JP2011211582A - Apparatus for automatically adjusting fm audio output frequency - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an apparatus for automatically adjusting an FM audio output frequency so that a vehicle-side antenna may be enabled to receive an FM radio wave from an FM transmitter with high sensitivity and audio clear for listening is outputted from a speaker.SOLUTION: An FM modulator 3 has: an FM modulation wave creating section 33 for creating an FM modulation wave by synchronizing an audio signal and a frequency and for outputting the created FM modulation wave to an FM modulator side communication section 32; a reference signal generating section 34 for outputting a reference signal to the FM modulation wave creating section 33; and a transmission frequency setting section 35 for outputting frequency information transmitted to a head unit 2 to the FM modulation wave creating section 33. The head unit 2 includes a reception strength comparison/frequency selection section 23 for storing the reception strength of the FM modulation wave received from the FM modulator 3, selecting an FM modulation wave having the highest reception strength from among the received FM modulation waves, and outputting the frequency information of the selected FM modulation wave to a head unit side communication section 22.

Description

  The present invention relates to an audio output system using an FM transmitter and an FM broadcast receiving apparatus such as a car navigation apparatus. The present invention relates to an FM audio output frequency automatic adjustment method that automatically prevents interference due to coincidence with a device, and an apparatus that implements the method.

  In an audio device for vehicles, an FM transmitter function is connected to an audio device such as a portable music player brought into the vehicle by using an FM radio function that is normally provided, and the frequency within the receivable range of the FM radio is specified. Is set as the transmission output frequency, the audio signal of the audio device connected to this FM transmitter is output as an FM radio wave of this frequency, and this is received by the FM radio whose reception frequency is matched with the specific frequency in advance. In some cases, signal processing is performed in the same manner as reception of ordinary FM broadcasts and output from a speaker.

  However, when the audio information of the portable music player is transferred using such an FM transmitter, the audio quality is reduced as compared with the case where wired communication is used. This is largely due to interference between FM broadcast waves and FM radio waves output from the FM transmitter.

  In order to avoid the interference between the FM radio wave output from the FM transmitter and the FM broadcast wave, for example, an FM audio output frequency automatic adjustment method described in Patent Document 1 is known. In the present invention, an antenna for receiving FM broadcast waves is provided on the FM transmitter side, and FM radio waves output from the FM transmitter interfere with FM broadcast waves by detecting the reception intensity of FM broadcast waves for each channel. Avoid that.

JP 2007-174445 A

  However, in the conventional FM audio output frequency automatic adjustment method, as described above, an FM broadcast wave receiving antenna is provided on the FM transmitter side to detect the FM broadcast wave reception intensity. The FM broadcast waves detected by the antenna for use are different in intensity level, and FM radio waves in the frequency region that can be received by the antenna on the vehicle-mounted audio side but cannot be detected by the antenna on the FM transmitter side are output from the FM transmitter side. Therefore, there has been a problem that the FM radio wave output from the FM transmitter interferes with the FM broadcast wave received by the in-vehicle audio antenna.

  The present invention has been conceived to solve this problem, and is intended to enable a vehicle-side antenna to receive FM radio waves from an FM transmitter with high sensitivity. An object of the present invention is to provide an audio output frequency automatic adjusting device.

In order to achieve the above object, according to the present invention, an FM modulator transmits an FM modulated wave to a head unit and receives good frequency information having the highest reception intensity from the head unit, and an FM modulator side communication unit. Connected to the side communication unit, creates an FM modulated wave by synchronizing the frequency with the audio signal, and outputs it to the FM modulator side communication unit, and is connected to the FM modulated wave creation unit to create an FM modulated wave A reference signal generation unit that outputs a reference signal to the unit, a transmission frequency setting unit that is connected to the FM modulator side communication unit and the FM modulation wave generation unit, and outputs frequency information to be transmitted to the head unit to the FM modulation wave generation unit A head unit that receives an FM modulated wave from the FM modulator and transmits frequency information having the highest reception intensity to the FM modulator; It is connected to the knit side communication unit and the head unit side communication unit, stores the reception intensity of the FM modulated wave received from the FM modulator, and selects the one having the highest reception intensity from the received FM modulated waves. A reception intensity comparison / frequency selection unit that outputs frequency information of the FM modulated wave to the communication unit on the head unit side.

  The present invention can automatically change the transmission / reception of audio signals of various devices to a frequency without interference and transmit / receive.

The block diagram in the FM audio output frequency automatic adjustment apparatus of one Embodiment of this invention The block diagram in the head unit of one Embodiment of this invention The block diagram in the FM modulator of one Embodiment of this invention The flowchart for demonstrating the frequency setting method in the FM audio | voice output frequency automatic adjustment apparatus of one Embodiment of this invention.

  Hereinafter, an FM audio output frequency automatic adjusting apparatus 1 according to an embodiment of the present invention will be described with reference to the drawings.

  A block diagram of an FM audio output frequency automatic adjusting apparatus 1 according to an embodiment of the present invention is shown in FIG.

  The FM audio output frequency automatic adjusting apparatus 1 includes a head unit 2 mounted on a vehicle, an FM modulator 3 that communicates with the head unit 2, an audio reproduction device 4 that is connected to the FM modulator 3, and a head unit 2. It is comprised with the speaker 5 which is connected.

  The head unit 2 communicates information with the FM modulator 3 and converts the FM modulated wave received from the FM modulator 3 into an audio signal.

  The FM modulator 3 is connected to the audio reproduction device 4 and modulates an audio signal from the audio reproduction device 4 into an FM modulated wave.

  The audio signal device 4 is connected to the FM modulator 3 and outputs an audio signal to the FM modulator 3.

  The speaker 5 is connected to the head unit 2 and converts a sound signal from the head unit 2 into physical vibration and outputs it as music or sound.

  Hereinafter, a head unit 2 that is a main part of an FM audio output frequency automatic adjusting apparatus 1 according to an embodiment of the present invention will be described with reference to the drawings.

  FIG. 2 shows a block diagram of the head unit 2, which is a main part of the FM audio output frequency automatic adjusting apparatus 1. As shown in FIG.

  The head unit 2 includes a head unit side antenna 21 that communicates with the FM modulator 3, a head unit side communication unit 22 that is connected to the head unit side antenna 2, and a reception intensity that is connected to the head unit side communication unit 22. The comparison / frequency selection unit 23 and an audio signal creation unit 24 connected to the head unit side communication unit 22 are configured.

  The head unit side communication unit 22 is connected to the reception intensity comparison / frequency selection unit 23, the audio signal creation unit 24, and the head unit side antenna 21. The head unit side communication unit 22 outputs an FM modulated wave signal received from the FM modulator 3 by the head unit side antenna 21 to the reception intensity comparison / frequency selection unit 23. The head unit side communication unit 22 receives the frequency information selected by the reception intensity comparison / frequency selection unit 23 as a signal, outputs it to the head unit side antenna 21, and transmits it to the FM modulator 3. Further, the head unit side communication unit 22 outputs an FM modulated wave signal to the audio signal creation unit 24.

  The reception intensity comparison / frequency setting unit 23 is connected to the head unit side communication unit 22, receives a plurality of FM modulated wave signals from the head unit side communication unit 22, and stores and compares the reception intensity of each FM modulation wave. . Then, the frequency of the FM modulated wave having the highest reception intensity is selected, and the frequency information is output to the head unit side communication unit 21.

  The audio signal creation unit 24 is connected to the speaker 5, converts the FM modulated wave signal output from the head unit side communication unit 22 into an audio signal, and outputs the audio signal to the speaker 5.

  Hereinafter, an FM modulator 3 that is a main part of an FM audio output frequency automatic adjusting apparatus 1 according to an embodiment of the present invention will be described with reference to the drawings.

  FIG. 3 shows a block diagram of an FM modulator 3 which is a main part of the FM audio output frequency automatic adjusting apparatus 1.

  The FM modulator 3 includes an FM modulator side antenna 31 that communicates with the head unit 2, an FM modulator side communication unit 32 that is connected to the FM modulator side antenna 31, and an FM that is connected to the FM modulator side communication unit 32. And a modulated wave generator 33. Further, the FM modulated wave generating unit 33 is connected to a reference signal generating unit 34 and a transmission frequency setting unit 35, and the transmission frequency setting unit 35 is connected to a start instruction unit 36.

  The FM modulator side communication unit 32 is connected to the FM modulated wave creating unit 33, the transmission frequency setting unit 35, and the FM modulator side antenna 31, and receives the FM modulated wave signal from the FM modulated wave creating unit 33 and receives the FM modulator antenna. The signal is transmitted to the head unit 2 via 31, and the signal received from the head unit 2 is output to the transmission frequency setting unit 35.

  The FM modulated wave creating unit 33 is connected to the reference signal generating unit 34, the transmission frequency setting unit 35, and the audio reproduction device 4. The FM modulated wave creating unit 33 converts the audio signal input from the audio reproduction device 4 into an FM modulated wave signal. Further, the FM modulated wave creating unit 33 inputs a signal from the reference signal generating unit 34. Further, a signal from the transmission frequency setting unit 35 is input. Based on the signal from the reference signal generator 34, the signal from the transmission frequency setting unit 35, and the signal from the audio reproduction device 4, an FM modulated wave signal is created. Then, the FM modulated wave signal is transmitted to the FM modulator side communication unit 32.

The reference signal generator 34 is connected to the FM modulated wave generator 33 and outputs a reference signal to the FM modulated wave generator 33. The reference signal includes a Hi signal and a Lo signal. The Hi signal is a signal that instructs the FM modulation wave creating unit 33 to output a voltage of 1 Vpp and 1 KHz to the audio signal. With this Hi signal, the FM modulated wave creating unit 33 creates an FM modulated wave signal whose frequency is shifted by synchronizing the phase of the audio signal with the frequency instructed by the transmission frequency setting unit 35. On the other hand, the Lo signal instructs the FM modulated wave creating unit 33 to create an FM modulated wave signal without synchronizing the audio signal with the frequency designated by the transmission frequency setting unit 35.

  The transmission frequency setting unit 35 is connected to the FM modulator-side communication unit 32 and the FM modulated wave creating unit 33, receives frequency change instruction information from the head unit 2 via the FM modulator-side communication unit 32, and creates an FM modulated wave. The frequency of the FM modulated wave created by the unit 33 is set, and the set frequency information is output to the FM modulated wave creating unit 33.

  The start instruction unit 36 is connected to the transmission frequency setting unit 35 and the reference signal generation unit 34, activates the FM modulator 3, outputs a start instruction signal for setting the transmission frequency to the transmission frequency setting unit 35, and The reference signal generator 34 outputs a reference signal.

  Hereinafter, a frequency setting method of the FM audio output frequency automatic adjusting apparatus 1 according to an embodiment of the present invention will be described with reference to the drawings.

  FIG. 4 is a diagram for explaining a frequency setting method of the FM audio output frequency automatic adjusting apparatus 1 according to the embodiment of the present invention.

  First, as shown in step S101, the operator inputs a start instruction for starting the FM modulator 3 from the start instruction unit 36 such as an activation button.

  Next, as shown in step S102, the transmission frequency setting unit 35 sets a transmission frequency that is not selected from the stored frequency bands. The transmission frequency setting unit 35 stores an FM frequency band of 50 MHz to 200 MHz for every 10 MHz in 16 divisions. Then, the lowest frequency that has not yet been selected is selected from the stored frequency bands. The FM frequency bands that are divided into 16 are stored in units of 50 MHz, 60 MHz, 70 MHz,..., 200 MHz, and 10 MHz. The frequency selected first is 50 MHz, and the next is 60 MHz.

  Then, as shown in step S103, the reference signal generator 34 outputs a Hi signal.

  As shown in step S104, the FM modulation wave generating unit 33 outputs a voltage of 1 Vpp and 1 KHz to the audio signal based on the Hi signal, and synchronizes the phase of the audio signal with the frequency designated by the transmission frequency setting unit 35. Thus, an FM modulated wave signal with a shifted frequency is created. Then, the created FM modulated wave is transmitted to the head unit 2 via the FM module side antenna 31.

  As shown in step S <b> 105, the head unit 2 receives the FM modulated wave output based on the Hi signal from the head unit side antenna 21.

  As shown in step S <b> 106, the reception intensity of the FM modulated wave is stored in the reception intensity comparison / frequency selection unit 23.

  Further, as shown in step S107, the reference signal generator 34 outputs the Lo signal. This is output after a predetermined time has elapsed since the Hi signal was output from the reference signal generator 34.

  As shown in step S <b> 108, the FM modulated wave creating unit 33 creates an FM modulated wave signal without synchronizing the audio signal with the frequency instructed by the transmission frequency setting unit 35, and the head via the FM module side antenna 31. Send to unit 2.

  As shown in step S <b> 109, the head unit 2 receives an FM modulated wave output based on the Hi signal from the head unit side antenna 21.

  As shown in step S110, the reception intensity of the FM modulated wave is stored in the reception intensity comparison / frequency selection unit 23.

  As shown in step S111, the transmission frequency setting unit 35 determines whether there is a frequency band that is not selected among the stored FM frequency bands. If “NO” in the step S111, that is, if there is no unselected frequency band and all the FM frequency bands are selected, the process proceeds to a step S112.

  As shown in step S112, the reception intensity comparison / frequency selection unit 23 selects a frequency having the highest ratio of “reception intensity of FM modulated wave based on Hi signal” / “reception intensity of FM modulated wave based on Lo signal”. To do. This is because when the head unit side antenna 21 receives a frequency band interfering with the FM broadcast wave from the broadcast station, the reception intensity level of the FM modulated wave based on the Lo signal is increased, and the FM broadcast wave and the interference are increased. When the frequency band is not set, the reception intensity of the FM modulated wave based on the Lo signal is low. On the other hand, when the reception intensity of the FM modulated wave based on the Hi signal is high, it indicates that the frequency band has good reception sensitivity from the FM modulator 3 to the head unit 2. This is because when an FM modulated wave is transmitted from the FM modulator 3 to the head unit 2, the frequency band with good reception sensitivity changes depending on the positional relationship between the two, so that a frequency band suitable for the situation can be set. Therefore, it can be determined that the frequency having the highest ratio of “reception intensity of FM modulated wave based on Hi signal” / “reception intensity of FM modulated wave based on Lo signal” has the highest sensitivity.

  Then, as shown in step S <b> 113, the reception intensity comparison / frequency selection unit 23 transmits the selected frequency information to the FM modulator 3 via the antenna 21.

  As shown in step S <b> 114, the transmission / reception frequency setting unit 35 sets the transmission frequency determined to have the highest sensitivity, and outputs the set frequency information to the FM modulated wave creation unit 33.

  As shown in step S <b> 115, an FM modulated wave in which the audio signal is synchronized with the frequency set in the FM modulated wave creating unit 33 is created and transmitted to the head unit 2 via the FM module side antenna 31.

  As shown in step S <b> 116, the audio signal creation unit 24 creates an audio signal from the FM modulated wave received by the head unit 2 and outputs it to the speaker 5.

  Returning to step S111, in the case of “YES”, that is, when there is a frequency band not selected among the FM frequency bands stored in the transmission frequency setting unit 35, the process returns to step S102, and the transmission frequency setting unit 35 The transmission frequency which is not selected among the frequency bands where is stored is set, and the processes of steps S102 to S111 are repeated until all the frequency bands are selected.

With this configuration, the sound of the sound reproducing device can be transmitted to the head unit 2 through the FM modulator 3 at the most sensitive frequency, and easy-to-hear sound can be output from the speaker 5.

  As described above, the FM audio output frequency automatic adjustment device according to the present invention is useful as an FM transmitter.

DESCRIPTION OF SYMBOLS 1 FM audio output frequency automatic adjustment apparatus 2 Head unit 21 Head unit side antenna 22 Head unit side communication part 23 Reception intensity comparison and frequency selection part 3 FM modulator 31 FM modulator side antenna 32 FM modulator side communication part 33 FM modulation wave creation part 34 Reference signal generator 35 Transmission frequency setting unit 36 Start instruction unit 4 Audio reproduction device 5 Speaker

Claims (1)

In an FM audio output frequency automatic adjusting device comprising an FM modulator for transmitting an FM modulated wave and a head unit for receiving the FM modulated wave from the FM modulator,
The FM modulator is
An FM modulator side communication unit that transmits an FM modulated wave to the head unit and receives frequency information having the highest reception intensity from the head unit;
An FM modulated wave creating unit connected to the FM modulator side communication unit, generating an FM modulated wave by synchronizing a frequency with an audio signal, and outputting the FM modulated wave to the FM modulator side communication unit;
A reference signal generator connected to the FM modulated wave generator and outputting a reference signal to the FM modulated wave generator;
A transmission frequency setting unit connected to the FM modulator side communication unit and the FM modulated wave creating unit, and outputting frequency information to be transmitted to the head unit to the FM modulated wave creating unit;
The head unit is
A head unit side communication unit that receives an FM modulated wave from the FM modulator and transmits frequency information having the highest reception intensity to the FM modulator;
Connected to the head unit side communication unit, stores the reception intensity of the FM modulated wave received from the FM modulator, selects the one having the highest reception intensity from the received FM modulated waves, and selects the FM modulated wave An FM audio output frequency automatic adjustment device comprising: a reception intensity comparison / frequency selection unit that outputs frequency information to the head unit side communication unit.