JPH055760Y2 - - Google Patents

Description

[Detailed Description of the Invention] <Industrial Application Field> The present invention relates to a sound field characteristic measuring device, and particularly to a sound field characteristic measuring device that measures sound field characteristics using impulse signals.

<Prior Art> There is an audio device that determines the acoustic characteristics of a sound field (sound field characteristics) and displays them on a spectrum analyzer, or makes the listening characteristics substantially flat over the entire region based on the determined sound field characteristics.

Such audio equipment includes (1) means for requiring spectrum analyzer display and automatic determination of equalizer characteristics; and (2) white noise (pink noise) or a sine wave having a substantially constant level over the entire audio signal frequency range. (3) an equalizer section that controls the frequency characteristics of the input audio signal based on equalizer characteristics specified by gain or attenuation in several bands; and (4) each of the bands in the sound field. (5) a control unit that determines an equalizer characteristic that makes the listening characteristics in the sound field substantially flat over the entire area based on the detected level; It has a display section that displays the level (spectrum) of each band based on the level and displays the equalizer characteristics set in the equalizer.

In the equalizer characteristic automatic determination mode, the level of each band such as pink noise output to the sound field is detected, and the equalizer characteristic flattens the listening characteristics in the sound field based on the detected level of each band. Determine and set it in the equalizer section.

In the spectrum analyzer display mode, the level (spectrum) of each band is displayed on the display section based on the detected level.

<Problem that the invention is trying to solve> However, conventional methods sweep white noise (pink noise) or a single sine wave over the entire band and measure the transfer characteristics (f characteristics) from the speaker to the listening point. (a) Measurement takes time; (b) measurement is noisy; and (c) static characteristics of the sound field can be measured, but dynamic characteristics such as the rise of the sound including the speaker cannot be measured. There are drawbacks.

In light of the above, an object of the present invention is to provide a novel sound field characteristic measuring device that can improve the conventional drawbacks.

〈Means for solving problems〉 The figure is a block diagram of an embodiment of the present invention.

11 is an equalizer, 12 is an impulse generation circuit, 13 is a mixing circuit, 14 is a power amplifier, 15 is a speaker, 16 is a microphone, 17 is an equalizer amplifier, 18 is a digital signal processor configured as a microcomputer, and 19 is a display section.

The digital signal processor 18 includes (a) impulse signal IP and equalizer amplifier 1;
(b) Means (Fourier transform unit) 18a for performing Fourier transform on the output signals from 7, respectively; ) 18b; and (c) means (spectrum analysis section) 18c for analyzing the characteristics of the sound field based on the transfer function.

<Function> The impulse signal IP generated from the impulse generation circuit 12 is output from the speaker 15 to the sound field,
The sound is collected by the microphone 16.

The Fourier transform unit 18a converts the impulse signal
The output signals from the IP and the sound collection sections 16 and 17 are each subjected to Fourier transform, and the transfer function calculation section 18b calculates a transfer function using the two functions obtained by the Fourier transform as an input function and an output function, and spectra The analysis section 18c analyzes the characteristics of the sound field based on the transfer function.

<Example> The figure is a block diagram of an embodiment of the present invention.

11 is an equalizer, 12 is an impulse generation circuit that generates an impulse close to a delta function,
This impulse has a period of about 10 μs to 50 μs and is equivalent to one wavelength of a sine wave. 13 is a mixing circuit, 14 is a power amplifier, 15 is a speaker, 16
1 is a microphone, 17 is an equalizer amplifier for correcting the f-characteristics of the microphone itself, 18 is a digital signal processor configured as a microcomputer, and 19 is a display section.

The digital signal processor 18 includes an impulse signal IP and equalizer amplifier 17
A Fourier transform unit 18a that Fourier transforms the output signals from the Fourier transform, and a transfer function calculation unit 18b that calculates a transfer function using the two functions obtained by the Fourier transform as an input function and an output function, respectively.
It has a spectrum analysis section 18c that analyzes the characteristics of the sound field based on the transfer function.

When an equalizer characteristic automatic determination request signal or a sound field spectrum analysis section display is requested from an operation section (not shown), the impulse generation circuit 12 generates an impulse IP. Note that at this time, no audio signal is output from the equalizer 11.

The impulse signal IP is output to the sound field from the speaker 15 via the mixing circuit 13 and the power amplifier 14, and is also output to the digital signal processor 18.
is input to the Fourier transform unit 18a.

The Fourier transform unit 18a subjects the input impulse signal f _i (t) to Fourier transform, and inputs the function F _i (ω) obtained by the transformation to the next stage transfer function calculation unit 18b as an input function. Since the Fourier transform process is well known, a detailed explanation thereof will be omitted, but please refer to "Transistor Technology, April 1986 issue, pages 367 to 376", for example.

On the other hand, the impulse signal output to the sound field is collected by the microphone 16, and then the f-characteristic of the microphone is corrected by the equalizer amplifier 17 and input to the Fourier transform section 18a.

The Fourier transform section 18a is an equalizer amplifier 17
The sound collection signal f ₀ (t) inputted from the controller 18 is Fourier-transformed, and the function F ₀ (ω) obtained by the transformation is inputted as an output function to the next-stage transfer function calculation unit 18b.

The transfer function calculation unit 18b calculates a transfer function T(ω) using the following equation: Transfer function=output function/input function (1), and inputs the transfer function to the next-stage spectrum analysis unit 18c.

The spectrum analysis section 18c displays a spectrum using the transfer function input to the display section 19 in the spectrum analysis section display mode, and displays equalizer characteristics that make the listening characteristics in the sound field almost flat over the entire range in the automatic equalizer characteristic determination mode. is determined and set in the equalizer 11.

<Effects of the Invention> According to the invention, since impulses are used and digitally processed, the time required to calculate the transfer function can be shortened, and although the energy of the impulse itself is large, it does not matter because the time is short.

Furthermore, according to the present invention, since the sound field characteristics are calculated as a transfer function using impulses, it is possible to measure the frequency characteristics including the response characteristics of the entire audio equipment system, that is, the dynamic changes in the frequency characteristics.

[Brief explanation of the drawing]

The figure is a block diagram of an embodiment of the present invention. 11... Equalizer, 12... Impulse generation circuit, 15... Speaker, 16... Microphone, 18
...Digital signal processor, 18a...Fourier transform section, 18b...Transfer function calculation section, 18c...
...Spectrum analysis section, 19...Display section.

Claims (1)

[Claims for Utility Model Registration] An impulse generation circuit, a speaker that outputs an impulse signal output from the impulse generation circuit to a sound field, a sound collection means for collecting sound waves in the sound field, and the impulse signal and the collection means. means for Fourier transforming each of the output signals from the sound means; means for determining a transfer function using the two functions obtained by the Fourier transform as an input function and an output function, respectively; and determining characteristics of a sound field based on the transfer function. A sound field characteristic measuring device characterized by having means for analyzing.