JPS62226798A - Accoustic equipment - Google Patents

Abstract

PURPOSE:To always listen to sound without any noise even when the titled equipment is used at a noisy place by subtracting a pseudo noise signal from acoustic signal inputted to a headphone by a subtractor in advance. CONSTITUTION:In a noise canceller 15, when an output signal V of an amplifier 7 is zero, an adaptive filter is operated so as to bring a residual signal E outputted from a subtractor to zero by the control of a level ditector 18. A pseudo noise Y outputted from the noise canceller 15 is subtracted from the output signal V of the amplifier 7 by the subtractor 17 to form a headphone signal W. The signal W is reproduced by the headphone 9 to form a sound signal, since the noise is listened to ears, the signal S listened to by the ears is a signal V and then only a pure sound signal from a cassette tape 3 having no noise is listened to the ears.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Field of Application) The present invention relates to an acoustic device that allows sound to be heard without noise even in a noisy place.

(Prior Art) Conventionally, with portable audio devices such as headphone stereos and headphone radios, there has been a problem in which voices cannot be heard sufficiently in noisy places such as inside trains due to noise. was there.

(Problem to be solved by the invention) For this reason, a method has been devised in which the sound output level is changed relative to the noise level, but if the sound output level is increased too much when the noise is intense, it may have an adverse effect on the ears or may harm others. There was a problem with the inconvenience.

(Purpose) The present invention has been made to solve these conventional problems, and its purpose is to provide an audio device that allows you to always hear noise-free sound even when used in a noisy place. do.

[Structure of the Invention] (Means for Solving the Problems) In order to achieve the above object, the present invention provides an audio device having headphones, which includes a first microphone provided in the audio device and a first microphone provided in the headphones. A second microphone learns the acoustic characteristics between these microphones using the output signals of the first microphone and the second microphone, and uses this learning result and a noise signal input to the first microphone to learn the acoustic characteristics of the second microphone. a noise canceller that generates a pseudo-noise signal of a noise signal that is input to the microphone; and a subtracter that necessarily subtracts the pseudo-noise signal from the output signal of the audio device and inputs the signal to the headphone. It is characterized by

(Function) In the present invention, the noise canceller learns the acoustic characteristics of the first microphone provided in the audio device and the second microphone provided in the headphone using the output signals of these microphones, and combines this learning result with the above-mentioned The noise signal input to the first microphone causes the second
A pseudo-noise signal is generated from the noise signal input to the microphone. This pseudo-noise signal is then subtracted in advance from the audio signal input to the headphones by a subtracter. Therefore, the headphone outputs a noise-free signal as it is output from the audio device.

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

FIG. 1 shows an embodiment in which the present invention is applied to a portable headphone stereo. When an audio electrical signal is reproduced from a cassette tape 3 in the stereo main body 1 by a head 5, the reproduced audio electrical signal is amplified by an amplifier 7. The stereo main body 1 and the headphones 9 are each provided with microphones 11 and 13. Microphone 11.
13 collects noise near the stereo main unit 1 and head phono 9, respectively, and sends signals X, Y representing the noise.
are respectively input to the noise canceller 15. The noise canceller 15 generates pseudo noise Y from the signals X and Y representing noise. The signal V amplified by the amplifier 7 and this pseudo noise (2) are subtracted by the subtracter 17 and inputted to the headphones 9. The headphones 9 convert the audio electrical signal into the audio signal S and reproduce the audio.

FIG. 2 is a block diagram of the noise canceller 15. This noise canceller 15 learns the acoustic characteristics between the microphones 11 and 13 using the output signals X and E of the microphones 11 and 13, and uses this learning result and the noise signal X input to the microphone 11.
This generates a pseudo noise signal @Y of the noise signal Y input to the microphone 13.

This noise canceller 15 is an adaptive filter (AF) 19
and a subtracter 21. The adaptive filter 19 learns from the input noise signal MX and the residual signal E which is the output signal of the microphone 13 so that the power of the residual signal E is minimized, and generates a pseudo noise Y.

Next, the operation of this embodiment will be explained. First, the operation of the noise canceller 15 will be explained. In this noise canceller 15, an adaptive filter acts under the control of the level detector 18 so that when the output signal @V of the amplifier 7 is zero, the residual signal E output from the subtracter 21 becomes zero.

That is, E=Y-Y=0 Therefore, Y=Y...■ The noise canceller 15 operates so that.

The pseudo noise Y output from the noise canceller 15 is subtracted from the output signal V of the amplifier 7 by a subtracter 17, and becomes a headphone signal W.

That is, W=V-Y...■ This headphone signal W is reproduced by the headphones 9 and becomes an audio signal, but since the ear (not shown) also hears the noise, the signal 5QS (input of the microphone B) It is also signal E. 5EE) is S=W+Y =V-Y+Y (from ■) =V-Y0Y (from ■) =V Therefore, the ear hears only the pure audio signal from cassette tape 3 without noise. be able to.

FIG. 3 shows the configuration of a central embodiment of the present invention. In this embodiment, a signal obtained by subtracting the output V of the amplifier 7 from the input signal gE of the microphone 13 by the subtracter 20 is input as the input E of the noise canceller 15. In this way, unlike the first embodiment, even when V≠0, E' = E-V = S-V = W + Y-V = V - Y + Y - V = Y-Y, and the adaptive filter becomes It is sufficient to learn so that E=O or the power of E is minimized.

Therefore, the level detector 18 becomes unnecessary, and the noise canceller can always learn even when using V-I-O.

Although this embodiment describes the case where the present invention is applied to a headphone stereo, it goes without saying that the present invention can be applied to various portable audio devices such as a headphone type radio.

[Effects of the Invention] As explained above, according to the present invention, even when used in a noisy place, it is possible to always hear noise-free sounds. Also, it will not hurt your ears or cause a nuisance to others.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a headphone stereo according to an embodiment of the present invention, FIG. 2 is a block diagram of a noise canceller, and FIG. 3 is a block diagram of a headphone stereo according to another embodiment of the present invention. 1...Stereo main body 9...Headphones 11.13...Microphone 15...Noise canceller 17...
...Subtractor Applicant Toshiba Corporation Agent Patent Attorney Nori Chika Norihito Takehana Kikuo Figure 2

Claims (1)

[Claims] In an audio device having headphones, a first microphone provided in the audio device, a second microphone provided in the headphones, and the output signals of the first microphone and the second microphone produce the sound of these ficrophones. a noise canceller that learns the characteristics and generates a pseudo noise signal of the noise signal input to the second microphone based on the learning result and the noise signal input to the first microphone; An audio device comprising: a subtracter for subtracting a noise signal and inputting the result to the headphones.