Source: https://patents.google.com/patent/EP0462285A1/en
Timestamp: 2018-11-13 23:02:33
Document Index: 118630208

Matched Legal Cases: ['art 50', 'art 51', 'art 50', 'art 51', 'art 31', 'art 31', 'art 31', 'arts 182', 'art 184', 'art 184']

EP0462285A1 - Acoustic reproducing device - Google Patents
Acoustic reproducing device Download PDF
EP0462285A1
EP0462285A1 EP19910901534 EP91901534A EP0462285A1 EP 0462285 A1 EP0462285 A1 EP 0462285A1 EP 19910901534 EP19910901534 EP 19910901534 EP 91901534 A EP91901534 A EP 91901534A EP 0462285 A1 EP0462285 A1 EP 0462285A1
EP19910901534
EP0462285A4 (en )
EP0462285B1 (en )
Hirotoshi Satoh
Toshihito Sawai
An audio system mounted on an automobile. An acoustic reproducing device comprises a fader control circuit that separates acoustic signals into predetermined channels and adjusts the levels of the separated acoustic signals depending upon the position of a fader control, a sound-field control device for processing acoustic signals obtained from the fader control circuit to establish a desired sound field in the car room, and a means for canceling the separation of acoustic signals that has been effected by the fader control while the sound-field control device is in operation. When the sound-field control device is turned on, the effects of a balance control and the fader control are removed. Therefore, the sound field of a balance control and the fader control are removed. Therefore, the sound field is automatically adjusted to the center position even if these controls are deviated from their center positions, and the sound-field control device exhibits maximum effects.
More particularly, this invention relates to the improvement in the use of incorporating a sound field controller in the audio system through said fader controlling circuit. The sound field controller being capable of reproducing sound quality equivalent to that of an actual concert hall.
Generally, the fader controlling circuit adjusts sound volume reproduced by the speakers arranged in the front seat and the rear seat areas in the vehicle or on the left and the right sides therein to allow listeners of each seat to enjoy the feeling experienced from listening to a localized sound source. On the other hand, the sound field controller consists of a sound system of DSP (Digital Signal processor) as shown in JAPANESE UNEXAMINED PATENT PUBLICATION (Kokai) No. 1-220599 and No. 1-220600, for example, which realizes the presence and feeling of sound distribution equivalent to an actual concert hall by artificially producing direct sound arriving from the sound source of the music source signal to create sound fields. These sound fields are selected for the kinds of music and the user's preference, the sound field of the concert hall is, for example, suitable for the performance of a symphony orchestra, etc.
By the way, a vehicle installed apparatus for reproducing sound fields has formerly controlled reproduced signal levels of sound emitted from each speaker so that it adjusts the position of localization for aiming a direction of a sound source since the number and position of the listeners changes. Thus, the apparatus adjusts the fader controlling circuits with balance volumes for the left and right sides and with fader volumes for the front and rear areas depending on the number and sitting position of persons in the vehicle.
On the other hand, the sound field controller consisting of a DSP is designed and controlled on the assumption that each channel signal from the sound signal source is input thereto relative to signal levels as it is, for example, on the assumption that the left and right side signals or the front and rear area signals are input in a state such that the signal levels are not adjusted. Consequently, the sound field controller is constituted to obtain a maximum effect in the center position of the balance volume and the fader volume. Thus, in the prior apparatus for reproducing sound fields said balance volume and fader volume need to be manually adjusted to the center position if the maximum effect is to be realized.
Therefore, in the above prior art, if the listeners select the sound field control process, they must adjust the balance volume and fader volume. Also, in the case of relieving said sound field control process, the repeated adjustment of the balance volume and fader volume is required and the manipulation for the adjustment of the sound to the position of localization is complex, i.e., to have the signal level of the sound reproduced to a desired level. Particularly, the above same complexity of the manipulation occurs in the use of the sound field controller when adjustments to the audio system are required in order to change the reproduced signal levels of the front and rear area speakers, and left and right side speakers corresponding to a different environment. The vehicle installed system having been preset with the fader control circuit.
With this object in view, the essence of the invention resides in an apparatus for reproducing a sound field comprising a sound signal source, a fader controlling circuit for separating the sound signals from the sound signal source into the predetermined channel signals to adjust the level of each separated sound signal depending on the amount of manipulation of a fader manipulating part and a sound field controller for performing a computing process of each sound signal separated and adjusted by the fader controlling circuit to form a desired sound field inside a vehicle, characterized in that it comprises a relieving means for invalidating a separate adjustment for the sound signals of the sound signal source caused by the manipulation of the fader manipulating part of the fader controlling circuit while said sound field controller is operated.
On the other hand, when a manipulator operates a selecting switch to select the sound field controller, said balance volume and fader volumes are relieved by the relieving means so that said balance volume and fader volumes are at the center position to obtain the maximum effect of the apparatus for reproducing a sound field.
Therefore, even if the balance volume and the fader volumes are not set at the center position, the sound field is adjusted automatically at the center position to obtain the maximum effect of the apparatus for reproducing a sound field when the sound field controller is selected.
Fig. 3A and 3B is a view showing an integral apparatus for reproducing a sound field according to the first embodiment of the invention;
Fig. 6A and 6B is a block view showing an electrical configuration of an apparatus for reproducing a sound field according to the second embodiment of the invention;
Fig. 7A and 7B is a view showing a separate configuration of an apparatus for reproducing a sound field according to the third embodiment of the invention;
Fig. 8A and 8B is a view showing a separate configuration of an apparatus for reproducing a sound field according to the fourth embodiment of the invention;
Fig. 9 is a view showing an arrangement of a computing circuit for each channel of Fig. 8;
Fig. 10A and 10B is a view showing a separate configuration of an apparatus for reproducing a sound field according to the fifth embodiment of the invention;
Fig. 11 is a view showing a configuration of an adder circuit of Fig. 10;
Fig. 12A and 12B is a view showing a configuration controlling an fader controlling circuit and a sound field controller of an apparatus for reproducing a sound field using a common button switch, according to the sixth embodiment of the invention;
Fig. 13 is a view showing a controlling configuration of one driver of moving pieces (m1, m2, m3) of Fig. 12;
Fig. 14 is a view showing a controlling configuration of a computing process circuit of Fig. 12;
Fig. 15 is a view showing a ROM configuration of Fig. 12;
Fig. 16A and 16B is a flowchart illustrating a controlling operation of an apparatus for reproducing a sound field;
Fig. 17A and 17B is a flow chart illustrating a controlling operation of an apparatus for reproducing a sound field.
Fig. 1 is a view showing a prior apparatus for reproducing a sound field presupposing the present invention. Referring to Fig. 1, an interior vehicle area 2 accommodating an apparatus for reproducing a sound field 1, a power amplifier 8 (AFL, AFR, AFL, ARR) for amplifying a signal from the apparatus for reproducing a sound field 1, and speakers 9 including 4 channels wherein a speakers SPFL, SPFR, SPRL and SPRR are arranged respectively at the front left seat side, the front right seat side, the rear left seat side and the rear right seat side.
The apparatus for reproducing a sound field 1 comprises a sound signal source 3, such as a compact disc player, a cassette player, etc., a fader controlling circuit 4 which separates left L and right R channels of stereo sound signals from the sound signal source into said 4 channels, and adjusts the signal levels among the channels and outputs as sound signals SFL, SFR; SRL, SRR (expressed as S in the case of a general term below), a sound field controller 5 which performs an operational process of said sound signals to add then to initial reflection sound signals and reverberation sound signals and which adjusts a quality of sound, switches 6 for bypassing said sound field controller to output the fader controlling circuit 4, and outputs 7 for outputting signals of the switches 6.
Fig. 2 is a view of principle constitution according to the invention. As shown in Fig. 2, an apparatus for reproducing a sound field 1 comprises a sound signal source 3, an analog type fader controlling circuit 4 which separates sound signals from the sound signal source 3 into predetermined channels and adjusts a sound position of localization formed by each separated sound signal inside a vehicle area corresponding to an amount in the manipulation of volume, and a relieving means 15 for invalidating an adjustment of the sound signals from the sound signal source 3 to be separated caused by the manipulation of the volume when said sound field controller 5 is selected, said sound field controller 5 being a digital type, performing an operational process of each sound signal separated and adjusted by the fader controlling circuit 4 and forming a desired sound field inside a vehicle.
Figs. 3A and 3B are a view showing an integral apparatus for reproducing a sound field according to the first embodiment of the invention. In this Figure, a fader controlling circuit 4 is an analog circuit including a balance volume 4a for left and right, and a fader volume 4b for front and rear relative to vehicle seats. The balance volume 4a includes input resistors rL, rR, buffers BL, BR, and a volume VR1. Sound signals L of a left channel from said sound signal source are input to the buffer BL through a line ℓL from the input resistor rL and sound signals R of a right channel are input to the buffer BR through a line ℓR from the input resistor rR. There lies the balance volume VR1 between lines ℓL and ℓR to adjust left and right sound volumes inside the vehicle 2. The fader volume 4b includes output resistors rFL, rFR; rRL, rRR and volumes VR2, VR3. Output signals from the buffer BL are separated into front and rear sound signals SFL and SRL of the left channel, the separated signal SFL is output to a line ℓFL from the resistor rFL, and the separated signal SRL is output to a line ℓRL from the resistor rRL. Similarly, output signals from the buffer BR are separated into front and rear sound signals SFR and SRR of the right channel, the separated signal SFR is output to a line ℓFR from the resistor rFR, and the separated signal SRR is output to a line ℓRR from the resistor. There lies the fader volume VR2 between lines ℓFL and ℓRL and the fader volume VR3 between lines ℓFR and ℓRR to adjust front and rear sound volumes.
Also, the apparatus for reproducing sound field 1 is provided with a switching means 11a (SW1) relative to said balance volume VR1, and a switching means 11b (SW2) relative to said fader volume VR2 and VR3. The switching means 11a (SW1) includes a resistor r1 and a transistor Tr1, and the switching means 11b (SWb) includes a resistor r2 and a transistor Tr2. The transistors Tr1 and Tr2 perform ON/OFF operation responding to a switching control signal output from a sound field control selector 12 to a line ℓ1 in correspondence with to a manipulation of a selecting switch 14 (SW0) through a switch circuit 13. Also, the sound field controller 5 including a digital circuit mentioned later performs a start/stop of a sound field producing operation by setting multiplying coefficients of a variable multiplier 506 and 511 as shown in Fig. 4 to be 1 or 0 responding to the switching control signal. Said sound field control selector 12 and the switching means 11a, 11b (SW1, SW2) forms the relieving means 15 of volume manipulation for automatically adjusting a sound field.
Additionally, the sound field controller 5 provided in the apparatus for reproducing sound field 1 comprises digital to analog converters (A/D) CFL, CFR; CRL, CRR for converting each sound signals S to digital signals respectively, a computing process circuit such as a Digital Signal Processor for processing signals converted by the A/D converter into reverberation signals, etc. and analog to digital converters (D/A) DFL, DFR; DRL, DRR for converting each processed signal to analog signals respectively.
Fig. 4B is a view showing an configuration of one computing process circuit of Fig. 4A. As shown in Fig. 4A, each channel of the computing process circuits (5A, 5B, 5C, 5D) consists of a DSP (Digital Signal Processor) and as shown in Fig. 4B, one representative channel 5A for reproducing sound fields of music concerts comprises an initial reflection sound production part 50 including an initial reflection delay memory 502 for delaying a direct sound signal by T₁ and T₂ duration, a delay memory 503 receiving the direct sound signal delayed by T₁ duration, a plurality of multipliers 504 for multiplying each signal delayed by this delay memory 503 by certain coefficients, and a plurality of adders 505 for adding outputs of these multipliers 504, a reverberation sound producing part 51 including a variable multiplier 506 for performing a start/stop operation of said initial reflection sound production part 50, an adder 507 for adding output signals of the variable multiplier and said direct sound signals, a delay device 509 for delaying said T₂ duration delayed direct sound signals by ΔT duration, a multiplier 510 for multiplying signals of the delay device 509 by a certain coefficient, and an adder 508 for adding output signals of the multiplier 510 and input signals of the delay device 509, a variable multiplier 511 for performing a start/stop operation of the reverberation sound producing part 51, an adder 513 for adding output signals of the variable multiplier 511 and the adder 507, and a multiplier 515 for varying output levels of the adder 513.
An adjustment of T₁ and T₂ duration and signal level in this Figure enables a feeling of sound distribution equivalent to an actual concert hall to be obtained.
Next, an operation of the apparatus for reproducing a sound field 1 constituted as the above is described. A switching control signal attains high level to pass through the transistor Tr1 and Tr2 when the sound field control process is not selected whereby the potential of moving pieces m1 - m3 of the volumes VR1 - VR3 is at ground level to reproduce the sound signals with the levels corresponding to the setting positions of the moving pieces from each speak so that the reproduced sound field is localized at the desired position.
Said each sound signals is directly input to the power amplifier 8 from the fader controlling circuit 4 passing through the A/D converter, the computing process circuit wherein the multiplying coefficients of the variable multipliers 506 and 511 are set to zero by the sound field control selector 12, and the D/A converter.
On the contrary, a switching control signal attains a low level in order to cut off the transistor Tr1 and Tr2 when the sound field control process is selected. Thus, the function of the volume VR1 - VR3 is lost and each channel signal from the sound signal source 3 which maintains its original level passes through the A/D converter, the computing process circuit wherein the multiplying coefficients of the variable multipliers 506 and 511 are set to 1 by the sound field control selector 12 and the D/A converter so that each D/A converter for converting the input digital signals to the analog sound signals applies them to said each speaker 9 (SPFL, SPFR; SPRL, SPRR) through the corresponding power amplifiers 8 (AFL, AFR; ARL, ARR).
Also, the reproduced sound is localized in the position corresponding to the position setting of said moving pieces m1 - m3 when said sound field controller 5 is relieved.
Therefore, according to the apparatus for reproducing a sound field 1 of the invention, when the sound field controller 5 is selected, said balance volume and the fader volume is at the center position in spite of the setting positions of the moving pieces m1 - m3 of the volume VR1 - VR3 so that only the manipulation of a selecting switch (SW0) for selecting the sound field controller 5 enables it to reproduce a feeling of sound distribution equivalent to an actual concert. Also, when the sound field controller 5 is relieved, the sound reproduction is performed in the position localized before selecting the sound field controller 5 so that it is not necessary to manipulate the localization of the sound field even after the process of the sound field controller 5 and the manipulation is significantly improved.
Fig. 6A and 6B is a block view showing an electrical configuration of an apparatus for reproducing a sound field according to the second embodiment of the invention. This embodiment is similar to said embodiment and the part corresponding to said embodiment is given the same reference mark. This apparatus for reproducing a sound field 1 is provided with an electronic volume 41 instead of the fader controlling circuit 4 used in the above-mentioned apparatus for reproducing a sound field 1.
Thus, both channel left L and right R sound signals are input to the electronic volume 41 which performs a balance adjustment depending on a voltage level of a balance control input P1 and a fader adjustment depending on a voltage level of a fader control input P2, and outputs said each sound signal S.
A high level voltage VCC applied to a level setting circuit including a resistor r11, a volume VR11 and a resistor in series is decided to be input to said balance control input P1. Said switching control signal introduced to the line ℓ1 is input to a transistor parallel with the volume VR11 through an inverter buffer 19 and a transistor Tr12.
When the sound field controller 5 is selected to allow the level of the line ℓ1 to be low, the transistor Tr12 and the transistor Tr11 act as conductors so that the volume VR11 is bypassed across it by the transistor Tr11.
Therefore, the voltage VCC/2 is output from a moving piece m11 to automatically adjust the balance at the center position.
Similarly, relative to said fader control input P2, a level setting circuit 43a is provided, the level setting circuit 43a being the same in constitution with said level setting circuit 43. And the part corresponding to the part of said level setting circuit 43 is identified by the letter a added to the same reference mark.
Thus, when said sound field controller is selected, transistors Tr12a and Tr11a act as conductors to apply the voltage VCC/2 to the fader control input so that the volume VR11 is broadcast as if at the center position.
Also, respectively, left and right balance adjustments may be performed by the electronic volume 41 and the level setting circuit 43, and the rear and front fader volume adjustments may be performed by the resistors rFL, rFR; rFL, rRR, the volume VR2 and VR3 as shown in Fig. 3A.
Fig. 7A and 7B is a view showing a separate configuration of an apparatus for reproducing a sound field according to the third embodiment of the invention.
As shown in this Figure, the apparatus for reproducing a sound field 1 according to the first embodiment is separated into the first part for reproducing a sound field 1a and the second part for reproducing a sound field 1b. The first part for reproducing a sound field 1a comprises the sound signal source 3, the fader controlling circuit 4 (4a, 4b), the switching means 11 (11a, 11b), terminals 7d and 7e. The reason why the first part for reproducing a sound field 1a includes the switching means 11 is that the switching means 11 is an analog circuit.
On the other hand, the second part for producing a sound field comprises the sound field controller 5, the sound field control selector 12, the switch circuit 13, the selecting switch 14, terminals 7a, 7b and 7c. Here, the terminal 7d may be connected to the power amplifier 8.
Fig. 8A and 8B is a view showing a separate configuration of an apparatus for reproducing a sound field according to the fourth embodiment of the invention. As shown in this Figure, the apparatus for reproducing a sound field 31 is separated into the first part for reproducing a sound field 31a and the second part for reproducing a sound field 31b. The first part for reproducing a sound field 31a comprises the sound field source 3, the fader controlling circuit 4 (4a, 4b), terminals 7d and 7e. The second part for reproducing a sound field 31b comprises the sound field controller 5, a switch means 6 for selecting the second part 31b and the controller 5, and terminals 7a, 7b and 7c. In the case where the sound signal source 3 is provided with the terminal 7e in comparison with the separation according to the third embodiment, installing in the vehicle the second part 31b in addition to the first part 31a, the sound field controller 5 connected with the terminal 7c of the second part for reproducing a sound field 31b and the fader controlling circuit 4 are alternatively selected by the switching means 6. The selected sound field controller 5 is not influenced because of being separated wherever the volume position of the fader controlling circuit 4 is set.
Fig. 9 is a view showing an arrangement of a computing process circuit for each channel of Fig. 8. As shown in this Figure, R and L signals from the A/D converters CR and CL may be formed into signals for the D/A converters DRR and DFL, and DFR and DRL, respectively.
Fig. 10A and 10B is a view showing a separate configuration of an apparatus for reproducing a sound field according to the fifth embodiment of the invention. As shown in this Figure, the apparatus for reproducing a sound field 32 is separated into the first part for reproducing a sound field 32a and the second part for reproducing a sound field 32b. The first part for reproducing a sound field 32a comprises the sound signal source 3, the fader controlling circuit 4 (4a, 4b), and the terminal 7c. The second part for reproducing a sound field 32 comprises adder circuits 16R and 16L for adding each front and rear (F, R) signals of the fader controlling circuit 4b in the first part for reproducing a sound field 32a, the sound field controller 5 connected to the output of the adder circuits 16R and 16L, and the switching means 6 for selecting alternatively the output signals of the sound field controller 5 and the input signals from the first part for reproducing a sound field 32a.
Fig. 11 is a view showing a configuration of an adder circuit of Fig. 10. As shown in this Figure, the adder circuits 16L and 16R input the voltage VSRR and VSFR of the right front and left signals SRR and SFR, and the voltage VSFL and VSRL of the left front and rear signals SFL and SRL, respectively, comprises resistors 161, 162, 168 and 169 having resistance value R1, operational amplifiers 163 and 170 inverting terminals of which are connected to the other sides of the resistor 161, 162, 168 and 169 and non-inverting terminals of which are grounded, each resistor 164 and 171 for feed back of the operational amplifiers 163 and 170 having resistance value R1, each resistor 165 and 172 connected to the output of the operational amplifiers having resistance value R2, operational amplifiers 167 and 174 inverting terminals of which are connected to the other side of the resistors 165 and 172 and non-inverting terminals of which are grounded, and each resistor 166 and 173 for feed back of the operational amplifiers 167 and 174 having resistance value R2.
In this Figure, let the outputs of the operational amplifiers be VLX and VRX , respectively, the following equation holds.
. Additionally, let the output of each operational amplifier 167 and 174 be VL , VR , the following equation holds. (V RX -0)/R₂ = (0 - V R )/R₂
. Therefore, the right side signal V R = -V RX = V SRR + V SFR
, the left side signal
In comparison with the fourth embodiment, in the fifth embodiment the first part for reproducing a sound field 32a is not provided with terminals for taking out signals from the sound signal source directly. However, the terminals 7b of the second part for reproducing a sound field 32b are connected to the terminals 7c of the first part for reproducing a sound field 32a so that the adder circuits enable the computing process circuit to perform a computing process using signals formed before being divided by the resistors rFL and rRL, and rRR and rFR and are not influenced by the position of volume VR2 and VR3 in the fader controlling circuit 4b. Additionally, these adder circuits 16R and 16L are provided to prevent the influence in change of the volumes VR2 and VR3, not VR1, of the fader controlling circuit 4. Because, in the case of installing in a vehicle, the volume VR1 for controlling the left and right balance might normally be low in frequency of adjustment.
Fig. 12A and 12B is a view showing a configuration controlling an fader controlling circuit and a sound field controller of an apparatus for reproducing a sound field using a common button switch, according to the sixth embodiment of the invention. An apparatus for reproducing a sound field as shown in this Figure which is the same as that of the fifth embodiment of Fig. 10, is provided with the first part for reproducing a sound field 32a having terminals 7f and 79 to receive a control signal of a controller 17, and provided with the second part for reproducing a sound field 32b having terminals 7c and 7d. The controller 17 comprises a CPU171, a ROM (Read Only Memory) 172, a RAM (Random Access Memory) 173 and a timer 174, being outside provided with button switches SW21, SW22 and SW23 for receiving instructions externally.
Fig. 13 is a view showing a configuration of one driver of moving pieces (m1, m2, m3) of Fig. 12. A driver as shown in this Figure comprises a moving piece m1 (m2, m3) for grounding an intermediate position of the volume VR1, an electrical driver 181 to which the power is applied across its terminals to activate the moving piece m1, switching parts 182 and 183 for switching the voltage of the power source (+B) to said terminals according to the controller, and a switch part 184 for allowing the power to be applied. Additionally, the mechanism on the moving piece m1 travels is not related to the invention, so its explanation is omitted for simplification. In this driver, the polarity inversion from the power causes the direction of the moving piece m1 to be opposite.
Fig. 14 is a view showing a controlling configuration of a computing process circuit of Fig. 12. As shown in this Figure, a coefficient a is set to the multiplier 506 for adjusting the level of the initial reflected sound in the computing process circuits 5A, 5B, 5C and 5D, a coefficient b is set to the multiplier 511 for adjusting the level of the reverberation sound, a coefficient c is set to the multiplier 515 in the computing process circuits 5B and 5C for the front seats, a coefficient d is set to the multiplier 515 in the computing process 5A and 5D for the rear seats.
Fig. 15 is a view showing a ROM configuration of Fig. 12. This ROM stores initial values a₀ = 0.5, b₀ = 0.5, c₀ = 0.5 and d₀ = 0.5 in multiplication coefficients of the multiplier 506, 511, and 511 in the computing process circuit. Moreover, the ROM 172 stores a control program according to the embodiment mentioned later and the other process programs.
Next, a series of operations according to the embodiment are described.
Fig. 16A and 16B is a flow chart illustrating a controlling operation of an apparatus for reproducing a sound field. In this Figure, as the button switch is turned ON, the switch 6 selects the sound field controller 5 through CPU 171, the switch part 184 of Fig. 13 is turned OFF (step 1), and the initial values a₀ = 0.5, b₀ = 0.5, c₀ = 0.5 and d₀ = 0.5 of the multiplication coefficients in the multipliers 505, 511 and 515 are read out from ROM 172 (step 2). Next, as the button switch is turned ON, the timer 174 is reset and started (step 3). If the button switch is OFF (step 4), the timer 174 is stopped as the button switch 22 is turned OFF (step 5) and the measured time t of the timer 174 is read out by CPU 171. An early read out, using the above initial values a₀ and b₀ , by CPU 171, is performed, for example, the computation of
. Here, for example if the measured time t is 0.2, 0.4, 0.6 sec, ... let Tx be Tx = 0.1, 0.2, 0.3 ..., and let a and b be a = 1.0 and b = 0.0 regarding a ≧ 1.0, b ≦ 0.0 (step 6). The multiplication coefficients obtained in this way are set to the multiplier 506, 511 and 515 (step 7). In the case where multiplication coefficients c and d have been already obtained in RAM in the operation mentioned later, these coefficients may be set prior to multiplication coefficients c₀ and d₀. And the multiplication coefficients are stored in RAM 173 (step 8). Additionally, if the button switch 23 is turned ON at the step 4, the timer 174 is reset and started. And as the button switch 23 is turned OFF, the timer is stopped (step 9). The measured time t is read out by CPU 171, and an early read out using the above read out multiplication coefficients a₀ and b₀ , is performed, for example, the computation of
, b = b₀ + 1 x Tx
. Here, for example, if the measured time t is 0.2, 0.4, 0.6 sec ..., let Tx be Tx = 0.1, 0.2, 0.3, ..., and let a and b be a = 0.0 and a = 1.0 regarding a ≦ 0.0 and b ≧ 1.0 (step 10). In the same way as the above-mentioned, the multiplication coefficients a, b, c₀ and d₀ are set to the multiplier 506, 511 and 515 (step 11), and the multiplication coefficients a and b are stored in RAM 173 (step 12).
Next, at the step 3, if the button switch 22 is OFF and the button switch is turned ON (step 13), the timer 174 is reset and started. If the button switch 23 is turned OFF while the button switch 22 is not turned ON (step 14), the timer 174 is stopped (step 15). In the same way as the above-mentioned, the computation of c and d is performed (step 16), the multiplication coefficients a₀ , b₀ , c, and d are set to them, and the multiplication coefficients c and d are stored in it (step 18). At the step 14, if the button switch is turned ON, the timer 174 is reset and started. And when the button switch 22 is turned OFF (step 19), the computation of the multiplication coefficients c and d is performed, the multiplication coefficients a₀ , b₀ , c and are set to them (step 21), and the multiplication coefficients c and d are stored in the same way with the above-mentioned (step 22).
Fig. 17A and 17B is a flowchart illustrating a controlling operation of an apparatus for reproducing a sound field. In this Figure, when the button switch 21 is turned OFF through CPU 171, the switch 6 selects the fader controlling circuit 4 (step 31). Next, if the button switch is turned ON, the timer 174 is reset and started (step 32). If the measured time of the timer elapses over the predetermined time (step 34), the switch 184 of Fig. 13 is turned ON. Additionally, the application of the positive voltage across the terminals of the VR1 driver is started to activate the moving piece m1, for example, in the X direction (step 35). When the button switch 22 is turned OFF (step 36), the switch 184 is turned OFF to stop the voltage application so that the movement of the moving piece m1 is stopped (step 37). At step 32, if the button switch 23 is turned ON before the predetermined time ΔT elapses after the button switch 22 is turned ON, the switch 184 is turned ON and also the switch 182 and 183 is altered to start the application of negative voltage across the terminals of the VR1 driver (step 38) and to activate the moving piece m1 in the opposite Y direction. When the button switch 22 and 23 is turned OFF (step 39), the application of voltage is stopped and also the movement of the moving piece m1 is stopped (step 40). At step 32, if the button switch 23 is turned ON while the button switch 22 is OFF (step 41), the moving piece m2 and m3 travels in the X direction and is stopped (step 42, 43, 44, 45, 46), and also the moving piece m2 and m3 is travels in the Y direction and is stopped (step 42, 47, 48, 49) in the same way as the above-mentioned.
According to the embodiment, the common button switch 21, 22 and 23 enable not only the fader controlling circuit 4 and the sound field controller 5 to be switched alternatively but also enables the volume of the analog circuit and the variable multiplier of the digital circuit to be adjusted.
An apparatus for reproducing a sound field having a sound signal source, a fader controlling circuit for separating the sound signals from the sound signal source into the predetermined channel signals to adjust a level of each separated sound signal depending on an amount of manipulation of a fader manipulating part, and a sound field controller for performing a computing process of each sound signal separated and adjusted by the fader controlling circuit to form a desired sound field inside a vehicle, characterized in that it comprises a relieving means for invalidating a separate adjustment for the sound signals of the sound signal source caused by the manipulation of the fader manipulating part of the fader controlling circuit while said sound field controller is operated.
The apparatus for reproducing a sound field of claim 1, characterized in that said fader controlling circuit comprises constant resistors one terminal of which is an input terminal, and a variable resistor, one terminal of which is grounded, said fader controlling circuit dividing variably the output signals at the point connecting the constant resistors and the variable resistor, and said fader relieving means is a switch means for cutting a connection between said variable resistor and the ground while the sound field controller is operated.
The apparatus for reproducing a sound field of claim 1, characterized in that said fader controlling circuit comprises an electronic volume for adjusting each sound signal of said channels depending on a voltage applied to a control input terminal, and said fader relieving means comprises a level setting circuit for setting a predetermined voltage applied to said control input terminal.
The apparatus for reproducing a sound field of claim 1, characterized in that it comprises said sound signal source, a part for reproducing a sound field having the said fader controlling circuit and a sound field controller separated from the part reproducing a sound field,
said part for reproducing a sound field comprising a fader relieving means for in validating a separate adjustment for the sound signals of the sound signal source caused by the volume manipulation of the said fader controlling circuit and a fader relieving control terminals for controlling the operation of the fader relieving means,
said sound field controller comprises a control terminal connected to said fader relieving control terminal to output signals representing the operation of said sound field controller.
The apparatus for reproducing a sound field of claim 1, characterized in that said fader relieving means are connected between said fader controlling circuit and said sound field controller and an adder circuit for adding a plurality of output signals of said fader controlling circuit to output to said sound field controller.
The apparatus for reproducing a sound field of claim 1, characterized in that said fader relieving means comprises a switching means for directly inputting the sound signals of said sound signal source to the sound field controller while said sound field controller is operated, to output the output signals of the sound field controller to speakers through power amplifiers and directly inputting the sound signals of said sound signal to the fader controlling circuit while said sound field controller is not operated, to output the output signals of the fader controlling circuit to the speakers through the power amplifiers.
The apparatus for reproducing a sound field of claim 1, characterized in that a computing process of said sound field controller is changed depending on an amount of manipulation of said fader manipulating part while said sound field controller is operated.
The apparatus for reproducing a sound field claim 1, characterized in that a change of the computing process of the said controller has signal levels of each channel in said sound field controller to be controlled depending on an amount of manipulation of said fader manipulating part.
EP19910901534 1989-12-29 1990-12-28 Acoustic reproducing device Expired - Lifetime EP0462285B1 (en)
JP1530/89U 1989-12-29
JP15308989U JPH0390599U (en) 1989-12-29 1989-12-29
JP3127/91 1990-11-20
JP31279190A JPH0720320B2 (en) 1990-11-20 1990-11-20 Sound field control device
JP33367290A JP2527846B2 (en) 1990-11-30 1990-11-30 Sound reproducing apparatus
JP333672/90 1990-11-30
PCT/JP1990/001737 WO1991010335A1 (en) 1989-12-29 1990-12-28 Acoustic reproducing device
EP0462285A1 true true EP0462285A1 (en) 1991-12-27
EP0462285A4 true EP0462285A4 (en) 1993-05-12
EP0462285B1 EP0462285B1 (en) 1996-09-04
ID=27320398
EP19910901534 Expired - Lifetime EP0462285B1 (en) 1989-12-29 1990-12-28 Acoustic reproducing device
US (1) US5285503A (en)
EP (1) EP0462285B1 (en)
DE (2) DE69028394T2 (en)
WO (1) WO1991010335A1 (en)
EP0705054A3 (en) * 1994-09-30 1998-07-01 NOKIA TECHNOLOGY GmbH Sound reproduction system
JPH01213099A (en) * 1988-02-22 1989-08-25 Fujitsu Ten Ltd Sound device
JPS60123200A (en) * 1983-12-07 1985-07-01 Nissan Motor Co Ltd Acoustic device for car
JPS61237599A (en) * 1985-04-12 1986-10-22 Nissan Motor Co Ltd Sound field controller
JPS61191700U (en) * 1985-05-22 1986-11-28
JPS62219899A (en) * 1986-03-20 1987-09-28 Fujitsu Ltd Reverberation adding system
JPS645200A (en) * 1987-06-26 1989-01-10 Fujitsu Ten Ltd Reverberation adding device
JPH01220600A (en) * 1988-02-27 1989-09-04 Fujitsu Ten Ltd System for constituting acoustic field in car room
JPH01220599A (en) * 1988-02-27 1989-09-04 Fujitsu Ten Ltd System for constituting acoustic field in car room
PATENT ABSTRACTS OF JAPAN vol. 13, no. 525 (E-850)22 November 1989 & JP-A-01 213 099 ( FUJITSU ) 25 August 1989 *
See also references of WO9110335A1 *
DE69028394D1 (en) 1996-10-10 grant
US5285503A (en) 1994-02-08 grant
WO1991010335A1 (en) 1991-07-11 application
DE69028394T2 (en) 1997-01-16 grant
EP0462285A4 (en) 1993-05-12 application
EP0462285B1 (en) 1996-09-04 grant
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