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| MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL APPLICATION This IC can be used Analog Signal processing of Power Amp.front stage This IC can be used Car Audio System,Home Audio System and TV. FEATURES This IC is unnecessary for outside putting CR by using SCF for Loudness and Tone Control. Bass : +16dB to -12dB/2dBstep. f0,Q=variable. f0=50Hz,80Hz,120Hz Q=1,1.25,1.5,2 Mid : +12dB to -12dB/2dBstep. f0,Q=variable. f0=700Hz,1KHz,2KHz,10KHz Q=1.5,2 Treble : +12dB to -12dB/2dBstep. f0=variable. f0=8KHz,12KHz Loudness : f0=variable. f0=60Hz,80Hz,100Hz Build-in Non Fader Volume +12dB to -12dB /2dB step, - dB Build-in Zero-Crossing Detector Circuit for Changing Noise Measure. Build-in Differential Input and Differential Output Build-in Input Selector (4 input + Differential Input) Build-in Input Gain Control Outline 0dB to +18.75dB/1.25dB step Build-in Master Volume and Fader Volume (Front,Rear) 36P2R Volume : 0dB to -83dB , - dB/1dB step Fader : 0dB ,-1dB,-2dB,-3dB,-4dB,-6dB,-8dB,-12dB,-16dB,-20dB,-30dB,-45dB,-60dB,- dB/16 step Serial Data Control of 2 lines formula. RECOMMENDED OPERATING CONDITIONS Supply voltage range...VCC=7V to 9V VDD=4.5V to 5.5V Rated supply voltage... VCC=8V VDD=5V SYSTEM BLOCK DIAGRAM DEFN OUT2 DEFP IN2 DEFN IN2 INA2 INB2 INC2 IND2 Input Gain Control Master Volume is composed of Volume1 and Volume2 Non Fader Differential Amp. Volume1 Loudness Volume2 Fader Front Rear - + Bass/Mid/ Treble Non Fader Zero-Cross Detector Circuit Zero-Cross Detector Circuit u-com Interface DATA CLOCK Non Fader IND1 INC1 INB1 INA1 DEFN IN1 DEFP IN1 DEFN OUT1 Differential Amp. Input Gain Control Master Volume is composed of Volume1 and Volume2 Non Fader Volume1 Loudness Volume2 Fader Rear Front - + Bass/Mid/ Treble D-61508-98-C MITSUBISHI ELECTRIC ( 1 /22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL 12dB 12dB + + D-61508-98-C MITSUBISHI ELECTRIC ( 2 /22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL PIN DESCRIPTION Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Symbol REF DEFP IN1 DEFN IN1 INA1 INB1 Function Signal Ground of IC. Grounding about 10uF Positive Input pin of Differential Amp. Negative Input pin of Differential Amp. Input pin of Channel 1 for Input Selector SW INC1 IND1 DEFN OUT1 SEL OUT1 VOL IN1 TONE OUT1 FADER IN1 REAR OUT1 Output pin (-) of Differential Amp. Output pin of Input Selector Input pin of Volume1 Output pin of Tone Input pin of Volume2 Output pin of Fader Volume (rear) FRONT OUT1 Output pin of Fader Volume (front) Non Fader OUT1 Output pin of Non Fader Volume GND DATA N.C. Ground Pin Input pin of Control Data. It synchronized at CLOCK and inputted Data N.C. Pin D-61508-98-C MITSUBISHI ELECTRIC ( 3 /22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL Pin No. 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 System N.C. CLOCK VDD N.C. Pin Clock Input pin for Serial Data Transmission Digital Power Supply pin Function Non Fader OUT2 Output pin of Non Fader Volume FRONT OUT2 Output pin of Fader Volume (front) REAR OUT2 FADER IN2 TONE OUT2 VOL IN2 SEL OUT2 DEFN OUT1 IND2 INC2 Input pin of channel 2 for Input Selector SW Output pin of Fader Volume (rear) Input pin of Volume 2 Output pin of Tone Input pin of Volume1 Output pin of Input Selector Output pin (-) of Differential Amp. INB2 INA2 DEFN IN1 DEFP IN1 VCC Negative Input pin of Differential Amp. Positive Input pin of Differential Amp. Analog Power Supply pin D-61508-98-C MITSUBISHI ELECTRIC ( 4 /22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL D-61508-98-C MITSUBISHI ELECTRIC ( 5 /22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL ELECTRICAL CHARACTERISTICS (Ta=25 C,VCC=8V,VDD=5V,Input Gain/Volume/Tone/fader=0dB,Loudness=OFF,unless otherwise noted.) Limits Symbol Icc GV Parameter Circuit Current Test conditions Min typ Max 40 -2 Vi=1Vrms , f=1KHz ATT(VOL)= - dB ATT(VOL)= 0dB f=1KHz , DIN-AUDIO Unit mA dB dB dB Vrms dB dB dB dB dB dB dB Vrms 12 5 3.5 0.01 0.05 -90 -75 10 13 -75 -60 16 No signal setting 0 -90 -2 0 Pass Gain Volume Maximum ATT(VOL) Attenuation Quantity Crosstalk between ATT(VOL) Channels VIM G(Bass)B G(Bass)C G(MID)B G(MID)C G(Tre)B G(Tre)C A TT (FED) VOM Vno 1 Vno 2 Vno 3 THD CS CT Total harmonic distortion Channel Separation +2 -80 +2 1.8 Maximum Input Voltage Boost Quantity (Bass) Cut Quantity (Bass) Boost Quantity (Mid) Cut Quantity (Mid) Boost Quantity (Treble) Cut Quantity (Treble) Fader Maximum Attenuation Quantity Maximum input voltage THD=1% f=100Hz f=100Hz f=1KHz f=1KHz f=10KHz f=10KHz Vi=1Vrms , f=1KHz,DIN-AUDIO 13 -15 9 -15 9 -15 dB 16 -12 12 -12 12 -12 -90 19 -9 15 -9 15 -9 -80 ATT(FED)= - f=1KHz , DIN-AUDIO THD=1% Rg=0,DIN-AUDIO 1.8 output noise voltage Bypass setting Rg=0,DIN-AUDIO ATT(VOL)= - dB Rg=0,DIN-AUDIO f=1KHz,Vo=0.5Vrms BW:400Hz to 30KHz uVrms % dB dB dB dB dB f=1KHz,DIN-AUDIO f=1KHz,DIN-AUDIO Loudness ON , f=100Hz VOL1= -30dB , VOL2=0dB LOUD_VOL= -20dB Input Selector Crosstalk Gv(LOUD) Loudness voltage gain Gv(GAIN) Input gain control Common Mode CMRR Rejection Ratio D-61508-98-C Gv(GAIN)= +18.75dB 15.75 18.75 21.75 50 2,3pin/34,35pin Common mode signal input setting MITSUBISHI ELECTRIC ( 6/22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL CONNECTION of DATA AND CLOCK CLOCK D0 DATA D1 D2 D3 D32 D33 D34 Data signals are read at rising edges of Clock. Latch signal "H" Latch signals are read at rising edges of Clock. DIGITAL BLOCK DIRECT CURRENT CHARACTERISTIC Symbol V IL V IH I I IL IH Parameter "L" Level Input Voltage "H" Level Input Voltage I "L"Level Input Electric Current I "H" Level Input Electric Current Test Conditions VDD=5V setting DATA,CLOCK Pin Min 0 4.0 -10 Limits typ Max 1.0 5.0 10 10 Unit V uA V=0V V=5V DATA, CLOCK Pin D-61508-98-C MITSUBISHI ELECTRIC ( 7 /22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL CLOCK AND DATA TIMING t cr 75% CLOCK 25% t r t f t WHC t WLC DATA t SD t HD DIGITAL BLOCK ALTERNATING CURRENT CHARACTERISTIC Symbol t t t t t t t cr WHC WLC r f SD HD Parameter CLOCK Cycle Time CLOCK Pulse Width ("H" level) CLOCK Pulse Width ("L" level) CLOCK Rise Time CLOCK Hall Time DATA Setup Time DATA Hold Time Min 4 1.6 1.6 Limits typ Max Unit 0.4 0.4 0.8 0.8 uS D-61508-98-C MITSUBISHI ELECTRIC ( 8 /22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL D-61508-98-C MITSUBISHI ELECTRIC ( 9/22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL VOLUME 1 CODE ATTVA1 CH1 CH2 D0 D7 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 D1 D8 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 D2 D9 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 D3 D10 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 D4 D11 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ATTVA2 CH1 CH2 D5 D12 1 0 1 0 D6 D13 1 1 0 0 0dB -1dB -2dB -3dB -4dB -5dB -6dB -7dB -8dB -9dB -10dB -11dB -12dB -16dB -20dB -24dB -28dB 0dB -1dB -2dB -3dB ATTVA2 fixed to 0dB when 0dB -12dB setting. VOLUME 2 CODE ATT VB1 CH1 CH2 D0 D6 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 D1 D7 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 D2 D8 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 D3 D9 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 ATTVB2 CH1 CH2 D4 D10 1 0 1 0 D5 D11 1 1 0 0 0dB -2dB -4dB -6dB -8dB -10dB -12dB -14dB -16dB -24dB -32dB -40dB -48dB -56dB - dB 0dB -2dB -4dB -6dB ATTVB2 fixed to 0dB when 0dB -16dB setting. TIMER SETTING CODE TIMER 5mS 10mS 15mS 20mS D25 1 0 1 0 D26 1 1 0 0 D-61508-98-C MITSUBISHI ELECTRIC 10 ( /22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL TONE CODE MID TREBLE 12dB 10dB 8dB 6dB 4dB 2dB 0dB -2dB -4dB -6dB -8dB -10dB -12dB D8 D15 0 1 0 1 0 1 0 1 0 1 0 1 0 D9 D16 1 0 0 1 1 0 0 0 1 1 0 0 1 D10 D17 1 1 1 0 0 0 0 0 0 0 1 1 1 D11 D18 0 0 0 0 0 0 0/1 1 1 1 1 1 1 LOUDNESS VOLUME CODE LOUDNESS -2dB -4dB -6dB -8dB -10dB -12dB -14dB -16dB -18dB -20dB -22dB -24dB -26dB -28dB -30dB dB D21 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 D22 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 D23 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 D24 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 BASS 16dB 14dB 12dB 10dB 8dB 6dB 4dB 2dB 0dB -2dB -4dB -6dB -8dB -10dB -12dB D0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 D1 0 1 1 0 0 1 1 0 0 0 1 1 0 0 1 D2 0 1 1 1 1 0 0 0 0 0 0 0 1 1 1 D3 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 * Please refer to 21,22 page for Loudness gain setting. LOUDNESS fO CONTROL LOUDNESS fO CONTROL D30 1 0 1 D31 1 1 0 f0=60Hz f0=80Hz f0=100Hz TONE f0,Q CONTROL CODE BASS f0 CONTROL D4 1 0 1 D5 1 1 0 MID f0 CONTROL D12 1 0 1 0 D14 1 0 D13 1 1 0 0 TREBLE f0 CONTROL D19 1 0 f0=50Hz f0=80Hz f0=120Hz f0=700Hz f0=1KHz f0=2KHz f0=10KHz MID Q CONTROL f0=8KHz f0=12KHz BASS Q CONTROL D6 1 0 1 0 D7 1 1 0 0 Q=2 Q=1.5 Q=1.25 Q=1 Q=1.5 Q=2 D-61508-98-C MITSUBISHI ELECTRIC (11/22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL SELECTOR CODE SELECTOR INA INB INC IND Differential Input NON FADER CODE D15 0 1 1 0 0 D16 1 0 0 0 0 D14 0 1 0 1 0 ATT +12dB +10dB +8dB +6dB +4dB +2dB 0dB -2dB -4dB -6dB -8dB -10dB -12dB - dB D26 1 0 1 0 1 0 1 0 1 0 1 0 1 0 D27 0 0 1 1 0 0 1 1 0 0 1 1 0 0 D28 1 1 0 0 0 0 1 1 1 1 0 0 0 0 D29 1 1 1 1 1 1 0 0 0 0 0 0 0 0 INPUT GAIN CONTROL CODE INPUT GAIN CONTROL D17 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 D18 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 D19 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 D20 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0dB 1.25dB 2.50dB 3.75dB 5.00dB 6.25dB 7.50dB 8.75dB 10.00dB 11.25dB 12.50dB 13.75dB 15.00dB 16.25dB 17.50dB 18.75dB FADER CODE FADER 0dB -1dB -2dB -3dB -4dB -6dB -8dB -10dB -12dB -14dB -16dB -20dB -30dB -45dB -60dB - dB D21 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 D22 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 D23 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 D24 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 D-61508-98-C MITSUBISHI ELECTRIC 12 ( /22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL LOUDNESS,TONE CONTROL FREQUENCY CHARACTERISTIC fig.1) Loudness Frequency Characteristic fig.2) Loudness Frequency Characteristic(VOL=-30dB,Loudness=-20dB,fO=Variable) fig.3) Bass Frequency Characteristic(fO=50Hz,Q=2,Gv=Variable) fig.4) Bass Frequency Characteristic(Gv=+16dB,fO=Variable,Q=2) D-61508-98-C MITSUBISHI ELECTRIC ( /22) 13 MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL fig.5) Bass Frequency Characteristic (Gv=+16dB,Q=Variable, fO=50Hz) fig.6) Mid Frequency Characteristic (fO=1kHz,Q=2,Gv=Variable) fig.7) Mid Frequency Characteristic (Gv=+12dB,Q=2,fO=Variable) fig.8) Mid Frequency Characteristic (Gv=+12dB,fO=1kHz,Q=Variable) D-61508-98-C MITSUBISHI ELECTRIC (14/22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL fig.9) Treble Frequency Characteristic (Gv=Variable) fig.10) Treble Frequency Characteristic (Gv=+12dB,fO=Variable) D-61508-98-C MITSUBISHI ELECTRIC ( /22) 15 MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL ZERO-CROSSING DETECTION CIRCUIT 1. Meaning of Zero-Crossing Detection Circuit In the conventional Serial Data Control Type Volume, Analog SW inside switches over simultaneously with Latch Condition Detector. And the operation completes. CLK D32 DATA D33 D34 Latch Conditions Audio Signal Signal GND(1/2Vcc) Noise Factor when Signal is present In this case the changing noise occurs at the time of Latch Condition Detector, the Analog SW switches over (Zero-cross Detector Strobe occurs) in the moment that the Analog Signal cross Signal Ground (1/2VCC). CLK D32 DATA D33 D34 Latch Conditions Zero-cross Detector Strobe (Form signal from inside IC) Analog SW changing Signal GND (1/2Vcc) Other,In the case of Audio Signal isn't inputted (No signal),even if only Zero-cross Detector Circuit detects Latch Condition, Analog SW doesn't switch over for the Audio Signal never cuts Signal Ground (1/2VCC). The Time Function switches the Analog SW after some time T. The Timer Time can setting with the Serial Data of 5mS,10mS,15mS,20mS. D-61508-98-C MITSUBISHI ELECTRIC 16 ( /22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL 2. Connection of Zero-Crossing Detector and Timer Setting "OR" of [Zero-cross Detector Strobe] or [Compulsion SW of Timer Circuit] moves Internal Analog SW . When for example, suppose that it set to T=10msec. T=10 msec CLK D32 DATA D33 D34 Latch Conditions Pattern 1 Zero-cross Detector Strobe (Form signal from inside IC) Audio Signal SW Changing Pattern 2 Zero-cross Detector Strobe (Form signal from inside IC) Audio Signal SW Changing In case of Pattern1, the Zero-cross Detector Strobe occurs with the Zero-cross Detector Function, and SW is switched. But in case of Pattern2, the Timer Function switches the Analog SW after T=10msec, for the Audio Input Signal didn't cut the Signal Ground after T=10msec which were set with the timer. Timer Setting Time setting for Frequency band of Input Audio Signal. D-61508-98-C MITSUBISHI ELECTRIC (17/22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL 3. Timer Setting System T=10 msec CLK D34 DATA Latch Conditions f= 1 2 T = 1 =50Hz 2 10msec Audio Signal In case of Timer Setting Time/T =10 msec setting Audio Signal 50Hz < 50Hz > Zero-cross Detector 100% 100% 0% Upper fig. Pattern 1 Pattern 2 T=10 msec CLK D34 DATA Latch Conditions Pattern 1 Audio Signal f=30Hz Pattern 2 Audio Signal f=30Hz The Timer Setting Time T makes T=20msec (Zero-cross detect of 25Hz is 100%) maximum and it is setting by it. D-61508-98-C MITSUBISHI ELECTRIC ( /22) 18 MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL 4. Connection of Data Transmission and Timer Setting M61508FP has the function to make the Serial Data invalid until it generations the Zero-cross Detector Strobe in IC, after the Latch Condition detected. Timer Setting T Latch Conditions CLK D0 to D33 D34 D0 to D33 D34 Latch Conditions DATA "A" "B" Serial Data Transmission Interval IT Zero-cross Detector Strobe (Form signal from inside IC) Audio Signal SW Changing for DATA "A" * In case of upper figurative.The order of DATA "B" is invalid. In to make the Serial Data Transmission Interval IT from MCU(microcomputer) to M61508FP Serial Data Transmission Interval=IT > Timer Setting= T the reading error of the data doesn't occur. Transmission Interval IT =Interval of between Latch Condition * Serial DataCondition and Latch D-61508-98-C MITSUBISHI ELECTRIC ( /22) 19 MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL D-61508-98-C MITSUBISHI ELECTRIC (20/22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL 2 LOUDNESS GAIN SETTING Lower Figure is Structure of Loudness Circuit. VIN 10 V1 R VOUT VOLUME 1 R LOUDNESS FILTER (Gv=0dB) V2 R R LOUDNESS VOLUME Output Volutage (VOUT) of Setting Structure of Upper Figure It is noted as Volume1Output Volutage = V1, Loudness Filter Output Voltage = V2, VOUT and Gv (Boost quantity) is given at the lower formula VOUT = V1 + V2 (Vrms) (V1 + V2) VIN Gv = 20 log - (Volume 1 attenuation quantity) (dB) ex.) VIN = 1Vrms/60Hz,Volume1= - 30dB, Output Volutage and Boost Quantity of 60Hz of Loudness Volume = -20dB setting From : Volume1,Loudness Volume attenuation quantity Become : V1 = 31.6mVrms V2 = 100mVrms If the subsitudes the equation for the upper formula, the following equation is given : VOUT = 31.6m + 100m =131.6mVrms Gv = 20 log (31.6m + 100m) 1 = 12.4dB is obtained. In the item,the Loudness Gain Setting example is shown, when Volume1 fixation and doing the Loudness Volume variably. Please refer to Plan. - (-30dB) Frequency (Hz) Gv Volume 1= -30dB D-61508-98-C MITSUBISHI ELECTRIC (21/22) MITSUBISHI SOUND PROCESSOR ICs M61508FP THE ELECTRIC VOLUME of BUILD-IN NON FADER VOLUME with TONE CONTROL LOUDNESS GAIN SETTING EXAMPLE 1 Volume1= -10dB LOUDNESS VOLUME LOUDNESS GAIN -2dB -4dB -6dB -8dB -10dB -12dB -14dB -16dB -18dB -20dB -22dB -24dB -26dB -28dB -30dB - dB 10.9dB 9.5dB 8.2dB 7.1dB 6.0dB 5.1dB 4.2dB 3.5dB 2.9dB 2.4dB 1.9dB 1.6dB 1.3dB 1.0dB 0.8dB 0dB 2 Volume1= -20dB LOUDNESS VOLUME LOUDNESS GAIN -2dB -4dB -6dB -8dB -10dB -12dB -14dB -16dB -18dB -20dB -22dB -24dB -26dB -28dB -30dB - dB 19.0dB 17.3dB 15.6dB 13.9dB 12.4dB 10.9dB 9.5dB 8.2dB 7.1dB 6.0dB 5.1dB 4.2dB 3.5dB 2.9dB 2.4dB 0dB 3 Volume 1=-30dB LOUDNESS VOLUME LOUDNESS GAIN -2dB -4dB -6dB -8dB -10dB -12dB -14dB -16dB -18dB -20dB -22dB -24dB -26dB -28dB -30dB - dB 28.3dB 26.4dB 24.5dB 22.7dB 20.8dB 19.0dB 17.3dB 15.6dB 13.9dB 12.4dB 10.9dB 9.5dB 8.2dB 7.1dB 6.0dB 0dB D-61508-98-C MITSUBISHI ELECTRIC (22/22) |
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