JP3812545B2 - Automatic channel selection device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an automatic channel selection device for a mobile broadcast receiver, and more particularly to an automatic channel selection device that automatically selects a broadcast station capable of normal output.
[0002]
[Prior art]
In recent years, with the development of digital technologies such as the Internet and computers, it is possible to realize highly sophisticated multimedia broadcasting by digital broadcasting. Digital broadcasting encodes data such as video and audio and transmits the compressed signal on a carrier wave. Since data correction is possible, it is possible to receive broadcasts by a mobile body. In the current analog television broadcasting, the broadcasting frequency is divided by a width of 6 MHz to be one channel, and one channel is assigned to one broadcasting station. However, in digital broadcasting, an orthogonal frequency division multiplexing modulation scheme (hereinafter referred to as OFDM) For example, it is possible to effectively eliminate the frequency band because it is possible to eliminate noise by multipath, and to broadcast a plurality of channels (multi-channel) broadcasting and high-definition high-definition broadcasting with a width of 6 MHz.
[0003]
The broadcast wave of digital broadcasting differs from the broadcast wave of analog broadcasting due to the difference in data conversion method and OFDM. For example, a television analog broadcast wave 1 as shown in FIG. 1A includes a video carrier wave 11, a color subcarrier wave 12, and an audio carrier wave 13, and transmits each information on a carrier wave according to information. On the other hand, as shown in FIG. 1B, the digital broadcast wave transmits information on many carrier waves. And when terrestrial digital broadcasting is started, the channel or frequency of the digital broadcasting station is arranged at an available frequency that can be used for broadcasting, so analog broadcasting and digital broadcasting are mixed in the broadcasting frequency. It becomes.
[0004]
In a conventional analog broadcast receiver for mobile objects, when a broadcast area is changed by movement or a broadcast wave is blocked by an obstacle, the channel or frequency of a broadcast station that can be automatically received is set to each operation switch ( (Hereinafter referred to as a preset switch) and a function (hereinafter referred to as an auto preset) for storing. In general, in auto preset, every time a channel or frequency is swept and a broadcast station is detected, a process of storing frequency information of the broadcast station in association with a preset switch (hereinafter referred to as preset) is automatically repeated. Here, the presence / absence of the broadcast station is, for example, whether or not the reception level of the audio carrier wave signal 13 included in the analog broadcast wave 1 (FIG. 1A) exceeds a set threshold value in each channel or frequency. Judgment by. According to this determination, even when the digital broadcast wave 2 (FIG. 1 (b)) is received, it may be determined that there is a broadcasting station, and the analog broadcast receiving apparatus receives the signal regardless of analog or digital at the time of auto-preset. It automatically presets possible broadcast stations.
[0005]
However, even if an analog broadcast receiving apparatus receives a digital broadcast, it cannot perform normal output due to the difference between the broadcast wave and the data conversion method. Then, as shown in FIG. 2, the analog broadcast receiving apparatus automatically operates at a point (for example, point 43) where the analog broadcast area 32 centered on the analog broadcast station 31 and the digital broadcast area 42 centered on the digital broadcast station 41 overlap. When presetting is performed, the digital broadcasting station is preset when it is determined that there is a broadcasting station even though digital broadcasting cannot be normally output (hereinafter referred to as an erroneous preset). Then, because a preset station is preset due to an incorrect preset, there is a possibility that the number of broadcast stations that can be output normally is limited during auto-preset.
[0006]
By the way, there is an auto-preset device that does not automatically select an undesired broadcast station from receivable broadcast stations (see, for example, Patent Document 1).
[0007]
[Patent Document 1]
JP-A-6-303108 ([0018], FIG. 1).
[0008]
[Problems to be solved by the invention]
The auto-preset device of Patent Document 1 does not auto-preset traffic information broadcasting stations for which a dedicated switch is set or continental broadcasting stations that do not need to be preset among broadcasting stations capable of normal output. Is. Accordingly, it is possible to exclude the traffic information broadcasting station and the continental broadcasting station from the auto preset, but other receivable broadcasting stations are auto preset. In such a case, for example, the problem of erroneous presetting of a digital broadcasting station in an analog receiver is still not solved.
[0009]
The present invention has been made in view of the above problems, and in a broadcast receiving apparatus, an automatic channel selection apparatus that efficiently and automatically presets a broadcast station capable of normal output by eliminating broadcast stations that are not capable of normal output. The purpose is to provide.
[0010]
[Means for Solving the Problems]
The present invention provides an automatic channel selection device that detects a receivable broadcast station based on reception information at a frequency received by the reception device, and automatically stores the detected frequency information of the broadcast station by preset means. In order to achieve this, it has the following characteristics.
[0011]
  In the first aspect of the present invention, storage means for storing broadcast station information relating to a specific broadcast station, position detection means for detecting the current position of the receiving device, and the broadcast station information stored in the storage means, From the current position detected by the position detection means,Among the specific broadcasting stationsEstimation means for estimating frequency information of a broadcasting station capable of receiving a broadcast at the current position, and the frequency information of the broadcasting station estimated by the estimation means is invalidated by the invalidating means for storing the frequency information by the preset means. It is characterized by.
  The term “invalidate storage” as used herein means that the preset means is not stored before it is stored, or that the preset means deletes what has been temporarily stored (claims described later)3Both of the configurations are equivalent.
[0012]
  ThisNot stored in storageThe frequency information of the broadcasting station is stored by preset means. However,Specific stored in the storage meansBroadcasterOf these, broadcast stations that can be received at the current locationFor, the preset means is disabled and no frequency information is stored.
  Here, the broadcast station information stored in the storage means is preferably information related to the digital broadcast station (information that can specify the position of the channel, output, and information transmission source as shown in FIG. 4) in the present invention. That is, if broadcast station information relating to a broadcast station that cannot normally output is stored in advance, the frequency information of the broadcast station can be acquired, and the preset unit can be easily invalidated.
  Therefore,At the current positionnormalNaCannot outputSpecificEfficient auto-preset becomes possible by eliminating the waste of storing the frequency information of the broadcasting station.
[0013]
  The invention described in claim 2 further includes storage means for storing broadcast station information relating to a specific broadcast station, position detection means for detecting the current position of the receiving apparatus, and the broadcast station information stored in the storage means. From the current position detected by the position detection means,Among the specific broadcasting stationsEstimating means for estimating the frequency information of a broadcasting station capable of receiving broadcasts at the current position, and for the frequency information of the broadcasting station estimated by the estimating means, it is determined by the judging means that the preset means is invalid to store. The frequency information to be stored is appropriately determined by the preset means based on the determination result. Note that the determination of “invalidation to store” here means that determination is made for both the frequency information before the preset means stores or the frequency information once stored by the preset means. . Therefore, among the specific broadcast stations stored in the storage means, the frequency information of the broadcast stations that can be received at the current position is finally determined not to be stored by the preset means, and the broadcast stations that are not stored in the storage means Only the frequency information is finally determined to be stored by the preset means. Here, the broadcast station information stored in the storage means is preferably information related to the digital broadcast station (information that can specify the position of the channel, output, and information transmission source as shown in FIG. 4) in the present invention. That is, if broadcast station information relating to a broadcast station that cannot normally output is stored in advance, the frequency information of the broadcast station can be acquired, and the preset unit can be easily invalidated. In addition, it is possible to eliminate the waste of storing frequency information of a specific broadcasting station that cannot normally output at the current position, and efficient auto-preset is possible.
[0017]
  Claims3In the invention described inEstimated by estimation meansIt is characterized in that the frequency information of the broadcasting station is deleted from the frequency information stored by the preset means. That is, the invalidating unit invalidates the presetting unit by deleting unnecessary frequency information, and deletes the frequency information determined to be invalid by the determining unit. Therefore,At the current positionnormalNaCannot outputSpecificBroadcast station frequency information is deleted from the stored content.At the current positionOnly frequency information of a broadcasting station capable of normal output is stored.
[0018]
  Further claims4In the invention described in the above, the storage means for storing the broadcast station information relating to the specific broadcast station, the position detection means for detecting the current position of the receiving device, the broadcast station information stored in the storage means, and the position detection means From the current positionAmong the specific broadcasting stationsEstimation means for estimating frequency information of a broadcasting station capable of receiving a broadcast at the current position, and frequency information excluding the frequency information of the broadcasting station estimated by the estimation means is stored in a preset means by a channel selection means. It is characterized by being selected to be. That is, since the frequency (channel) obtained from the frequency information of the broadcasting station estimated to be receivable at the current position is processed so as not to be received by the receiving device, auto-preset can be performed efficiently. Of course, since the frequency information of a broadcasting station that has been determined to be unable to be output normally cannot be preset, only the frequency information of the broadcasting station that has been determined to be capable of normal output that is not stored in the storage means is stored by the preset means. Can do.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
FIG. 3 is a block diagram showing the configuration of an embodiment in which the present invention is applied to an in-vehicle analog television broadcast receiver. An analog TV receiver 50 that receives an analog television broadcast includes an antenna 51, a front end 52, an audio detection unit 53, a video detection unit 54, a microcomputer 55 (hereinafter referred to as a microcomputer), and a memory 56. Auto-preset is performed for a broadcasting station capable of receiving, demodulating the received signal, and outputting normally. Here, “normal output” indicates that video and audio are output in a form that can be understood by the user. Further, the current position detection device 57 for acquiring the current position, the speaker 58 and the display device 59 for outputting the broadcast are used in combination with a known navigation device or the like that is already mounted on the vehicle.
[0020]
Each of the front ends 52 includes a well-known high-frequency amplifier, a local oscillator, a mixer, and the like, reproduces an intermediate frequency signal from the broadcast wave of the television, and outputs it to the audio detection unit 53 and the video detection unit 54. Each of the sound detection units 53 includes a known detection circuit and amplification circuit, reproduces a sound signal from the intermediate frequency signal, outputs the sound signal to the speaker 58, and outputs the presence / absence of a sound carrier to the microcomputer 55.
[0021]
The video detector 54 to which the intermediate frequency signal from the front end 52 is input is composed of a known detection circuit and amplifier circuit, and reproduces a video signal (composite signal) from the input intermediate frequency signal. The data is output to the display device 59. The microcomputer 55 is a control device having a CPU, ROM, RAM, and an input / output interface. The microcomputer 55 controls the frequency oscillated by the local oscillator of the front end 52 and receives an input signal indicating the presence or absence of a sound carrier from the sound detector 53. Then, it is determined whether or not the frequency information of the corresponding broadcasting station is preset.
[0022]
The memory 56 is a well-known nonvolatile storage medium, and stores preset broadcast station frequency information, preset broadcast station information, and the like. The memory 56 (corresponding to the storage means in the present invention) in the present embodiment is as shown in FIG. 4 as information on broadcasting stations (digital broadcasting stations) that should be avoided from presetting, that is, broadcasting station information in the present invention. A channel 60 for specifying a broadcasting station, an output 61 for determining a broadcasting range, a latitude 62 and a longitude 63 for determining the position of the broadcasting station are stored as templates.
[0023]
The current position detection device 57 includes a known geomagnetic sensor, gyroscope, distance sensor, GPS (Global Positioning System) receiver, and the like, and outputs current position information to the microcomputer 55 while performing interpolation. . Then, the speaker 58 and the display device 59 receive the output from the analog TV receiving device 50 and display video or output audio. Here, a TFT liquid crystal display is mainly used as the display device 59, but a CTR display, an organic EL display, or the like may be used.
[0024]
In the above configuration, in the analog TV receiver 50, when the auto preset is instructed, the auto preset process shown in FIG.
[0025]
In FIG. 5, first, in step (hereinafter abbreviated as S) 101, the microcomputer 55 acquires current position information from the current position detection device 57. Upon receiving the current position information, in S102, the channel of the digital broadcast station that can receive the broadcast at the current position (corresponding to the frequency information in the present invention) is estimated from the information of the digital broadcast station stored in the memory 56. . That is, in the estimated channel of the digital broadcasting station, it is determined by S102 (corresponding to the determination means in the present invention) at the current position that normal output cannot be performed. As an estimation method, the location of the broadcast transmitting station is limited from the latitude 62 and longitude 63 of the template, and the broadcast area is specified from the output 61. Then, from the current position information acquired from the position detection device 57 and the broadcast area, it is determined whether reception is possible, and a receivable digital broadcast station is estimated.
[0026]
Thereafter, in S103, the microcomputer 55 controls the local oscillator to oscillate the frequency excluding the channel of the digital broadcasting station, and waits for an input from the sound detection unit 53. Then, the analog TV receiving device 50 performs channel selection processing for the broadcast station of the designated channel. In the channel selection process in S103, the frequency of the digital broadcast station determined that normal output cannot be performed in S102 is not selected, so that presetting is not performed (invalidated).
[0027]
In the channel selection process of the analog TV receiver 50 performed in S103, first, the broadcast wave received by the antenna 51 is amplified by the high-frequency amplifier circuit of the front end 52 and then mixed with the local oscillation signal oscillated by the local oscillator. The intermediate frequency signal in the broadcast wave transmitted from the broadcast station of the channel designated by the microcomputer 55 is generated. This local oscillation signal is a signal required to obtain an intermediate frequency signal of a specific channel from a television broadcast wave. For example, when the intermediate frequency is 58.75 MHz, when it is desired to receive a 91.25 MHz (1CH) broadcast, the local oscillation signal oscillates at 150 MHz (broadcast station frequency + intermediate frequency). The generated intermediate frequency signal is a signal converted so as to have the same frequency regardless of which channel is selected, and is output to the audio detection unit 53 and the video detection unit 54.
[0028]
Next, when the intermediate frequency signal is input to the audio detection unit 53, the audio detection unit 53 uses the 4.5 MHz interval between the audio carrier and the video carrier to generate an audio intermediate frequency signal (Sound). (Intermediate Frequency: hereinafter referred to as SIF). Then, the carrier wave is removed from the SIF by the detection circuit to reproduce the audio signal. By determining the level of the audio carrier signal (corresponding to the reception information in the present invention), the presence or absence of the audio carrier is output to the microcomputer 55. When broadcasting is output, the audio signal is amplified by an amplifier circuit and then output to the speaker 58.
[0029]
After the channel selection process in S103, when the presence / absence of an audio carrier is output from the audio detector 53 to the microcomputer 55, the process proceeds to S104, and the microcomputer 55 determines the presence / absence of a broadcast station from the presence / absence determination of the audio carrier.
[0030]
If no audio carrier wave is detected and it is determined that there is no broadcasting station (S104: no broadcasting station), the process proceeds to S105. On the other hand, if it is determined that there is a broadcast station with an audio broadcast wave (S104: broadcast station present), the frequency information of the broadcast station received in the memory 56 is stored in correspondence with the preset switch, and then the process proceeds to S105. To do.
[0031]
In S105, it is determined whether or not the search for all the channels other than the channels of the digital broadcasting station has been completed. If it is determined that the search has not been completed yet (S105: No), the channel to be oscillated by the local oscillator is set as the next channel (S108), the process returns to S103, and the above processing is performed until all the searches are completed. repeat. If it is determined that the search has been completed (S105: Yes), the preset channel is notified as a result (S106), and the auto-preset process is terminated.
[0032]
In this embodiment, the analog TV receiving device 50 corresponds to the receiving device, the digital broadcasting station cannot perform normal output, the memory 56 corresponds to the storage means, and the current position detecting device 57 corresponds to the position detecting means. . The microcomputer 55 has functions corresponding to preset means and invalid means. Then, S102 performs processing corresponding to determination means, S107 performs processing corresponding to presetting means, and S103 performs processing corresponding to channel selection means.
[0033]
As described above, according to the first embodiment described above, auto-preset processing is performed except for digital broadcasting stations that cannot be normally output by the analog TV receiver 50. In other words, a broadcast station that can perform normal output is automatically selected and auto-preset. Further, when selecting a channel, it is possible to efficiently perform auto-preset by previously removing a channel of a digital broadcasting station that can be received at the current position from a channel to be searched. That is, since the presence / absence of a broadcasting station is not determined for a channel of a digital broadcasting station, the time required for auto-preset can be shortened.
[0034]
Note that the auto preset start instruction is not limited to the user input, and if the broadcast is not output, the auto preset is automatically set according to the elapsed time, travel distance, etc. from the previous auto preset. You may start. Further, when it becomes difficult to receive the broadcast being output, the auto preset may be automatically started.
[0035]
(Second embodiment)
In the first embodiment described above, the auto-preset process is performed using the information (template) of the broadcasting station that should avoid the preset stored in the memory 56 of the analog TV receiver 50. On the other hand, when a digital TV broadcast receiving device is also installed, an erroneous preset in the analog TV receiving device 50 is not necessarily stored in the memory 56 of the analog TV receiving device 50 even if the broadcasting station information that should avoid the preset is not necessarily stored. It is possible to avoid it. Therefore, in the present embodiment, erroneous presetting in the analog TV receiver 50 is avoided based on the result of auto-preset by the digital television broadcast receiver.
[0036]
Hereinafter, the present embodiment will be described in detail focusing on the differences from the first embodiment.
[0037]
In this embodiment, an analog TV receiver 50 and a digital TV receiver 70 are used as shown in FIG. The analog TV receiver 50 is configured in the same manner as in the first embodiment, and the speaker 58 and the display device 59 are configured to be capable of outputting the digital TV receiver 70.
[0038]
The digital TV receiver 70 includes an antenna 71, a front end 72, an OFDM demodulator 73, an MPEG decoder 74, a microcomputer 75 (hereinafter referred to as a microcomputer for short), and a memory 76, and receives and receives digital television broadcast signals. Demodulation and auto-preset for digital broadcasting stations.
[0039]
The front end 72 is configured in substantially the same manner as the analog TV receiver 50, reproduces an intermediate frequency signal from the broadcast wave from the antenna 71, and outputs it to the OFDM demodulator 73. The OFDM demodulator 73 generates an MPEG2-TS signal from the intermediate frequency signal by performing well-known modulation, fast Fourier transform (FFT), demapping and the like. At the same time, information such as a reception level and a bit error rate is output to the microcomputer 75. The MPEG decoder 74 to which the MPEG2-TS signal is input is constituted by software and hardware that decompresses the signal compressed by the MPEG2-TS method, reproduces the video signal and the audio signal, and each of them is displayed on the display device 59 and the speaker 58. Output.
[0040]
The microcomputer 75 is a control device configured in the same manner as the microcomputer 55 of the analog TV receiver 50, and presets the frequency information of the corresponding broadcast station based on the reception level from the OFDM demodulator 73, the bit error rate, and the like. Determine whether or not. Then, the preset frequency information of the broadcasting station is output to the microcomputer 55 of the analog TV receiver 50. Similarly to the memory 56 of the analog TV receiver 50, the memory 76 is composed of a non-volatile storage medium, and stores preset frequency information of the broadcasting station.
[0041]
Further, the microcomputer 55 of the analog TV receiver 50 and the microcomputer 75 of the digital TV receiver 70 are configured to be able to communicate with each other, and when auto-preset is instructed by the analog TV receiver 50, FIG. The auto preset process shown in FIG.
[0042]
First, in FIG. 7, the microcomputer 55 sends an auto-preset instruction to the microcomputer 75 of the digital TV receiver 70 in S201 (A). Receiving the auto preset instruction, the digital TV receiver 70 controls the local oscillator to oscillate the frequency of the digital broadcast station by the microcomputer 75, and performs the channel selection process at the broadcast station of the designated channel (FIG. 8: S301). .
[0043]
In the channel selection processing of the digital TV receiver 70 performed in S301 of FIG. 8, first, the broadcast wave received by the antenna 71 is amplified by the high-frequency amplifier circuit of the front end 72, and then oscillated by the local oscillator by the mixer. And an intermediate frequency signal in the broadcast wave transmitted from the broadcast station of the channel designated by the microcomputer 75 is generated.
[0044]
Next, the intermediate frequency signal is input to the OFDM demodulator 73. An OFDM signal that is an analog signal is converted into a discrete signal that is a digital signal by analog-digital conversion. The discrete signal is subjected to quadrature detection, and then subjected to FFT to demodulate a complex data symbol. The demodulated complex data symbols are converted into the original MPEG2-TS signal by performing frequency interleaving, time interleaving, modulation division, demapping,..., Viterbi decoding, RS decoding, and the like.
[0045]
The MPEG2-TS signal demodulated by the OFDM demodulator 73 is output to the MPEG decoder 74, and the reception level and bit error rate obtained at the time of demodulation are output to the microcomputer 75. The MPEG decoder 74 is a well-known decoder, and broadcast can be output by decoding the MPEG2-TS signal and outputting the video signal and the audio signal to the display device 59 and the speaker 58, respectively.
[0046]
After the channel selection in S301, when the reception level and bit error rate are output from the OFDM demodulator 73 to the microcomputer 75, the process proceeds to S302, where the microcomputer 75 determines the presence or absence of a broadcasting station based on the reception level and bit error rate. To do. When it is determined that there is no digital broadcasting station (S302: no broadcasting station), the process proceeds to S303. On the other hand, if it is determined that there is a digital broadcast station (S302: broadcast station present), the frequency information of the corresponding broadcast station is stored in the memory 76 in association with the preset switch (S305), and the process proceeds to S303.
[0047]
In S303, it is determined whether or not all channels have been searched. If it is determined that the search has not been completed yet (S303: No), the channel is set to the next channel (S306), the process returns to S301, and the above processing is repeated until all the searches are completed. If it is determined that the search is complete (S303: Yes), the frequency information of the broadcasting station stored in the memory 76 is transmitted to the microcomputer 55 of the analog TV receiver 50 (S304).
[0048]
On the other hand, the analog TV receiving device 50 outputs an auto-preset instruction to the digital TV receiving device 70 in S201 of FIG. 7, and then proceeds to S202 to select a channel selection process in parallel with the processing in the digital TV receiving device 70. To start.
[0049]
In S202, as in the first embodiment, the front end 52 generates an intermediate frequency signal in the broadcast wave transmitted from the broadcast station of the channel designated by the microcomputer 55 from the broadcast wave received by the antenna 51. Then, the sound detection unit 53 determines the level of the sound carrier signal, and the presence or absence of the sound carrier is output to the microcomputer 55.
[0050]
When the presence / absence of the audio carrier from the audio detector 53 is output to the microcomputer 55, the process proceeds to S203, and the microcomputer 55 determines the presence / absence of the broadcasting station.
[0051]
When it is determined that there is no broadcasting station (S203: no broadcasting station), the process proceeds to S204. On the other hand, if it is determined that there is a broadcast station (S203: broadcast station present), the frequency information of the broadcast station received in the memory 56 is stored in association with the preset switch (S206), and the process proceeds to S204.
[0052]
In S204, it is determined whether or not all channels (frequency) have been searched. If it is determined that the search has not been completed yet (S204: No), the channel is set to the next channel (S207), the process returns to S202, and the above processing is repeated until all the searches are completed. And when it determines with the search having been complete | finished (S204: Yes), it transfers to S205.
[0053]
In S205, based on the frequency information of the digital broadcast station received from the digital TV receiver 70, the frequency information of the digital broadcast station is deleted from the preset frequency information of the broadcast station, and the auto-preset process ends.
[0054]
In this embodiment, the analog TV receiving device 50 corresponds to a receiving device, the digital TV receiving device 70 corresponds to a second receiving device, and the digital broadcasting station corresponds to a broadcasting station that cannot perform normal output. Further, the microcomputer 55 has functions corresponding to preset means and invalid means, S206 performs processing corresponding to preset means, and S205 performs processing corresponding to invalid means.
[0055]
As described above, according to the second embodiment described above, the frequency information of the digital broadcast station is acquired by the digital TV receiver 70, and the auto preset is performed by excluding the digital broadcast station by the analog TV receiver 50. Can be avoided. Since the digital TV station auto-preset in the digital TV receiver 70 and the analog TV station auto-preset in the analog TV receiver 50 can be performed at the same time, auto-preset can be efficiently performed while avoiding erroneous presets. It was.
[0056]
In the second embodiment, after the frequency information of the digital broadcasting station is deleted, if there is a preset switch for which the broadcasting station is not set, the frequency information of the analog broadcasting station preset after that is moved up and reset. May be. For example, when the frequency information of the digital broadcasting station set in the third preset switch is deleted, the frequency information of the broadcasting station set in the fourth preset switch is reset in the third preset switch.
[0057]
In addition, the frequency information of the digital broadcasting station is deleted from the memory 56 at the end of the auto-preset process in the analog TV receiving device 50 (S205), but the digital TV reception is performed before the channel selection (S202) in the analog TV receiving device 50. The frequency information of the digital broadcasting station from the apparatus 70 may be acquired, and the channel selection (S202) may be performed by excluding the channel of the digital broadcasting station from the channel to be swept in advance.
[0058]
Further, the digital TV receiver 70 can also be instructed to perform auto-preset by an input means such as a switch. At that time, the auto-preset process except S304 shown in FIG.
[0059]
As described above, the present invention is not limited to the above-described embodiment, and can be implemented in various forms without departing from the gist of the present invention.
[0060]
For example, the present invention is not limited to an analog TV receiver or a digital TV receiver, and a radio wave that can be normally output and a radio wave that cannot be normally output are mixed in a frequency band that can be received by the receiver. If so, it is possible to prevent the radio wave that is applicable and cannot be normally output from being automatically preset by the receiving device.
[0061]
In the above embodiment, both the analog broadcast station and the digital broadcast station are broadcast stations transmitted from different locations. However, the broadcast station is capable of transmitting analog broadcast and digital broadcast from the same location. Similarly, auto-preset can be performed only in a broadcasting station capable of normal output.
[Brief description of the drawings]
FIG. 1 is a diagram showing broadcast waveforms of analog broadcast and digital broadcast. (A) Analog broadcast waveform, (b) Digital broadcast waveform
FIG. 2 is a diagram illustrating an example of broadcast areas for analog broadcasting and digital broadcasting.
FIG. 3 is a diagram illustrating a configuration diagram of an analog television broadcast receiving apparatus according to an embodiment of the present invention.
FIG. 4 is a list of digital broadcast station information.
FIG. 5 is a flowchart of microcomputer auto-preset according to the first embodiment.
FIG. 6 is a configuration diagram of an analog television broadcast receiver and a digital television broadcast receiver in the second embodiment.
FIG. 7 is a flowchart of auto-preset by the microcomputer of the analog TV receiver in the second embodiment.
FIG. 8 is a flowchart of auto-preset by the microcomputer of the digital TV receiver in the second embodiment.
[Explanation of symbols]
1 ... NTSC analog broadcast waveform
11 ... Video carrier signal
12 ... Color subcarrier signal
13 ... Audio carrier signal
2. Digital broadcast waveform
31 ... Analog broadcasting station
32 ... Analog broadcast reception area
41 ... Digital broadcasting station
42 ... Digital broadcast reception area
43 ... Both broadcast reception areas

Claims (9)

In an automatic channel selection device comprising preset means for detecting a receivable broadcast station based on reception information at a frequency received by the reception device and automatically storing the detected frequency information of the broadcast station,
Storage means for storing broadcast station information relating to a specific broadcast station;
Position detecting means for detecting a current position of the receiving device;
Estimating means for estimating frequency information of a broadcasting station capable of receiving broadcast at the current position among the specific broadcasting stations from the broadcasting station information stored in the storage means and the current position detected by the position detecting means;
An automatic channel selection device comprising invalid means for invalidating the preset means from storing frequency information of a broadcasting station estimated by the estimation means. In an automatic channel selection device comprising preset means for detecting a receivable broadcast station based on reception information at a frequency received by the reception device and automatically storing the detected frequency information of the broadcast station,
Storage means for storing broadcast station information relating to a specific broadcast station;
Position detecting means for detecting a current position of the receiving device;
Estimating means for estimating frequency information of a broadcasting station capable of receiving broadcast at the current position among the specific broadcasting stations from the broadcasting station information stored in the storage means and the current position detected by the position detecting means;
A determination unit for determining that the preset unit stores the frequency information of the broadcasting station estimated by the estimation unit as invalid, and based on a result of the determination unit, the frequency information stored in the preset unit is appropriately An automatic channel selection device characterized by being determined.   The automatic channel selection apparatus according to claim 1 or 2, wherein the frequency information of the broadcasting station estimated by the estimation means is deleted from the frequency information stored in the preset means. In an automatic channel selection device comprising preset means for detecting a receivable broadcast station based on reception information at a frequency received by the reception device and automatically storing the detected frequency information of the broadcast station,
Storage means for storing broadcast station information relating to a specific broadcast station;
Position detecting means for detecting a current position of the receiving device;
Estimating means for estimating frequency information of a broadcasting station capable of receiving broadcast at the current position among the specific broadcasting stations from the broadcasting station information stored in the storage means and the current position detected by the position detecting means;
An automatic channel selection apparatus comprising: a channel selection unit that selects frequency information excluding broadcast station frequency information estimated by the estimation unit as a storage target of the preset unit.   5. The automatic channel selection apparatus according to claim 1, wherein the specific broadcasting station is a digital broadcasting station. In an automatic channel selection device comprising preset means for detecting a receivable broadcast station based on reception information at a frequency received by an analog reception device, and automatically storing the detected frequency information of the broadcast station,
Storage means for storing broadcast station information relating to the digital broadcast station;
Position detecting means for detecting a current position of the analog receiver;
Invalidating that the preset unit stores frequency information of a digital broadcast station capable of receiving broadcast at the current position from the broadcast station information stored by the storage unit and the current position detected by the position detection unit. An automatic channel selection device comprising means. In an automatic channel selection device comprising preset means for detecting a receivable broadcast station based on reception information at a frequency received by an analog reception device, and automatically storing the detected frequency information of the broadcast station,
Storage means for storing broadcast station information relating to the digital broadcast station;
Position detecting means for detecting a current position of the analog receiver;
Based on the broadcast station information stored in the storage means and the current position detected by the position detection means, it is determined that the preset means stores frequency information of a digital broadcast station capable of receiving broadcasts at the current position as invalid. An automatic tuning apparatus comprising: a determination unit, wherein the frequency information stored in the preset unit is appropriately determined based on a result of the determination unit.   The automatic channel selection apparatus according to claim 1 or 2, wherein the frequency information of the digital broadcasting station is deleted from the frequency information stored in the preset means. In an automatic channel selection device comprising preset means for detecting a receivable broadcast station based on reception information at a frequency received by an analog reception device, and automatically storing the detected frequency information of the broadcast station,
Storage means for storing broadcast station information relating to the digital broadcast station;
Position detecting means for detecting a current position of the analog receiver;
Based on the broadcast station information stored in the storage means and the current position detected by the position detection means, frequency information excluding frequency information of a digital broadcast station capable of receiving a broadcast at the current position is selected as a storage target of the preset means. An automatic channel selection device comprising a channel selection means for stationing.

Images