for example, see
Numeral 4 is a control unit made of a CPU, ROM or RAM, etc., and controls each part of the broadcast receiver 1. Data and programs for control are stored in the ROM of the control unit 4, and data for control is readably and writably stored in the RAM. This control unit 4 detects receivable directions by performing automatic scanning with respect to each of the directions of the smart antenna 2 as described below.
Numeral 5 is a tuner, and extracts a signal of a predetermined channel from airwaves received by the smart antenna 2. Numeral 6 is a signal processing unit, and processes the signal extracted by the tuner 5 and generates a reproduction video signal and a reproduction sound signal. Numeral 7 is an OSD (On Screen Display), circuit, and superimposes image data outputted from the control unit 4 on the reproduction video signal outputted from the signal processing unit 6 and performs on-screen display on a screen of a monitor of the TV set 3. The TV set 3 displays video on the monitor based on the reproduction video signal outputted from the signal processing unit 6 and also outputs sound from a speaker based on the reproduction sound signal outputted from the signal processing unit 6 (illustration of a sound system is omitted in
Numeral 8 is nonvolatile memory, and numeral 9 is an operation unit including various keys such as a channel key or a power source key, and numeral 10 is a remote-controlled reception unit for receiving a signal from a remote controller 11. The remote controller 11 includes various keys such as a channel key, a menu key and a cross key.
In the configuration described above, when a user turns on a power source of the broadcast receiver 1 after the broadcast receiver 1 is connected to the smart antenna 2, the control unit 4 presets a channel (initialization). Incidentally, when the user operates the remote controller 11 and instructs presetting, the control unit 4 also presets a channel. In the presetting of the channel, channel numbers and numbers of receivable directions in the channels are sequentially recorded in the memory 8. Details of this presetting action will be described below. Then, when presettings of all the channels are completed, a channel presetting table in which the channel numbers are associated with the direction numbers is created in a predetermined region of the memory 8.
The creation of the channel presetting table means that almost all the airwaves sent from the plural broadcast stations interspersed in the periphery of the house can be received to set receivable directions of the antenna to the broadcast receiver 1 every channel number. As a result of this, when the user operates the remote controller 11 and switches a channel after the creation of the table, the control unit 4 reads a direction capable of receiving airwaves of the channel of a switching destination out of the table and switches directivity of the smart antenna 2 in the direction shown by the number and thereby the airwaves of the same channel number can be received immediately. Then, the received airwaves are processed by the tuner 5 and the signal processing unit 6 and immediately, video can be displayed on the TV set 3 and also sound can be outputted. As a result of this, time necessary for the user to be able to view a broadcast of the channel number of the switching destination can be reduced.
In an example of
However, the direction 9 detected as the receivable direction in
Next, the control unit 4 sends a control signal for instructing the smart antenna 2 to sequentially switch directivity counterclockwise from the direction 0 shown in
According to the first embodiment described above, by extracting a receivable channel, retrieval processing of an optimum direction unnecessary in automatic scanning at the time of presetting is omitted while ensuring a function of presetting a channel, so that the automatic scanning can be performed at high speed and thereby waiting time of a user can be reduced.
In this case, by determining that the direction 9 can be received on the previous channel, there is a possibility that the direction 9 and directions near to the direction 9 are also detected as a receivable direction in this channel, so that time necessary to detect the receivable direction is reduced by starting the automatic scanning using the direction 9 as the initial point.
Then, when it is assumed that, for example, a direction 11 is first detected as a receivable direction during execution of this automatic scanning, in a manner similar to the first embodiment, the automatic scanning is stopped at that point in time and automatic scanning of the next channel (for example, Channel 4) is started using the direction 11 as the initial point. In like manner below, the procedure described above is repeated until the seek processing for all the channels is completed.
An action after the seek processing is started is similar to that of the case of
According to the second embodiment described above, automatic scanning is started from a direction with the possibility of reception, so that time necessary to find the receivable direction can be reduced to achieve a more speedup in the automatic scanning.
In this case, the direction 9 is the most receivable direction and thereby, there is a high probability that the direction 9 and directions near to the direction 9 are also detected as a receivable direction in this channel, so that time necessary to detect the receivable direction is reduced by starting the automatic scanning using the direction 9 as the initial point.
Then, when it is assumed that, for example, a direction 10 is first detected as a receivable direction during execution of this automatic scanning, in a manner similar to the first embodiment, the automatic scanning is stopped at that point in time and automatic scanning of the next channel is started using the most receivable direction as the initial point based on the channel presetting table updated. In like manner below, the procedure described above is repeated until the seek processing for all the channels is completed.
An action after the seek processing is started is similar to that of the case of
According to the third embodiment described above, automatic scanning is started from a direction with a high probability capable of reception, so that time necessary to find the receivable direction can further be reduced to achieve a still more speedup in the automatic scanning.
In this case, the direction 9 is the most receivable direction and thereby, there is a high probability that the direction 9 and directions near to the direction 9 are also detected as a receivable direction in this channel and also clockwise scanning has a higher probability of detecting the receivable direction than counterclockwise scanning, so that time necessary to detect the receivable direction is reduced by starting the automatic scanning clockwise using the direction 9 as the initial point.
Then, when it is assumed that, for example, a direction 7 is first detected as a receivable direction during execution of this automatic scanning, in a manner similar to the first embodiment, the automatic scanning is stopped at that point in time and automatic scanning of the next channel is started in a rotational direction with many receivable directions using the most receivable direction as the initial point based on the channel presetting table updated. In like manner below, the procedure described above is repeated until the seek processing for all the channels is completed.
An action after the seek processing is started is similar to that of the case of
According to the fourth embodiment described above, automatic scanning is started from a direction with a high probability capable of reception and the scanning is performed in a direction with a high probability capable of reception, so that time necessary to find the receivable direction can further be reduced to achieve a still more speedup in the automatic scanning.
Therefore, as shown in
In this case, the direction 9 has the first-ranking detection frequency and thereby, there is the highest probability that the direction 9 and directions near to the direction 9 are also detected as a receivable direction in this channel and the direction 7 with the second ranking has the second highest probability, so that time necessary to detect the receivable direction is reduced by starting the automatic scanning using the direction 9 as the initial point and subsequently performing the scanning according to the ranking.
Then, when it is assumed that, for example, a direction 7 is first detected as a receivable direction during execution of this automatic scanning, in a manner similar to the first embodiment, the automatic scanning is stopped at that point in time and automatic scanning of the next channel is executed according to the ranking described above based on the channel presetting table updated. In like manner below, the procedure described above is repeated until the seek processing for all the channels is completed.
An action after the seek processing is started is similar to that of the case of
According to the fifth embodiment described above, automatic scanning is performed in each of the directions in order of higher probability capable of reception, so that time necessary to find the receivable direction can further be reduced to achieve a still more speedup in the automatic scanning.
In the embodiments described above, the case of applying the invention to the broadcast receiver 1 to which the smart antenna 2 is connected has been taken as an example, but in addition to the smart antenna, the invention can be applied to a broadcast receiver to which an antenna capable of switching directivity in plural directions, for example, an adaptive array antenna is connected. Also, the invention can be applied to, for example, a broadcast receiver for receiving radio broadcasting or a broadcast receiver for receiving satellite broadcasting.
Number | Date | Country | Kind |
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P2004-188672 | Jun 2004 | JP | national |
Number | Name | Date | Kind |
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4801940 | Ma et al. | Jan 1989 | A |
7312750 | Mao et al. | Dec 2007 | B2 |
Number | Date | Country |
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56-17536 | Feb 1981 | JP |
62-069733 | Mar 1987 | JP |
62-69734 | Mar 1987 | JP |
5-232205 | Sep 1993 | JP |
11-298226 | Oct 1999 | JP |
2001-160773 | Jun 2001 | JP |
2004-173062 | Jun 2004 | JP |
Number | Date | Country | |
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20060003690 A1 | Jan 2006 | US |