This application is the U.S. National Phase under 35 U.S.C. ยง371 of International Application No. PCT/JP 2011/003978, filed on Jul. 12, 2011, which in turn claims the benefit of Japanese Application No. 2010-200657, filed on Sep. 8, 2010, the disclosures of which Applications are incorporated by reference herein.
The present invention relates to a sound reproduction device that produces a three-dimensional sound field.
Conventionally, in order to produce a three-dimensional sound field, there have been proposed many surround sound speaker systems of a type in which a plurality of speakers are provided around a listener. One of such systems is described in Unexamined Japanese Patent Publication No. H11-4500.
To television set 201 that presents a video image, interconnection module 203 is connected. With this, a sound signal of television set 201 is outputted to interconnection module 203. To interconnection module 203, subwoofer bass speaker 205, as well as front-center speaker 207, left-satellite speaker 209, right-satellite speaker 211, and rear-ambience speaker 213 that are respectively positioned front-side, left-side, right-side, and rear-side of viewer/listener 215 are connected. Therefore, interconnection module 203 has a function of generating various signals including, in addition to right and left sound signals, a sum signal of the right and left sound signals, and a difference signal between the right and left sound signals, and of outputting these signals to the five speakers.
Sound pressure P when a sound signal is emitted from each speaker in such a configuration is shown in
Typically, a conventional speaker is called as a dynamic speaker, and configured such that a permanent magnet is provided within a yoke constituted by a magnetic body such as iron, and a magnetic field is produced by converging magnetic flux of the permanent magnet around a voice coil based on a configuration of the yoke. At this time, supplying an alternating current to the voice coil causes the voice coil to vibrate receiving a Lorentz force from the magnetic field produced by the yoke in a vertical direction (thickness direction of the yoke), and thus causes air to vibrate via a diaphragm, also called as a corn, connected to this voice coil, and whereby sound is produced.
Therefore, the sound pressure produced from the normal speaker is maximized near the speaker and decays in the process of the sound propagating through the air due to absorption and diffusion to the air, and thus the sound pressure decreases as the distance from the speaker increases.
Further, as an angle of an aperture of the diaphragm with respect to a sound axis lying along a direction in which sound waves from the speaker travel is large, a directional angle of the sound wave emitted from the normal speaker is often large.
As the speakers that constitute this surround system are normal speakers, sound pressure P of front-center speaker 207 is maximized at a position of front-center speaker 207, and decreases as distance d increases, as illustrated in
Similarly, as illustrated in
A combination of the sound pressure characteristics shown in
According to the surround sound speaker system as illustrated in
Patent Literature
Patent Literature 1: Japanese Patent Publication No. 11-4500
A sound reproduction device according to the present invention includes a loudspeaker and a superdirective speaker. The loudspeaker is configured so that sound pressure P of audible sound produced therefrom decreases as the sound travels farther away from a position of the loudspeaker. The superdirective speaker is configured so that sound pressure P of audible sound produced therefrom has a peak at predetermined distance dk from the superdirective speaker, and is configured to use an ultrasonic wave as a carrier wave. The loudspeaker and the superdirective speaker are positioned such that a loudspeaker sound field of the audible sound produced from the loudspeaker and a superdirective speaker sound field of the audible sound produced from the superdirective speaker overlap with each other at a position of a listener.
According to the sound reproduction device of the present invention, along a sound axis in which the listener faces toward a position where the loudspeaker and the superdirective speaker are positioned, the loudspeaker sound field of the audible sound from the loudspeaker overlaps with the superdirective speaker sound field of the audible sound produced from the superdirective speaker having the peak of sound pressure P of the audible sound at predetermined distance dk from the position of the listener (listening point). Accordingly, sound pressure P of the audible sound near the listener can be maximized based on the loudspeaker sound pressure and the superdirective speaker sound pressure.
Further, along a direction vertical to the sound axis of the loudspeaker and the superdirective speaker, with respect to the listener, the loudspeaker sound field of the audible sound having a wide radiation angle produced from the loudspeaker overlaps with the superdirective speaker sound field of the audible sound having high directionality. Accordingly, similarly to the case of the direction along the sound axis, sound pressure P of the audible sound near the listener can be maximized based on the loudspeaker sound pressure and the superdirective speaker sound pressure.
Therefore, it is possible to realize a sound reproduction device capable of producing a sound field having a three-dimensional effect without providing a large number of loudspeakers around the listener.
Further, a sound reproduction device according to the present invention includes: a plurality of sound source units configured to respectively output sound signals that are independent from each other; a selector electrically connected to the sound source units and configured to receive the sound signals; a loudspeaker electrically connected to an output terminal of the selector; and a superdirective speaker electrically connected to an output terminal of the selector. The loudspeaker is configured so that sound pressure P of audible sound produced therefrom decreases as the sound travels farther away from a position of the loudspeaker. The superdirective speaker is configured so that sound pressure P of audible sound produced therefrom has a peak at predetermined distance dk from the superdirective speaker, and is configured to use an ultrasonic wave as a carrier wave. The loudspeaker and the superdirective speaker are positioned such that a loudspeaker sound field of the audible sound produced from the loudspeaker and a superdirective speaker sound field of the audible sound produced from the superdirective speaker overlap with each other at a position of a listener. The selector has a function of selecting any sound signal, out of the sound signals outputted from the plurality of sound source units, for the loudspeaker and the superdirective speaker.
According to the sound reproduction device of the present invention, the loudspeaker and the superdirective speaker are positioned such that the loudspeaker sound field and the superdirective speaker sound field overlap with each other at the position of the listener, and it is possible to emit the sound signals from the plurality of sound source units by optionally selecting between the loudspeaker and the superdirective speaker. Accordingly, it is possible to realize a sound reproduction device capable of performing an adjustment so that a best suited three-dimensional effect can be produced according to contents of the plurality of sound source units.
Hereinafter, exemplary embodiments of the present invention are described with reference to the drawings.
(First Exemplary Embodiment)
Referring to
Further, superdirective speaker 13 is positioned side by side near loudspeaker 11. Here, superdirective speaker 13 has a characteristic that sound pressure P of audible sound has a peak at predetermined distance dk from superdirective speaker 13 along the sound axis, and uses ultrasonic waves as carrier waves.
Typically, when a sound wave with an increased amplitude is emitted to a medium such as air or water, as an elastic characteristic of the medium itself (a volume change versus a pressure change) gains a non-linear, instead of linear, characteristic, a waveform of the sound wave is distorted due to an effect of the non-linear characteristic as the sound wave travels through the medium, and consequently the sound wave has come to contain a frequency component that is not originally contained.
Superdirective speaker 13 utilizes such a characteristic. When an audible sound component superimposed over an ultrasonic wave is emitted, due to an influence of the non-linearity of the elastic characteristic of the air, a waveform of the ultrasonic wave as a carrier wave is distorted as it travels through the air and the ultrasonic component having a higher frequency starts to decay first. Thus, the audible sound component having a frequency lower than that of the ultrasonic wave and superimposed over the ultrasonic wave is reproduced.
Accordingly, sound pressure P of the audible sound from superdirective speaker 13 exhibits a characteristic dependent on distance d along the sound axis such that sound pressure P is very small near superdirective speaker 13 along the sound axis in which the sound wave travels, and increases as the audible sound travels through the air to a peak at predetermined distance dk from superdirective speaker 13.
Further, generally speaking regarding directionality of the sound wave, as the frequency of the sound wave is higher, the sound wave propagates without spreading from the sound axis, and therefore an radiation angle becomes smaller and the directionality increases. Accordingly, directionality of the sound wave from the superdirective speaker using, as a carrier wave, the ultrasonic wave having a frequency higher than that of the audible sound is high, and therefore directionality of the audible sound generated in the process of propagation of the ultrasonic wave under the influence of the non-linear characteristic of air is high.
Thus, also in a direction vertical to a sound axis along which the ultrasonic wave propagates, sound pressure P of the audible sound from superdirective speaker 13 exhibits a characteristic dependent on distance w in the direction vertical to the sound axis, such that sound pressure P is large near the sound axis and decreases as the position is farther away from the sound axis.
In the following description, superdirective speaker 13 is defined to be a loudspeaker using the ultrasonic wave as a carrier wave, and loudspeaker 11 is defined to be a loudspeaker that does not uses the ultrasonic wave as a carrier wave.
Predetermined distance dk illustrated in
For example, in a case of superdirective speaker 13 having a carrier frequency at 40 kHz, sound pressure P of the audible sound shows its peak at predetermined distance dk of about 2 m from superdirective speaker 13 in the direction along the sound axis.
Further, as illustrated in
By contrast, as illustrated in
Loudspeaker 11 is electrically connected to sound source 19 (such as a television set tuner, a CD player, and a DVD player) via amplifier circuit 17. Further, superdirective speaker 13 is electrically connected to sound source 19 via drive circuit 21. Here, amplifier circuit 17 has functions such as amplification of signals from sound source 19 and control of waveform information of the signals, for example. Further, drive circuit 21 has such functions as of generating ultrasonic waves, superimposing signals from sound source 19 over the generated ultrasonic waves, amplifying amplitudes of the ultrasonic waves, and controlling the waveform information of the ultrasonic waves, for example.
Next, an operation of the sound reproduction device thus configured will be described.
A signal outputted from sound source 19 is inputted to amplifier circuit 17 and drive circuit 21.
The signal from sound source 19 inputted to amplifier circuit 17 is outputted via loudspeaker 11. Loudspeaker sound field 23 of the audible sound produced from loudspeaker 11 propagates through the air at wide angle from loudspeaker 11, as illustrated in
On the other hand, the signal from sound source 19 inputted to drive circuit 21 is superimposed over an ultrasonic wave generated in drive circuit 21 and outputted via superdirective speaker 13. As using the ultrasonic wave as a carrier wave, superdirective speaker sound field 25 of the audible sound produced from superdirective speaker 13 has directionality higher than the sound emitted from normal loudspeaker 11. Therefore, as illustrated in
Positioning loudspeaker 11 and superdirective speaker 13 side by side such that loudspeaker sound field 23 and superdirective speaker sound field 25 having the above characteristics overlap with each other allows a listener positioned at listening point 26 to hear both of the audible sound reproduced from loudspeaker 11 and the audible sound reproduced from superdirective speaker 13 superimposed over each other. A relation between distance d between a position at which each of loudspeaker 11 and superdirective speaker 13 is positioned and listening point 26 (along the sound axis), and sound pressure P of the audible sound from each of loudspeaker 11 and superdirective speaker 13 at distance d at this time is shown in
As illustrated in
Therefore, the audible sound emitted from loudspeaker 11 and superdirective speaker 13 is heard largest when the listener is positioned at predetermined distance dk along the sound axis from the positions at which these loudspeakers are positioned, and becomes smaller if the listener is away from predetermined distance dk.
Now,
Therefore, the audible sound emitted from loudspeaker 11 and superdirective speaker 13 is heard largest when the listener is positioned on the sound axis with respect to the positions at which these loudspeakers are positioned, and becomes smaller if the listener is away from the sound axis in the direction vertical to the sound axis.
A combination of the sound pressure characteristics of the audible sound shown in
As described above, it is possible to realize a three-dimensional sound field that allows the listener to obtain a feeling that the listener is surrounded by sound only with loudspeaker 11 and superdirective speaker 13 that are positioned in the same direction with respect to the listener, without providing a large number of loudspeakers around the listener.
Further, the sound field realized by the configuration of the sound reproduction device according to the first exemplary embodiment is a sound field produced by superimposing loudspeaker sound field 23 and superdirective speaker sound field 25. Accordingly, as compared to a sound field produced only by normal loudspeakers 11, a proportion of interference between the sound from loudspeaker 11 and the sound from superdirective speaker 13 with each other is small.
This is because as the sound field realized by the sound reproduction device is a sound field produced by overlapping the sound field of loudspeaker 11 produced only by an audible sound component with the sound field of the audible sound of superdirective speaker 13 reproduced by using the ultrasonic wave as a carrier wave, the proportion of interference between the audible sound is reduced as compared to the sound field produced from the normal loudspeakers.
Consequently, the listener positioned within the sound field produced by the configuration of the sound reproduction device according to the first exemplary embodiment is able to listen to the sound from superdirective speaker 13 clearly, without being influenced by the sound from loudspeaker 11.
With the configuration and the operation described above, it is possible to realize the sound reproduction device capable of producing a three-dimensional effect for the listener only with loudspeaker 11 and superdirective speaker 13, without providing a large number of loudspeakers around the listener.
While the sound reproduction device according to the first exemplary embodiment is configured such that the same signal from sound source 19 is reproduced from both loudspeaker 11 and superdirective speaker 13, the present invention is not limited to such an example.
For example, there is provided a configuration having a circuit for selecting a loudspeaker for reproduction according to a frequency band of a signal outputted from the sound source such that low-pitched sound is reproduced from loudspeaker 11, and middle-pitched or high-pitched sound is reproduced from superdirective speaker 13. With such a configuration, among sound information included in sound source 19, middle-pitched or high-pitched sound which is a human voice band, as opposed to the background sound a large part of which is low-pitched sound, is reproduced around the listener, and therefore it is possible to provide an effect of increasing clarity of the sound against the background sound.
(Second Exemplary Embodiment)
In
(1) A plurality of loudspeaker pairs (here, two pairs) each including loudspeaker 11 and superdirective speaker 13 positioned side by side with loudspeaker 11 are positioned respectively on the right and left along a front plane that faces against listener 27.
(2) To one of the loudspeaker pairs including loudspeaker 11 and superdirective speaker 13 positioned ahead on the left of listener 27, left sound source 29 that outputs a left sound signal is electrically connected. To the other of the loudspeaker pairs including loudspeaker 11 and superdirective speaker 13 positioned ahead on the right of listener 27, right sound source 31 that outputs a right sound signal is electrically connected. Components such as amplifier circuit 17 and drive circuit 21 are in the same configurations as those in the first exemplary embodiment.
(3) Display 33 is provided between the two loudspeaker pairs. In
(4) As illustrated in
Other than the above, the configuration is the same as that of the first exemplary embodiment.
With the above configuration, in addition to a three-dimensional effect for listener 27 in the sound field by a loudspeaker pair including loudspeaker 11 and superdirective speaker 13 as descried in the first exemplary embodiment, three-dimensional effects produced separately in right and left sound fields can also be obtained. Accordingly, as compared to a sound field produced only by normal loudspeakers 11, it is possible to provide a feeling of clearly separated right and left sound, without mixing sound fields in the right-left direction.
Therefore, by configuring the sound reproduction device according to the second exemplary embodiment, it is possible to produce an enhanced three-dimensional effect of sound for listener 27 only by positioning the two loudspeaker pairs each including loudspeaker 11 and superdirective speaker 13 respectively ahead on the right and left of listener 27, without providing a large number of normal loudspeakers around the listener as in the conventional example.
Further, by inputting sound signals linked to a three-dimensional image displayed in display 33 to left sound source 29 and right sound source 31, for example, in television set 35 having such a configuration, a sound field having a three-dimensional effect is produced according to the three-dimensional image, and therefore it is possible to realize television set 35 capable of producing a three-dimensional effect for listener 27 both visually and aurally.
With the configuration and the operation described above, it is possible to realize the right and left sound fields produced from the loudspeaker pairs each including loudspeaker 11 and superdirective speaker 13 respectively around the right and left ears of listener 27, and therefore listener 27 is able to hear sound with a three-dimensional effect separately in right and left. Thus, it is possible to provide the sound reproduction device capable of producing an enhanced three-dimensional effect without providing a large number of normal loudspeakers around listener 27.
While the two loudspeaker pairs are positioned respectively ahead on the right and left of listener 27 according to the second exemplary embodiment, the present invention is not limited to such an example, and it is possible to employ a configuration in which the two loudspeaker pairs are positioned, for example, respectively ahead up and down sides of listener 27 (for example, above and below display 33). Specifically, the two loudspeaker pairs may be positioned such that the sound fields are produced around the right and left ears of listener 27.
Further, the present invention is not limited to the configuration in which the two loudspeaker pairs are built within television set 35, and it is possible to employ a configuration, for example, in which the two loudspeaker pairs are positioned on right and left of display 33 independently from television set 35, or placed within a TV rack.
Moreover, according to the second exemplary embodiment, the two loudspeaker pairs each including loudspeaker 11 and superdirective speaker 13 positioned side by side with loudspeaker 11 are positioned along a single plane (front plane) that faces against listener 27. However, in a case in which these loudspeaker pairs are used, for example, exclusively for sound reproduction, the single plane that faces against the listener is not limited to a front plane, and the loudspeaker pairs may be positioned along any of a side plane, a rear plane, and an upside plane (immediately above the listener). In this case, too, as the loudspeaker pairs are positioned along one of these planes, a three-dimensional effect can be produced for the listener, without providing a large number of loudspeakers as conventionally required.
(Third Exemplary Embodiment)
In
(1) A plurality of loudspeaker pairs (here, three pairs) each including loudspeaker 11 and superdirective speaker 13 positioned side by side with loudspeaker 11 are positioned respectively on the right, left, and center along a front plane that faces against listener 27.
(2) To the loudspeaker pair including loudspeaker 11 and superdirective speaker 13 positioned ahead on the center of listener 27, center sound source 37 that outputs a center sound signal is electrically connected. Therefore, the sound reproduction device according to the third exemplary embodiment is provided with sound sources of three kinds.
(3) TV rack 39 on which the three loudspeaker pairs each including loudspeaker 11 and superdirective speaker 13 are placed is provided. Although the three loudspeaker pairs may be built within television set 35, TV rack 39 is provided herein, considering applications to slim television sets, in particular to slim bezel television sets.
Other than the above, the configuration is the same as that of the second exemplary embodiment.
With the above configuration, in addition to the right and left sound fields produced separately described according to the second exemplary embodiment, it is possible to produce a sound field independent from the right and left sound fields for listener 27 based on sound from the center sound source 37. Therefore, as compared to the conventional surround sound loudspeaker system, it is possible to realize a three-dimensional sound field in which the sound from the loudspeaker pairs on the right, left, and center are independent, and less likely to be mixed, and that can provide a clearer sense of orientation.
Here, for pseudo surround sound signals produced by creating three or more types of sound signals from a sound source recording less than three types of sound signals (for example, two types of stereo sound signals of right and left), it is possible to input the created sound signals respectively from left sound source 29, right sound source 31, and center sound source 37. With this, it is possible to produce a three-dimensional sound field only by the loudspeaker pairs positioned ahead of listener 27, without providing normal loudspeakers around listener 27 as in the conventional surround sound loudspeaker system.
With the configuration and the operation described above, it is possible to produce the sound fields that are independent and less likely to be mixed by the right, left, and center loudspeaker pairs each including loudspeaker 11 and superdirective speaker 13, and therefore listener 27 is able to hear sound with a three-dimensional effect providing a clearer sense of orientation. Thus, it is possible to realize the sound reproduction device capable of producing a sense of orientation and a three-dimensional effect without providing a large number of loudspeakers around listener 27.
While the loudspeaker pairs each including loudspeaker 11 and superdirective speaker 13 are placed on TV rack 39 according to the third exemplary embodiment, the present invention is not limited to such an example, and can be applicable as a loudspeaker system and the like for audio.
(Fourth Exemplary Embodiment)
In
(1) In one of the loudspeaker pairs that is positioned ahead on the left of listener 27, loudspeaker 11 is electrically connected to front-left sound source 41 via amplifier circuit 17, and superdirective speaker 13 is electrically connected to rear-left sound source 43 via drive circuit 21.
(2) In one of the loudspeaker pairs that is positioned ahead on the right of listener 27, loudspeaker 11 is electrically connected to front-right sound source 45 via amplifier circuit 17, and superdirective speaker 13 is electrically connected to rear-right sound source 47 via drive circuit 21.
Other than the above, the configuration is the same as that of the third exemplary embodiment.
When 5.1 channel surround sound signals are inputted to the sound reproduction device thus configured, sound signals from front-left sound source 41 and front-right sound source 45 are respectively reproduced through loudspeakers 11 ahead on the left and right of listener 27. Further, sound signals from rear-left sound source 43 and rear-right sound source 47 are respectively reproduced through superdirective speakers 13 ahead on the left and right of listener 27. Moreover, a sound signal from center sound source 37 is reproduced through loudspeaker 11 and superdirective speaker 13 included in the loudspeaker pair ahead on the center of listener 27. Furthermore, a low-pitched sound signal is reproduced from a subwoofer that is not depicted.
Listener 27 is able to obtain a clear sense of orientation in the right and left by reproducing the sound signals from rear-left sound source 43 and rear-right sound source 47 through superdirective speakers 13 that are positioned ahead on the left and right of listener 27, as the sound pressure peak of the audible sound in superdirective speaker sound field 25 is positioned near listener 27, and mutual interference between the reproduced sound of the sound signals from rear-left sound source 43 and rear-right sound source 47 is smaller than that in loudspeaker sound field 23. Further, the sound signal from center sound source 37 reproduced through superdirective speaker 13 in the loudspeaker pair ahead on the center of listener 27 is independent and less likely to be mixed into the sound field reproduced from the right and left loudspeaker pairs and the subwoofer, and therefore clearly transmitted to listener 27.
With the configuration and the operation described above, it is possible to constitute a 5.1 channel surround loudspeaker system using the sound reproduction device according to the fourth exemplary embodiment without providing conventional speakers around listener 27. Further, it is possible to realize the sound reproduction device capable of reproducing surround sound with a higher sense of independence of the reproduced sound of the rear sound signal on the right and left and clarity of the reproduced sound of the center sound signal, as compared to a surround sound loudspeaker system constituted only by conventional speakers.
While the description is given regarding the 5.1 channel surround sound signals in the fourth exemplary embodiment, it is possible to employ a configuration in which for the surround sound source recording at least three types of sound signals inputted to the sound reproduction device, at least one sound signal out of the sound signals of the surround sound source other than a left-channel signal and a right-channel signal can be reproduced through superdirective speaker 13 that is positioned facing in the same direction as loudspeaker 11 that reproduces the left-channel signal and the right-channel signal to listener 27. With this, it is possible to produce a three-dimensional sound field without providing a loudspeaker in a direction different from the loudspeaker reproducing a left-channel signal and a right-channel signal to listener 27 as in the conventional example.
Further, while the assignment of the sound signals in the surround sound source to the sound sources in the sound reproduction device according to the fourth exemplary embodiment is not limited to the example shown in
Moreover, while the description is given regarding the 5.1 channel surround sound signals in the fourth exemplary embodiment, the present invention is not limited to the 5.1 channel surround sound signals. It is possible to employ a configuration in which a left-channel signal and a right-channel signal are reproduced from loudspeaker 11 and at least one sound signal other than the left-channel signal and the right-channel signal is reproduced from superdirective speaker 13, out of pseudo surround sound signals produced by creating three or more types of sound signals from a sound source recording less than three types of sound signals. With this, it is possible to realize a sound reproduction device capable of reproducing surround sound having a pseudo-three-dimensional effect with a small number of sound signals without providing loudspeakers around listener 27.
(Fifth Exemplary Embodiment)
Referring to
First sound source unit 111 and second sound source unit 113 are both electrically connected to selector 115. Therefore, the sound signal of the background sound outputted from first sound source unit 111 and the sound signal of the sound information outputted from second sound source unit 113 are both inputted to selector 115. Selector 115 is configured by two 3-terminal switches having 2 input terminals and 1 output terminal that are switched at the same time. These 3-terminal switches may be configured to be switched by an external signal from a relay, a transistor, and such, or may be switched manually. In the former case, it is possible to perform switching by remote control or automatic switching based on an instruction such as sound source data.
As used herein, one of the two 3-terminal switches is referred to as first switching unit 117, and the other is referred to as second switching unit 119. To first sound source selecting terminal 121 of first switching unit 117 and first sound source selecting terminal 123 of second switching unit 119, first sound source unit 111 is electrically connected. Likewise, to second sound source selecting terminal 125 of first switching unit 117 and second sound source selecting terminal 127 of second switching unit 119, second sound source unit 113 is electrically connected.
To an output terminal of selector 115, loudspeaker 11 and superdirective speaker 13 are electrically connected. Referring to
Here, loudspeaker 11 is a conventional speaker, and a sound pressure of audible sound emitted from the loudspeaker is maximized near the loudspeaker, and decreases as the sound travels farther away from a position of the loudspeaker.
Further, superdirective speaker 13 is a loudspeaker using an ultrasonic wave as a carrier wave. When an ultrasonic wave superimposed over an audible sound component is emitted from the superdirective speaker, the audible sound component is reproduced by an effect of the non-linear characteristic of elastic characteristic of air. Accordingly, the sound pressure of the audible sound from the superdirective speaker exhibits a characteristic dependent on a distance along the sound axis such that the sound pressure is very small near the superdirective speaker along the sound axis in which the ultrasonic wave travels, increases as the audible sound travels through the air to a peak at a predetermined distance from the superdirective speaker. Moreover, also in a direction vertical to a sound axis, the sound pressure of the audible sound from the superdirective speaker exhibits a characteristic dependent on a distance from the sound axis, such that the sound pressure of the audible sound from the superdirective speaker decreases as the position is farther away from the sound axis depending on a degree of directionality of the ultrasonic wave used as a carrier wave.
Positions of loudspeaker 11 and superdirective speaker 13 are the same as those described according to the first exemplary embodiment and the second exemplary embodiment.
With the above configuration, any sound signal, out of the sound signals outputted from the plurality of sound source units, that is, first sound source unit 111 and second sound source unit 113, can be selected for loudspeaker 11 and superdirective speaker 13 using the selector 115.
Next, an operation of the sound reproduction device thus configured will be described.
When the sound signals described above are inputted to the respective sound sources, the sound signal of the background sound is outputted from first sound source unit 111, and the sound signal of the sound information is outputted from second sound source unit 113, independently.
Here, as illustrated in
At this time, by the listener (not depicted) being present at a position where the superdirective speaker sound field of the audible sound produced from superdirective speaker 13 overlaps with the loudspeaker sound field of the audible sound produced from loudspeaker 11, the listener is able to clearly hear the sound information from superdirective speaker 13 in the background sound from loudspeaker 11.
This is because as the sound field is produced by overlapping the sound field of loudspeaker 11 produced only by an audible sound component with the sound field of the audible sound of superdirective speaker 13 reproduced by using the ultrasonic wave as a carrier wave, the proportion of interference between the audible sound is reduced as compared to the sound field produced from the normal loudspeakers.
Further, when outputting the sound information from loudspeaker 11 and the background sound from superdirective speaker 13 according to contents of the plurality of sound sources, it is possible to select selector 115 such that first switching unit 117 selects second sound source selecting terminal 125 and second switching unit 119 selects first sound source selecting terminal 123.
Using selector 115 in this manner, it is possible to select the sound signals from first sound source unit 111 and second sound source unit 113 independently for loudspeaker 11 and superdirective speaker 13. With this, it is possible to produce a three-dimensional sound field in which the sound is independent without providing normal loudspeakers around the listener. In addition, it is possible to realize a sound reproduction device capable of selecting the sound source according to the contents of the plurality of sound sources.
(Sixth Exemplary Embodiment)
In
(1) First switching unit 117 and second switching unit 119 of selector 115 are each configured as a 5-terminal switches having 4 input terminals and 1 output terminals.
(2) The 4 input terminals of first switching unit 117 are combined sound source selecting terminal 137 and non-selecting terminal 141, in addition to first sound source selecting terminal 121 and second sound source selecting terminal 125. The 4 input terminals of second switching unit 119 are combined sound source selecting terminal 139 and non-selecting terminal 143, in addition to first sound source selecting terminal 123 and second sound source selecting terminal 127. Here, non-selecting terminal 141 and non-selecting terminal 143 are not directly connected to any of the sound sources.
(3) Synthesizer 145 is electrically connected between first sound source unit 111 and selector 115. Here, synthesizer 145 has a function of synthesizing a plurality of sound signals (a sound signal from first sound source unit 111 and a sound signal from second sound source unit 113 in the sixth exemplary embodiment) and a generation is outputted.
(4) An output terminal of synthesizer 145 is electrically connected to combined sound source selecting terminal 137 and combined sound source selecting terminal 139. Therefore, selector 115 has a function of allowing selection between sound signals from the sound source units including an output from synthesizer 145.
Here, first switching unit 117 and second switching unit 119 have a function of switching the same position in the 4 input terminals illustrated in
Next, an operation of the sound reproduction device thus configured will be described.
First, when selector 115 selects first sound source selecting terminal 121 and second sound source selecting terminal 127, a sound signal from first sound source unit 111 is outputted through loudspeaker 11 via amplifier circuit 17, and a sound signal from second sound source unit 113 is outputted through superdirective speaker 13 via drive circuit 21.
Then, when selector 115 selects first sound source selecting terminal 123 and second sound source selecting terminal 125, the sound signal from second sound source unit 113 is outputted through loudspeaker 11 via amplifier circuit 17, and the sound signal from first sound source unit 113 is outputted through superdirective speaker 13 via drive circuit 21. Specifically, the operation is the same as that in the fifth exemplary embodiment, and the listener at a position where a sound field produced from loudspeaker 11 overlaps with a sound field produced from the audible sound from superdirective speaker 13 is able to hear the sound in the same manner as in the fifth exemplary embodiment.
Next, when selector 115 selects combined sound source selecting terminal 137 and non-selecting terminal 143, a sound signal resulting from the sound signal from first sound source unit 111 and the sound signal from second sound source unit 113 combined by synthesizer 145 is outputted through loudspeaker 11 via amplifier circuit 17. At this time, drive circuit 21 does not operate as no sound signal is inputted to drive circuit 21, and superdirective speaker 13 does not output any signal.
Specifically, as the sound signal resulting from the combination of the sound signal from first sound source unit 111 and the sound signal from second sound source unit 113 is reproduced through loudspeaker 11 as a conventional speaker, the listener is able to hear the sound reproduced from loudspeaker 11 in a wider area as compared to the case in which the sound is reproduced only from the superdirective speaker.
Finally, when selector 115 selects non-selecting terminal 141 and combined sound source selecting terminal 139, a sound signal resulting from the sound signal from first sound source unit 111 and the sound signal from second sound source unit 113 combined by synthesizer 145 is outputted through superdirective speaker 13 via drive circuit 21. At this time, amplifier circuit 17 does not operate as no sound signal is inputted to amplifier circuit 17, and loudspeaker 11 does not output any signal.
Specifically, as the sound signal resulting from the combination of the sound signal from first sound source unit 111 and the sound signal from second sound source unit 113 is reproduced through superdirective speaker 13, the listener is able to hear the sound reproduced from superdirective speaker 13 in a narrower area as compared to the case in which the sound is reproduced only from the normal loudspeaker. Further, less sound may be transmitted to a person in a sound field other than the sound field of the audible sound reproduced from superdirective speaker 13, who does not need the sound from superdirective speaker 13.
In addition, as the audible sound reproduced from superdirective speaker 13 is less likely to be mixed or interfere with environmental sound around the listener as compared to the audible sound from normal loudspeaker 11, an effect that the audible sound reproduced from superdirective speaker 13 can be heard more clearly than the audible sound from normal loudspeaker 11 is provided.
Further, as compared to a case in which the listener wears headphones, the listener is able to hear the reproduced audible sound without a sense of restraint and cumbersomeness.
With the configuration and the operation described above, by reproducing the sound optionally selected by selector 115 according to contents of the plurality of sound sources from loudspeaker 11 and superdirective speaker 13 that are positioned facing in the same direction with respect to the listener without providing normal loudspeakers around the listener, it is possible to realize a sound reproduction device capable producing a three-dimensional sound field around the listener and of allowing the listener to hear the sound reproduced from superdirective speaker 13 independently and clearly against the sound reproduced from loudspeaker 11.
The sound reproduction device according to any of the fifth exemplary embodiment and the sixth exemplary embodiment can be applied to television set 35 described according to the second exemplary embodiment, TV rack 39 described according to the third exemplary embodiment and the fourth exemplary embodiment, the 5.1-channel surround loudspeaker system described according to the fourth exemplary embodiment, the loudspeaker system for audio, or the like.
Further, the sound reproduction device according to any of the fifth exemplary embodiment and the sixth exemplary embodiment may have a balancing function for adjusting magnitudes of the signals outputted from amplifier circuit 17 and drive circuit 21. With this, it is possible to increase a margin for adjustment of the three-dimensional effect according to contents of the plurality of sound sources, and it is possible to provide a three-dimensional effect best suited for the listener.
Moreover, it is possible to install loudspeaker 11 and superdirective speaker 13 or the loudspeaker pair including these loudspeakers according to the first exemplary embodiment to the sixth exemplary embodiment in a vehicle. In this case, it is possible to reduce the weight of the vehicle as it is possible to reduce the number of loudspeakers as compared to a conventional configuration in which a large number of conventional speakers are provided around a driver within a vehicle interior. In addition, as a position of listener 27 such as the driver is almost fixed within the vehicle interior, there is a particular advantage that the facing direction of superdirective speaker 13 can be easily set univocally in the adjustment.
Furthermore, in a small vehicle interior, when a surround sound loudspeaker system is configured using only normal loudspeakers 11 with a large radiation angle, there is a case in which it is not possible to produce a sufficient surround effect as sound from the loudspeakers interfere with each other and the sound reflect on wall surfaces in the vehicle. By contrast, by using the loudspeaker pair including loudspeaker 11 and superdirective speaker 13, it is possible to produce the sound field around the ears of listener 27 such as the driver, and therefore listener 27 is able to hear the sound with a higher surround effect in the vehicle interior.
In the description from the first exemplary embodiment to the sixth exemplary embodiment, loudspeaker 11 and superdirective speaker 13 are positioned side by side. However, as long as loudspeaker sound field 23 and superdirective speaker sound field 25 overlap near listener 27, and as long as the peak of sound pressure P in superdirective speaker sound field 25 is positioned near listener 27, it is possible to position loudspeaker 11 and superdirective speaker 13 displacing backward and forward from each other, or at positions distant from each other. However, it is desirable to position loudspeaker 11 and superdirective speaker 13 side by side, as the sound from these loudspeakers are less interfering with each other as compared to conventional speakers even when loudspeaker 11 and superdirective speaker 13 are close to each other, and as it is advantageous in downsizing an entire system including these loudspeakers.
Further, the applications of the sound reproduction device according to any of the first exemplary embodiment to the sixth exemplary embodiment are not limited to television set 35, TV rack 39, and the audio (including an in-car application). The sound reproduction device according to any of the first exemplary embodiment to the sixth exemplary embodiment may be applied to portable devices such as mobile telephones, portable music players, portable television sets, portable DVD players, and handheld gaming machines, as well as devices that handle sound for personal computers and such.
According to the sound reproduction device of the present invention, the sound pressures of audible sound produced from the loudspeaker and the superdirective speaker are maximized near the listener, and the listener is able to hear the sound with a three-dimensional effect, and therefore the sound reproduction device according to the present invention is in particular advantageous as a sound reproduction device capable of producing a three-dimensional sound field with a smaller number of loudspeakers.
11 loudspeaker
13 superdirective speaker
23 loudspeaker sound field
25 superdirective speaker sound field
27 listener
111 first sound source unit
113 second sound source unit
115 selector
Number | Date | Country | Kind |
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2010-200657 | Sep 2010 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2011/003978 | 7/12/2011 | WO | 00 | 3/1/2013 |
Publishing Document | Publishing Date | Country | Kind |
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WO2012/032704 | 3/15/2012 | WO | A |
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Number | Date | Country | |
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20130163795 A1 | Jun 2013 | US |