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24
° Parameter Symbol Limits Unit Power supply voltage VCC 10.0 V Power dissipation Pd 1200 mW Operating temperature range Topr 12 to +85 °C Storage temperature range Tstg 55 to +125 °C Reduced by 12mW for each increase in Ta of 1°C over 25°C. A standard board, 70×70×1.6mm, shall be mounted. ° Parameter Power supply voltage VCC 8.0 9.5 V Symbol Min. Typ. Max. Unit

 · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

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Page 1:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

°

Parameter Symbol Limits Unit

Power supply voltage VCC 10.0 V

Power dissipation Pd 1200∗ mW

Operating temperature range Topr −12 to +85 °C

Storage temperature range Tstg −55 to +125 °C

∗ Reduced by 12mW for each increase in Ta of 1°C over 25°C. A standard board, 70×70×1.6mm, shall be mounted.

°

Parameter

Power supply voltage VCC 8.0 9.5− V

Symbol Min. Typ. Max. Unit

Page 2:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

32 27 2930 5428+−

+ −

31 35 34 33

+ −

VCC

VCC

21 + +

+

26252423

58576059

15121187436463

161413109652139

383736

40

524846444241434547

5553

62

FILT

ER

19

18

17

22

49

50

21

20

VCA

HPF

HPF

ALC

DIG

TAL

CO

NTR

OL

+ +

EFFECT

P S

61

51

56

P S

+

+

+

+ −

+ −

+

+ −

MODE SELECTOR

DET

DET

DET

DET

DET

105H

z

340H

z

1kH

z

3.4k

Hz

10.5

kHz

+ −

MPX

−30d

B~−∞

−9dB

−9dB

0~30

dB

10k

19dB

11dB

22k

11dB

10k

5 BA

ND

EQ

L−R

L+R

5 BA

ND

EQ

+

+

+ +

+

+

+

+

+

+

BPNF

ABC

BPOUTF1R1F1R2F2R1F2R2F3R1F3R2F4R1F4R2F5R

F1L1

DPLL2DPLL1DPLR2DPLR1

PS2

PS1

RECL

MIC

VFC2VFC1

INLD

INLC

INLB

INLA

INR

A

INR

B

INR

C

INR

D

REC

R

F1L2F2L1F2L2F3L1F3L2F4L1F4L2F5L

HPFR1

HPFR2

HPFR3

ALCR

ALCCBASS4BASS3BASS2BASS1

HPFL3

HPFL2

HPFL1

STEP

C

SISCK

OU

TR

CAP

BASS

5

OU

TL

GN

D

FILT

ER

V CC

FunctionPin No.

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

Rch GREQ f1 filter setting pin

Rch GREQ f1 filter setting pin

Lch GREQ f2 filter setting pin

Lch GREQ f2 filter setting pin

Rch GREQ f2 filter setting pin

Rch GREQ f2 filter setting pin

Lch GREQ f3 filter setting pin

Lch GREQ f3 filter setting pin

Rch GREQ f3 filter setting pin

Rch GREQ f3 filter setting pin

Lch GREQ f4 filter setting pin

Lch GREQ f4 filter setting pin

Rch GREQ f4 filter setting pin

Rch GREQ f4 filter setting pin

Lch GREQ f5 filter setting pin

Rch GREQ f5 filter setting pin

Lch High-pass filter setting pin

Rch High-pass filter setting pin

Lch High-pass filter setting pin

Lch High-pass filter setting pin

Rch High-pass filter setting pin

Rch High-pass filter setting pin

Dynamic bass filter setting pin

Dynamic bass filter setting pin

Dynamic bass filter setting pin

Dynamic bass filter setting pin

Biamp output pin

VCC/2 Pin

Rch Sound signal output pin

Lch Sound signal output pin

ALC trap frequency setting pin

Power supply pin

Pin name

F1R1

F1R2

F2L1

F2R1

F2L2

F2R2

F3L2

F3R1

F3R2

F4L1

F4L2

F4R1

F4R2

F5L

F5R

HPFL1

HPFL2

HPFL3

HPFR1

HPFR2

HPFR3

BASS1

BASS2

BASS3

BASS4

BASS5

FILTER

CAP

VCC

OUTR

OUTL

F3L1

FunctionPin No.

33

34

35

36

37

38

39

40

41

42

43

44

45

46

47

48

49

50

51

52

53

54

55

56

57

58

59

60

61

62

63

64

Time constant attachment for switching shock protection

Serial data latch receiving pin

Serial clock receiving pin

Parallel data receiving pin

Parallel data receiving pin

Output pin for spectrum analyzer

Lch Sound signal input pin A

Rch Sound signal input pin A

Lch Sound signal input pin B

Rch Sound signal input pin B

Lch Sound signal input pin C

Rch Sound signal input pin C

Lch RECOUT output pin

Rch RECOUT output pin

Rch Sound signal input pin D

Time constant of ALC setting pin

ALC level setting pin

Spectrum analyzer level setting pin

Parallel data receiving pin

Lch Sound signal input pin D

Vocal fade filter setting pin

Ground pin

Vocal fade filter setting pin

Input pin for microphone

Lch Output pin for DPL

Lch Input pin for DPL

Lch GREQ f1 Filter Setting Pin

Lch GREQ f1 Filter Setting Pin

Rch Input pin for DPL

Surround setting pin

Surround setting pin

Rch Output pin for DPL

Pin name

STEPC

SI

SCK

B

A

C

BPNF

INLA

INRA

INLB

INRB

INLC

INRC

INLD

INRD

ALCC

ALCR

RECL

RECR

VFC1

GND

VFC2

MIC

DPLL1

DPLL2

DPLR1

DPLR2

PS1

PS2

F1L1

F1L2

BPOUT

Page 3:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

32 27 2930 5428

+−

+ −

31 35 34 33

+ −

VCC

VCC

21 + +

+

26252423

58576059

15121187436463

161413109652139

383736

40

524846444241434547

5553

62

FILT

ER

19

18

17

22

49

50

21

20

VCA

HPF

HPF

ALC

DIG

TAL

CO

NTR

OL

+ +

EFFECT

P S

61

51

56

P S

+

+

+

+ −

+ −

+

+ −

MODE SELECTOR

DET

DET

DET

DET

DET

105H

z

340H

z

1kH

z

3.4k

Hz

10.5

kHz

+ −

MPX

−30d

B~−∞

−9dB

−9dB

0~30

dB

10k

19dB

11dB

22k

11dB

10k

5 BA

ND

EQ

L−R

L+R

5 BA

ND

EQ

+

+

+ +

+

+

+

+

+

+

BPNF

ABC

BPOUTF1R1F1R2F2R1F2R2F3R1F3R2F4R1F4R2F5R

F1L1

DPLL2DPLL1DPLR2DPLR1

PS2

PS1

RECL

MIC

VFC2VFC1

INLD

INLC

INLB

INLA

INR

A

INR

B

INR

C

INR

D

REC

R

F1L2F2L1F2L2F3L1F3L2F4L1F4L2F5L

HPFR1

HPFR2

HPFR3

ALCR

ALCCBASS4BASS3BASS2BASS1

HPFL3

HPFL2

HPFL1

STEP

C

SISCK

OU

TR

CAP

BASS

5

OU

TL

GN

D

FILT

ER

V CC

FunctionPin No.

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

Rch GREQ f1 filter setting pin

Rch GREQ f1 filter setting pin

Lch GREQ f2 filter setting pin

Lch GREQ f2 filter setting pin

Rch GREQ f2 filter setting pin

Rch GREQ f2 filter setting pin

Lch GREQ f3 filter setting pin

Lch GREQ f3 filter setting pin

Rch GREQ f3 filter setting pin

Rch GREQ f3 filter setting pin

Lch GREQ f4 filter setting pin

Lch GREQ f4 filter setting pin

Rch GREQ f4 filter setting pin

Rch GREQ f4 filter setting pin

Lch GREQ f5 filter setting pin

Rch GREQ f5 filter setting pin

Lch High-pass filter setting pin

Rch High-pass filter setting pin

Lch High-pass filter setting pin

Lch High-pass filter setting pin

Rch High-pass filter setting pin

Rch High-pass filter setting pin

Dynamic bass filter setting pin

Dynamic bass filter setting pin

Dynamic bass filter setting pin

Dynamic bass filter setting pin

Biamp output pin

VCC/2 Pin

Rch Sound signal output pin

Lch Sound signal output pin

ALC trap frequency setting pin

Power supply pin

Pin name

F1R1

F1R2

F2L1

F2R1

F2L2

F2R2

F3L2

F3R1

F3R2

F4L1

F4L2

F4R1

F4R2

F5L

F5R

HPFL1

HPFL2

HPFL3

HPFR1

HPFR2

HPFR3

BASS1

BASS2

BASS3

BASS4

BASS5

FILTER

CAP

VCC

OUTR

OUTL

F3L1

FunctionPin No.

33

34

35

36

37

38

39

40

41

42

43

44

45

46

47

48

49

50

51

52

53

54

55

56

57

58

59

60

61

62

63

64

Time constant attachment for switching shock protection

Serial data latch receiving pin

Serial clock receiving pin

Parallel data receiving pin

Parallel data receiving pin

Output pin for spectrum analyzer

Lch Sound signal input pin A

Rch Sound signal input pin A

Lch Sound signal input pin B

Rch Sound signal input pin B

Lch Sound signal input pin C

Rch Sound signal input pin C

Lch RECOUT output pin

Rch RECOUT output pin

Rch Sound signal input pin D

Time constant of ALC setting pin

ALC level setting pin

Spectrum analyzer level setting pin

Parallel data receiving pin

Lch Sound signal input pin D

Vocal fade filter setting pin

Ground pin

Vocal fade filter setting pin

Input pin for microphone

Lch Output pin for DPL

Lch Input pin for DPL

Lch GREQ f1 Filter Setting Pin

Lch GREQ f1 Filter Setting Pin

Rch Input pin for DPL

Surround setting pin

Surround setting pin

Rch Output pin for DPL

Pin name

STEPC

SI

SCK

B

A

C

BPNF

INLA

INRA

INLB

INRB

INLC

INRC

INLD

INRD

ALCC

ALCR

RECL

RECR

VFC1

GND

VFC2

MIC

DPLL1

DPLL2

DPLR1

DPLR2

PS1

PS2

F1L1

F1L2

BPOUT

Page 4:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

Pin descriptionEquivalent circuit

414243444546

INLAINRAINLBINRBINLCINRC

A pin for inputting a sound signal. It is suitable for input of CD, MD, tuner and tape.The input impedance is 50kΩ(upon typical setting).

A ground pin

A pin for setting vocal fade frequency characteristic.

A pin for inputting a sound signal. The input impedance is 20kΩ(upon typical setting).It is possible to set 0dB or −9dB.

A pin for outputting a sound signal for recording.

54 GND

55 VFC2

47

48

INLD

INRD

Pin No. Pin name Pin voltage

VCC/2

− −

VCC/2

VCC/2

51

52

RECL

RECR

VCC/2

VCC

GND

50k

A pin for setting vocal fade frequency characteristic.53 VFC1 VCC/2

VCC

GND

35k

35k17.5k

VCC

GND

35k

35k17.5k

VCC

GND

VCC

GND

12.9k

7.1k

Pin descriptionEquivalent circuit

63

1

7

9

F1L1

F1R1

F3L1

F3R1

A pin for setting graphic equalizer frequency characteristic.

A pin for setting graphic equalizer frequency characteristic.

A pin for setting graphic equalizer frequency characteristic.

A pin for inputting a microphone signal.The input impedance is 10kΩ(upon typical setting).

A pin for setting graphic equalizer frequency characteristic.

A pin for setting graphic equalizer frequency characteristic.

64

2

8

10

F1L2

F1R2

F3L2

F3R2

15

16

F5L

F5R

56 MIC

Pin No. Pin name Pin voltage

VCC/2

VCC/2

VCC/2

VCC/2

3

5

11

13

F2L1

F2R1

F4L1

F4R1

VCC/2

4

6

12

14

F2L2

F2R2

F4L2

F4R2

VCC/2

VCC

GND

10k16k

4k 4k

VCC

GND

10k12k

3k 4k

VCC

GND

16k

VCC

GND

12k

VCC

GND

17k

17k

VCC

GND

10k

Page 5:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

Pin descriptionEquivalent circuit

414243444546

INLAINRAINLBINRBINLCINRC

A pin for inputting a sound signal. It is suitable for input of CD, MD, tuner and tape.The input impedance is 50kΩ(upon typical setting).

A ground pin

A pin for setting vocal fade frequency characteristic.

A pin for inputting a sound signal. The input impedance is 20kΩ(upon typical setting).It is possible to set 0dB or −9dB.

A pin for outputting a sound signal for recording.

54 GND

55 VFC2

47

48

INLD

INRD

Pin No. Pin name Pin voltage

VCC/2

− −

VCC/2

VCC/2

51

52

RECL

RECR

VCC/2

VCC

GND

50k

A pin for setting vocal fade frequency characteristic.53 VFC1 VCC/2

VCC

GND

35k

35k17.5k

VCC

GND

35k

35k17.5k

VCC

GND

VCC

GND

12.9k

7.1k

Pin descriptionEquivalent circuit

63

1

7

9

F1L1

F1R1

F3L1

F3R1

A pin for setting graphic equalizer frequency characteristic.

A pin for setting graphic equalizer frequency characteristic.

A pin for setting graphic equalizer frequency characteristic.

A pin for inputting a microphone signal.The input impedance is 10kΩ(upon typical setting).

A pin for setting graphic equalizer frequency characteristic.

A pin for setting graphic equalizer frequency characteristic.

64

2

8

10

F1L2

F1R2

F3L2

F3R2

15

16

F5L

F5R

56 MIC

Pin No. Pin name Pin voltage

VCC/2

VCC/2

VCC/2

VCC/2

3

5

11

13

F2L1

F2R1

F4L1

F4R1

VCC/2

4

6

12

14

F2L2

F2R2

F4L2

F4R2

VCC/2

VCC

GND

10k16k

4k 4k

VCC

GND

10k12k

3k 4k

VCC

GND

16k

VCC

GND

12k

VCC

GND

17k

17k

VCC

GND

10k

Page 6:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

Pin descriptionEquivalent circuit

57

59

DPLL1

DPLR1

A pin for outputting DPL.

Power supply pin.

A pin for setting surround phase shifter.

A pin for setting cut-off frequency of HPF.

A pin for setting cut-off frequency of HPF.

30 VCC

61

62

PS1

PS2

17

20

HPFL1

HPFR1

Pin No. Pin name Pin voltage

VCC/2

− −

VCC/2

VCC/2

18

21

HPFL2

HPFR2

VCC/2

A pin for inputting DPL.

58

60

DPLL2

DPLR2

VCC/2

VCC

GND

20k

VCC

GND

VCC

GND

7k

VCC

GND

VCC

GND

15.4k

15.4k

15.4k

Pin descriptionEquivalent circuit

19

22

HPFL3

HPFR3

A pin for setting cut-off frequencyof HPF.

A pin for setting Dynamic bass (Biamp) frequency characteristic.

A pin for setting Dynamic bass (Biamp) frequency characteristic.

A pin for outputting Biamp.

23

25

BASS1

BASS3

24

26

BASS2

BASS4

Pin No. Pin name Pin voltage

VCC/2

VCC/2

VCC/2

27 BASS5 VCC/2

A pin for setting threshold to set the ALC.50 ALCR −

VCC

GND

VCC

GND

VCC

GND

VCC

GND

VCC

GND

20k 20k42k

48k

Page 7:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

Pin descriptionEquivalent circuit

57

59

DPLL1

DPLR1

A pin for outputting DPL.

Power supply pin.

A pin for setting surround phase shifter.

A pin for setting cut-off frequency of HPF.

A pin for setting cut-off frequency of HPF.

30 VCC

61

62

PS1

PS2

17

20

HPFL1

HPFR1

Pin No. Pin name Pin voltage

VCC/2

− −

VCC/2

VCC/2

18

21

HPFL2

HPFR2

VCC/2

A pin for inputting DPL.

58

60

DPLL2

DPLR2

VCC/2

VCC

GND

20k

VCC

GND

VCC

GND

7k

VCC

GND

VCC

GND

15.4k

15.4k

15.4k

Pin descriptionEquivalent circuit

19

22

HPFL3

HPFR3

A pin for setting cut-off frequencyof HPF.

A pin for setting Dynamic bass (Biamp) frequency characteristic.

A pin for setting Dynamic bass (Biamp) frequency characteristic.

A pin for outputting Biamp.

23

25

BASS1

BASS3

24

26

BASS2

BASS4

Pin No. Pin name Pin voltage

VCC/2

VCC/2

VCC/2

27 BASS5 VCC/2

A pin for setting threshold to set the ALC.50 ALCR −

VCC

GND

VCC

GND

VCC

GND

VCC

GND

VCC

GND

20k 20k42k

48k

Page 8:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

Pin descriptionEquivalent circuit

28 FILTER A pin for inputting VCC/2 from outside of IC.

A pin for specifying trap frequencyof ALC.

A pin for setting attack time and release time of ALC.

A pin for inputting a signal clock.

29 CAP

49 ALCC

Pin No. Pin name Pin voltage

VCC/2

VCC/2

0

35 SCK −

A pin for outputting a sound signal.

32

31

OUTL

OUTR

VCC/2

A ground pin.54 GND − −

VCC

GND

VCC

GND

VCC

GND

15k 30k

VCC

GND

1k

VCC

GND

Vref

Pin descriptionEquivalent circuit

34 SI A pin for inputting a serial data.

A pin for inputting a parallel data.

A pin for outputting a spectrum analyzer B.P.F..

A pin for adjusting gain of non-inverting amplifier in spectrum analyzer.

36

37

38

A

B

C

39 BPOUT

Pin No. Pin name Pin voltage

40 BPNF VCC/2

Time constant attachment for switching shock protection.33 STEPC −

VCC

GND

Vref

VCC

GND

Vref

VCC

GND

VCC

GND

22k

VCC

GND

30k

Page 9:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

Pin descriptionEquivalent circuit

28 FILTER A pin for inputting VCC/2 from outside of IC.

A pin for specifying trap frequencyof ALC.

A pin for setting attack time and release time of ALC.

A pin for inputting a signal clock.

29 CAP

49 ALCC

Pin No. Pin name Pin voltage

VCC/2

VCC/2

0

35 SCK −

A pin for outputting a sound signal.

32

31

OUTL

OUTR

VCC/2

A ground pin.54 GND − −

VCC

GND

VCC

GND

VCC

GND

15k 30k

VCC

GND

1k

VCC

GND

Vref

Pin descriptionEquivalent circuit

34 SI A pin for inputting a serial data.

A pin for inputting a parallel data.

A pin for outputting a spectrum analyzer B.P.F..

A pin for adjusting gain of non-inverting amplifier in spectrum analyzer.

36

37

38

A

B

C

39 BPOUT

Pin No. Pin name Pin voltage

40 BPNF VCC/2

Time constant attachment for switching shock protection.33 STEPC −

VCC

GND

Vref

VCC

GND

Vref

VCC

GND

VCC

GND

22k

VCC

GND

30k

Page 10:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

° Ω Ω

Circuit current No signal, after power on.

Maximum output voltage THD=1%

Lch reference

Rg=0Ω, Volume=−∞,Biamp=0dB, DIN AUDIOBiamp=0dB, Rg=0Ω,DIN AUDIO

Total harmonic distortion rate

VIN=150mVrms,400Hz−30kHz BPF

DIN AUDIO

DIN AUDIO

DIN AUDIO

Output noise voltage Biamp=0dB, DIN AUDIO

Voltage gain

Maximum input voltage THD=1%

Residual output noise voltage

Vocal fade suppressionquantity

Graphic equalizer boost gain set error (Set 2dB,4dB,6dB)

VIN=100mVrmsfIN=100Hz, 300Hz, 1kHz, 3kHz, or 10kHz

VIN=100mVrmsfIN=100Hz, 300Hz, 1kHz, 3kHz, or 10kHz

VIN=100mVrmsfIN=100Hz, 300Hz, 1kHz, 3kHz, or 10kHz

VIN=100mVrmsfIN=100Hz, 300Hz, 1kHz, 3kHz, or 10kHz

Graphic equalizer cut gain set error (Set−8dB,−10dB,−12dB)

Graphic equalizer cut gain set error (Set −2dB,−4dB,−6dB)

Graphic equalizer boost gain set error (Set 8dB,10dB,12dB)

Dynamic bass boost channel balance

Dynamic bass boost gain

Graphic equalizer channel balance Lch reference

VIN=40mVrms, fIN=75Hz49pin=GND

Lch reference

Input mute attenuation

Input separation

Parameter Conditions

1 1 1 2 1

105 03 04 0C 02 0A 06 81 07

05 03 04 0C 02 0A 06 81 07

05 03 04 0C 02 0A 06 81 07

05 03 04 0C 02 0A 06 81 07

1 1 2 1

1 1 1 2 1

1 1 1 2 1

1 1 1 2 1

1 1 1 2 1

1 1 1 2 1

112233

1 2 2 1

44 1 2 2 1

15 03 04 0C 02 0A 06 89 07 1 2 − 2 1

15 03 04 0C 02 0A 06 89 07 1 2 − 2 1

15 03 04 0C 02 0A 06 81 07

05 03 04 0C 02 0A 06 81 07

25 03 04 0C 02 0A 06 81 07

1 1 1 2 105 03 04 0C 02 0A 06 01 07

1 1 1 2 2E5 03 04 0C 02 0A 06 81 07

1 1 1 2 105 03

7404040404

0C7C0C0C0C

0202720202

0A0A0A7A0A

0606060676

81 07

1 1 1 2 105 03

E404040404

0CEC0C0C0C

0202E20202

0A0A0AEA0A

06060606E6

81 07

1/1 1/2 1/− 2 1

− − − − − − − − −

− − − − − − − − −

− − − − − − − − −

− − − − − − − − − − − − − −

− − − − − − − − − − − − − −

1 1 1 2 105 03 04 0C 02 0A 0641C161

07

− − − − − − − − − − − − − −

Data setting Switch control tableSW1/4

SW2/5

SW3/6

SW7

SW8[2] [3] [4] [4] [5] [5] [6] [7] [8]

Maximum attenuation

Cross talk

Microphone mute attenuation

VIN=100mVrmsDIN AUDIO

VIN=100mVrmsfIN=10kHz

RECOUT mute attenuation DIN AUDIO

Selector D attenuation

RECOUT voltage gain

Microphone voltage gain VIN=100mVrms

Surround maximum voltage gain

105 03 04 0C 02 0A 06 81 07

15 03 04 0C 02 0A 06 81 07

05 03 04 0C 02 0A 06 81 07

0D 03 04 0C 02 0A 06 81 07

2 − 1 1

1 2 − 1 1

1 1 1 2 1

1 1 1 2 1

05 03 04 0C 02 0A 06 E1 07 4 1 1 2 1

00

00

00

00

00

00

00

F8

00

00

00

00

00

00

[1]

00

00

00

00

00

00 05 1B 04 0C 02 0A 06 81 07 1 1 1 2 1

30

414243444546

3231

3231

3231

3231

3231

3231

3231

3231

3231

3231

3231

3231

3132

5152

4748

Measure-mentpin

3231

3231

5152

5152

3231

3231

Inputpin

414243444546

4142

4142

4142

4142

4142

4142

4142

4142

4142

4142

4142

4142

41,4241,42

41,4241,42

4748

56

56

4142

4142

4950

4142

Channel balance

Selector A-C Input impedance

Symbol

IQ

VOM

THD

VNO

GV

VIM

VMNO

GVF

VGQBL

VGQCL

VGQCL

VGQBH

VBCB

VBB

GQCB

VINMU

CTIN

ATTMAX

CT

VMICMU

VRECMU

D2ATT

GREC

GMIC

VSUMAX

CB

RIN

RIND

2.0

9

0.4

25

−2

−3

−2

−3

−1.5

15

−1.5

80

80

Min.

86

70

80

80

−7

9

17

7

−1.5

35

10

40

2.5

0.01

35

11

0.7

5

30

0

0

0

0

0

18

0

90

90

Typ.

95

80

90

90

−9

11

19

9

0

50

20

60

0.05

50

13

20

2

3

2

3

1.5

21

1.5

Max.

−11

13

21

11

1.5

65

30

mA

Vrms

%

µVrms

dB

Vrms

µVrms

dB

dB

dB

dB

dB

dB

dB

dB

dB

dB

Unit

dB

dB

dB

dB

dB

dB

dB

dB

dB

kΩSelector D Input impedance

∗ VP-9690A (Average value detection, effective value display) DIN AUDIO filter by Matsushita Communication is used for ∗ measurement.Design against radiation-proof is not made.

Simulated stereo maximum voltage gain Lch

VIN=100mVrmsfIN=680Hz

VIN=100mVrmsfIN=680Hz

VIN=−19dBV

VIN=0VrmsSpectrum analyzer output offset voltage

Spectrum analyzer maximum output level

Simulated stereo maximum voltage gain Rch

Ripple rejection

Spectrum analyzer standard output level

VIN=−37dBVfIN=105Hz, 340Hz, 1kHz, 3.4kHz, or 10.5kHz

VRR=100mVrmsfRR=100Hz, DIN AUDIO

Parameter ConditionsData setting Switch control table

SW1/4

SW2/5

SW3/6

SW7

SW8[2] [3] [4] [4] [5] [5] [6] [7] [8][1]

Measure-mentpin

Inputpin

04 0C 02 0A 0605 03 81

47C727A767

− − − − −0039−

1 2 − 215 03 04 0C 02 0A 06 81 07 100323130

1 1 1 2 105 1B 04 0C 02 0A 06 91 07003231

41,4241,42

04 0C 02 0A 06 1 1 1 2 105 03 81

47C727A767

003941,4241,42

04 0C 02 0A 06 1 1 1 2 105 03 81

47C727A767

003941,4241,42

Symbol

VMONL

VOS

VMAX

VMONR

RR

VST

6.5

0

4.0

11.3

31

0.65

Min.

8.5

30

4.8

13.3

1.35

Typ.

10.5

200

15.3

1.7

Max.

dB

mV

V

dB

dB

V

Unit

∗ VP-9690A (Average value detection, effective value display) DIN AUDIO filter by Matsushita Communication is used for ∗ measurement.Design against radiation-proof is not made.

Page 11:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

° Ω Ω

Circuit current No signal, after power on.

Maximum output voltage THD=1%

Lch reference

Rg=0Ω, Volume=−∞,Biamp=0dB, DIN AUDIOBiamp=0dB, Rg=0Ω,DIN AUDIO

Total harmonic distortion rate

VIN=150mVrms,400Hz−30kHz BPF

DIN AUDIO

DIN AUDIO

DIN AUDIO

Output noise voltage Biamp=0dB, DIN AUDIO

Voltage gain

Maximum input voltage THD=1%

Residual output noise voltage

Vocal fade suppressionquantity

Graphic equalizer boost gain set error (Set 2dB,4dB,6dB)

VIN=100mVrmsfIN=100Hz, 300Hz, 1kHz, 3kHz, or 10kHz

VIN=100mVrmsfIN=100Hz, 300Hz, 1kHz, 3kHz, or 10kHz

VIN=100mVrmsfIN=100Hz, 300Hz, 1kHz, 3kHz, or 10kHz

VIN=100mVrmsfIN=100Hz, 300Hz, 1kHz, 3kHz, or 10kHz

Graphic equalizer cut gain set error (Set−8dB,−10dB,−12dB)

Graphic equalizer cut gain set error (Set −2dB,−4dB,−6dB)

Graphic equalizer boost gain set error (Set 8dB,10dB,12dB)

Dynamic bass boost channel balance

Dynamic bass boost gain

Graphic equalizer channel balance Lch reference

VIN=40mVrms, fIN=75Hz49pin=GND

Lch reference

Input mute attenuation

Input separation

Parameter Conditions

1 1 1 2 1

105 03 04 0C 02 0A 06 81 07

05 03 04 0C 02 0A 06 81 07

05 03 04 0C 02 0A 06 81 07

05 03 04 0C 02 0A 06 81 07

1 1 2 1

1 1 1 2 1

1 1 1 2 1

1 1 1 2 1

1 1 1 2 1

1 1 1 2 1

112233

1 2 2 1

44 1 2 2 1

15 03 04 0C 02 0A 06 89 07 1 2 − 2 1

15 03 04 0C 02 0A 06 89 07 1 2 − 2 1

15 03 04 0C 02 0A 06 81 07

05 03 04 0C 02 0A 06 81 07

25 03 04 0C 02 0A 06 81 07

1 1 1 2 105 03 04 0C 02 0A 06 01 07

1 1 1 2 2E5 03 04 0C 02 0A 06 81 07

1 1 1 2 105 03

7404040404

0C7C0C0C0C

0202720202

0A0A0A7A0A

0606060676

81 07

1 1 1 2 105 03

E404040404

0CEC0C0C0C

0202E20202

0A0A0AEA0A

06060606E6

81 07

1/1 1/2 1/− 2 1

− − − − − − − − −

− − − − − − − − −

− − − − − − − − −

− − − − − − − − − − − − − −

− − − − − − − − − − − − − −

1 1 1 2 105 03 04 0C 02 0A 0641C161

07

− − − − − − − − − − − − − −

Data setting Switch control tableSW1/4

SW2/5

SW3/6

SW7

SW8[2] [3] [4] [4] [5] [5] [6] [7] [8]

Maximum attenuation

Cross talk

Microphone mute attenuation

VIN=100mVrmsDIN AUDIO

VIN=100mVrmsfIN=10kHz

RECOUT mute attenuation DIN AUDIO

Selector D attenuation

RECOUT voltage gain

Microphone voltage gain VIN=100mVrms

Surround maximum voltage gain

105 03 04 0C 02 0A 06 81 07

15 03 04 0C 02 0A 06 81 07

05 03 04 0C 02 0A 06 81 07

0D 03 04 0C 02 0A 06 81 07

2 − 1 1

1 2 − 1 1

1 1 1 2 1

1 1 1 2 1

05 03 04 0C 02 0A 06 E1 07 4 1 1 2 1

00

00

00

00

00

00

00

F8

00

00

00

00

00

00

[1]

00

00

00

00

00

00 05 1B 04 0C 02 0A 06 81 07 1 1 1 2 1

30

414243444546

3231

3231

3231

3231

3231

3231

3231

3231

3231

3231

3231

3231

3132

5152

4748

Measure-mentpin

3231

3231

5152

5152

3231

3231

Inputpin

414243444546

4142

4142

4142

4142

4142

4142

4142

4142

4142

4142

4142

4142

41,4241,42

41,4241,42

4748

56

56

4142

4142

4950

4142

Channel balance

Selector A-C Input impedance

Symbol

IQ

VOM

THD

VNO

GV

VIM

VMNO

GVF

VGQBL

VGQCL

VGQCL

VGQBH

VBCB

VBB

GQCB

VINMU

CTIN

ATTMAX

CT

VMICMU

VRECMU

D2ATT

GREC

GMIC

VSUMAX

CB

RIN

RIND

2.0

9

0.4

25

−2

−3

−2

−3

−1.5

15

−1.5

80

80

Min.

86

70

80

80

−7

9

17

7

−1.5

35

10

40

2.5

0.01

35

11

0.7

5

30

0

0

0

0

0

18

0

90

90

Typ.

95

80

90

90

−9

11

19

9

0

50

20

60

0.05

50

13

20

2

3

2

3

1.5

21

1.5

Max.

−11

13

21

11

1.5

65

30

mA

Vrms

%

µVrms

dB

Vrms

µVrms

dB

dB

dB

dB

dB

dB

dB

dB

dB

dB

Unit

dB

dB

dB

dB

dB

dB

dB

dB

dB

kΩSelector D Input impedance

∗ VP-9690A (Average value detection, effective value display) DIN AUDIO filter by Matsushita Communication is used for ∗ measurement.Design against radiation-proof is not made.

Simulated stereo maximum voltage gain Lch

VIN=100mVrmsfIN=680Hz

VIN=100mVrmsfIN=680Hz

VIN=−19dBV

VIN=0VrmsSpectrum analyzer output offset voltage

Spectrum analyzer maximum output level

Simulated stereo maximum voltage gain Rch

Ripple rejection

Spectrum analyzer standard output level

VIN=−37dBVfIN=105Hz, 340Hz, 1kHz, 3.4kHz, or 10.5kHz

VRR=100mVrmsfRR=100Hz, DIN AUDIO

Parameter ConditionsData setting Switch control table

SW1/4

SW2/5

SW3/6

SW7

SW8[2] [3] [4] [4] [5] [5] [6] [7] [8][1]

Measure-mentpin

Inputpin

04 0C 02 0A 0605 03 81

47C727A767

− − − − −0039−

1 2 − 215 03 04 0C 02 0A 06 81 07 100323130

1 1 1 2 105 1B 04 0C 02 0A 06 91 07003231

41,4241,42

04 0C 02 0A 06 1 1 1 2 105 03 81

47C727A767

003941,4241,42

04 0C 02 0A 06 1 1 1 2 105 03 81

47C727A767

003941,4241,42

Symbol

VMONL

VOS

VMAX

VMONR

RR

VST

6.5

0

4.0

11.3

31

0.65

Min.

8.5

30

4.8

13.3

1.35

Typ.

10.5

200

15.3

1.7

Max.

dB

mV

V

dB

dB

V

Unit

∗ VP-9690A (Average value detection, effective value display) DIN AUDIO filter by Matsushita Communication is used for ∗ measurement.Design against radiation-proof is not made.

Page 12:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

10µ

VCC

10µ

4.7µ 4.7µ 2.2µ 2.2µ 2.2µ 2.2µ 2.2µ 2.2µ 0.22µ

10µ

10µ

10µ

10µ

10µ

10µ

10µ

10µ 10k

0.1µ

∗0.047µ

∗0.22µ

∗0.22µ

∗0.22µ∗0.22µ

∗0.022µ∗0.022µ

∗0.022µ∗0.022µ

∗0.01µ∗0.01µ

∗0.01µ∗0.01µ

0.0022µ∗0.0022µ

∗0.1µ∗0.1µ

∗0.1µ∗0.1µ

∗4700p

∗0.047µ

100k

∗150k

SW8

∗0.1µ

∗3.3k ∗68k

∗22k

∗47k

∗47k

∗15k

∗15k

220µ

∗0.22µ

10µ

∗0.068µ

∗0.068µ

∗0.068µ

∗0.1µ

∗0.22µ

∗0.1µ

10k

10k

CLO

CK

LATC

HD

ATA

∗9.1k10k

15k10µ

51kSW3

SW2

SW1

1

1

1234

2

2

∗47k

∗47k

∗15k

∗0.068µ

∗0.068µ

∗0.068µ

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32OUTL

OUTR

VCC

CAP

FILTER

BASS5

BASS4

BASS3

BASS2

BASS1

HPFR3

HPFR2

HPFR1

HPFL3

HPFL2

HPFL1

ALCC

ALCR

RECL

RECR

BH3874AKS2(SQFPT64)

VFC1

GND

VFC2

MIC

DPLL1

DPLL2

DPLR1

DPLR2

PS1

PS2

F1L1

F1L2

F1R1

F1R2

F2L1

F2L2

F2R1

F2R2

F3L1

F3L2

F3R1

F3R2

F4L1

F4L2

F4R1

F4R2

F5L

F5R

INRD INLD

INRC INLC

INRB INLB

INRA INLA

BPNF

BPOU

T C B A

SCK SI

STEP

C

64

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

63

62

61

60

59

58

57

56

55

54

53

52

51

50

49

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33

62k

51kSW6

SW5

SW4

1

1

1234

2

2

1

12

2 SW7

THD

10k

THD

DPL

Fig.1

Recommendable External Parts

1. Element marked with ∗· Carbon-film resistor : ±1%· Film capacitor : ±1%· Ceramic capacitor : ±1%

· Film capacitor : ±20%· Electrolytic capacitor : ±20%

2. Unless specified particularly, use the following external parts:· Carbon-film resistor : ±5%

Notes on wiring1. GND shall be wired solidly.

2. Wiring pattern of SI and SCK shall be away from that of analog unit and cross talk shall not be acceptable.

3. Lines of SI and SCK shall not be parallel if possible. The lines shall be shielded, if they are adjacent to each other.

90%

90%

90%

10% 10%

10%

tw

tsu th ts tw(LATCH)

tw(DATA)

tw

SCK(CLOCK signal)

35pin

34pin

SIDATA signal

LATCH signal

Fig.2

°Parameter

Hold time (CLOCK→CLOCK)

"High" Input voltage

"Low" Input voltage

Clock width

"Middle" Input voltage

Setup time (DATA, CLOCK→LATCH)

∗ Serial signal SI is judging DATA and LATCH in the difference of the voltage level.∗ In the application schematic, it is changing 0-5V 3 line serial data into the 2 line serial data at the voltage with the resistance and the diode of the external. We request enough examination, because there is a case where the voltage which is changed by the ability for the microcomputer to drive and the external parts.

Data width

Latch width

Setup time (DATA→CLOCK)

Symbol

VIH

VIM

VIL

tw

tw (DATA)

tw (LATCH)

tsu

th

ts

3.3

1.8

−0.3

2.0

4.0

2.0

1.0

1.0

1.0

2.0

0

2.4

1.2

5.0 6.0

− −

V

V

µs

V

µs

µs

µs

µs

µs

Min. Typ. Max. Unit

Page 13:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

10µ

VCC

10µ

4.7µ 4.7µ 2.2µ 2.2µ 2.2µ 2.2µ 2.2µ 2.2µ 0.22µ

10µ

10µ

10µ

10µ

10µ

10µ

10µ

10µ 10k

0.1µ

∗0.047µ

∗0.22µ

∗0.22µ

∗0.22µ∗0.22µ

∗0.022µ∗0.022µ

∗0.022µ∗0.022µ

∗0.01µ∗0.01µ

∗0.01µ∗0.01µ

0.0022µ∗0.0022µ

∗0.1µ∗0.1µ

∗0.1µ∗0.1µ

∗4700p

∗0.047µ

100k

∗150k

SW8

∗0.1µ

∗3.3k ∗68k

∗22k

∗47k

∗47k

∗15k

∗15k

220µ

∗0.22µ

10µ

∗0.068µ

∗0.068µ

∗0.068µ

∗0.1µ

∗0.22µ

∗0.1µ

10k

10k

CLO

CK

LATC

HD

ATA

∗9.1k10k

15k10µ

51kSW3

SW2

SW1

1

1

1234

2

2

∗47k

∗47k

∗15k

∗0.068µ

∗0.068µ

∗0.068µ

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32OUTL

OUTR

VCC

CAP

FILTER

BASS5

BASS4

BASS3

BASS2

BASS1

HPFR3

HPFR2

HPFR1

HPFL3

HPFL2

HPFL1

ALCC

ALCR

RECL

RECR

BH3874AKS2(SQFPT64)

VFC1

GND

VFC2

MIC

DPLL1

DPLL2

DPLR1

DPLR2

PS1

PS2

F1L1

F1L2

F1R1

F1R2

F2L1

F2L2

F2R1

F2R2

F3L1

F3L2

F3R1

F3R2

F4L1

F4L2

F4R1

F4R2

F5L

F5R

INRD INLD

INRC INLC

INRB INLB

INRA INLA

BPNF

BPOU

T C B A

SCK SI

STEP

C

64

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

63

62

61

60

59

58

57

56

55

54

53

52

51

50

49

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33

62k

51kSW6

SW5

SW4

1

1

1234

2

2

1

12

2 SW7

THD

10k

THD

DPL

Fig.1

Recommendable External Parts

1. Element marked with ∗· Carbon-film resistor : ±1%· Film capacitor : ±1%· Ceramic capacitor : ±1%

· Film capacitor : ±20%· Electrolytic capacitor : ±20%

2. Unless specified particularly, use the following external parts:· Carbon-film resistor : ±5%

Notes on wiring1. GND shall be wired solidly.

2. Wiring pattern of SI and SCK shall be away from that of analog unit and cross talk shall not be acceptable.

3. Lines of SI and SCK shall not be parallel if possible. The lines shall be shielded, if they are adjacent to each other.

90%

90%

90%

10% 10%

10%

tw

tsu th ts tw(LATCH)

tw(DATA)

tw

SCK(CLOCK signal)

35pin

34pin

SIDATA signal

LATCH signal

Fig.2

°Parameter

Hold time (CLOCK→CLOCK)

"High" Input voltage

"Low" Input voltage

Clock width

"Middle" Input voltage

Setup time (DATA, CLOCK→LATCH)

∗ Serial signal SI is judging DATA and LATCH in the difference of the voltage level.∗ In the application schematic, it is changing 0-5V 3 line serial data into the 2 line serial data at the voltage with the resistance and the diode of the external. We request enough examination, because there is a case where the voltage which is changed by the ability for the microcomputer to drive and the external parts.

Data width

Latch width

Setup time (DATA→CLOCK)

Symbol

VIH

VIM

VIL

tw

tw (DATA)

tw (LATCH)

tsu

th

ts

3.3

1.8

−0.3

2.0

4.0

2.0

1.0

1.0

1.0

2.0

0

2.4

1.2

5.0 6.0

− −

V

V

µs

V

µs

µs

µs

µs

µs

Min. Typ. Max. Unit

Page 14:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

8bit

DATA

TIme

[1] [2]

Cf. (2)

[3]

Fig.3

DATA

DATA&LATCH

LATCH

α

γ γ γβ β β

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

Latch widthα

β

γ

The time which transmits more than one piece of data at once

The time which sends more than one piece of the following data after sending more than one pirce of data (When the capacitor of 33 pin is 0.22µF.)

Parameter

More than 2.0µs

Less than 2.5ms

More than 100ms

Time

γ

γ

Note: It is possible to do the interval of the data and the next data more shortly by changing33pin capacitor into 0.047µF. However, the switching sound becomes rather bigger than the switching sound of setting 0.1µF about the switching sound of VOLUME, DBASS, SURROUND, MODE SELECTOR.

0.047µF

0.1µF

0.22µF

33pin Capacitor

More than 25ms

More than 50ms

More than 100ms

The interval of the data and the next data

Page 15:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

8bit

DATA

TIme

[1] [2]

Cf. (2)

[3]

Fig.3

DATA

DATA&LATCH

LATCH

α

γ γ γβ β β

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

8bit

DATA

Latch widthα

β

γ

The time which transmits more than one piece of data at once

The time which sends more than one piece of the following data after sending more than one pirce of data (When the capacitor of 33 pin is 0.22µF.)

Parameter

More than 2.0µs

Less than 2.5ms

More than 100ms

Time

γ

γ

Note: It is possible to do the interval of the data and the next data more shortly by changing33pin capacitor into 0.047µF. However, the switching sound becomes rather bigger than the switching sound of setting 0.1µF about the switching sound of VOLUME, DBASS, SURROUND, MODE SELECTOR.

0.047µF

0.1µF

0.22µF

33pin Capacitor

More than 25ms

More than 50ms

More than 100ms

The interval of the data and the next data

Page 16:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

D00

0 0 0

1 0 1

0 1 1

1 0 0

0 1 0

1 1 0

0 0 1

1 1 1

D01 D02 D03 D05 D06 D07D04

D10 D11 D12 D13 D15 D16 D17D14

D20 D21 D22 D23 D25 D26 D27D24

D30

VOLUME

MODE SELECTOR

DYNAMIC BASS / Biamp

GRAPHIC EQUALIZER f1 / f2GREQ0 : f11 : f2

GREQ0 : f31 : f4

DPL0 : OFF1 : ON

DYNAMICBASS

/ Biamp

SURROUND EFFECT

MIC RECOUT

D31 D32 D33 D35 D36 D37D34

D40 D41 D42 D43 D45 D46 D47D44

D50 D51 D52 D53 D55 D56 D57D54

D60 D61 D62 D63 D65 D66 D67D64

D70 D71 D72 D73 D75 D76 D77D74

As for the mark, it becomes a soft switch method.

As for functions of the and mark, measures to reduce step noise are done.Because the functions of no marks have no measures of step noise, please supply mute.

As for the mark, it takes measures to decrease DC offset voltage.

GRAPHIC EQUALIZER f3 / f4

GRAPHIC EQUALIZER f5

INPUT SELECTOR

SPECTRUM ANALYZER

SURROUND/ STEREO

∗∗

∗ Don't Care

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

D04 D05

0

D06

0

D07

0

D00

0

1

0

1

0

1

0

1

0

1

0

1

0

1

1

0

0

1

0

1

0

1

0

1

0

1

0

1

0

1

1

0

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

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

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

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

ATT quantity

−∞

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

−30.0dB

−28.0dB

−32.0dB

−34.0dB

−36.0dB

−38.0dB

−40.0dB

−44.0dB

−48.0dB

−52.0dB

−56.0dB

−60.0dB

−64.0dB

−68.0dB

−72.0dB

−76.0dB

−82.0dB

D01 D02 D03

Page 17:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

D00

0 0 0

1 0 1

0 1 1

1 0 0

0 1 0

1 1 0

0 0 1

1 1 1

D01 D02 D03 D05 D06 D07D04

D10 D11 D12 D13 D15 D16 D17D14

D20 D21 D22 D23 D25 D26 D27D24

D30

VOLUME

MODE SELECTOR

DYNAMIC BASS / Biamp

GRAPHIC EQUALIZER f1 / f2GREQ0 : f11 : f2

GREQ0 : f31 : f4

DPL0 : OFF1 : ON

DYNAMICBASS

/ Biamp

SURROUND EFFECT

MIC RECOUT

D31 D32 D33 D35 D36 D37D34

D40 D41 D42 D43 D45 D46 D47D44

D50 D51 D52 D53 D55 D56 D57D54

D60 D61 D62 D63 D65 D66 D67D64

D70 D71 D72 D73 D75 D76 D77D74

As for the mark, it becomes a soft switch method.

As for functions of the and mark, measures to reduce step noise are done.Because the functions of no marks have no measures of step noise, please supply mute.

As for the mark, it takes measures to decrease DC offset voltage.

GRAPHIC EQUALIZER f3 / f4

GRAPHIC EQUALIZER f5

INPUT SELECTOR

SPECTRUM ANALYZER

SURROUND/ STEREO

∗∗

∗ Don't Care

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

D04 D05

0

D06

0

D07

0

D00

0

1

0

1

0

1

0

1

0

1

0

1

0

1

1

0

0

1

0

1

0

1

0

1

0

1

0

1

0

1

1

0

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

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

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

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

ATT quantity

−∞

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

−30.0dB

−28.0dB

−32.0dB

−34.0dB

−36.0dB

−38.0dB

−40.0dB

−44.0dB

−48.0dB

−52.0dB

−56.0dB

−60.0dB

−64.0dB

−68.0dB

−72.0dB

−76.0dB

−82.0dB

D01 D02 D03

Page 18:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

D14 D15

1MIC

0 : ON1 : MUTE

RECOUT

0 : ON1 : MUTE

D16

0

D17

1

0

1

0

1

0

1

0

1

D10

THROUGH

THROUGH

THROUGH

THROUGH

VOCAL FADE

Lch MONAULAL

Rch MONAULAL

L+R

MODE

0

0

1

1

0

0

1

1

D11

0

0

0

0

1

1

1

1

D12 D13

Note : About input selector, mode selector is cleared when MUTE of the input selector is chosen.When MUTE of the input selector is canceled, choose the mode selector, too.The MUTE command of the input selector has priority over the command of the mode selector.

D24 D25

0Refer to theSurround Effect

D26

1

D27

1

0

1

0

1

0

1

0

1

D20

0dB

0dB

3dB

6dB

9dB

12dB

15dB

18dB

GAIN

0

0

1

1

0

0

1

1

D21

0

0

0

0

1

1

1

1

D22 D23

D24 D25

0Refer to theDynamic Bass Effect

D26

1

D27

1

D20

0dB

3dB

6dB

9dB

GAIN D21

0

1

0

1

0

0

1

1

D22 D23

Note : GAIN is the name given to the transfer data. Depending on the values of the external constant, the specified gain may not be output.

Note : GAIN is the name given to the transfer data. Depending on the values of the external constant, the specified gain may not be output.

D34

GREQSELECT

0 : f11 : f2

D35

1

D36

0

D37

0

1

0

1

0

1

0

1

0

0

1

0

1

0

1

1

0

D30

+12dB

+12dB

+10dB

+8dB

+6dB

+4dB

+2dB

0dB

0dB

−2dB

−4dB

−6dB

−8dB

−10dB

−12dB

−12dB

GAIN

1

1

0

0

1

1

0

0

0

0

1

1

0

0

1

1

D31

1

1

1

1

0

0

0

0

0

0

0

0

1

1

1

1

D32

1

1

1

1

1

1

1

1

0

0

0

0

0

0

0

0

D33

Note : GAIN is the name given to the transfer data. Depending on the values of the external constant, the specified gain may not be output.

D44

GREQSELECT

0 : f31 : f4

D45

0

D46

1

D47

0

1

0

1

0

1

0

1

0

0

1

0

1

0

1

1

0

D40

+12dB

+12dB

+10dB

+8dB

+6dB

+4dB

+2dB

0dB

0dB

−2dB

−4dB

−6dB

−8dB

−10dB

−12dB

−12dB

GAIN

1

1

0

0

1

1

0

0

0

0

1

1

0

0

1

1

D41

1

1

1

1

0

0

0

0

0

0

0

0

1

1

1

1

D42

1

1

1

1

1

1

1

1

0

0

0

0

0

0

0

0

D43

Page 19:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

D14 D15

1MIC

0 : ON1 : MUTE

RECOUT

0 : ON1 : MUTE

D16

0

D17

1

0

1

0

1

0

1

0

1

D10

THROUGH

THROUGH

THROUGH

THROUGH

VOCAL FADE

Lch MONAULAL

Rch MONAULAL

L+R

MODE

0

0

1

1

0

0

1

1

D11

0

0

0

0

1

1

1

1

D12 D13

Note : About input selector, mode selector is cleared when MUTE of the input selector is chosen.When MUTE of the input selector is canceled, choose the mode selector, too.The MUTE command of the input selector has priority over the command of the mode selector.

D24 D25

0Refer to theSurround Effect

D26

1

D27

1

0

1

0

1

0

1

0

1

D20

0dB

0dB

3dB

6dB

9dB

12dB

15dB

18dB

GAIN

0

0

1

1

0

0

1

1

D21

0

0

0

0

1

1

1

1

D22 D23

D24 D25

0Refer to theDynamic Bass Effect

D26

1

D27

1

D20

0dB

3dB

6dB

9dB

GAIN D21

0

1

0

1

0

0

1

1

D22 D23

Note : GAIN is the name given to the transfer data. Depending on the values of the external constant, the specified gain may not be output.

Note : GAIN is the name given to the transfer data. Depending on the values of the external constant, the specified gain may not be output.

D34

GREQSELECT

0 : f11 : f2

D35

1

D36

0

D37

0

1

0

1

0

1

0

1

0

0

1

0

1

0

1

1

0

D30

+12dB

+12dB

+10dB

+8dB

+6dB

+4dB

+2dB

0dB

0dB

−2dB

−4dB

−6dB

−8dB

−10dB

−12dB

−12dB

GAIN

1

1

0

0

1

1

0

0

0

0

1

1

0

0

1

1

D31

1

1

1

1

0

0

0

0

0

0

0

0

1

1

1

1

D32

1

1

1

1

1

1

1

1

0

0

0

0

0

0

0

0

D33

Note : GAIN is the name given to the transfer data. Depending on the values of the external constant, the specified gain may not be output.

D44

GREQSELECT

0 : f31 : f4

D45

0

D46

1

D47

0

1

0

1

0

1

0

1

0

0

1

0

1

0

1

1

0

D40

+12dB

+12dB

+10dB

+8dB

+6dB

+4dB

+2dB

0dB

0dB

−2dB

−4dB

−6dB

−8dB

−10dB

−12dB

−12dB

GAIN

1

1

0

0

1

1

0

0

0

0

1

1

0

0

1

1

D41

1

1

1

1

0

0

0

0

0

0

0

0

1

1

1

1

D42

1

1

1

1

1

1

1

1

0

0

0

0

0

0

0

0

D43

Page 20:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

Note : GAIN is the name given to the transfer data. Depending on the values of the external constant, the specified gain may not be output.

D54

DPLSELECT0 : OFF1 : ON

D55

1

D56

1

D57

0

1

0

1

0

1

0

1

0

0

1

0

1

0

1

1

0

D50

+12dB

+12dB

+10dB

+8dB

+6dB

+4dB

+2dB

0dB

0dB

−2dB

−4dB

−6dB

−8dB

−10dB

−12dB

−12dB

GAIN

1

1

0

0

1

1

0

0

0

0

1

1

0

0

1

1

D51

1

1

1

1

0

0

0

0

0

0

0

0

1

1

1

1

D52

1

1

1

1

1

1

1

1

0

0

0

0

0

0

0

0

D53

D64 D65

00 : Dynamic Bass1 : Biamp

0 : Surround1 : Simulated stereo

D66

0

D67

1

0

1

0

1

0

1

0

1

D60

MUTE

INPUT-LA, INPUT-RA

INPUT-LB, INPUT-RB

INPUT-LC, INPUT-RC

MUTE

MUTE

INPUT-LD1, INPUT-RD1 (0dB)

INPUT-LD2, INPUT-RD2 (−9dB)

INPUT

0

0

1

1

0

0

1

1

D61

0

0

0

0

1

1

1

1

D62 D63

D74 D75

1∗∗

D76

1

D77

1

0

1

0

1

0

1

0

1

D70

RESET

RESET

fo=105Hz

fo=340Hz

fo=1kHz

fo=3.4kHz

fo=10.5kHz

Priority over parallel data

FREQUENCY

0

0

1

1

0

0

1

1

D71

0

0

0

0

1

1

1

1

D72 D73

∗ Don't Care

36pin

0

0

0

0

1

1

1

1

A

37pin

0

0

1

1

0

0

1

1

B

38pin

0

1

0

1

0

1

0

1

C

RESET

105Hz

340Hz

RESET

1kHz

RESET

3.4kHz

10.5kHz

BPOUT(39pin)

Page 21:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

Note : GAIN is the name given to the transfer data. Depending on the values of the external constant, the specified gain may not be output.

D54

DPLSELECT0 : OFF1 : ON

D55

1

D56

1

D57

0

1

0

1

0

1

0

1

0

0

1

0

1

0

1

1

0

D50

+12dB

+12dB

+10dB

+8dB

+6dB

+4dB

+2dB

0dB

0dB

−2dB

−4dB

−6dB

−8dB

−10dB

−12dB

−12dB

GAIN

1

1

0

0

1

1

0

0

0

0

1

1

0

0

1

1

D51

1

1

1

1

0

0

0

0

0

0

0

0

1

1

1

1

D52

1

1

1

1

1

1

1

1

0

0

0

0

0

0

0

0

D53

D64 D65

00 : Dynamic Bass1 : Biamp

0 : Surround1 : Simulated stereo

D66

0

D67

1

0

1

0

1

0

1

0

1

D60

MUTE

INPUT-LA, INPUT-RA

INPUT-LB, INPUT-RB

INPUT-LC, INPUT-RC

MUTE

MUTE

INPUT-LD1, INPUT-RD1 (0dB)

INPUT-LD2, INPUT-RD2 (−9dB)

INPUT

0

0

1

1

0

0

1

1

D61

0

0

0

0

1

1

1

1

D62 D63

D74 D75

1∗∗

D76

1

D77

1

0

1

0

1

0

1

0

1

D70

RESET

RESET

fo=105Hz

fo=340Hz

fo=1kHz

fo=3.4kHz

fo=10.5kHz

Priority over parallel data

FREQUENCY

0

0

1

1

0

0

1

1

D71

0

0

0

0

1

1

1

1

D72 D73

∗ Don't Care

36pin

0

0

0

0

1

1

1

1

A

37pin

0

0

1

1

0

0

1

1

B

38pin

0

1

0

1

0

1

0

1

C

RESET

105Hz

340Hz

RESET

1kHz

RESET

3.4kHz

10.5kHz

BPOUT(39pin)

Page 22:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

10µ

VCC

10µ

4.7µ 4.7µ 2.2µ 2.2µ 2.2µ 2.2µ 2.2µ 2.2µ0.22µ

10µ

4.7µ

4.7µ

10µ

10µ

10µ

10µ

10µ

0.1µ

0.047µ

0.047µ

0.22µ

0.22µ

0.22µ0.22µ

0.022µ0.022µ

0.022µ0.022µ

0.01µ0.01µ

0.01µ0.01µ

0.0022µ 0.0022µ

0.1µ0.1µ

0.1µ0.1µ

4700p

100k

150k

0.1µ

3.3k 68k

22k

47k

47k

15k

15k

220µ

0.22µ

0.068µ

0.068µ

0.068µ

0.1µ

0.22µ

0.1µ

CLO

CK

LATC

HD

ATA

9.1k10k

15k

10µ

47k

47k

15k

0.068µ

0.068µ

0.068µ

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32OUTL

OUTR

VCC

CAP

FILTER

BASS5

BASS4

BASS3

BASS2

BASS1

HPFR3

HPFR2

HPFR1

HPFL3

HPFL2

HPFL1

ALCC

ALCR

RECL

RECR

BH3874AKS2(SQFPT64)

VFC1

GND

VFC2

MIC

DPLL1

DPLL2

DPLR1

DPLR2

PS1

PS2

F1L1

F1L2

F1R1

F1R2

F2L1

F2L2

F2R1

F2R2

F3L1

F3L2

F3R1

F3R2

F4L1

F4L2

F4R1

F4R2

F5L

F5R

INRD INLD

INRC INLC

INRB INLB

INRA INLA

BPNF

BPOU

T C B A

SCK SI

STEP

C

64

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

63

62

61

60

59

58

57

56

55

54

53

52

51

50

49

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33

62k

DPL

Fig.4

FREQUENCY : f (Hz)Note : This graph is shown at the input common-mode.

Gain at the input inverting-mode is 6dB.

GAI

N (d

B)

PHAS

E (d

eg)

Fig.5 Vocal fade characteristics

10

Phase

100 1k 10k 100k−45−40

−35−30

−20

−25

−15

+15

−5

+5

−10

+10

+0

−200−175−150−125

−75−100

−50

+200

+100

+150

−25

+175

+125

+0

+50+75

+25

Gain

FREQUENCY : f (Hz)

GAI

N (d

B)

PHAS

E (d

eg)

Fig.6 Surround characteristics

10 100 1k 10k 100k−25

−20

−15

−10

+0

−5

+5

+15

+25

+10

+20

−200−175−150−125

−75−100

−50

+200

+0

+75

−25

+175

+100+125+150

+50+25

Gain

phase

FREQUENCY : f (Hz)

BASS

(dB)

Fig.7 Graphic equalizer characteristics

10 100 1k 10k 100k−4−2+0+2

+6+4

+8

+20+22+24

+12

+16

+10

+18

+14

Page 23:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

10µ

VCC

10µ

4.7µ 4.7µ 2.2µ 2.2µ 2.2µ 2.2µ 2.2µ 2.2µ0.22µ

10µ

4.7µ

4.7µ

10µ

10µ

10µ

10µ

10µ

0.1µ

0.047µ

0.047µ

0.22µ

0.22µ

0.22µ0.22µ

0.022µ0.022µ

0.022µ0.022µ

0.01µ0.01µ

0.01µ0.01µ

0.0022µ 0.0022µ

0.1µ0.1µ

0.1µ0.1µ

4700p

100k

150k

0.1µ

3.3k 68k

22k

47k

47k

15k

15k

220µ

0.22µ

0.068µ

0.068µ

0.068µ

0.1µ

0.22µ

0.1µ

CLO

CK

LATC

HD

ATA

9.1k10k

15k

10µ

47k

47k

15k

0.068µ

0.068µ

0.068µ

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32OUTL

OUTR

VCC

CAP

FILTER

BASS5

BASS4

BASS3

BASS2

BASS1

HPFR3

HPFR2

HPFR1

HPFL3

HPFL2

HPFL1

ALCC

ALCR

RECL

RECR

BH3874AKS2(SQFPT64)

VFC1

GND

VFC2

MIC

DPLL1

DPLL2

DPLR1

DPLR2

PS1

PS2

F1L1

F1L2

F1R1

F1R2

F2L1

F2L2

F2R1

F2R2

F3L1

F3L2

F3R1

F3R2

F4L1

F4L2

F4R1

F4R2

F5L

F5R

INRD INLD

INRC INLC

INRB INLB

INRA INLA

BPNF

BPOU

T C B A

SCK SI

STEP

C

64

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

63

62

61

60

59

58

57

56

55

54

53

52

51

50

49

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33

62k

DPL

Fig.4

FREQUENCY : f (Hz)Note : This graph is shown at the input common-mode.

Gain at the input inverting-mode is 6dB.

GAI

N (d

B)

PHAS

E (d

eg)

Fig.5 Vocal fade characteristics

10

Phase

100 1k 10k 100k−45−40

−35−30

−20

−25

−15

+15

−5

+5

−10

+10

+0

−200−175−150−125

−75−100

−50

+200

+100

+150

−25

+175

+125

+0

+50+75

+25

Gain

FREQUENCY : f (Hz)

GAI

N (d

B)

PHAS

E (d

eg)

Fig.6 Surround characteristics

10 100 1k 10k 100k−25

−20

−15

−10

+0

−5

+5

+15

+25

+10

+20

−200−175−150−125

−75−100

−50

+200

+0

+75

−25

+175

+100+125+150

+50+25

Gain

phase

FREQUENCY : f (Hz)

BASS

(dB)

Fig.7 Graphic equalizer characteristics

10 100 1k 10k 100k−4−2+0+2

+6+4

+8

+20+22+24

+12

+16

+10

+18

+14

Page 24:  · 5 BAND EQ L − R L + R + + + + + − + + ... A pin for setting graphic equalizer frequency characteristic. A pin for inputting a microphone signal. The input impedance is 10kΩ

FREQUENCY : f (Hz)

GAI

N (d

B)

Fig.8 Biamp characteristics (Input common-mode)

10 100 1k 10k 100k+4+6+8

+12+10

+14

+26+28+30

+34+32

+18

+22

+16

+24

+20

15dB

12dB

9dB

6dB

3dB

18dB

INPUT-OUTPUT DISTORATIONCHARACTERISTICS : (Vrms)

OU

TPU

T (V

rms)

TOTA

L H

ARM

ON

IC D

ISTO

RTI

ON

: TH

D (%

)

Fig.9 Input-output distortion characteristics

1m 10m 100m 11m2m

5m

10m20m

50m

100m200m

500m

12

5

0.0010.002

0.005

0.010.02

0.05

0.10.2

0.5

12

5

Vout

THD

SQFP-T64

48 33

32

17

1

49

64

12.0±0.214.0±0.3

0.3±0.1

12.0

±0.2

14.0

±0.3

0.5

0.1±

0.11.

4±0.

1 0.125±0.1

0.65

16

0.15


Lecture 15 - Outputting and Inputting Data & Database

Lecture 15 - Outputting and Inputting Data & Database

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