JPH01130608A - Correcting device for automatic sound field frequency characteristic - Google Patents

Abstract

PURPOSE:To facilitate the movement of a microphone attended with the movement of a listening point by using a wireless sending means so as to feed back a control signal of a graphic equalizer obtained at the listening point to the graphic equalizer. CONSTITUTION:A frequency sweep signal outputted from a frequency sweep signal generator 2 is sounded from a speaker 6 from the graphic equalizer 4 and an amplifier 5. The frequency sweep signal collected by the microphone 7 placed at the listening point is amplified by a microphone amplifier 8, the amplified signal enters a frequency level analyzing means 9, where the signal is converted into the graphic equalizer control signal. Then the resulting signal is converted into a remote control signal by an encode circuit 10 and sent in radio by a sending means 11. Then the signal is received by a receiving means 12 and restored into the graphic equalizer control signal by a decode circuit 13. Thus, no interconnection means to send the control signal to the graphic equalizer 4 is required and the movement of the microphone attended with the movement of the listening point is facilitated.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an automatic sound field frequency characteristic correction device used in a listening room or the like.

(Summary of the Invention) The present invention collects a frequency sweep signal output from a speaker with a microphone at a listening point, analyzes the frequency level, and sends the obtained graphic equalizer control signal to a stereo amplifier using wireless transmission means. The sound pressure level from the speaker at the listening point is adjusted in advance over the entire frequency band by feeding back to the graphic equalizer in the speaker and automatically operating the graphic equalizer to adjust the sound pressure level of the speaker for each frequency band. This is to correct so that the set characteristics are achieved.

(Prior Art) As disclosed in Japanese Patent Application Laid-Open No. 166698/1983, which was published on July 23, 1988, in a single room or a sleeping room of an automobile, standing waves, reflected waves, etc. Due to the influence of There is an automatic sound field correction device that performs a comparison with the level and operates a graphic equalizer to correct the frequency characteristics at the listening point so that they become flat.

(Problems to be Solved by the Present Invention) However, in conventional automatic sound field correction devices, when the listening point is far from the sound source such as a speaker, it is difficult to collect and process signals from the microphone and send them to the graphic equalizer. There was a problem in that line processing was required because a connection cord was required. Also, if the listening point moves,
In automatic sound field correction devices that require a connection cord, it is not easy to move the microphone as the listening point moves.

(Means for Solving the Problems) The present invention aims to solve the above problems, and provides a frequency sweep signal generator that sequentially changes the frequency of a reproduced signal over a predetermined frequency band, and a frequency sweep signal generator that sequentially changes the frequency of a reproduced signal over a predetermined frequency band. a graphic equalizer that is interposed between the frequency slope signal generator and the speaker that auralizes the signal output from the frequency slope signal generator, and that automatically increases or decreases the reproduced signal for each of a plurality of frequency bands according to a control signal; and,
a microphone that converts an acoustic signal from the speaker into an electrical signal at a listening point; and a frequency level analysis means that analyzes the frequency level of the output from the microphone and converts it into a control signal for the graphic equalizer according to the analysis result. , remote control signal converting means for encoding the control signal into a remote control signal mode; remote control signal transmitting means for wirelessly transmitting the remote control signal; and remote control signal receiving means for receiving the remote control signal. and control signal converting means for converting the received remote control signal into a control signal for a graphic equalizer.

(Function) Collecting the next station wave number sweep signal that has been made into sound by the speaker using the microphone at the listening point, and feeding back the control signal of the graphic equalizer obtained by frequency level analysis to the graphic equalizer by wireless transmission. to run automatically,
The sound pressure level from the speaker at the listening point is corrected so that it has a preset characteristic over the entire frequency band.

(Example) Embodiments of the present invention will be described in detail below based on the drawings.

FIG. 1 is a block diagram showing the configuration of the present invention, and the sound source 1 is a tape deck or record player.

The frequency sweep signal generator 2 is a source of a tuner, etc., and the frequency sweep signal generator 2 is a source of a predetermined frequency band, for example, 20 H
The graphic equalizer 4 is a means for sequentially changing the frequency of a signal over a range of 20 kHz to 20 kHz and outputting the same, and the graphic equalizer 4 is a means for automatically increasing or attenuating reproduction for each of a plurality of frequency bands using an electronic volume or the like. The switch 3 is interposed between the frequency sweep signal generator 2 and the graphic equalizer 4 in the acoustic source 1, and is configured to switch between the acoustic signal output from the acoustic source 1 and the frequency sweep output from the frequency sweep signal generator 2. The signal is selected and sent to the graphic equalizer 4.

The amplifier 5 is a means for amplifying the signal input from the graphic equalizer 4 so as to be suitable for driving the speaker 6, and the speaker 6 is a means for converting the amplified signal into sound. The microphone 7 is a means for converting sound waves into electrical signals, and the microphone amplifier 8 is a means for amplifying the electrical signals. The frequency level analysis means 9 compares each of a plurality of frequency bands with a preset level, and outputs a control signal for the graphic equalizer 4 according to the comparison result. The encoding circuit IO is a device that converts the control signal into a remote control signal, and the remote control signal transmitting means 11 is a means for wirelessly transmitting the remote control signal using infrared rays, ultrasonic waves, or the like. The remote control signal receiving means 12 receives the remote control signal and decodes the decoding circuit 1.
The decoding circuit +3 is a means for converting the remote control signal into a control signal for the graphic equalizer 4.

FIG. 2 is a block diagram showing a specific configuration of the frequency and level analysis means 9, and shows an example in which the total frequency band is divided into four and the level is analyzed for each frequency band.Buffer amplifier 14 is a means for amplifying the input signal, and filters 15, 16, 17, and 18 are means for passing only a specific frequency band of the signal, and each of the four frequency bands and the acid part are The level determination circuits 19, 20, 21.22 select the preset levels and the filters 15, 16, 17.
18, and outputs a signal according to the result. The graphic equalizer control signal conversion means 23 includes the level determination circuit 19.
Next, the operation of the embodiment of the present invention configured as above, which is means for converting the signal results inputted from 20, 21, and 22 into control signals for controlling the graphic equalizer 4, will be explained. .

First, the switch 8 has the movable contact switched to the fixed contact B side, and the frequency sweep signal output from the frequency sweep signal generator 2 is passed through the switch 8 to the graphic equalizer 4. The signal is sent to an amplifier 5 and made into sound by a speaker 6. Microphone 7 is placed at the listening point,
The frequency sweep signal output from the speaker 6 passes through the listening room and is collected by the microphone 7. The frequency sweep signal collected by the microphone 7 is amplified by a microphone amplifier 8 and input to frequency level analysis means 9. The frequency sweep signal is compared with levels set in sequence for each frequency band, and converted into a graphic equalizer control signal according to the results. This control signal is converted into a remote control signal by the encoding circuit IO, wirelessly transmitted by the remote control signal transmitting means, received by the remote control signal receiving means 12, and then returned to the graphic equalizer control signal by the decoding circuit 13. As mentioned above, the control signal is sent to the graphic equalizer 4 by the wireless transmission means, and the graphic equalizer 4 automatically operates to enhance or attenuate the signal for each frequency band, thereby adjusting the frequency-branch characteristics. can be changed. By automatically repeating this operation, it becomes possible to listen with the preset frequency characteristics at the listening point. After the frequency characteristics at the listening point have been corrected as described above, the movable contact of switch 3 By switching to the fixed contact A side, the signal from the sound source 1 is converted into sound from the speaker 6, and at the listening point, music or the like is listened to with a preset frequency characteristic.

In this embodiment, an example is shown in which the entire frequency band is divided into four, but the larger the number of divisions, the more finely the frequency characteristics can be corrected. In addition, the level determination circuit can be realized at low cost by using level meter ICs such as LEDs that are currently mass-produced and commercially available. (Effects of the present invention) According to the present invention, sound collection at the listening point By feeding back the graph equalizer control signal obtained through processing to the graphic equalizer using the wireless transmission/reception means, there is no need for a connection means to send the graphic equalizer control signal to the graphic equalizer. The microphone can be easily moved without the hassle of line processing.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention, and FIG. 2 is a specific configuration diagram of the frequency level analysis means 9. In FIG. 2 is a frequency sweep signal generator, 4 is a graphic equalizer, 6 is a speaker, 7 is a microphone, 9 is a frequency level analysis means, IO is a two-code circuit, 11 is a transmission means for remote control signals, 12 is for remote control signals, receiving means; 13 is a decoding circuit;

Claims (1)

[Claims] 1. A frequency sweep signal generator that sequentially changes the frequency of a reproduced signal over a predetermined frequency band, and converts the frequency sweep signal generator and the signal from the frequency sweep signal generator into sound. a graphic equalizer that is interposed between the speaker and automatically amplifies or attenuates the reproduced signal for each of a plurality of frequency bands based on a control signal; a microphone that converts the acoustic signal from the speaker into an electrical signal at a listening point; Frequency level analysis means for analyzing the frequency level of the output from the microphone and converting it into a control signal for the graphic equalizer according to the analysis result; and remote control signal conversion means for encoding the control signal into a remote control signal mode. , remote control signal transmitting means for wirelessly transmitting the remote control signal; remote control signal receiving means for receiving the remote control signal; and a control signal for converting the received remote control signal into a control signal for a graphic equalizer. converting means, collecting a frequency sweep signal made into sound by the speaker using the microphone at a listening point, and wirelessly transmitting a control signal for the graphic equalizer obtained by frequency level analysis using a transmission line. The automatic sound field frequency is characterized in that the graphic equalizer is automatically operated by feeding back to the graphic equalizer, and corrects the sound pressure level from the speaker at the listening point so that it has a preset characteristic over the entire frequency band. Characteristic correction device.