JP2021136632A - Receiver and reception method - Google Patents

Abstract

To determine reception operation of two tuners more appropriately.SOLUTION: A receiver comprises: a first receiver part and a second receiver part connected to each of at least two antennas; an acquisition part for acquiring a first electric field strength of signal received by the first receiver part and a second electric field strength of signal received by the second receiver part; a calculation part for calculating an electric field strength difference DE which is a value obtained by subtracting the first electric field strength from the second electric field strength; a storage part for storing a predetermined electric field strength threshold value L, a predetermined first electric field strength difference threshold value K1, and a second electric field strength difference threshold value K2; and a control part 56 for controlling reception operation of the first receiver part and the second receiver part based on a comparison between the first electric field strength and the electric field strength threshold value L, and a comparison between the electric field strength difference DE and the first electric field strength difference threshold value K1 or the second electric field strength difference threshold value K2.SELECTED DRAWING: Figure 1

Description

The present invention relates to a receiving device and a receiving method.

The technique of Patent Document 1 is known as a technique relating to phase diversity reception. In the abstract of Patent Document 1, "The radio receiver receives from the main tuner and the sub-tuner connected to the main antenna and the sub-antenna, respectively, and their electric field strengths based on the received signals from the main tuner and the sub-tuner. When the judgment means for judging the state and the judgment means judge that the reception state is good, the main tuner and the sub-tuner can be operated independently, and when the reception state is judged to be poor, the main tuner and the sub-tuner are operated. It has a reception control means for receiving phase diversity. "

Japanese Unexamined Patent Publication No. 2007-60624

However, the technique of Patent Document 1 has room for improvement in determining the receiving operation of the main tuner and the sub-tuner.
An object of the present invention is to provide a receiving device and a receiving method capable of more appropriately determining the receiving operation of two tuners.

The present invention includes a first receiving unit and a second receiving unit connected to at least two antennas, respectively, a first electric field strength of a signal received by the first receiving unit, and the second receiving unit. An acquisition unit for acquiring the second electric field strength of the signal received by the unit and a calculation unit for calculating the electric field strength difference which is a value obtained by subtracting the first electric field strength from the second electric field strength are set in advance. A storage unit that stores an electric field strength threshold, a preset first electric field strength difference threshold, and a second electric field strength difference threshold, a comparison between the first electric field strength and the electric field strength threshold, and the above-mentioned Control to control the receiving operation of the first receiving unit and the second receiving unit based on the comparison between the electric field strength difference and the first electric field strength difference threshold or the second electric field strength difference threshold. A receiving device including a unit and a unit is provided.

According to the present invention, the reception operation of the two tuners can be determined more appropriately.

It is a block diagram which shows the schematic structure of the vehicle-mounted receiving device which concerns on embodiment of this invention. It is a flowchart which shows the operation of an in-vehicle receiving device. It is operation explanatory drawing of the in-vehicle receiving device. It is a flowchart of a reception operation determination process. It is a figure which shows the input / output characteristic of a main tuner and a sub tuner.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the present embodiment, an in-vehicle receiving device will be described as one aspect of the receiving device of the present invention.
FIG. 1 is a block diagram showing a schematic configuration of an in-vehicle receiving device 1 according to the present embodiment.
The in-vehicle receiving device 1 is a receiving device mounted on a vehicle, which is an example of a mobile body, and receives RDS (Radio Data System) type multiplex broadcasting. The RDS method is a method in which the transmitting side transmits a broadcast radio wave W in which data Hb indicating appropriate information is multiplexed on the broadcast signal Ha, and the receiving side extracts the multiplexed data Hb from the broadcast radio wave W. Further, the in-vehicle receiving device 1 of the present embodiment has a phase diversity receiving function of receiving broadcast radio waves W of the same frequency by a plurality of tuners.

As shown in FIG. 1, the vehicle-mounted receiving device 1 includes a main antenna 10M, a sub-antenna 10S, a main tuner 12M, a sub-tuner 12S, a DSP (Digital Signal Processor) 14, and a control computer 20. .. An amplifier 16 and a speaker 18 provided in the vehicle are connected to the output stage of the DSP 14.

The main antenna 10M and the sub-antenna 10S are circuit components that receive broadcast radio waves broadcast from each of a plurality of broadcasting stations and output a reception signal, and are installed in a vehicle in a manner suitable for phase diversity reception operation. The main antenna 10M is connected to the main tuner 12M and outputs a received signal to the main tuner 12M. Further, the sub-antenna 10S is connected to the sub-tuner 12S and outputs a received signal to the sub-tuner 12S.

The main tuner 12M and the sub-tuner 12S use the broadcast signal Ha of the broadcast radio wave W of the broadcasting station (hereinafter referred to as “selected station”) selected by the control computer 20 as the reception signal of the main antenna 10M and the sub-antenna 10S. It is a receiving unit (first receiving unit and second receiving unit) that receives based on the above. Further, both the main tuner 12M and the sub-tuner 12S have a function of performing the above-mentioned phase diversity reception operation. Further, in the present embodiment, the sub-tuner 12S has an RDS receiving function of receiving the data Hb multiplexed on the broadcast signal Ha in addition to receiving the broadcast signal Ha.

Both the main tuner 12M and the sub-tuner 12S include a front end 30, a detection circuit 32, and an electric field strength detection circuit 36, as shown in FIG.
The front end 30 is a circuit that converts a reception signal of the reception frequency of the selected station into an intermediate frequency signal and amplifies it. The detection circuit 32 is a circuit that detects an intermediate frequency signal amplified by the front end 30 based on the frequency of the selected station and outputs a broadcast signal Ha. The electric field strength detection circuit 36 detects the electric field strength of the broadcast radio wave W of the selected station based on the broadcast signal Ha output from the detection circuit 32, and outputs the electric field strength to the control computer 20. The electric field strength detection circuit 36 is also referred to as an "S meter". In the following, the electric field strength output by the main tuner 12M is designated by a reference numeral IM, and the electric field strength output by the sub-tuner 12S is designated by a reference numeral IS to distinguish each electric field strength.

The DSP 14 has an audio demodulation circuit that demodulates a broadcast audio signal based on the broadcast signal Ha output from each of the main tuner 12M and the sub tuner 12S. The audio signal is output from the DSP 14 to the amplifier 16, amplified by the amplifier 16, and then output to the speaker 18, and is emitted from the speaker 18 into the vehicle interior.

Further, the DSP 14 is known to synthesize or selectively switch audio signals obtained from the broadcast signals Ha of the main tuner 12M and the sub-tuner 12S when the main tuner 12M and the sub-tuner 12S perform phase diversity reception. Alternatively, perform appropriate well-known phase diversity signal processing. As a result, an audio signal with suppressed noise can be obtained even when the reception state by the main antenna 10M is poor.

In the present embodiment, in addition to the above-mentioned circuit, the sub-tuner 12S extracts the data signal Hbs containing only the components of the data Hb from the broadcast signal Ha of the detection circuit 32 and outputs the data signal Hbs to the DSP 14 as a configuration for the RDS reception operation. A filter circuit 38 and a selector circuit 39 that switches the output destination of the detection circuit 32 to the filter circuit 38 are provided. The DSP 14 has a built-in data demodulation circuit that demodulates the data Hb from the data signal Hbs, and outputs the data Hb demodulated by the data demodulation circuit to the control computer 20.

The control computer 20 is a device that controls the reception operation of the main tuner 12M and the sub-tuner 12S and the operation of the DSP 14, and in the present embodiment, a so-called microcomputer is used.
The control computer 20 includes a processor such as a CPU (Central Processing Unit) and an MPU (Micro-Processing Unit), a memory device (also called a main storage device) such as a ROM (Read Only Memory) and a RAM (Random Access Memory), and the like. The processor is equipped with an interface circuit for connecting circuits such as the main tuner 12M, the sub tuner 12S, and the DSP 14, and a timer circuit that measures the elapsed time based on a clock signal input from the outside or generated by itself. Various functional configurations are realized by executing the computer program stored in the memory device.

As shown in FIG. 1, the control computer 20 of the present embodiment includes an electric field strength acquisition unit 51, a phase diversity control unit 52, and a seek operation control unit 53 as a functional configuration.

The electric field strength acquisition unit 51 acquires the electric field strengths IM and IS from the main tuner 12M and the sub-tuner 12S, respectively.
The phase diversity control unit 52 causes both the main tuner 12M and the sub tuner 12S to receive the broadcast radio wave W of the same frequency, and causes the phase diversity reception operation.
The seek operation control unit 53 controls the seek operation of the broadcasting station. The seek operation is a reception operation in which the main tuner 12M and the sub-tuner 12S sequentially change the frequency to be received, and sequentially output the broadcast signal Ha for the changed frequency. Such seek operation control is used, for example, to detect a frequency in which a broadcasting station exists in a predetermined frequency band.

The seek operation control is also used when data Hb is acquired from each of a plurality of broadcasting stations by the sub-tuner 12S operating as an RDS receiver (hereinafter, referred to as “each broadcasting station data acquisition operation”). In each broadcasting station data acquisition operation, the seek operation control unit 53 sequentially changes the frequency received by the sub-tuner 12S so that the sub-tuner 12S sequentially receives the broadcasting signal Ha of each broadcasting station. The data Hb obtained from each broadcast signal Ha is acquired from the DSP 14.
Each broadcasting station data acquisition operation is used for creating a program list that lists information on programs broadcast by each broadcasting station.
The frequency of each broadcasting station is stored in advance in, for example, a memory device. In this case, the frequency of the broadcasting station may be the frequency detected by the seek operation control or the frequency preset at the time of shipment from the factory.

Further, the control computer 20 of the present embodiment includes a control unit 56 that controls the reception operation of the main tuner 12M and the sub-tuner 12S by using the phase diversity control unit 52 and the seek operation control unit 53. In the present embodiment, the receiving operation is a phase diversity receiving operation controlled by the phase diversity control unit 52 and a seek operation by the seek control unit 54.

In the vehicle-mounted receiver 1 of the present embodiment, the reception operation performed by the main tuner 12M and the sub-tuner 12S is controlled by the control unit 56 according to the electric field strength IM of the main tuner 12M. The control computer 20 further includes a threshold storage unit 60, an electric field strength difference calculation unit 62, and a determination unit 64 for such control.

The threshold value storage unit 60 stores the electric field strength difference threshold value K in advance. The electric field strength difference threshold value K is a threshold value for determining the reception operation performed by the main tuner 12M and the sub tuner 12S based on the electric field strength difference DE. The electric field strength difference DE is a value obtained by subtracting the electric field strength IM of the main tuner 12M from the electric field strength IS of the sub-tuner 12S (that is, "electric field strength IS-electric field strength IM").
Further, a plurality of (two in this embodiment) electric field strength difference threshold values K and an electric field strength threshold value L for the electric field strength IM of the main tuner 12M are stored in advance in the threshold value storage unit 60. The plurality of electric field strength difference thresholds K and the electric field strength threshold L will be described later.

The electric field strength difference calculation unit 62 is a calculation unit that calculates the electric field strength difference DE based on the electric field strengths IM and IS of the main tuner 12M and the sub-tuner 12S, respectively.
The determination unit 64 determines one electric field strength difference threshold K from a plurality of electric field strength difference thresholds K based on the electric field strength IM and the electric field strength threshold L of the main tuner 12M, and determines the electric field strength difference threshold K and the electric field. Based on the intensity difference DE, the reception operation to be performed by the main tuner 12M and the sub tuner 12S is determined. By this determination, either the phase diversity reception operation or the seek operation is determined as the reception operation to be performed by the main tuner 12M and the sub tuner 12S.
The control unit 56 controls the reception operation of the main tuner 12M and the sub-tuner 12S based on the determination result of the determination unit 64, and causes a phase diversity reception operation or a seek operation.

Next, the operation of the in-vehicle receiving device 1 of the present embodiment will be described.
In this operation description, while the in-vehicle receiving device 1 receives the broadcast signal Ha of the selected station by the main tuner 12M and outputs the audio signal, for example, for creating a program list, the sub-tuner 12S described above. The operation when each broadcasting station data acquisition operation is executed as a seek operation will be described.

FIG. 2 is a flowchart showing the operation of the in-vehicle receiving device 1.
In order to sequentially receive the broadcast signal Ha of each broadcasting station, the control unit 56 first reads a list of frequencies of each broadcasting station (hereinafter referred to as "frequency list") from a memory device or the like (step Sa1).

Next, the determination unit 64 executes the reception operation determination process prior to the seek operation control by the seek operation control unit 53 (step Sa2). The reception operation determination process is a process for determining either a phase diversity reception operation or a broadcasting station data acquisition operation (seek operation) as a reception operation to be performed by the main tuner 12M and the sub tuner 12S.
In this reception operation determination process, when a relatively large improvement in the S / N ratio of an audio signal is expected by performing a phase diversity reception operation on the main tuner 12M and the sub tuner 12S, the phase diversity reception operation is determined as the reception operation. Will be done. On the other hand, when the improvement of the S / N ratio is small, the broadcasting station data acquisition operation is determined as the reception operation. The details of the reception operation determination process will be described later.

When the broadcast station data acquisition operation is determined as the reception operation as a result of the reception operation determination process by the determination unit 64 (step Sa3: A), the control unit 56 causes the main tuner 12M to continue receiving the selected station while continuing to receive the selected station. The seek operation control unit 53 is controlled to cause the sub-tuner 12S to perform a seek operation for receiving the broadcast signal Ha of any one broadcasting station (step Sa4).
Specifically, the seek operation control unit 53 instructs the sub-tuner 12S of the frequency of the broadcasting station to be received based on the frequency list, and causes the sub-tuner 12S to receive the broadcast signal Ha of the frequency.

Then, the control unit 56 monitors the elapse of the predetermined time A using the timer circuit, and when the predetermined time A elapses (step Sa5: Yes), when there is an unreceived broadcasting station (step Sa6: Yes). ), The processing procedure is returned to step Sa2 so that the sub-tuner 12S can receive the broadcast signal Ha of the broadcasting station. Then, in this step Sa2, the reception operation determination is performed again by the determination unit 64.

The predetermined time A in step Sa5 is set based on the time required for the DSP 14 to output the data Hb multiplexed on the broadcast signal Ha after the sub-tuner 12S starts receiving the broadcast signal Ha, and is generally set. It is a time of several tens of ms. When the data Hb is output from the DSP 14, the control computer 20 executes an appropriate process such as storing the data Hb at an appropriate timing.

When the phase diversity reception operation is determined as the reception operation as a result of the reception operation determination process in step Sa3 (step Sa3: B), the control unit 56 controls the phase diversity control unit 52 to control the phase diversity control unit 52, and the main tuner 12M and the sub. The tuner 12S is operated for phase diversity reception (step Sa7). By this process, the sub-tuner 12S that has been performing the data acquisition operation (seek operation) of each broadcasting station is switched to the phase diversity reception operation, and the broadcasting station data acquisition operation is interrupted.

Then, the control unit 56 monitors the progress of the predetermined time A, and when the predetermined time A elapses (step Sa5: Yes), the broadcast signal Ha is not received for the broadcasting station before the interruption of the broadcasting station data acquisition operation. Therefore (step Sa6: Yes), the processing procedure is returned to step Sa2 in order to receive the broadcast signal Ha of the broadcasting station.

FIG. 3 is an operation explanatory diagram of the in-vehicle receiving device 1, and is a schematic view showing an audio signal output from the in-vehicle receiving device 1 during a broadcasting station data acquisition operation together with an audio signal output by the main tuner 12M.
When the in-vehicle receiving device 1 receives the broadcast signal Ha of the selected station by the main tuner 12M, the audio signals based on the broadcast signal Ha are sequentially output as shown in the figure.
Then, the reception environment changes as the vehicle travels, and the noise of the audio signal output from the main tuner 12M is relatively large in Ca for a certain period of time, and the S / N ratio of the audio signal is improved by the phase diversity reception operation. Is expected.
In this case, since the determination unit 64 determines the phase diversity reception operation as the reception operation by the reception operation determination process in step Sa3, the phase diversity reception operation is performed during this period Ca, and noise is suppressed. The audio signal is output from the vehicle-mounted receiving device 1.
On the other hand, except for the period Ca, the determination unit 64 determines the broadcasting station data acquisition operation (seek operation) as the reception operation by the reception operation determination process in step Sa3, whereby the data Hb of the broadcasting station is sequentially acquired. The Rukoto.

By the way, during the data acquisition operation of each broadcasting station (during the seek operation), the reception time of the sub-tuner 12S per broadcasting station is approximately the above-mentioned predetermined time A, and this predetermined time A is a comparison of several tens of ms. It is set to a short time. Therefore, if the number of broadcasting stations received by the sub-tuner 12S during the seek operation is, for example, only one station, and the main tuner 12M and the sub-tuner 12S promptly perform the phase diversity reception operation after the seek operation, the seek operation is performed. The time for which noise is output by operation is about several tens of ms.
In this case, since the noise is very short, the occupant is less likely to notice the noise, and the noise is less likely to be jarring.

However, during the data acquisition operation of each broadcasting station, the sub-tuner 12S performs the receiving operation for a plurality of broadcasting stations, so that noise is continuously output for a time corresponding to the number of broadcasting stations to be received. If no measures are taken, the noise will be jarring.
On the other hand, according to the present embodiment, even during the data acquisition operation of each broadcasting station, the determination unit 64 determines the reception operation every time before the sub-tuner 12S receives the broadcast signal Ha of the broadcasting station. When the S / N ratio of the audio signal is expected to be improved by the phase diversity reception operation, the phase diversity reception operation is determined as the reception operation.
As a result, noise is not output longer than the predetermined time A even during the data acquisition operation of each broadcasting station, and the output of jarring noise is surely suppressed.

Next, the above-mentioned reception operation determination process will be described in detail.
FIG. 4 is a flowchart of the reception operation determination process.
In the control computer 20, first, the electric field strength acquisition unit 51 acquires the electric field strengths IM and IS from the main tuner 12M and the sub-tuner 12S, respectively (step Sb1). Next, the electric field strength difference calculation unit 62 calculates the above-mentioned electric field strength difference DE based on these electric field strengths IM and IS (step Sb2).

Next, the determination unit 64 determines one of the plurality of electric field strength difference thresholds K stored in the threshold storage unit 60 based on the electric field strength IM of the main tuner 12M (step Sb3). Then, the determination unit 64 compares the electric field strength difference DE and the electric field strength difference threshold K, and when the electric field strength difference DE is equal to or less than the electric field strength difference threshold K (step Sb4: Yes), the main tuner 12M and the sub tuner Of the 12S, each broadcasting station data acquisition operation (seek operation) is determined as the reception operation to be performed by the sub-tuner 12S (step Sb5). On the other hand, when the electric field strength difference DE exceeds the electric field strength difference threshold value K (step Sb4: No), the determination unit 64 determines the phase diversity reception operation as the reception operation to be performed by the main tuner 12M and the sub tuner 12S. (Step Sb6).

The electric field strength difference threshold value K is a value indicating the electric field strength difference DE in which a relatively large improvement in S / N of the audio signal is expected by operating the main tuner 12M and the sub tuner 12S in phase diversity reception operation.
Hereinafter, the electric field strength difference threshold value K will be described in detail.

FIG. 5 is a diagram showing input / output characteristics of the main tuner 12M and the sub tuner 12S.
As shown in the figure, in the input / output characteristics of the main tuner 12M and the sub tuner 12S, the output level of the broadcast signal Ha (“Signal” in the figure) increases as the electric field strength increases, while on the other hand, The output level of noise (“Noise” in the figure) tends to decrease.
Then, in the medium-strong electric field strength range Ra (in the illustrated example, the electric field strength is about 20 (dBuV) or more) in which the electric field strength becomes large to some extent, the output level of the broadcast signal Ha becomes approximately constant, and S with respect to the increase / decrease in the electric field strength. The change in the / N ratio also tends to be gradual.
On the other hand, in the weak electric field strength range Rb where the electric field strength is lower than the medium-strong electric field strength range Ra, the output levels of the broadcast signal Ha and noise are not stable with respect to the increase and decrease of the electric field strength, and S / The change in N ratio also tends to be large.

For example, in the figure, points (I) and points (II) belonging to the weak electric field strength range Rb, and points (III) and points (IV) belonging to the medium strong electric field strength range Ra are all electric field strength difference DE. Is the same 5 (dBuV) point. However, the difference in S / N ratio between point (I) and point (II) is larger than the difference in S / N ratio between point (III) and point (IV), and even if the electric field strength difference DE is the same, There is a large difference in S / N ratio between the medium-strong electric field strength range Ra and the weak electric field strength range Rb.
In other words, in the medium-strong electric field strength range Ra, the electric field strength difference DE that causes fluctuations in the S / N ratio to the same extent as the weak electric field strength range Rb is larger than that in the weak electric field strength range Rb.
Therefore, in the weak electric field strength range Rb, even if the electric field strength difference DE is such that the S / N ratio of the audio signal is greatly improved by the phase diversity reception operation, in the medium strong electric field strength range Ra, even if the phase diversity reception operation is performed, S The / N ratio will not improve so much.

Therefore, in the present embodiment, in the weak electric field strength range Rb, the medium and strong electric field strength is compared with the electric field strength difference threshold K (hereinafter, referred to as “first electric field strength difference threshold K1”) of the electric field strength difference DE for phase diversity reception operation. A large value is set in the electric field strength difference threshold K (hereinafter, referred to as “second electric field strength difference threshold K2”) with respect to the range Ra.
As a result, in the medium-strong electric field strength range Ra, a larger electric field strength difference DE is generated between the main tuner 12M and the sub-tuner 12S, and the phase diversity reception operation is expected to improve the S / N ratio. Since the phase diversity reception operation is suppressed until then, the period during which the sub-tuner 12S performs the seek operation without being restricted by the phase diversity reception operation can be extended.

The threshold storage unit 60 has two, a first electric field strength difference threshold K1 and a second electric field strength difference threshold K2 in which an electric field strength difference DE larger than the first electric field strength difference threshold K1 is set. One is stored in advance as the electric field strength difference threshold K.
Further, the threshold storage unit 60 also stores the electric field strength threshold value L for determining whether the electric field strength IM of the main tuner 12M belongs to the medium strong electric field strength range Ra or the weak electric field strength range Rb.
When the input / output characteristics of the main tuner 12M and the sub tuner 12S are the examples shown in FIG. 5, for example, 5 (dBuV) is set for the first electric field strength difference threshold value K1, and the second electric field strength difference threshold value K2 is set. Is set to 7 (dBuV), and 20 (dBuV) is set to the electric field strength threshold value L.

Then, in step Sb3 of the reception operation determination process described above, the determination unit 64 compares the electric field strength IM of the main tuner 12M with the electric field strength threshold L, and whether or not the electric field strength IM exceeds the electric field strength threshold K. Based on the above, it is determined whether the electric field strength IM belongs to the medium strong electric field strength range Ra or the weak electric field strength range Rb. When the electric field strength IM belongs to the medium-strong electric field strength range Ra, the determination unit 64 selects the second electric field strength difference threshold value K2 as the electric field strength difference threshold value K. When the electric field strength IM belongs to the weak electric field strength range Rb, the determination unit 64 selects the first electric field strength difference threshold value K1 as the electric field strength difference threshold value K.

By using the electric field strength difference threshold K selected in this way for comparison with the electric field strength difference DE in the determination in step Sb4, even if the electric field strength difference DE is slightly large in the medium-strong electric field strength range Ra, When a large improvement in the S / N ratio of the audio signal is not expected, each broadcasting station data acquisition operation is determined as the reception operation instead of the phase diversity reception operation.
As a result, the number of phase diversity reception operations, which is not so effective in improving the S / N ratio of the audio signal, can be reduced. Further, by reducing the number of phase diversity reception operations during each broadcasting station data acquisition operation, each broadcasting station data acquisition operation can be completed faster.

According to this embodiment, the following effects are obtained.

In the in-vehicle receiving device 1 of the present embodiment, the electric field strength IM (first electric field strength) of the main tuner 12M is compared with the electric field strength threshold L, and the electric field strength difference DE and the first electric field strength difference threshold K1 or Based on the comparison with the second electric field strength difference threshold K2, the control unit 56 controls the reception operation of the main tuner 12M and the sub tuner 12S.
Thereby, the reception operation of the main tuner 12M and the sub-tuner 12S can be controlled more appropriately.

In the vehicle-mounted receiving device 1 of the present embodiment, the control unit 56 controls the phase diversity receiving operation in which the main tuner 12M and the sub-tuner 12S receive the same frequency as the receiving operation.
Therefore, the control unit 56 can cause the main tuner 12M and the sub-tuner 12S to perform the phase diversity reception operation at an appropriate timing when the S / N ratio of the audio signal (output signal) is expected to be improved.

In the in-vehicle receiving device 1 of the present embodiment, as a receiving operation, the sub-tuner 12S receives a frequency of a broadcasting station different from the frequency of the selected station while the main tuner 12M is receiving the broadcasting of the selected station. Control the seek operation.
Therefore, at a timing when the S / N ratio of the audio signal (output signal) is not expected to be significantly improved, the control unit 56 causes the sub-tuner 12S of the main tuner 12M and the sub-tuner 12S to perform a seek operation. Can be done.

In the in-vehicle receiving device 1 of the present embodiment, in the seek operation, the sub-tuner 12S receives each of the frequencies of the plurality of broadcasting stations every predetermined time A.
As a result, for example, the above-mentioned program list creation of each broadcasting station can be efficiently performed while maintaining a good S / N ratio and avoiding the generation of noise.

In the vehicle-mounted receiver 1 of the present embodiment, the first electric field strength difference threshold value K1 is used when the electric field strength IM of the main tuner 12M is equal to or less than the electric field strength threshold value L. On the other hand, the second electric field strength difference threshold K2 is used when the electric field strength IM of the main tuner 12M exceeds the electric field strength threshold L, and is larger than the first electric field strength difference threshold K1. Is set.
As a result, an electric field strength difference DE having an appropriate size corresponding to the electric field strength IM of the main tuner 12M is set in each of the first electric field strength difference threshold value K1 and the second electric field strength difference threshold value K2. The reception operation can be determined more accurately by using the first electric field strength difference threshold value K1 and the second electric field strength difference threshold value K2.

The above-described embodiment is merely an example of one aspect of the present invention, and can be arbitrarily modified and applied without departing from the spirit of the present invention.

In the above-described embodiment, the vehicle-mounted receiving device 1 may include three or more antennas, and a tuner as a receiving unit may be connected to each of the three or more antennas.

In the above-described embodiment, the main tuner 12M may have a function of receiving the data Hb multiplexed on the broadcast signal Ha, similarly to the sub-tuner 12S. That is, the main tuner 12M and the sub tuner 12S may have the same configuration.

The receiving device according to the present invention can be mounted not only on a vehicle but also on an appropriate mobile body such as a mobile electronic device.

Further, the functional block shown in FIG. 1 is a schematic view showing components classified according to the main processing contents in order to facilitate understanding of the present invention, and each component is shown according to the processing contents. It can also be classified into more components. It can also be categorized so that one component performs more processing.

1 In-vehicle receiver (receiver)
10M main antenna (antenna)
10S sub-antenna (antenna)
12M main tuner (first receiver)
12S sub-tuner (second receiver)
20 Control computer (computer)
36 Electric field strength detection circuit 51 Electric field strength acquisition unit 52 Phase diversity control unit 53 Seek operation control unit 54 Seek control unit 56 Control unit 60 Threshold storage unit (storage unit)
62 Electric field strength difference calculation unit (calculation unit)
Ca period DE electric field strength difference Ha broadcast signal Hb data Hbs data signal IM electric field strength (first electric field strength)
IS electric field strength (second electric field strength)
K Electric field strength difference threshold K1 First electric field strength difference threshold K2 Second electric field strength difference threshold L Electric field strength threshold Ra Medium strong electric field strength range Rb Weak electric field strength range W Broadcast radio waves

Claims (6)

A first receiver and a second receiver connected to at least two antennas, respectively.
An acquisition unit that acquires the first electric field strength of the signal received by the first receiving unit and the second electric field strength of the signal received by the second receiving unit.
A calculation unit that calculates an electric field strength difference, which is a value obtained by subtracting the first electric field strength from the second electric field strength.
A storage unit that stores a preset electric field strength threshold value, a preset first electric field strength difference threshold value, and a second electric field strength difference threshold value.
Based on the comparison between the first electric field strength and the electric field strength threshold, and the comparison between the electric field strength difference and the first electric field strength difference threshold, or the second electric field strength difference threshold, the first And the control unit that controls the reception operation of the second receiving unit,
A receiver equipped with. The reception operation is
This is a phase diversity receiving operation in which the first receiving unit and the second receiving unit receive the same frequency.
The receiving device according to claim 1. The reception operation is
This is a seek operation in which the second receiving unit receives a frequency of a broadcasting station different from the broadcasting station received by the first receiving unit while the first receiving unit is receiving a broadcast.
The receiving device according to claim 2. In the seek operation
The receiving device according to claim 3, wherein the second receiving unit receives each of the frequencies of a plurality of broadcasting stations at predetermined time intervals. The first electric field strength difference threshold is
It is used when the first electric field strength is equal to or less than the electric field strength threshold value.
The second electric field strength difference threshold is
It is used when the first electric field strength exceeds the electric field strength threshold value, and an electric field strength difference larger than the first electric field strength difference threshold value is set.
The receiving device according to any one of claims 1 to 4. In a receiving method of a receiving device including a first receiving unit and a second receiving unit connected to at least two antennas, respectively.
The first step of acquiring the first electric field strength of the signal received by the first receiving unit and the second electric field strength of the signal received by the second receiving unit, and
The second step of calculating the electric field strength difference, which is the value obtained by subtracting the first electric field strength from the second electric field strength,
Based on the comparison between the first electric field strength and the preset electric field strength threshold, and the comparison between the electric field strength difference and the preset first electric field strength difference threshold or the second electric field strength difference threshold. The third step of controlling the receiving operation of the first receiving unit and the second receiving unit, and
Receiving method including.

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