JP4530623B2 - Surround circuit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a surround circuit, and more particularly to an improvement in a surround circuit that generates a surround signal based on a difference component of a two-channel stereo signal.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as a system for reproducing realistic sounds, a two-channel stereo system is known in which two speakers are arranged on the left and right in front of a listener and different sounds are reproduced from each speaker. On the other hand, a surround device is also known in which speakers are also arranged on the left and right behind the listener to reproduce stereophonic sound and further increase the sense of reality.
[0003]
In the former surround device, the sound of the four speakers in total, two in the front and two in the rear, is created separately for four channels, and the sound in each channel is reproduced by the four speakers corresponding to each channel. It was. However, in recent years, due to advances in circuit technology, a surround signal processing circuit is used to generate a 4-channel output signal from a 2-channel stereo signal, and these 4-channel output signals are placed on the left and right of the listener's front and rear, respectively. Surround devices that reproduce with four speakers have appeared (see, for example, Patent Documents 1 and 2).
[0004]
Two-channel stereo signals (left channel signal L and right channel signal R) are input to the surround signal processing circuit of such a surround device. The surround signal processing circuit internally processes the two-channel stereo signal, so that the channel signal FL reproduced by the left front speaker, the channel signal FR reproduced by the right front speaker, the channel signal RL reproduced by the left rear speaker, And four signals of the channel signal RR reproduced by the right rear speaker are generated and output.
[0005]
[Patent Document 1]
JP-A-5-091600 (FIG. 4)
[Patent Document 2]
Japanese Unexamined Patent Publication No. 7-040760 (FIGS. 1 and 2)
[0006]
[Problems to be solved by the invention]
However, such a surround signal processing circuit generally generates a 4-channel surround signal based on a difference component obtained by removing the correlation component of the stereo 2-channel signals L and R, for example, an (LR) component. When the separation of the input two-channel stereo signals L and R varies due to some cause, for example, electric field strength change at the time of FM radio wave reception or multipath noise, the surround signal is reduced by reducing the (LR) component. There is a problem that the volume of the sound is reduced, the volume of the sound output from the rear speaker is changed, and in the worst case, the sound is not output from the rear speaker.
[0007]
This problem will be described with reference to FIG. 1, for example, in the case where the 2-channel stereo signals L and R are reproduced from the radio waves received by the FM tuner, and the 4-channel stereo sound is reproduced from the 2-channel stereo signals L and R. .
[0008]
FIG. 1A shows the operation of the surround signal processing circuit 3 when the antenna 1 and the FM tuner 2 are installed in a strong electric field area. In a strong electric field region, the FM tuner 2 outputs L and R components of a two-channel stereo signal with high separation. At this time, the (LR) component is sufficient, and the surround signal processing circuit 3 uses the (LR) component to reproduce the channel signal FL reproduced by the left front speaker SPFL and the channel signal reproduced by the right front speaker SPFR. Four signals are generated and output: FR, a channel signal RL reproduced by the left rear speaker SPRL, and a channel signal RR reproduced by the right rear speaker SPRR. As a result, three-dimensional sound is reproduced by the four speakers SPFL, SPFR, SPRL, and SPRR.
[0009]
FIG. 1B shows the operation of the surround signal processing circuit 3 when the antenna 1 and the FM tuner 2 are installed in a weak electric field area. In the weak electric field region, the L and R components of the two-channel stereo signal with low separation are output from the FM tuner 2, and in the worst case, the output is monaural in which the L and R components are equal. At this time, the (LR) component is 0, and the surround signal processing circuit 3 can generate the channel signal FL reproduced by the left front speaker SPFL and the channel signal FR reproduced by the right front speaker SPFR, but the left rear speaker SPRL. The channel signal RL to be reproduced with the channel signal RR and the channel signal RR to be reproduced with the right rear speaker SPRR cannot be generated. As a result, sound is reproduced from the left front speaker SPFL and right front speaker SPFR, but no sound is output from the left rear speaker SPRL and right rear speaker SPRR.
[0010]
In this way, the separation of the two-channel stereo signals L and R changes depending on the electric field strength at the time of FM radio wave reception or fluctuates due to multipath noise. Receive The situation occurs, for example, when an FM tuner is mounted on the vehicle.
[0011]
Therefore, the present invention 2-channel stereo signals L and R obtained by receiving and demodulating radio waves including a 2-channel stereo signal whose separation varies depending on the reception situation; In the surround circuit that generates a 4-channel surround signal based on the difference component (LR) between the 2-channel stereo signals L, R, even if the separation of the input 2-channel stereo signals L, R deteriorates for some reason, It is an object of the present invention to provide a surround circuit that does not cause a problem that the sound output from the rear speaker does not fluctuate or does not generate any sound.
[0012]
[Means for Solving the Problems]
The first form of the surround circuit of the present invention that achieves the above object is to generate a difference signal from a left channel signal and a right channel signal of an input two-channel stereo signal, and to convert the two-channel stereo signal and the difference signal into a difference signal. And a surround signal processing circuit for generating a surround signal based on the surround signal in which the two-channel stereo signal is a reception signal whose separation varies depending on the reception situation. The surround signal processing circuit is placed in front of the listener as a surround signal. At least two front speaker drive signals to be arranged and at least one rear speaker drive signal to be arranged behind the listener are generated, and a part of the front speaker drive signal is added to the rear speaker drive signal as an addition signal. Added The basic configuration is added, and a delay circuit, compression circuit, and separation detection means are added to this to adjust the added signal It is characterized by that.
[0013]
The second form of the surround circuit of the present invention that achieves the above object generates a difference signal from a left channel signal and a right channel signal of an input two-channel stereo signal, and converts the two-channel stereo signal and the difference signal into a difference signal. And a surround signal processing circuit for generating a surround signal based on the surround signal in which the two-channel stereo signal is a reception signal whose separation varies depending on the reception situation. The surround signal processing circuit is placed in front of the listener as a surround signal. At least two front speaker drive signals to be arranged and at least one rear speaker drive signal to be arranged behind the listener are generated, and a part of the two-channel stereo signal is added to the rear speaker drive signal as an addition signal I did The basic configuration is added, and a delay circuit, compression circuit, and separation detection means are added to this to adjust the added signal It is characterized by that.
[0014]
In the first or second mode, the received signal is a two-channel stereo signal demodulated by receiving FM radio waves. .
[0039]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below in detail based on specific examples with reference to the accompanying drawings.
[0040]
FIG. 2 shows the overall configuration of an embodiment of an audio system provided with the surround circuit 10 of the present invention. The audio system according to this embodiment includes a left front speaker SPFL disposed at the left front of the audio listener 30, a right front speaker SPFR disposed at the right front, a left rear speaker SPRL disposed at the left rear, and a right rear. 4 is a surround system using four right rear speakers SPRR.
[0041]
The audio system of this embodiment includes a tuner 2 connected to an antenna 1, a CD (compact disc) player 4, an MD (mini disc) player 5, and a cassette as audio playback devices that output two-channel stereo signals L and R. There is a player 6, and the signal output terminals of these playback devices are all connected to the changeover switch 7. The tuner 2 in this case is one of an AM stereo tuner, an FM stereo tuner, and a stereo TV tuner (for ground wave reception and satellite wave reception). In addition to MD, CD, and cassette players 4, 5, and 6, there are DVD (digital versatile disc) players, hard disk players, semiconductor memory playback devices, and the like. The changeover switch 7 outputs one of the two-channel stereo signals L and R output from these playback devices to the surround circuit 10. The changeover switch 7 can also be included in the surround circuit 10.
[0042]
Inside the tuner 2 is a front end 2A that converts the frequency of radio waves received by the antenna 1 and outputs an intermediate frequency, and detects the intermediate frequency to extract an audio signal, and generates two-channel stereo signals L and R therefrom. And a multiplex circuit 2B for outputting. From the front end 2A, the electric field strength signal of the radio wave received by the antenna 1 is output, and this electric field strength signal is input to the microcomputer 9 that controls the entire audio system.
[0043]
Connected to the microcomputer 9 is a playback device selector 8 for selecting any of the playback devices (tuner 2, CD player 4, MD player 5 and cassette player 6) that output two-channel stereo signals L and R. A switching signal corresponding to the playback device selected by the selector 8 of this playback device is output from the microcomputer 9 to the switch 7. As a result, only the output from the playback device selected by the selector 8 of the playback device is output to the surround circuit 10 through the changeover switch 7.
[0044]
Further, a signal indicating the separation of the received stereo signals L and R is output from the multiplex circuit 2B of the FM tuner 2 to the microcomputer 9, and the microcomputer 9 in the surround circuit 10 to be described later based on this separation signal. The mixing ratio correction circuit 20 is instructed to determine the mixing ratio of other signals to the rear speaker drive signal generated in the above. The mixing rate correction circuit 20 outputs instruction signals GL and GR for instructing the mixing rate of other signals to the surround circuit 10 based on an instruction from the microcomputer 9. The mixing rate instruction signals GL and GR will be described in detail in the following embodiments.
[0045]
The surround circuit 10, based on the two-channel stereo signals L and R input from the changeover switch 7, the signal FL to the left front speaker SPFL disposed at the left front of the listener 30, and the right front disposed at the right front. It generates and outputs a signal FR to the speaker SPFR, a signal RL to the left rear speaker SPRL arranged at the left rear, and a signal RR to the right rear speaker SPRR arranged at the right rear.
[0046]
Here, the internal configuration of the surround circuit 10 of the present invention in the 4-speaker surround system configured as described above will be described based on the first to sixth embodiments and the examples belonging to this embodiment. To do. In the surround circuit 10 of the present invention described with reference to FIG. 2, a difference signal (LR) is generated from the input left channel signal L and the right channel signal R, and two input signals L, R are generated. Based on the difference signal (LR), the driving signals FL and FR of the two front speakers SPFL and SPFR arranged in front of the listener 30 and the two rear speakers SPRL and SPRR arranged in the rear of the listener Although there is the same surround signal processing circuit 3 as the conventional example having a function of generating the drive signals RL and RR, the configuration of the surround signal processing circuit 3 is well known and will not be described here.
(1) First embodiment
In this embodiment, two front speakers SPFL, SPFR are used as drive signals RL, RR for the two rear speakers SPRL, SPRR generated by the surround signal processing circuit 3 provided in the surround circuit 10 shown in FIG. The drive signals FL and FR are partially mixed.
[0047]
FIG. 3A shows the configuration of the first example of the first embodiment. In this embodiment, adders 12 are provided on the lines of drive signals RL and RR to the two rear speakers SPRL and SPRR, respectively. An amplifier 11R is installed on each line before the adder 12. The lines of the drive signals FL and FR to the two front speakers SPFL and SPFR are branched in the middle, and the branched lines are connected to the adder 12 via the amplifier 11F. The amplification factors of the amplifier 11F and the amplifier 11R may be fixed, but can be made variable according to the separation of the two-channel stereo signals L and R, as will be described later.
[0048]
In the first embodiment configured as described above, the signals flowing through the lines of the drive signals FL, FR of the two front speakers SPFL, SPFR on the lines of the drive signals RL, RR to the two rear speakers SPRL, SPRR. A part of is mixed. As a result, even if the drive signals RL and RR to the two rear speakers SPRL and SPRR become 0, the two rear speakers SPRL and SPRR have one of the drive signals FL and FR of the two front speakers SPFL and SPFR. Since the part flows, it is possible to prevent a problem that no sound is output from the two rear speakers SPRL and SPRR.
[0049]
FIG. 3B shows the configuration of the second example of the first embodiment. In this embodiment, a delay circuit is provided on the rear stage side of the adder 12 provided in the lines of the drive signals RL and RR to the two rear speakers SPRL and SPRR in the first embodiment described with reference to FIG. 13 are provided. The delay time set in the two delay circuits 13 may be the same. The delay circuit 13 causes a time delay in the sound output from the two rear speakers SPRL and SPRR, so that the listener can hear the sound coming from the front, and the sound has a sense of direction. According to the second embodiment, the conventional problems can be solved while maintaining the directionality of the sound from the front.
[0050]
FIG. 3C shows the configuration of the third example of the first embodiment. In this embodiment, delay circuits 13F are respectively provided between the branch points of the lines to the two front speakers SPFL and SPFR of the first embodiment described in FIG. 3A and the amplifier 11F. is there. The delay time set in the two delay circuits 13F may be the same. By the delay circuit 13F, a time delay occurs only in the mixed sound for the two front speakers SPFL and SPFR out of the sounds output from the two rear speakers SPRL and SPRR, so that the sound comes from the front. Hear and feel more direction. According to the third embodiment, in addition to the effects of the second embodiment, the directionality of sound from the front increases.
[0051]
FIG. 3D shows the configuration of the fourth example of the first embodiment. In this embodiment, in addition to the configuration of the third embodiment described with reference to FIG. 3C, a delay circuit 13R is also provided on the front side of the amplifier 11R provided in the line to the two rear speakers SPRL and SPRR. It is provided. The delay times set in the two types of delay circuits 13F and 13R may be the same, but can be different. By making the delay times set in the two types of delay circuits 13F and 13R different, the original sound from the two rear speakers SPRL and SPRR and the sound of the two mixed front speakers SPFL and SPFR are mixed. A time difference can be provided, and as a result, the fourth embodiment is easier to adjust the sound field than the third embodiment. For example, it is possible to give a sense of spread and a further direction to the sound emitted from the two rear speakers SPRL and SPRR.
[0052]
FIG. 4A shows a configuration of a modification of the third example of the first embodiment. In this modification, the delay circuit 13F provided in the previous stage of the amplifier 11F in the third embodiment is moved between the amplifier 11F and the adder 12. The effect of this configuration is the same as that of the third embodiment. FIG. 4B shows a configuration of a first modification of the fourth example of the first embodiment, and FIG. 4C shows a fourth example of the fourth example of the first embodiment. 2 shows a configuration of a second modification. In the first modification, the delay circuit 13F provided on the front stage side of the amplifier 11F in the fourth embodiment is moved between the amplifier 11F and the adder 12. Further, in the second modification, the delay circuit 13R provided on the front stage side of the amplifier 11R in the fourth embodiment is moved between the amplifier 11R and the adder 12. The effects of these configurations are the same as in the fourth embodiment.
(2) Second embodiment
In this embodiment, the compression circuit 14 is provided on each of the drive signal lines from the surround signal processing circuit 3 to the two rear speakers SPRL and SPRR of the surround circuit of the first embodiment. The first to fourth examples of the second embodiment described here correspond to the configurations of the first to fourth examples of the first embodiment described above.
[0053]
Specifically, the compression circuit 14 in the second embodiment suppresses the dynamic range of signals such as a compressor circuit and a limiter circuit. Due to the action of the compression circuit 14, fluctuations in the magnitude of the sound output from the two rear speakers SPRL and SPRR are reduced. The effect of suppressing the fluctuation in the sound output from the two rear speakers SPRL and SPRR is further enhanced by mixing the sound output from the front speakers SPFL and SPFR with the sound output from the rear speakers SPRL and SPRR. Therefore, only the configuration of the following first to fourth examples of the second embodiment will be described here.
[0054]
FIG. 5A shows the configuration of the first example of the second embodiment. The configuration of this example corresponds to that of the first example of the first embodiment, and the difference is in the previous stage of the amplifier 11R provided in the lines of the drive signals RL and RR to the two rear speakers SPRL and SPRR. Only the compression circuit 14 is installed.
[0055]
FIG. 5B shows a configuration of a modification of the first example of the second embodiment. The modification of the first embodiment is different from the first embodiment only in the position of the compression circuit 14. That is, in the first embodiment, the compression circuit 14 is installed in front of the amplifier 11R provided in the lines of the drive signals RL and RR to the two rear speakers SPRL and SPRR. The circuit 14 is different from the first embodiment in that the circuit 14 is installed on the subsequent stage side of the adder 12.
[0056]
FIG. 6A shows the configuration of the second example of the second embodiment. The configuration of this example corresponds to the second example of the first embodiment, and the difference is in the previous stage of the amplifier 11R provided in the lines of the drive signals RL, RR to the two rear speakers SPRL, SPRR. Only the compression circuit 14 is installed.
[0057]
FIG. 6B shows the configuration of the third example of the second embodiment. The configuration of this example corresponds to the third example of the first embodiment, and the difference is in the previous stage of the amplifier 11R provided in the lines of the drive signals RL, RR to the two rear speakers SPRL, SPRR. Only the compression circuit 14 is installed.
[0058]
FIG. 6C shows the configuration of the fourth example of the second embodiment. The configuration of this example corresponds to the fourth example of the first embodiment. The difference is that the delay circuit 13R provided in the lines of the drive signals RL, RR to the two rear speakers SPRL, SPRR is different. The only point is that the compression circuits 14 are respectively installed in the preceding stage. The compression circuit 14 may be installed between the delay circuit 13R and the amplifier 11R.
[0059]
FIG. 7A shows a configuration of a modification of the second example of the second embodiment. In this modification, the compression circuit 14 provided on the upstream side of the amplifier 11R in the second embodiment is moved between the delay circuit 13 and the adder 12. FIG. 7B shows a configuration of a modification of the third example of the second embodiment. In this modification, the compression circuit 14 provided on the upstream side of the amplifier 11R in the third embodiment is moved to the downstream side of the adder 12. FIG. 7C shows a configuration of a modification of the fourth example of the second embodiment. In this modification, the compression circuit 14 provided on the front stage side of the delay circuit 13R in the fourth embodiment is moved to the rear stage side of the adder 12.
[0060]
While various examples and modifications have been described above, the position of the compression circuit 14 installed in the drive signal line from the surround signal processing circuit 3 to the two rear speakers SPRL and SPRR in the second embodiment is particularly limited. Instead, it may be determined appropriately according to the magnitude of the output signal of the surround signal processing circuit 3.
(3) Third embodiment
In this embodiment, the drive signals RL and RR of the two rear speakers SPRL and SPRR generated by the surround signal processing circuit 3 are mixed with part of the two-channel stereo signals L and R to the surround signal processing circuit 3, respectively. It is a form.
[0061]
FIG. 8A shows the configuration of the first example of the third embodiment. In this embodiment, adders 12 are provided on the lines of drive signals RL and RR to the two rear speakers SPRL and SPRR, respectively. An amplifier 11R is installed on each line before the adder 12. The supply lines for the two-channel stereo signals L and R to the surround signal processing circuit 3 are branched in the middle, and the branched lines are connected to the adder 12 via the amplifier 11F. The amplification factors of the amplifier 11F and the amplifier 11R may be fixed, but can be made variable according to the separation of the two-channel stereo signals L and R, as will be described later.
[0062]
In the first example of the third embodiment configured as described above, the supply lines of the two-channel stereo signals L and R flow in the lines of the drive signals RL and RR to the two rear speakers SPRL and SPRR. Since some of the signals are mixed, even if the drive signals RL, RR to the two rear speakers SPRL, SPRR become 0, the two rear speakers SPRL, SPRR have two-channel stereo signals L, R. Since a part of the sound flows, it is possible to prevent a problem that no sound is output from the two rear speakers SPRL and SPRR.
[0063]
FIG. 8B shows the configuration of the second example of the third embodiment. In this embodiment, a delay circuit is provided on the rear stage side of the adder 12 provided in the lines of the drive signals RL and RR to the two rear speakers SPRL and SPRR of the first embodiment described with reference to FIG. 13 are provided. The delay time set in the two delay circuits 13 may be the same. The delay circuit 13 causes a time delay in the sound output from the two rear speakers SPRL and SPRR, so that the listener can hear the sound coming from the front, and the sound has a sense of direction. According to the second embodiment, the conventional problems can be solved while maintaining the directionality of the sound from the front.
[0064]
FIG. 8C shows the configuration of the third example of the third embodiment. In this embodiment, a delay circuit 13F is provided between the branch point of the supply line of the two-channel stereo signals L and R of the first embodiment described in FIG. 8A and the amplifier 11F. is there. The delay time set in the two delay circuits 13F may be the same. The delay circuit 13F allows the listener to hear the sound from the front so that only the mixed two-channel stereo signals L and R out of the sound output from the two rear speakers SPRL and SPRR are delayed. Gives a sense of direction. That is, according to the third embodiment, in addition to the effects of the second embodiment, the directionality of sound from the front increases.
[0065]
FIG. 8D shows the configuration of the fourth example of the third embodiment. In this embodiment, in addition to the configuration of the third embodiment described with reference to FIG. 8C, a delay circuit 13R is also provided on the front side of the amplifier 11R provided in the line to the two rear speakers SPRL and SPRR. It is provided. The delay times set in the two types of delay circuits 13F and 13R may be the same, but can be different. By making the delay times set in the two types of delay circuits 13F and 13R different, the original sound output from the two rear speakers SPRL and SPRR and the sound generated by the mixed two-channel stereo signals L and R can be reduced. A time difference can be provided, and as a result, the fourth embodiment is easier to adjust the sound field than the third embodiment. For example, it is possible to give a sense of spread and a further direction to the sound emitted from the two rear speakers SPRL and SPRR.
[0066]
FIG. 9A shows a configuration of a modification of the third example of the third embodiment. In this modification, the delay circuit 13F provided in the previous stage of the amplifier 11F in the third embodiment is moved between the amplifier 11F and the adder 12. The effect of this configuration is the same as that of the third embodiment. FIG. 9B shows the configuration of the first modification of the fourth example of the third embodiment, and FIG. 9C shows the fourth example of the fourth example of the third embodiment. 2 shows a configuration of a second modification. In the first modification, the delay circuit 13F provided on the front stage side of the amplifier 11F in the fourth embodiment is moved between the amplifier 11F and the adder 12. In the second modification, the delay circuit 13R provided on the front side of the amplifier 11R in the fourth embodiment is moved between the amplifier 11R and the adder 12. The effects of these configurations are the same as in the fourth embodiment.
(4) Fourth embodiment
In this embodiment, the compression circuit 14 is provided in each of the drive signal lines from the surround signal processing circuit 3 to the two rear speakers SPRL and SPRR in the surround circuit of the third embodiment. The first to fourth examples of the fourth embodiment described here correspond to the configurations of the first to fourth examples of the third embodiment described above.
[0067]
Specifically, the compression circuit 14 according to the fourth embodiment suppresses the dynamic range of signals such as a compressor circuit and a limiter circuit. Due to the action of the compression circuit 14, fluctuations in the magnitude of the sound output from the two rear speakers SPRL and SPRR are reduced. The effect of suppressing the fluctuation in the sound output from the two rear speakers SPRL, SPRR is further enhanced by mixing the two-channel stereo signals L, R with the drive signals RL, RR of the rear speakers SPRL, SPRR. Accordingly, in the following first to fourth examples of the fourth embodiment, only the configuration will be described here.
[0068]
FIG. 10A shows the configuration of the first example of the fourth embodiment. The configuration of this example corresponds to that of the first example of the third embodiment, and the difference is in the previous stage of the amplifier 11R provided in the lines of the drive signals RL, RR to the two rear speakers SPRL, SPRR. Only the compression circuit 14 is installed.
[0069]
FIG. 10B shows a configuration of a modification of the first example of the fourth embodiment. The modification of the first embodiment is different from the first embodiment only in the position of the compression circuit 14. That is, in the first embodiment, the compression circuit 14 is installed in front of the amplifier 11R provided in the lines of the drive signals RL and RR to the two rear speakers SPRL and SPRR. The circuit 14 is different from the first embodiment in that the circuit 14 is installed on the subsequent stage side of the adder 12.
[0070]
FIG. 11A shows the configuration of the second example of the fourth embodiment. The configuration of this example corresponds to the second example of the third embodiment, and the difference is in the previous stage of the amplifier 11R provided in the lines of the drive signals RL, RR to the two rear speakers SPRL, SPRR. Only the compression circuit 14 is installed.
[0071]
FIG. 11B shows the configuration of the third example of the fourth embodiment. The configuration of this example corresponds to the third example of the third embodiment, and the difference is in the previous stage of the amplifier 11R provided in the lines of the drive signals RL, RR to the two rear speakers SPRL, SPRR. Only the compression circuit 14 is installed.
[0072]
FIG. 11C shows the configuration of the fourth example of the fourth embodiment. The configuration of this example corresponds to the fourth example of the third embodiment, and the difference is in the delay circuit 13R provided in the lines of the drive signals RL and RR to the two rear speakers SPRL and SPRR. The only point is that the compression circuits 14 are respectively installed in the preceding stage. The compression circuit 14 may be installed between the delay circuit 13R and the amplifier 11R.
[0073]
FIG. 12A shows the configuration of a modification of the second example of the fourth embodiment. In this modification, the compression circuit 14 provided on the upstream side of the amplifier 11R in the second embodiment is moved between the delay circuit 13 and the adder 12. FIG. 12B shows a configuration of a modification of the third example of the fourth embodiment. In this modification, the compression circuit 14 provided on the upstream side of the amplifier 11R in the third embodiment is moved to the downstream side of the adder 12. FIG. 12C shows a configuration of a modified example of the fourth example of the fourth embodiment. In this modification, the compression circuit 14 provided on the front stage side of the delay circuit 13R in the fourth embodiment is moved to the rear stage side of the adder 12.
[0074]
Although various examples and modifications have been described above, the position of the compression circuit 14 installed in the drive signal line from the surround signal processing circuit 3 to the two rear speakers SPRL and SPRR in the fourth embodiment is particularly limited. Instead, it may be determined appropriately according to the magnitude of the output signal of the surround signal processing circuit 3.
(5) Fifth embodiment
In this embodiment, the drive signals RL and RR of the two rear speakers SPRL and SPRR generated by the surround signal processing circuit 3 are added to a part of the drive signals FL and FR of the two front speakers SPFL and SPFR as an adder 12F. Are added and then branched and mixed. In other words, the drive signals RL and RR of the two rear speakers SPRL and SPRR are added to the drive signals FL and FR of the two front speakers SPFL and SPFR to add a part of the monaural signal.
[0075]
In the fifth embodiment, in order to add a part of the monaural signal by adding the drive signals FL and FR of the two front speakers SPFL and SPFR to the drive signals RL and RR of the two rear speakers SPRL and SPRR, Although the separation of the sound output from the speakers SPRL and SPRR is deteriorated, there is an advantage that the sound is stably reproduced from the rear. In the fifth embodiment, the same example as that of the first embodiment, except that the signal is branched after adding the drive signals FL and FR of the two front speakers SPFL and SPFR, and the same. Variations are possible.
[0076]
Therefore, in the fifth embodiment, only basic configurations of the first to fourth examples and one modification corresponding to the first to fourth examples of the first embodiment will be described. stop.
[0077]
FIG. 13A shows the configuration of the first example of the fifth embodiment. In this embodiment, adders 12 are provided on the lines of drive signals RL and RR to the two rear speakers SPRL and SPRR, respectively. An amplifier 11R is installed on each line before the adder 12. The lines of the drive signals FL, FR to the two front speakers SPFL, SPFR are branched in the middle, and the branched lines are connected to the adder 12F via the amplifier 11F. The output of the adder 12F is branched into two and connected to the adder 12, respectively. Only one amplifier 11F may be provided after the adder 12F.
[0078]
FIG. 13B shows the configuration of the second example of the fifth embodiment. In this embodiment, a delay circuit is provided on the rear stage side of the adder 12 provided in the lines of the drive signals RL and RR to the two rear speakers SPRL and SPRR of the first embodiment described with reference to FIG. 13 are provided.
[0079]
FIG. 13C shows the configuration of the third example of the fifth embodiment. In this embodiment, one delay circuit 13F is provided after the adder 12F of the first embodiment described with reference to FIG.
[0080]
FIG. 13D shows the configuration of the fourth example of the fifth embodiment. In this embodiment, in addition to the configuration of the third embodiment described with reference to FIG. 13C, a delay circuit 13R is also provided on the front stage side of the amplifier 11R provided in the line to the two rear speakers SPRL and SPRR. It is provided.
[0081]
Further, in the fifth embodiment, as in the second embodiment, an example in which a compression circuit 14 is provided in each of drive signal lines from the surround signal processing circuit 3 to the two rear speakers SPRL and SPRR is also possible. It is.
(6) Sixth embodiment
In this embodiment, the drive signals RL and RR of the two rear speakers SPRL and SPRR generated by the surround signal processing circuit 3 are added to a part of the two-channel stereo signals L and R to the surround signal processing circuit 3. In this mode, the signals are added after 12F and then branched and mixed. That is, a part of the monaural signal obtained by adding the two-channel stereo signals L and R to the drive signals RL and RR of the two rear speakers SPRL and SPRR is added.
[0082]
Also in the sixth embodiment, in order to add a part of the two rear speakers SPRL, SPRR drive signals RL, RR added to the monophonic signal by adding the two-channel stereo signals L, R, the signals are output from the rear speakers SPRL, SPRR. Although sound separation deteriorates, there is an advantage that sound is reproduced stably from the rear. In the sixth embodiment, the same example as that of the third embodiment and its modification are possible, except that the two-channel stereo signals L and R are added to make the signal monaural and then branched. .
[0083]
Therefore, in the sixth embodiment, only basic configurations of the first to fourth examples and one modification corresponding to the first to fourth examples of the third embodiment will be described. stop.
[0084]
FIG. 14A shows the configuration of the first example of the sixth embodiment. In this embodiment, adders 12 are provided on the lines of drive signals RL and RR to the two rear speakers SPRL and SPRR, respectively. An amplifier 11R is installed on each line before the adder 12. The supply lines for the two-channel stereo signals L and R are branched in the middle, and the branched lines are connected to the adder 12F via the amplifier 11F. The output of the adder 12F is branched into two and connected to the adder 12, respectively. Only one amplifier 11F may be provided after the adder 12F.
[0085]
FIG. 14B shows the configuration of the second example of the sixth embodiment. In this embodiment, a delay circuit is provided on the subsequent stage side of the adder 12 provided in the lines of the drive signals RL and RR to the two rear speakers SPRL and SPRR of the first embodiment described with reference to FIG. 13 are provided.
[0086]
FIG. 14C shows the configuration of the third example of the sixth embodiment. In this embodiment, one delay circuit 13F is provided after the adder 12F of the first embodiment described with reference to FIG.
[0087]
FIG. 14D shows the configuration of the fourth example of the sixth embodiment. In this embodiment, in addition to the configuration of the third embodiment described with reference to FIG. 14C, a delay circuit 13R is also provided on the front stage side of the amplifier 11R provided in the line to the two rear speakers SPRL and SPRR. It is provided.
[0088]
Further, in the sixth embodiment, as in the fourth embodiment, a configuration in which the compression circuit 14 is provided in each of the drive signal lines from the surround signal processing circuit 3 to the two rear speakers SPRL and SPRR is also possible. is there.
[0089]
FIG. 15A is a circuit diagram showing a configuration of one modification of the first example of the fifth embodiment. In the first example of the fifth embodiment, a part of the monaural signal obtained by adding the drive signals FL and FR of the two front speakers SPFL and SPFR to the drive signals RL and RR of the two rear speakers SPRL and SPRR. However, this modification is different in that one part of the drive signals FL and FR of the two front speakers SPFL and SPFR is added. In this modification, a part of the driving signal FL of the front speaker SPFL is added, but the driving signal FR of the front speaker SPFR may be added.
[0090]
FIG. 15B is a circuit diagram showing a configuration of one modification of the first example of the sixth embodiment. In the first example of the sixth embodiment, a part of the monaural signal obtained by adding the two-channel stereo signals L and R to the driving signals RL and RR of the two rear speakers SPRL and SPRR is added. This modification is different in that a part of one of the two-channel stereo signals L and R is added. In this modification, a part of the driving signal FR of the front speaker SPFR is added, but the driving signal FL of the front speaker SPFL may be added.
(7) Amplifier gain adjustment in the first to sixth embodiments
In the first to sixth embodiments described above, the amplifier 11F and the amplifier 11R are used, and the gain (amplification factor) of these amplifiers can be set to a preset fixed value, but is variable. You can also The case of adjusting the amplification factors of the amplifiers 11F and 11R will be described by taking the circuit of the first example of the first embodiment as an example.
[0091]
FIG. 16A shows a state where an amplification factor adjusting circuit 21 is provided in the circuit of the first example of the first embodiment. When the amplification factor adjustment circuit 21 receives the mixture ratio instruction signals GL and GR from the mixture ratio correction circuit 20 described in FIG. 2, the amplification factor of the amplifier 11F and the amplifier 11R is determined in accordance with the mixture ratio instruction signals GL and GR. Then, the amplification factors of the amplifier 11F and the amplifier 11R are controlled.
[0092]
The drive signals FL and FR of the two front speakers SPFL and SPFR mixed with the drive signals RL and RR of the two rear speakers SPRL and SPRR, or the ratio of the two-channel stereo signals L and R is the two-channel stereo signal L, When R separation is large, it may be small. Therefore, the microcomputer 9 shown in FIG. 2 stores, for example, data obtained by mapping the characteristics shown in FIG. 16B in the form of a common map or a map for each amplifier, and a two-channel stereo signal. When the separation between L and R is large, the drive signals FL and FR of the two front speakers SPFL and SPFR or the mixing ratio of the two-channel stereo signals L and R, that is, the amplification ratios of the amplifier 11F and the amplifier 11R are reduced. To control.
[0093]
A predetermined threshold is set for the separation value of the two-channel stereo signals L and R, and when the separation of the input two-channel stereo signals L and R is larger than the threshold, the two front speakers SPFL and SPFR are set. It is also possible to control so that the drive signal FL, FR, or the mixing ratio of the two-channel stereo signals L, R, that is, the amplification ratio of the amplifier 11F and the amplifier 11R becomes small.
[0094]
By such control, when the separation of the two-channel stereo signal is large, the surround effect is exhibited, and when the separation is small, the problem that no sound is output from the rear speaker can be eliminated.
[0095]
Furthermore, the addition amount of other signals added to the drive signal to the rear speaker is controlled by the type of the input source to the surround circuit 10 for the two-channel stereo signals L and R, which are switched by the changeover switch 7 described in FIG. You may make it do. For example, in a player system that reproduces a stereo signal from a recording medium such as a CD, MD, cassette, DVD, hard disk, and semiconductor memory, the separation of the stereo signal to be reproduced does not vary, and in a tuner system that receives radio waves, it depends on the reception environment. Since the separation of the stereo signal to be reproduced varies, the tuner system is controlled to increase the amount of other signals added to the drive signal to the rear speaker, and the player system is added to the drive signal to the rear speaker. It may be controlled so that the amount of addition of other signals to be reduced.
(8) Seventh embodiment
In the first to sixth embodiments described above, the left front speaker SPFL arranged at the left front of the listener 30, the right front speaker SPFR arranged at the right front, the left rear speaker SPRL arranged at the left rear, In addition, the surround circuit of the present invention is applied to a surround system using four right rear speaker SPRR speakers arranged on the right rear side.
[0096]
On the other hand, in the seventh embodiment, as shown in FIG. 17A, the left front speaker SPFL disposed at the front left of the listener 30, the right front speaker SPFR disposed at the front right, and only one at the rear. The surround circuit according to the present invention is applied to a surround system using three rear speaker SPRC speakers. In the seventh embodiment, the drive signal RC of the rear speaker SPRC generated by the surround signal processing circuit 3 is part of the drive signals FL and FR of the two front speakers SPFL and SPFR, or the two-channel stereo signals L and R. A portion of is added after mixing.
[0097]
FIG. 17B is a circuit diagram showing a configuration of one example in the seventh embodiment, and corresponds to the first example of the first embodiment. In this embodiment, an adder 12 is provided in the line of the drive signal RC to the rear speaker SPRC. An amplifier 11R is installed on the line before the adder 12. The lines of the drive signals FL and FR to the two front speakers SPFL and SPFR are branched in the middle, and the branched lines are connected to the adder 12F via the amplifier 11F and then connected to the adder 12. ing.
[0098]
In addition to this example, the following example is possible for the seventh embodiment.
[0099]
(A) A delay circuit is provided before or after the adder 12.
[0100]
(B) A delay circuit is provided before or after the amplifier 11F.
[0101]
(C) A delay circuit is provided before or after each of the amplifiers 11F and 11R.
[0102]
(D) A compression circuit is provided in the drive signal line to the rear speaker SPRC.
[0103]
(E) One of the driving signals FL and FR of the two front speakers SPFL and SPFR or one of the two-channel stereo signals L and R is added to the driving signal line to the rear speakers SPRL and SPRR. .
(9) Eighth embodiment
In the eighth embodiment, as shown in FIG. 18A, in addition to the four speakers of the left front speaker SPFL, the right front speaker SPFR, the left rear speaker SPRL, and the right rear speaker SPRR, the front center of the listener 30 is used. The surround circuit of the present invention is applied to a surround system that uses five speakers including the front center speaker SPFC arranged in FIG. In the eighth embodiment, the drive signals RL and RR of the two rear speakers SPRL and SPRR generated by the surround signal processing circuit 3, a part of the drive signals FL and FR of the two front speakers SPFL and SPFR, or 2 There is a first form in which a part of the channel stereo signals L and R is added and a second form in which a part of the drive signal FC of the front center speaker SPFC is added.
[0104]
FIG. 18B shows a first embodiment of the first mode, in which only the drive signal FC of the center speaker SPFC at the front center is increased from the surround signal processing circuit 3, and the remaining configuration is shown in FIG. Since it is exactly the same as the configuration of the first embodiment of the first mode described in the above, its description is omitted. FIG. 18C shows a second embodiment of the second mode. The adder 12 provided in the lines of the drive signals RL and RR to the two rear speakers SPRL and SPRC is connected to the front center speaker SPFC. A part of the signal FC is added after being amplified by the amplifier 11F.
[0105]
In addition to this example, the following example is possible in the eighth embodiment.
[0106]
(A) A delay circuit is provided before or after the adder 12.
[0107]
(B) A delay circuit is provided before or after the amplifier 11F.
[0108]
(C) A delay circuit is provided before or after each of the amplifiers 11F and 11R.
[0109]
(D) A compression circuit is provided for each of drive signal lines to the rear speakers SPRL and SPRR.
[0110]
(E) After mixing the drive signals FL and FR of the two front speakers SPFL and SPFR, or after mixing the two-channel stereo signals L and R, the rear speakers SPRL and SPRR respectively. To the drive signal line to
[0111]
(F) One part of the driving signals FL and FR of the two front speakers SPFL and SPFR or one part of the two-channel stereo signals L and R are respectively on the driving signal lines to the rear speakers SPRL and SPRR. Added.
(10) Ninth embodiment
As shown in FIG. 19A, the ninth embodiment includes a front center speaker SPFC and a rear speaker in addition to the four speakers of the left front speaker SPFL, the right front speaker SPFR, the left rear speaker SPRL, and the right rear speaker SPRR. The surround circuit of the present invention is applied to a surround system using 6 speakers including a center speaker SPRC.
[0112]
In the ninth embodiment, the following four examples can be considered depending on what signals are mixed in the rear center speaker SPRC.
[0113]
In the first embodiment, a part of the drive signal FC to the front center speaker SPFC is mixed with the rear center speaker SPRC, and this configuration is shown in FIG. 19B. Since other configurations are the same as those of the first example of the first embodiment, the description thereof is omitted.
[0114]
In the second embodiment, a part of the drive signal FC to the front center speaker SPFC is mixed with all the three rear speakers SPRL, SPRC, SPRR, and this configuration is shown in FIG. 19 (c). .
[0115]
In the third embodiment, a part of the drive signals FL and FR to the left front speaker SPFL and the right front speaker SPFR are added to the rear center speaker SPRC, and this configuration is added to FIG. 20 (a). Indicated.
[0116]
In the fourth embodiment, the drive signal RC to the rear center speaker SPRC is mixed with the drive signal to the left rear speaker SPRL after a part of the drive signal FL to the left front speaker SPFL is mixed, and the right front speaker SPFR. The drive signal to the right rear speaker SPRR after a part of the drive signal FR to is added to the adder 12C through the amplifier circuit 11C, and this configuration is shown in FIG. It is.
[0117]
In the ninth embodiment, as in the eighth example, examples of the configurations (A) to (F) described above are possible.
[0118]
The surround circuit of the present invention configured as described above is particularly effective when the vehicle travels in an area where the radio wave condition is poor, when the surround system including the FM tuner is mounted on the vehicle.
[0119]
【The invention's effect】
As described above, the present invention is a surround circuit that generates a 4-channel surround signal based on a difference component of a stereo 2-channel signal, and even if the separation of the input stereo 2-channel signal deteriorates for some reason, There is an effect that the fluctuation of the sound coming out from the rear speaker and the problem that no sound is produced do not occur.
[Brief description of the drawings]
FIG. 1A is a diagram showing an operation of a surround processing circuit when an FM tuner is installed in a strong electric field area, and FIG. 1B is a surround processing circuit when an FM tuner is installed in a weak electric field area. It is a figure which shows the problem of operation | movement.
FIG. 2 is an overall configuration diagram of an audio system including a surround circuit according to the present invention.
FIG. 3 shows a first embodiment when the surround circuit of the present invention is applied to a four-speaker system, and (a) is a circuit diagram showing a configuration of a first example of the first embodiment; (B) is a circuit diagram showing a configuration of a second example of the first embodiment, (c) is a circuit diagram showing a configuration of a third example of the first embodiment, and (d) is a first diagram. It is a circuit diagram which shows the structure of the 4th Example of this embodiment.
4A is a circuit diagram showing a configuration of a modification of the third example of the first embodiment, and FIG. 4B is a first modification of the fourth example of the first embodiment. FIG. 6C is a circuit diagram illustrating a configuration of a second modification of the fourth example of the first embodiment.
5 shows a second embodiment when the surround circuit of the present invention is applied to a four-speaker system, and FIG. 5A is a circuit diagram showing a configuration of a first example of the second embodiment; (B) is a circuit diagram showing a configuration of a modified example of the first example of the second embodiment.
6A is a circuit diagram showing a configuration of a second example of the second embodiment, FIG. 6B is a circuit diagram showing a configuration of a third example of the second embodiment, and FIG. ) Is a circuit diagram showing a configuration of a fourth example of the second exemplary embodiment.
7A is a circuit diagram showing a configuration of a modification of the second example of the second embodiment, and FIG. 7B shows a configuration of a modification of the third example of the second embodiment. FIG. 4C is a circuit diagram showing a configuration of a fourth example of the second embodiment.
8 shows a third embodiment when the surround circuit of the present invention is applied to a four-speaker system, and FIG. 8A is a circuit diagram showing a configuration of a first example of the third embodiment; (B) is a circuit diagram showing a configuration of a second example of the third embodiment, (c) is a circuit diagram showing a configuration of a third example of the third embodiment, and (d) is a third diagram. It is a circuit diagram which shows the structure of the 4th Example of this embodiment.
9A is a circuit diagram showing a configuration of a modification of the third example of the third embodiment, and FIG. 9B is a first modification of the fourth example of the third embodiment. FIG. 7C is a circuit diagram showing a configuration of a second modification of the fourth example of the third embodiment.
10 shows a fourth embodiment in which the surround circuit of the present invention is applied to a four-speaker system, and FIG. 10A is a circuit diagram showing a configuration of a first example of the fourth embodiment; (B) is a circuit diagram which shows the structure of the modification of the 1st Example of 4th Embodiment.
11A is a circuit diagram showing a configuration of a second example of the fourth embodiment, FIG. 11B is a circuit diagram showing a configuration of a third example of the fourth embodiment, and FIG. ) Is a circuit diagram showing a configuration of a fourth example of the fourth exemplary embodiment.
12A is a circuit diagram showing a configuration of a modification of the second example of the fourth embodiment, and FIG. 12B shows a configuration of a modification of the third example of the fourth embodiment. FIG. 4C is a circuit diagram showing a configuration of a fourth example of the fourth embodiment.
FIG. 13 shows a fifth embodiment when the surround circuit of the present invention is applied to a four-speaker system, and FIG. 13A is a circuit diagram showing a configuration of a first example of the fifth embodiment; (B) is a circuit diagram showing a configuration of a second example of the fifth embodiment, (c) is a circuit diagram showing a configuration of a third example of the fifth embodiment, and (d) is a fifth diagram. It is a circuit diagram which shows the structure of the 4th Example of this embodiment.
14 shows a sixth embodiment in which the surround circuit of the present invention is applied to a four-speaker system, and FIG. 14A is a circuit diagram showing a configuration of a first example of the sixth embodiment; (B) is a circuit diagram showing a configuration of a second example of the sixth embodiment, (c) is a circuit diagram showing a configuration of a third example of the sixth embodiment, and (d) is a sixth diagram. It is a circuit diagram which shows the structure of the 4th Example of this embodiment.
FIG. 15A is a circuit diagram showing a configuration of a modification of the first example of the fifth embodiment, and FIG. 15B shows a configuration of a modification of the first example of the sixth embodiment. FIG.
FIG. 16A is a circuit diagram showing a circuit configuration for adjusting the amplification factor of an amplifier provided in the circuit of the embodiment described above, and FIG. 16B is a diagram showing the separation of 2-channel stereo signals and the gain characteristics of each amplifier. It is a typical characteristic figure explaining a feature.
FIG. 17A is a diagram showing an example of arrangement of speakers in a seventh embodiment in which the surround circuit of the present invention is applied to a three-speaker system, and FIG. 17B is a diagram of one example in the seventh embodiment. It is a circuit diagram which shows a structure.
FIG. 18A is a diagram showing an arrangement example of each speaker in the eighth embodiment in which the surround circuit of the present invention is applied to a five-speaker system, and FIG. 18B is a first example in the eighth embodiment. FIG. 10C is a circuit diagram showing a configuration of a second example of the eighth embodiment.
FIG. 19A is a diagram showing an arrangement example of each speaker in the ninth embodiment in which the surround circuit of the present invention is applied to a six-speaker system, and FIG. 19B is a first example in the ninth embodiment. FIG. 10C is a circuit diagram showing a configuration of a second example of the ninth embodiment.
20A is a circuit diagram showing a configuration of a third example in the ninth embodiment, and FIG. 20B is a circuit diagram showing a configuration of a fourth example in the ninth embodiment.
[Explanation of symbols]
1 ... Antenna
2 ... FM tuner
3 ... Surround signal processing circuit
7 ... Changeover switch
8 ... Operator selector
9 ... Microcomputer
10 ... Surround circuit of the present invention
11, 11F, 11R ... Amplifier
12, 12C, 12F ... adder
13, 13F, 13R ... delay circuit
14 ... Compression circuit
20 ... Mixing rate correction circuit
21 ... Amplification adjustment circuit
30 ... listener
SPFC: Front center speaker
SPFL ... Left front speaker
SPFR ... Right front speaker
SPRC ... Rear center speaker
SPRL ... Left rear speaker
SPRR ... Right rear speaker

Claims (12)

A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates at least left and right front speaker drive signals arranged in front of the listener as the surround signal, and at least left and right rear speaker drive signals arranged behind the listener,
A part of the front speaker drive signal is added to the rear speaker drive signal as an addition signal ,
A part of the drive signals for the left and right front speakers is delayed by a first delay circuit for a predetermined time before addition to the drive signals for the left and right rear speakers,
The drive signals for the left and right rear speakers are delayed for a predetermined time by a second delay circuit before addition with a part of the drive signals for the left and right front speakers,
A surround circuit characterized in that the delay times of the first and second delay circuits are different . A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates, as the surround signal, at least two front speaker drive signals arranged in front of the listener and at least one rear speaker drive signal arranged behind the listener,
A part of the two-channel stereo signal is added to the driving signal of the rear speaker as an addition signal ;
A part of the left and right channel signals are delayed by a first delay circuit for a predetermined time before addition to the rear speaker drive signal,
The drive signal for the left and right rear speakers is delayed by a second delay circuit for a predetermined time before addition with a part of the signal for the left and right channels,
A surround circuit characterized in that the delay times of the first and second delay circuits are different . A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates, as the surround signal, at least two front speaker drive signals arranged in front of the listener and at least one rear speaker drive signal arranged behind the listener,
A part of the front speaker drive signal is added to the rear speaker drive signal as an addition signal,
The drive signal from the surround signal processing circuit to the rear speaker is compressed by a compression circuit provided in each line before addition with the addition signal,
A surround circuit characterized in that the compression rates of the respective compression circuits are made common . A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates, as the surround signal, at least two front speaker drive signals arranged in front of the listener and at least one rear speaker drive signal arranged behind the listener,
A part of the two-channel stereo signal is added to the driving signal of the rear speaker as an addition signal;
The drive signal from the surround signal processing circuit to the rear speaker is compressed by a compression circuit provided in each line before addition with the addition signal,
A surround circuit characterized in that the compression rates of the respective compression circuits are made common . A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates, as the surround signal, at least left and right front speaker drive signals arranged in front of the listener and at least one rear speaker drive signal arranged behind the listener,
A part of the front speaker drive signal is added to the rear speaker drive signal as an addition signal,
A drive signal from the surround signal processing circuit to the rear speaker and a part of the drive signals of the left and right front speakers added to the drive signal are compressed after addition by a compression circuit provided in each line. And
A surround circuit characterized in that the compression rates of the respective compression circuits are made common . A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates, as the surround signal, at least two front speaker drive signals arranged in front of the listener and at least one rear speaker drive signal arranged behind the listener,
A part of the two-channel stereo signal is added to the driving signal of the rear speaker as an addition signal;
A drive signal from the surround signal processing circuit to the rear speaker and a part of the left and right channel signals added to the drive signal are compressed after addition by a compression circuit provided in each line,
A surround circuit characterized in that the compression rates of the respective compression circuits are made common . A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates, as the surround signal, at least two front speaker drive signals arranged in front of the listener and at least one rear speaker drive signal arranged behind the listener,
A part of the front speaker drive signal is added to the rear speaker drive signal as an addition signal,
A means for detecting separation of the input left channel signal and right channel signal is provided, and the amount of the addition signal added to the drive signal to the rear speaker is controlled according to the detected separation magnitude. ,
The surround circuit according to claim 1, wherein when the detected separation is large, an addition amount of the addition signal added to the drive signal to the rear speaker is reduced . A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates, as the surround signal, at least two front speaker drive signals arranged in front of the listener and at least one rear speaker drive signal arranged behind the listener,
A part of the two-channel stereo signal is added to the driving signal of the rear speaker as an addition signal;
A means for detecting separation of the input left channel signal and right channel signal is provided, and the amount of the addition signal added to the drive signal to the rear speaker is controlled according to the detected separation magnitude. ,
The surround circuit according to claim 1, wherein when the detected separation is large, an addition amount of the addition signal added to the drive signal to the rear speaker is reduced . A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates, as the surround signal, at least two front speaker drive signals arranged in front of the listener and at least one rear speaker drive signal arranged behind the listener,
A part of the front speaker drive signal is added to the rear speaker drive signal as an addition signal,
A means for detecting separation of the input left channel signal and right channel signal is provided, and the amount of the addition signal added to the drive signal to the rear speaker is controlled according to the detected separation magnitude. ,
A surround circuit characterized in that, when the detected separation is larger than a predetermined threshold value, the amount of addition signal added to the drive signal to the rear speaker is reduced . A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates, as the surround signal, at least two front speaker drive signals arranged in front of the listener and at least one rear speaker drive signal arranged behind the listener,
A part of the two-channel stereo signal is added to the driving signal of the rear speaker as an addition signal;
A means for detecting separation of the input left channel signal and right channel signal is provided, and the amount of the addition signal added to the drive signal to the rear speaker is controlled according to the detected separation magnitude. ,
A surround circuit characterized in that, when the detected separation is larger than a predetermined threshold value, the amount of addition signal added to the drive signal to the rear speaker is reduced . A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates, as the surround signal, at least two front speaker drive signals arranged in front of the listener and at least one rear speaker drive signal arranged behind the listener,
A part of the front speaker drive signal is added to the rear speaker drive signal as an addition signal,
Means for selecting a source of the signal to be input, and controls an addition amount of the addition signal to be added to a drive signal to the rear speaker according to a type of the selected source;
The source of the signal is at least one of an AM tuner, an FM tuner, and a TV tuner, and at least one playback device that plays a stereo signal from a recording medium;
The surround circuit according to claim 1, wherein the separation detection means detects a separation of a stereo signal output from the tuner based on an electric field intensity received by the tuner . A surround signal processing circuit for generating a difference signal from a left channel signal and a right channel signal of an input 2-channel stereo signal, and generating a surround signal based on the 2-channel stereo signal and the difference signal; The 2-channel stereo signal is a reception signal whose separation varies depending on reception conditions.
The surround signal processing circuit generates, as the surround signal, at least two front speaker drive signals arranged in front of the listener and at least one rear speaker drive signal arranged behind the listener,
A part of the two-channel stereo signal is added to the driving signal of the rear speaker as an addition signal;
Means for selecting a source of the signal to be input, and controls an addition amount of the addition signal to be added to a drive signal to the rear speaker according to a type of the selected source;
The source of the signal is at least one of an AM tuner, an FM tuner, and a TV tuner, and at least one playback device that plays a stereo signal from a recording medium;
The surround circuit according to claim 1, wherein the separation detection means detects a separation of a stereo signal output from the tuner based on an electric field intensity received by the tuner .

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