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| MITSUBISHI SOUND PROCESSORS M62495AFP TONE CONTROL/VOLUME CONTROL DESCRIPTION The M62495AFP is a sound controller IC developd mini-stereo set,general audio equipment. By serial data from microcomputer, it can realize sound controller of selecter and 2band tone control easily. FEATURES Input selector (4mode) Volume(0 ~ -84dB,the infinitesimal) REC OUT(on/off SW) or MIC mixing 20dB amp T one control(Bass/Treble) Stereo/mono.SW RECOMMENDED OPERATING CONDITIONS Supply voltage range VDD=+ 2.25~+ 2.75V(typ.+2.5V) VSS=-2.25~-2.75V(typ.-2.5V) SYSTEM BLOCK DIAGRAM MIC AMP REC OUT1 MIC MIC ALC TAPE CH2 INPUT TUNER CD AUX TAPE TUNER CD AUX Electronic vol REC OUT2 VOLUME M62495AFP 2band-tone POWER AMP 4-mode selector (stereo/ mono SW) SPEAKER Electronic vol 2band-tone CH1 INPUT MITSUBISHI ELECTRIC ( 1 / 11 ) BLOCK DIAGRAM INA1 INB1 INC1 IND1 INE1 1 2 INPUT SW 24 23 INA2 INB2 INC2 IND2 INE2 Mono.SW 3 MUTE 4 5 14dB 14dB 5k 5k 22 21 20 SELOUT 1 VOLIN 1 TONEH1 TONEL1 6 7 8 9 46k 30k 19 Volume 30k SELOUT2 VOLIN2 TONEH2 TONEL2 OUT 2 VSS CONT 18 17 16 Treble 17.2k boost 2.48k 2.48k 17.2k Treble boost Bass boost Bass boost 46k OUT 1 GND VDD 10 11 12 Auto reset (Note) 15 14 Control logic 13 (Note)When power supply voltage(VDD-VSS) under 3.3V(typ),it's fixed in a state of (2) on the page 6/11. Units Resistance :ohm Capacitance: F MITSUBISHI ELECTRIC (2 / 11 ) PIN DESCRIPTION Pin No. Name Function 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 IN A1 IN B1 IN C1 IN D1 IN E1 SELO1 VOLI1 TONEH1 TONEL1 OUT1 GND VDD CONT VSS OUT2 TONEL2 TONEH2 VOLI2 SELO2 IN E2 IN D2 IN C2 IN B2 IN A2 INPUTs of the channel 1 The swich of INE can be controlled independently. Please set"ALL OFF"mode when the switch of E is only ON. OUTPUT of selectors 1 INPUT of volume 1 Treble control adjustment of the channel 1 Bass control adjustment of the channel 1 OUTPUT of the channel 1 Ground Supply voltage(+) Control data input from a microcontroller Supply voltage(-) OUTPUT of the channel 2 Bass control adjustment of the channel 2 Treble control adjustment of the channel 2 INPUT of volume 2 OUTPUT of selectors 2 The swich of INE can be controlled independently. Please set "ALL OFF" mode when the switch of E is only ON. INPUTs of the channel 2 MITSUBISHI ELECTRIC ( 3 / 11 ) ABSOLUTE MAXIMUM RATONGS (Ta=25 C,unless otherwise noted) Symbol VDD-VSS K Pd Topr Tstg Parameter Supply voltage Thermal derating Power dissipation Operating temperature Storage temperature Test conditions Note:1 Rating 6.0 5 500 -20 ~ 75 -40 ~ 125 Unit V mW/ C mW C C Thermal derating(maximum rating) 0.75 Note.1 reference PC Board Size :70mmX70mm Thickness:1.6mm Material :glass epoxy 0.5 Copper pattern dimension Width :0.25mm Length :25 ~ 30mm/lead Thickness:18um 0.25 0 0 25 50 75 100 125 150 Ambient temperature Ta [ C ] Recommended operating conditions Symbol VDD VSS CONT Parameter Supply voltage(+) Supply voltage(-) Control date input voltage Pin No. 12 14 13 Condition min. 2.25 -2.75 GND Limits typ. 2.5 -2.5 max. 2.75 -2.25 VDD Unit V MITSUBISHI ELECTRIC (4 / 11 ) CONTROL SIGNALS SPECIFICATION Threshold of the internal (1) Wave form DATA(H/L) Dn+0 (CLOCK, H DATA, M STROBE) L Dn+1 Dn+8 t Dn+9 or Threshold of the internal STROBE. 1.25V 0V DATA:L DATA:H 2.5V t WH tr tf tr t WH tf t WL t WH tr 2.5V Threshold of the internal CLOCK. The internal DATA latch at the falling edges of this clock signal. (2) Voltage control signal Digital input signal L signal M signal H signal L M H Condition VDD=2.5V,VSS=-2.5V VDD=2.5V,VSS=-2.5V VDD=2.5V,VSS=-2.5V min. GND 1.0 2.1 Limits typ. 1.25 (VDD/2) max. 0.4 1.5 VDD Unit V (3) Timing control signal Symbol t cr t WH t WLC tr tf Parameter Cycle time of digital signal Pulse width of digital signal("H"level) Pulse width of digital signal("L"level) Rise time of digital signal Fall time of digital signal Limits min typ max Unit 4 1.6 1.6 0.4 0.4 usec (4) Control signal example(Refer to page 6 on the control data) An example of the mode control INPUT STEREO,VOLUME BASS TREBLE RECONT MUTE :INA :0dB :18dB :6dB :ON :OFF STROBE D'01 2.5V (MSB) D01 D11D21D31 D41D51D61D71D81D91 STROBED02 D12 D22D32 D42D52D62D72D82D92 0V MITSUBISHI ELECTRIC (LSB) (5 / 11 ) CONTROL DATA FORMAT *It's nessesary to set up the all control data affer power on. (1) INPUT DATA (MSB) D01 Slot1 INPUT 0:IN A 1:IN B 2:IN C 3:IN D Input order D11 D21 D31 D41 D51 D61 D71 MUTE ON/OFF D81 0:select 1:no select 2:no select 3:no select D91 CHIP/SLOT SELECT D2 to D6:(a)Master volume condition 0:OFF 1:ON (INPUT ALL OFF) D02 Slot2 D12 D22 D32 D42 D52 D62 D72 IN E ON/OFF D82 D92 Mode select 0:stereo 1:mono1 only 2:mono2 only 3:mono1+2 Bass(boost) 0:0dB, 1:3dB, 2:6dB, 3:9dB, 4:12dB, 5:15dB, 6:18dB, 7:21dB Treble(boost) 0:0dB,1:3dB 2:6dB,3:9dB CHIP/SLOT SELECT 0:OFF 1:ON 0:no select 1:no select 2:no select 3:select (a)Master volume ATT -0.0dB -2.0dB -4.0dB -6.0dB -8.0dB -10.0dB -12.0dB -14.0dB -16.0dB -18.0dB -20.0dB -22.0dB -24.0dB -26.0dB -28.0dB -30.0dB -32.0dB -34.0dB -36.0dB -40.0dB -44.0dB -48.0dB -52.0dB -56.0dB -60.0dB -64.0dB -68.0dB -72.0dB -76.0dB -80.0dB -84.0dB the infinitesimal (b) Input select D31 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 D21 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 D41 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 D51 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 D61 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Input select IN IN IN IN A B C D IN E off D01 0 1 0 1 A: 0 B: 1 C: 0 D: 1 D11 0 0 1 1 0 0 1 1 D71 D72 0 1 0 0 1 *1 *2 IN A to D all OFF * * IN A-D select IN E on 1 *1) The input impedance is about 5k as input INE. *2) INE can be controlled independently. It can be used as Rec output. (d)Mode control Mode stereo mono1 only mono2 only mono1+2 (e)Treble control D12 0 0 1 1 Treble D02 0 1 0 1 D52 D62 0 1 0 1 0 0 1 1 0dB 3dB 6dB 9dB (f)Bass control Bass D22 0 1 0 1 0 1 0 1 D32 D42 0 0 1 1 0 0 1 1 0 0 0 0 1 1 1 1 (2)Power-on condition Parameter Condition 0dB 3dB 6dB 9dB 12dB 15dB 18dB 21dB Input select ALL OFF Master volume the infinitesimal ON(Input ALLOFF) MUTE stereo Mode select 0dB Bass 0dB Treble ON IN E (c)Chip/Slot control Chip/Slot slot1 no select no select slot2 D81 0 1 0 1 D91 0 0 1 1 MITSUBISHI ELECTRIC ( 6 / 11 ) ELECTRICAL CHARACTERISTICS (VDD=2.5V,VSS=-2.5V,f=1kHz,RL=10K,Vi=20mV(rms),Ta=25 C,unless otherwise noted) Limits Symbol IDD ISS Gv1 Gv2 Vomax THD No1 No2 ATTmax GB1 GB2 GB3 GB4 GB5 GB6 GB7 GT1 GT2 GT3 Treble boost Bass boost Maximum attenuation Parameter Circuit current of positive power supply Circuit current of negative power supply Voltage gain (selector) Voltage gain (output,tone,bass boost) Maximum output voltage Total harmonic distortion Condition Quiescent Quiescent 1-5pin - 10pin gain RL=10k 24-20pin - 19pin gain 7pin - 10pin gain 18pin - 19pin gain RL=10k,THD=1% BW=400 ~ 30kHz JIS-A,Rg=5.1k RL=10k min. typ. 14 -14 max. 30 -30 16 20 Unit mA mA dB dB Vrms 12 16 1.2 14 18 1.6 0.02 72 15 -95 0.08 180 38 -90 4.5 7.5 10.5 13.5 16.5 19.5 22.5 4.5 7.5 10.5 % uVrms uVrms dB Output noise voltage JIS-A, 7pin 18pin Rg=0 Output referencelevel(Vo=1Vrms), ATT= the infinitesimal ,JIS-A 3dB 6dB 9dB 12dB 15dB 18dB 21dB 3dB 6dB 9dB f=1kHz, Vo=80mVrms 1.5 4.5 7.5 10.5 13.5 16.5 19.5 3 6 9 12 15 18 21 3 6 9 dB f=1kHz, Vo=80mVrms 1.5 4.5 7.5 MITSUBISHI ELECTRIC (7 / 11 ) TEST CIRCUIT 5.1k 5.1k 1 5.1k 1 2 5.1k INPUT SW 24 5.1k 24 23 5.1k 2 3 5.1k 23 Mono.SW 22 MUTE 5.1k 5k 5k 3 4 5.1k 22 21 5.1k 4 5 21 20 5 14dB 14dB 20 6 10u 6 7 0.47u 19 30k 19 10u Volume 30k 18 0.47u 8 0.015u 2.2K 0.015u Treble 17.2k boost 46k 2.48k 2.48k 17.2k Treble 17 16 0.015u 2.2K boost Bass boost Bass boost 46k 9 10 10K 10 + 10u 430 15 10K 0.015u 430 10u 15 14 11 12 VDD 1u 14 1u 12 Auto reset (Note) VSS Control logic 13 Signal generator 1 A 2 (Note)When power supply voltage(VDD-VSS) under 3.3V(typ),it's fixed in a state of (2) on the page 6/11. Units Resistance :ohm Capacitance: F MITSUBISHI ELECTRIC (8 / 11 ) FUNCTION DESCRIPTION (1) Equivalent circuit of the bass boost 1 IN Fo= 2 1 C1+C2 (Hz) R1(R2+R3)C1C2 C1C2R2 R1 R2+R3 R1 R3 R1 +2 (dB) R3 R2 Q=. . 9,16 10,15 (C1=C2) TONEL OUT C1 C2 R1 Gv=20log +2 R2,R3 (typical) Bass boost 3dB 6dB 9dB 12dB 15dB 18dB 21dB 46 0 Resistor (k) R2 15.4 25.7 32.9 38.7 41.6 44.2 R3 30.6 20.3 13.1 7.3 4.4 1.8 (2) Equivalent circuit of the treble boost IN OUT Fc=. . 1 2 . .R2 C1 (Hz) R1 Gv=20log R3 R2 1 Zc= j R1+ (R2+Zc)//R3 (R2+Zc)//R3 (ohm) (dB) C1 8,17 R2 (typical) Treble boost TONEH C1 3dB 5.3 6dB 2.2 9dB 1.2 R2 (k) MITSUBISHI ELECTRIC ( 9 / 11 ) APPLICATION EXAMPLE INA1 + 10u 1.5k 47k 1.5k 47k 1.5k 1 2 INPUT SW 24 23 1.5k INA2 47k 1.5k 47k 10u 10u INB1 + 10u INB2 Mono.SW 3 22 MUTE 4 5 5k 5k + INC1 10u 1.5k INC2 47k 10u 1.5k 47k 10u 47k 1.5k 47k IND1 REC OUT1 + 10u + 10u 47k 21 20 IND2 REC 47k OUT2 10u + 10u 1.5k 1.5k 14dB 47k 10u 14dB 47k 10u INE1 10u INE2 effect block 10u 6 7 0.033u 19 30k effect block 10u Volume 30k 18 0.033u 8 0.22u 2.2K Treble 17.2k boost 46k 2.48k 2.48k 17.2k Treble 17 16 0.22u 2.2K boost Bass boost Bass boost There's possibility to oscillate by a capacitance load. We recommended the resistorto protect oscillation. 9 46k OUT1 RL=10k MIN 10u + 0.22u 430 10 11 12 15 10u 0.22u 430 OUT2 10u RL=10k MIN 14 10p VSS=-2.5V VDD=2.5V + 10u Control logic 13 12K 10K 2.2K micro computor Triad-state output (Note)When power supply voltage(VDD-VSS) under 3.3V(typ),it's fixed in a state of (2) on the page 6/11. Units Resistance :ohm Capacitance: F MITSUBISHI ELECTRIC ( 10 / 11 ) OUTLINE MITSUBISHI ELECTRIC ( 11 / 11 ) |
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