Rohm BD3860K Built-in bbe audio sound controller Datasheet

BD3860K
Audio ICs
Built-in BBEΙΙ Audio sound controller
BD3860K
BD3860K can reproduce clear sound in high band and distinct sound in low band by integrating BBEΙΙ function.
If this IC is used for car stereo, sound can be reproduced distinctly without turning up the volume.
!Applications
Car audio, Mini component, Micro component.
!Features
1) Built-in BBEΙΙ circuit, 4-input selector (4ch stereo), input gain, main volume, loudness, tone (2 band), fader volume.
2) BBEΙΙ circuit is profitable for S/N because of no process control in no signal.
3) Bi-CMOS process is suitable for the design of low current and energy saving. It provides more quality for small scale
regulator and heat in a set.
4) Q factor, center frequency f0, and gain G of bass can be controlled by external parts. These functions can be used as
super bass filter.
5) Can be controlled by power supply of 3.3V or 5V.
6) Easy to design signal level diagram by laying BBEΙΙ, and tone circuit through main volume.
7) Easy layout of the board by laying each pin of audio input (total 8pin), and audio output (total 4pin) together.
!Absolute maximum ratings (Ta=25°C)
Parameter
Symbol
Power supply voltage
VCC
Power dissipation
Pd
Limits
Unit
10
850∗
mW
V
Operating temperature
Topr
−40~+85
°C
Storage temperature
Tstg
−55~+125
°C
∗Reduced by 8.5mW for each increase in Ta of 1°C over 25°C.
!Recommended operating conditions (Ta=25°C)
Parameter
Power supply voltage
Symbol
Min.
Typ.
Max.
Unit
VCC
7.0
−
9.5
V
1/26
+
+
+
+
+
INPUT
CH2
SOURCE
+
INPUT
CH1
SOURCE
+
4
3
2
1
44
43
42
41
D2
C2
B2
A2
D1
C1
B1
A1
6
5
VCC
9
SELECTOR
INPUT
POWER
SUPPLY
FIL
+
GND
VCC
40
SEL2
39
0to18dB
INPUT
GAIN
0to18dB
INPUT
GAIN
SEL1
+
36
35
LOUD1
VIN2
38
37
LOUD2
MAIN
VOLUME
0to−48dB
LOUDNESS
MAIN
VOLUME
0to−48dB
LOUDNESS
VIN1
25
24
26
23
22
21
HF2 LF2
DET2 VCA2
MIX2 BBOUT2
LO CONTOUR (f=100Hz) 5dB
PROCESS CONTROL +3to12dB
(f=10kHz)
BBEΙΙ
LOGIC
LO CONTOUR (f=100Hz) 5dB
PROCESS CONTROL +3to12dB
(f=10kHz)
BBEΙΙ
34
33
28
32
31
30
HF1
LF1
DET1 VCA1
MIX1 BBOUT1
+
+
+
GND
TIN2
20
TNF2
18
BNF2
17
16
BOUT2
−14to+14dB
−140to+14dB
14
BOUT1
BASS
15
TREBLE
BNF1
−14to+14dB
19
−14to+14dB
TNF1
BASS
29
TREBLE
TIN1
FADER
CH2 FRONT
0to−54dB
FADER
CH2 REAR
0to−54dB
FADER
CHI REAR
0to−54dB
FADER
CHI FRONT
0to−54dB
11
10
27
8
7
12
13
OUTF2
OUTR2
DEF
SC
SI
OUTR1
OUTF1
OUTPUT
CH2
SC
SI
OUTPUT
CH1
BD3860K
Audio ICs
!Block diagram
+
+
2/26
BD3860K
Audio ICs
!Pin descriptions
Pin No.
Pin name
Pin No.
Pin name
1
A2
CH2 input pin A
Function
23
VCA2
CH2 high pass VCA output pin
2
B2
CH2 input pin B
24
LF2
CH2 Low pass filter setting pin
3
C2
CH2 input pin C
25
HF2
CH2 high pass filter setting pin
4
D2
CH2 input pin D
26
DET2
CH2 high pass attack / release time setting pin
5
FIL
1/2 VCC pin
27
DEF
BBE ΙΙ ON/OFF switching time constant pin
6
GND
Ground pin
28
DET1
CH1 high pass attack / release time setting pin
7
SI
Serial data receiving pin
29
TIN1
CH1 Treble input pin
Function
CH1 BBE ΙΙ signal output pin
Serial clock receiving pin
30
BBOUT1
Power supply pin
31
MIX1
CH1 output MIX amplifier inverse input pin
OUTR2
CH2 Rear output pin
32
VCA1
CH1 high pass VCA output pin
11
OUTF2
CH2 Front output pin
33
LF1
CH1 low pass filter setting pin
12
OUTR1
CH1 Rear output pin
34
HF1
CH1 high pass filter setting pin
13
OUTF1
CH1 Front output pin
35
LOUD1
CH1 Loudness filter setting pin
14
BOUT1
CH1 Bass filter setting pin
36
VIN1
15
BNF1
CH1 Bass filter setting pin
37
LOUD2
16
BOUT2
CH2 Bass filter setting pin
38
VIN2
CH2 main volume input pin
17
BNF2
CH2 Bass filter setting pin
39
SEL2
CH2 input gain output pin
SEL1
CH1 input gain output pin
8
SC
9
VCC
10
CH1 main volume input pin
CH2 Loudness filter setting pin
18
TNF2
CH2 Treble filter setting pin
40
19
TNF1
CH1 Treble filter setting pin
41
A1
CH1 input pin A
20
TIN2
CH2 Treble input pin
42
B1
CH1 input pin B
CH2 BBE ΙΙ signal output pin
43
C1
CH1 input pin C
CH2 output MIX amplifier inverse input pin
44
D1
CH1 input pin D
21
BBOUT2
22
MIX2
3/26
BD3860K
Audio ICs
!Pin equivalent circuit and description
Pin No.
Pin name
Pin voltage
Equivalent circuit
Pin description
VCC
41
42
43
44
1
2
3
4
A1
B1
C1
D1
A2
B2
C2
D2
A pin for inputting a sound signal.
It is suitable for input of CD, MD,
tuner and tape.
Connect this pin to a front stage
circuit through a coupling
capacitor.
4.5V
GND
VCC
40
A pin for outputting a sound signal,
which has been selected by an input
selector and amplified by input gain.
Connect this pin to a rear stage
circuit through a coupling capacitor
between the VIN1 and VIN2 pins.
SEL1
4.5V
39
SEL2
GND
VCC
36
A pin for inputting a sound signal to
main volume.
The input impedance is 60kΩ (upon
typical setting).
Connect this pin to a front stage
circuit through a coupling capacitor
between the SEL1 and SEL2 pins
circuit.
VIN1
4.5V
38
VIN2
GND
VCC
VIN1, VIN2
35
LOUD1
4.5V
37
−30dB
tap
LOUD2
A pin for setting the loudness
frequency characteristics and gain.
GND
4/26
BD3860K
Audio ICs
Pin No.
Pin name
Pin voltage
Equivalent circuit
Pin description
VCC
33
LF1
10.6k
A pin for setting the low pass
frequency of BBE ΙΙ.
4.5V
24
LF2
GND
VCC
34
HF1
4.5V
25
A pin for setting the high pass
frequency of BBE ΙΙ.
12.7k
12.7k
HF2
GND
VCC
32
VCA1
A pin for outputting the high pass
VCA of BBE ΙΙ.
Connect the HPF capacitor
between the MIX1 and MIX2 pins
2.85k
4.5V
23
VCA2
GND
VCC
10k
31
10k
MIX1
4.7k
4.5V
22
MIX2
10k
A pin for inverse input for output
MIX amplifier of BBE ΙΙ.
Connect the HPF capacitor
between the VCA1 and VCA2 pins,
and the LPF capacitor between
the BBOUT1 and BBOUT2 pins.
GND
5/26
BD3860K
Audio ICs
Pin No.
Pin name
Pin voltage
Equivalent circuit
Pin description
VCC
30
BBOUT1
10k
4.5V
21
BBOUT2
A pin for outputting the BBE ΙΙ
signal.
Connect the LPF capacitor
between the MIX1 and MIX2 pins
and connect this pin to a rear stage
circuit through a coupling capacitor
between the TIN1 and TIN2 pins.
GND
VCC
29
A pin for inputting a sound signal
to Treble.
The input impedance is 47kΩ
(upon typical setting).
Connect this pin to a front circuit
through a coupling capacitor
between the BBOUT1 and BBOUT2
pins.
TIN1
4.5V
20
47k
TIN2
GND
VCC
28
DET1
A pin for time constant of high pass
boost detector of BBE ΙΙ .
Attack/Recovery time depends on
the external capacitor and resistance.
20k
−
26
DET2
GND
VCC
500k
27
DEF
−
A pin for ON/OFF switching time
constant of BBE ΙΙ .
Timing constant "T" depends on the
external capacitor "C" and internal
resistance "R" (upon typical setting).
T=CR (sec)
GND
6/26
BD3860K
Audio ICs
Pin No.
Pin name
Pin voltage
Equivalent circuit
Pin description
VCC
19
TNF1
A pin for setting Treble frequency
characteristic.
4.5V
18
TNF2
GND
VCC
15
BNF1
A pin for setting Bass frequency
characteristic and gain.
4.5V
17
BNF2
GND
VCC
14
BOUT1
A pin for setting Bass frequency
and gain.
4.5V
16
BOUT2
GND
VCC
13
OUTF1
12
OUTR1
11
OUTF2
10
OUTR2
A pin for outputting a sound signal.
Connect this pin to a rear stage
circut through a coupling capacitor.
4.5V
GND
7/26
BD3860K
Audio ICs
Pin No.
Pin name
Pin voltage
Equivalent circuit
Pin description
VCC
8
SC
−
A pin for inputting a serial data.
GND
VCC
7
SI
−
A pin for inputting a serial clock.
GND
VCC
25k
5
FIL
4.5V
25k
1/2 VCC.
Voltage for power supply of signal
system.
GND
9
VCC
9V
−
Power supply pin.
6
GND
0V
−
A ground pin.
8/26
BD3860K
Audio ICs
!Electrical characteristics
(Unless specified particularly, Ta=25°C, VCC=9V, f=1kHz, RL=10kΩ, input gain 0dB, main volume 0dB, BBEΙΙ off, tone
0dB, fader volume 0dB, and the signal is inputted from A1 pin, and outputted to OUTF1 pin.)
Symbol
Min.
Typ.
Max.
Unit
Circuit current
IQ
−
16
35
mA
Output voltage gain
GV
−1.5
0
1.5
Full harmonic distortion rate
THD
−
0.01
Maximum output voltage
VOM
2.0
No
−
Parameter
Conditions
Serial data
SW
Measurement
point
003
1
IQ
001
003
2
VOUT
002
001
003
2
THD
000
002
001
003
2
VOUT
000
002
001
003
1
VOUT
VOUT
(OUTF2)
(1)
(2)
(3)
(4)
No signal
000
002
001
dB
VIN=1Vrms
000
002
0.09
%
VIN=2Vrms,
400~30kHz
000
2.5
−
Vrms
THD=1%
5
17
µVrms
Rg=0Ω,
IHF−A ∗
<General>
Output noise voltage
Cross-talk between
channels
VIN=1Vrms (A1),
Rg=0Ω (A2),
IHF−A ∗
000
002
001
003
00B
2 (A1)
1 (A2)
−
−
−
−
−
−
VIN=200mVrms
018
002
001
003
2
VOUT
dB
VIN=200mVrms
−
−
−
−
−
−
−46
dB
VIN=1Vrms
000
1CA
001
003
2
VOUT
0
1
dB
0to−30dB,
VIN=1Vrms
−
−
−
−
−
−
−2
0
2
dB
−32to−48dB,
VIN=1Vrms
−
−
−
−
−
−
V1MI
−
−95
−85
dB
VIN=1Vrms,
IHF−A ∗
000
02A
001
003
2
VOUT
Process control range
GBBH
10
12
14
dB
f=10kHz,
VIN=200mVrms
000
002
199
003
2
VOUT
Process set error
BBHE
−2
0
2
dB
f=10kHz,
VIN=200mVrms
−
−
−
−
−
−
003
2
VOUT
CTC
−
−95
−70
dB
RI
33
47
61
kΩ
Input maximum gain
GVI
16.5
18
19.5
dB
Input gain error
ISET
−1.5
0
1.5
Volume control range
V1R
−50
−48
Volume set error 1
V1E1
−1
Volume set error 2
V1E2
Maximum attenuation
Input resistance
<Input gain>
<Main volume>
<BBEΙΙ>
GBBL
3
5
7
dB
f=100Hz,
VIN=200mVrms
000
002
019
119
099
199
Bass boost range
GBB
12
14
16
dB
f=500Hz,
VIN=200mVrms
000
002
1C1
003
2
VOUT
Bass cut range
GBC
−16
−14
−12
dB
f=500Hz,
VIN=200mVrms
000
002
1E1
003
2
VOUT
Bass set error
BSET
−2
0
2
dB
f=500Hz,
VIN=200mVrms
−
−
−
−
−
−
GTB
12
14
16
dB
f=10kHz,
VIN=200mVrms
000
002
1D1
003
2
VOUT
000
002
1F1
003
2
VOUT
−
−
−
−
−
−
LO CONTOUR voltage
gain
<Bass>
<Treble>
Treble boost range
Treble cut range
GTC
−16
−14
−12
dB
f=10kHz,
VIN=200mVrms
Treble set error
TSET
−2
0
2
dB
f=10Hz,
VIN=200mVrms
Fader control range
V2R
−57
−54
−51
dB
VIN=1Vrms
000
002
001
1B3
2
VOUT
Fader set error
V2E
−2
0
2
dB
VIN=1Vrms
−
−
−
−
−
−
dB
VIN=1Vrms,
IHF−A ∗
000
002
001
073
2
VOUT
<Fader>
Maximum attenuation
V2MI
−
−90
−85
VP-9690A (Average value detection, effective value display) IHF-A filter by Matsushita Communication is used for ∗ measurment.
Operation spec : Phase between input / output is same.
Design against radiation-proof is not mode.
9/26
BD3860K
Audio ICs
!Measurement circuit
220p
0.047µ
∗
0.02µ
∗
1µ
+
0.01µ
∗
∗
10µ
+
∗
32
31
30
29
∗
1µ
+
∗
0.01µ
0.1µ
∗
∗
1M
1M
33
∗
28
27
26
25
24
23
∗
0.047µ
∗
220p
0.01µ
∗
34
22
35
21
∗ 0.1µ
6.8k
∗
∗
∗
470p
200k
∗ 0.1µ
6.8k
∗
∗
∗
10µ
+
36
20
37
19
0.047µ
470p
200k
18
38
+
+
10µ
10µ
BD3860K
39
A1
B1
C1
D1
+
10µ
+
10µ
+
10µ
17
40
16
41
15
42
14
43
13
∗
0.033µ
∗
3.3k
∗
∗
0.033µ
0.033µ
∗
3.3k
∗
∗
0.033µ
+
10µ 10k
+
12
44
10µ
+
10µ 10k
1
+
A1~D2
2
+
10µ
SW
A2
Rg=0
∗
0.047µ
3
+
10µ
B2
4
+
10µ
C2
5
6
7
8
+
10µ
D2
9
IQ
47µ
GND
SI
VIN
SC
VCC
10
OUTF1
OUTR1
OUTF2
OUTR2
11
+
+
10µ
10µ
10k
10k
RL=10k
OUTF1~OUTR2
VOUT
THD
Fig.1 MEASUREMENT CIRCUIT DIAGRAM
Recommendable external parts
Notes on wiring
1. Element marked with ∗
· Carbon-film resistor : ±1%
· Film capacitor
: ±1%
: ±1%
· Ceramic capacitor
1. GND shall be wired solidly.
2. Unless specified particularly,
use the following external parts:
3. Lines of SI and SC of shall not be parallel if possible.
The lines shall be shielded, if they are adjacent to
each other.
· Carbon-film resistor : ±5%
· Film capacitor
: ±20%
· Electrolytic capacitor : ±20%
2. Wiring patter of SI and SC shall be away from that
of analog unit and crosstalk shall not be acceptable.
10/26
BD3860K
Audio ICs
!Circuit operations
Specifications for control signal
(1) Timing of control signal
• Data is read at a leading edge of clock.
• Latch is read at a trailing edge of clock.
• Be sure to set SI to LOW after latching.
90%
90%
tsc
twc
SC
( CLOCK Signal )
10%
ts
thd
SI
DATA Signal
LATCH Signal
90%
90%
twd
DATA
90%
90%
10%
10%
twc
th
tsd
thd
ts1
90%
90%
tw1
twh
10%
10%
th1
DATA
10%
90%
LATCH
Fig.2
Constant of timing chart (Ta=25°C, VCC=9V)
Parameter
Symbol
Min.
Typ.
Max.
Unit
"High" input voltage
VIH
2.6
−
5.5
V
"Low" input voltage
VIL
0
−
1.1
V
Clock width
Twc
2.0
−
−
µs
Data width
twd
2.0
−
−
µs
Latch width
tw1
2.0
−
−
µs
"Low" hold width
Twh
2.0
−
−
µs
Setup time (DATA→CLK)
Tsd
1.0
−
−
µs
Hold time (CLK→DATA)
Thd
1.0
−
−
µs
Setup time (CLK→LATCH)
ts1
1.0
−
−
µs
Hold time (CLK→LATCH)
th1
1.0
−
−
µs
"Low" setup time
Ts
1.0
−
−
µs
"Low" hold time
Th
1.0
−
−
µs
11/26
BD3860K
Audio ICs
(2) Control data format list
Input direction
←MSB
D10
0
D20
LSB
D11
D12
D13
D14
Input selector
00 : INA, 10 : INB
01 : INC, 11 : IND
D21
D15
D16
D17
Loudness
0 : OFF
1 : ON
Input gain
(Refer to a setting table)
D22
D23
D24
D25
D26
D27
Main volume
select
0 : ch1
1 : ch2
Main volume
0
(Refer to a setting table)
D30
D31
D32
D33
D34
D35
(Refer to a setting table)
D40
D41
D42
D43
D44
D45
D46
0
D47
Fader select
00 : Front 1
10 : Front 2
01 : Rear 1
11 : Rear 2
Fader volume
0
D37
Bass / Treble / BBE ΙΙ Select
00 : Bass
10 : Treble
01 : BBE OFF
11 : BBE ON
Bass / Treble / BBE ΙΙ Gain
0
D36
(Refer to a setting table)
D18
D19
Select address
0
0
D28
D29
Select address
1
0
D38
D39
Select address
0
1
D48
D49
Select address
1
1
Any of four control data formats can be selected by changing setting of select address.
Initialize all the four formats of data at every turning on the power supply.
(Example)
Input direction
← MSB LSB
Data
MSB
L
LSB
Data
MSB
L
Data
LSB
MSB
L
Data
LSB
L
"L" means "Latch".
At the second time after turning on the power suopply, set any data to be changed.
(Example) To change the main volume.
Input direction
← MSB LSB
Data
L
"L" means "Latch".
12/26
BD3860K
Audio ICs
(3) Control data format ① setting table
Input select
D10
0
Input
Input gain
D11 D12
Gain
Loudness
D13 D14 D15
Select address
D17
D16
INA
0
0
0dB
0
0
0
0
OFF
0
INB
1
0
1dB
1
0
0
0
ON
1
INC
0
1
2dB
0
1
0
0
IND
1
1
3dB
1
1
0
0
4dB
0
0
1
0
5dB
1
0
1
0
6dB
0
1
1
0
8dB
1
1
1
0
10dB
0
0
0
1
12dB
1
0
0
1
14dB
0
1
0
1
16dB
1
1
0
1
18dB
0
0
1
1
D18 D19
0
0
Note: It is set to 18dB upon any data
combination other than the above-mentioned.
13/26
BD3860K
Audio ICs
(4) Control data format ② setting table
Main volume
select
Main volume attenuation
D20
0
ATT
D21 D22 D23
D24 D25 D26
D27
−0dB
0
0
0
0
0
0
CH1
0
−1dB
1
0
0
0
0
0
CH2
1
−2dB
0
1
0
0
0
0
−3dB
1
1
0
0
0
0
−4dB
0
0
1
0
0
0
−5dB
1
0
1
0
0
0
−6dB
0
1
1
0
0
0
−7dB
1
1
1
0
0
0
−8dB
0
0
0
1
0
0
−9dB
1
0
0
1
0
0
−10dB
0
1
0
1
0
0
−11dB
1
1
0
1
0
0
−12dB
0
0
1
1
0
0
−13dB
1
0
1
1
0
0
−14dB
0
1
1
1
0
0
−15dB
1
1
1
1
0
0
−16dB
0
0
0
0
1
0
−17dB
1
0
0
0
1
0
−18dB
0
1
0
0
1
0
−19dB
1
1
0
0
1
0
−20dB
0
0
1
0
1
0
−21dB
1
0
1
0
1
0
−22dB
0
1
1
0
1
0
−23dB
1
1
1
0
1
0
−24dB
0
0
0
1
1
0
−25dB
1
0
0
1
1
0
−26dB
0
1
0
1
1
0
−27dB
1
1
0
1
1
0
−28dB
0
0
1
1
1
0
−29dB
1
0
1
1
1
0
−30dB
0
1
1
1
1
0
−32dB
1
1
1
1
1
0
−34dB
0
0
0
0
0
1
−36dB
1
0
0
0
0
1
−38dB
0
1
0
0
0
1
−40dB
1
1
0
0
0
1
−42dB
0
0
1
0
0
1
−44dB
1
0
1
0
0
1
−46dB
0
1
1
0
0
1
−48dB
1
1
1
0
0
1
−∞
0
0
0
1
0
1
Select address
D28 D29
1
0
Note: It is set to −∞ upon any data combination other than the above-mentioned.
14/26
BD3860K
Audio ICs
(5) Control data format ③ setting table
Bass, Treble
BBE ΙΙ select
Tone gain (Bass, Treble)
D31 D32 D33
Gain
D30
0
Select address
D35 D36
D34
0dB
0
0
0
0
Bass
0
0
2dB
1
0
0
0
Treble
1
0
4dB
0
1
0
0
1
1
1
0
0
BBE
OFF
0
6dB
8dB
0
0
1
0
BBE ON
1
1
10dB
1
0
1
0
12dB
0
1
1
0
14dB
1
1
1
0
0dB
0
0
0
1
−2dB
1
0
0
1
−4dB
0
1
0
1
−6dB
1
1
0
1
−8dB
0
0
1
1
−10dB
1
0
1
1
−12dB
0
1
1
1
−14dB
1
1
1
1
D37
D38 D39
0
0
1
BBEΙΙ gain
Gain
LOW
HIGH
(f=100Hz) (f=10kHz)
D31 D32 D33
D34
5dB
3dB
0
0
∗
∗
5dB
6dB
1
0
∗
∗
5dB
9dB
0
1
∗
∗
5dB
12dB
1
1
∗
∗
∗ is 0 or 1
15/26
BD3860K
Audio ICs
(6) Control data format ④ setting table
Fader volume attenuation
D40
0
ATT
D41 D42 D43
Fader select
D44 D45
Select address
D46 D47
0dB
0
0
0
0
0
CH1 Front
0
0
−2dB
1
0
0
0
0
CH2 Front
1
0
−4dB
0
1
0
0
0
CH1 Rear
0
1
−6dB
1
1
0
0
0
CH2 Rear
1
1
−8dB
0
0
1
0
0
−10dB
1
0
1
0
0
−12dB
0
1
1
0
0
−14dB
1
1
1
0
0
−16dB
0
0
0
1
0
−18dB
1
0
0
1
0
−20dB
0
1
0
1
0
−22dB
1
1
0
1
0
−24dB
0
0
1
1
0
−26dB
1
0
1
1
0
−28dB
0
1
1
1
0
−30dB
1
1
1
1
0
−32dB
0
0
0
0
1
−34dB
1
0
0
0
1
−36dB
0
1
0
0
1
−38dB
1
1
0
0
1
−40dB
0
0
1
0
1
−42dB
1
0
1
0
1
−44dB
0
1
1
0
1
−46dB
1
1
1
0
1
−48dB
0
0
0
1
1
−50dB
1
0
0
1
1
−52dB
0
1
0
1
1
−54dB
1
1
0
1
1
−∞
0
0
1
1
1
D48 D49
1
1
Note: It is set to −∞ upon any data combination other
than the above-mentioned.
16/26
BD3860K
Audio ICs
Control set up of tone control filter
(1) About bass filter
+
−
IN
R3
1
fO =
2π
R2
Q=
BNF1
BNF2
BOUT1
BOUT2
C1
R1
G = 20log
(HZ)
R1 (R2+R3) C1C2
R1R2C1C2
R1 (C1+C2)
(R2+R3) / R1+2
(dB)
R3 / R1+2
C2
∗ However C1=C2
Fig. 3
Standard value of R2, R3 (reference)
(At C1=C2, R1=3.3kΩ)
G
Bass burst
amount
Resistance (kΩ)
∗Typ.
R2
R3
0dB
0
28.45
2dB
7.22
21.23
4dB
12.94
15.51
6dB
17.70
10.75
8dB
21.41
7.04
10dB
24.34
4.11
12dB
26.64
1.81
14dB
28.45
0
G
fO
f
Fig. 4
∗ Actual burst amount may be dispositioned somewhat.
17/26
BD3860K
Audio ICs
(2) About treble filter
+
−
IN
OUT
fO =
1
R1
G = 20log
R2
TNF1
TNF2
Zc =
(HZ)
2πR2C
1
jωc
R1+R2+ZC
(dB)
R2+ZC
(Ω)
C
Fig. 5
Standard value of R2, R1 (reference)
G
Treble burst
amount
Resistance (kΩ)
∗Typ.
R1
R2
0dB
0
16.93
2dB
3.49
13.44
4dB
6.25
10.68
6dB
8.45
8.48
8dB
10.19
6.74
10dB
11.58
5.35
12dB
12.68
4.25
14dB
13.55
3.38
3dB
G
fO
f
Fig. 6
∗ Actual burst amount is dispositioned somewhat.
18/26
BD3860K
Audio ICs
+20
+10
+15
0
−5
+5
0
−5
−10
−10
−15
−15
−20
10
50 100
500 1k
5k 10k
VCC=9V
VIN=200mVrms
C=0.0047µF
+10
+5
GAIN (dB)
GAIN (dB)
+20
VCC=9V
VIN=200mVrms
R1=3.3kΩ
C1=C2=0.22µF
+15
−20
10
100k
50 100
500 1k
f(Hz)
5k 10k
100k
f(Hz)
Fig.7 Bass gain-frequency (reference)
characteristics
Fig.8 Treble gain-frequency (reference)
characteristics
Constant set up tone loudness filter
MAIN VOLUME
LOUDNESS
SW
−30dB tap
+
−
OUT
ON
OFF
6.8k(Typ.)
VIN1
VIN2
LOUD1
LOUD2
IN
R2
C2
C1
Setting for "fcl"
Setting for High frequency gain and "fch"
Setting for ATT of Main Volume
R1=6.8k
Fig.9
MAIN VOLTAGE
ATT
0dB
fcl=1/(2π×C1×R1)
Small
R2
fch=1/(2π×C2×R2)
3dB
Low Gain
14dB
Large
High Gain
3dB
−30dB
fcl
fch
f(Hz)
Fig.10
19/26
BD3860K
Audio ICs
The resistance R1 is used to set for attenuation of main volume at loudness ON. The resistance R1 should be the same
6.8kΩ with inside resistance 6.8kΩ (Typ.) of main volume −30dB tap at loudness OFF. Except this value, the attenuation
of main volume at loudness ON is wrong. In the low frequency fully less than “fcl”, the voltage gain is fixed on 14dB (Typ.)
by inside constant at attenuation −30dB of main volume. The resistance R2 and the capacitor C2 are used to set for the
characteristic in high frequency range. The voltage gain in high frequency range can be changed by the value of R2 like
the upper figure.
MAIN VOLUME
0dB
+0
−10dB
−10
ATT (dB)
VCC=9V, VIN=1Vrms
C1=0.1µF, R1=6.8kΩ
C2=470pF, R2=200kΩ
−20dB
−20
−30dB
−30
−40dB
−40
10
50 100
500 1k
5k 10k
100k
f(Hz)
Fig.11 Loudness gain-frequency (reference)
characteristics
BBEΙΙ explanation of operation
BBEΙΙ is a system. This processor treats a loudspeaker and amplifier as an integrated sound system and it exactly
reproduces the “rising edge of sound”, which characterizes the sound, though appropriate signal processing at a front
stage of amplifier input. This mechanism generates the playback sound almost like natural sound.
(1) Problem of sound playback in sound playback system
In the nature world, treble harmonics are produced first usually and then basic low-frequency wave is generated. This is
the same with an attacking part which characterizes various kinds of sounds of musical instruments. The character of
sound is expressed by the frequency upon rising edge of sound and the amplitude which forms an envelope. Therefore, it
is very important to express the rising edge of natural sound exactly upon reproducing the sound through sound playback
system. In the sound playback system of today, however, and unavoidable mismatch is made between a loudspeaker
and amplifier.
A transistor power amplifier operates as a constant voltage source because of negative feedback technology, while a
loudspeaker is a current device. Therefore, an unavoidable mismatch is made in the system. Moreover, the impedance
characteristic of loudspeaker various considerably depending on electric reactance of voice coil or mechanical reactance
of cone assembly. As a result, the rising edge of sound is distorted and a phase of playback sound is deflected.
Furthermore, increased treble impedance reduces the loudspeaker amplitude and harmonics. Therefore, treble
constituent is easy to masked by subsequent high-level middle range constituent and the rising edge of sound becomes
to hard to be reproduced so exactly.
20/26
BD3860K
Audio ICs
(2) Principle of operation
BBEΙΙ processes the signals to solve the above-mentioned problem of sound playback system as follows:
Phase correction
Low range
20
Mid range
150
High range
2.4k
20k
f(Hz)
Fig. 12
By dividing the input signal into three frequency bands, the bass (20Hz to 150Hz), middle range (150Hz to 2.4kHz) and
by combining them, the phase difference 180° is made between the bass and middle range and 360° between the bass
and treble.
Time delay characteristic in every frequency is adjusted through such phase difference and, therefore, the distortion of
rising edge of sound can be minimized.
Amplitude correction (Harmonic correction)
High-speed detector and high-performance VCA circuit controls the amplitude of treble constituent to keep appropriate
audibility balance at the treble which consists of harmonics. Correction value is decided by both operations at two kinds of
levels; one level is set up by serial control from an outside source and another one is obtained by detecting an input signal.
The amplitude of treble input into VCA is corrected by an internal control signal obtained through such operations. By this
amplitude correction, the harmonics is recovered and the definition level of musical instrument or voice can be enhanced.
Bass boost
The bass constituent is boosted to keep well balance to the treble constituent varying dynamically.
The boost is fixed to 5dB (Typ.) at f=100Hz by an internal circuit and it cannot be controlled externally.
21/26
BD3860K
Audio ICs
(3) Explanation of external constant
Characteristic of high frequency filter
Frequency characteristic at a maximum process control level is shown in the under-mentioned chart:
Gain
C1
C1 : Capacitor of VCA1-MIX1
Capacitor of VCA2-MIX2
C2 : Capacitor of MIX1-BBOUT1
Capacitor of MIX2-BBOUT2
C2
Large
Small
Small Large
Lo
Contour
Process
Control
f
Fig. 13
As shown in the above-mentioned chart, the cut-off frequency of treble constituent is decided by the external capacitors
C1 and C2. The frequency characteristic marked with a dotted line varies depending on this value. Balance of harmonics
changes and , therefore, it is an important parameter to decide the sound tone.
+14
+12
GAIN (dB)
+10
VCC=9V
VIN=200mVrms
VOL=0dB
C1=0.047µF
C2=470pF
PROCESS CONTROL
12dB (f=10kHz)
9dB
+8
6dB
+6
+4
+2
−0
3dB
LO CONTOUR
5dB (f=50Hz)
−2
−4
10
50 100
500 1k
5k 10k
100k
f(Hz)
Fig.14 BBEΙΙ gain-frequency (reference)
characteristics
Controls the amplitude of treble by input signal level
The attack and release time of controls the amplitude of treble can be decided by outside constant.
The pins are DET1 (Pin 28) and DET2 (Pin 26). The method of setting is the lower figure.
The input signal level started to control the amplitude of treble is fixed on about −40dBV (Typ.) by inside circuit. Therefor, it
cannot be change from outside pin.
22/26
BD3860K
Audio ICs
R1
20k
Attack Time : R1 × C
Release Time : R2 × C
DET1, DET2
+
C
R2
Fig. 15
VCC=9V
+14 f=10kHz
VOL=0dB
PROCESS12dB
+12 C=1µF
GAIN (dB)
+10
R2=1MΩ
PROCESS 9dB
+8
+6
PROCESS 6dB
+4
PROCESS 3dB
+2
BBE OFF
0
−2
−4
−50
−40
−30
−20
−10
0
VIN(dBV)
Fig.16 Process control-input
voltage (reference) characteristics
Time constant at switching ON/OFF
At switching ON/OFF, this IC is used to switching of time constant, for measuring against DC offset. The pin for setting is
DEF (Pin 27). The method of setting is the lower figure.
DEF
R=500k
T=C×R
C
Fig.17
23/26
BD3860K
Audio ICs
!Application example
0.22µ
470p
0.047µ
10µ
1µ
+
0.1µ
1µ
+
32
31
30
29
0.1µ
1M
1M
33
0.01µ
+
28
27
26
25
24
23
0.047µ
0.01µ
6.8k
34
22
35
21
470p
0.1µ
470p
200k
6.8k
10µ
+
36
20
37
19
0.0047µ
0.1µ
470p
200k
0.0047µ
18
38
+
+
10µ
10µ
BD3860K
39
A1
B1
C1
D1
+
10µ
0.22µ
3.3k
40
16
41
15
0.22µ
0.22µ
3.3k
+
10µ
+
10µ
42
14
43
13
0.22µ
OUTF1
+
10µ
+
10µ
17
12
44
OUTR1
+
10µ
1
+
2
+
10µ
A2
3
+
10µ
B2
4
+
10µ
C2
5
6
7
8
9
+
10µ
47µ
GND
D2
VCC
SI
10
11
+
+
10µ
10µ
OUTR2
OUTF2
SC
Fig.18
!Operation notes
1. About operation voltage supply range
Within operation voltage supply range, basic circuit function operation is guaranteed within operation ambient temp.
But please confirm set up of constant and element, voltage set up and temp set up on use.
2. About operation temp range
If it within recommended operation voltage range, circuit function operation is guaranteed within operation temp.
It corralled to conditions of power dissipation to temp.
Please watch out except condition stipulated by electrical characteristics within the range, It cannot guarantee standard
value of electrical characteristics. But it retains original function.
24/26
BD3860K
Audio ICs
3. About Application circuit
Example of application circuit drawing is convinced as recommendable, but please confirm characteristic including
above mentioned noticed. At use with modification of external constant, please decide with enough margin considering
distribution, ETC of this IC, external parts including quiescence characteristics and excessive characteristics. Please
note that we have not yet confirmed any concerned patent rights completely.
4. About power on reset
At on of supply voltage circuit made initialization inside IC is built-in. To be concrete, setting is made so that the
following table. Please send data to all address as initial data at supply voltage on. And please supply mute at set side
until this initial data is sent.
Function
Initial condition
Input selector
INA
Input gain
0dB
Loudness
OFF
Main volume
−∞dB
Bass gain
0dB
Treble gain
0dB
BBE ΙΙ
OFF
Fader volume
−∞dB
5. About 2-wire serial control
High-frequency digital signal is inputted into the SC terminal and SI terminal. So wire and print patterns suitably to
prevent interference to analog signal system line.
6. About muting
When the attenuation of main volume is changed from −48dB to −∞dB, it maybe occur pop noise caused by DC offset.
Therefor, to prevent it, please mute by fader volume first of all, and then mute by main volume.
Conversely, when the muting is released, please by main volume first of all, and then release by fader volume.
7. About the license of BBE Sound Inc.
This IC is manufactured according to the license of BBE Sound Inc. Upon using it, the license agreement with BBE
Sound Inc. is required.
8. About setting of main volume in using BBEΙΙ
Controls the amplitude of treble of BBEΙΙ are motioned by detecting the signal level after main volume. Therefor, when
the signal is attenuated less than about −40dBV (Typ.) in main volume, controls the amplitude of treble cannot be
motioned. To attenuation that dose not spoil the controls the amplitude of treble, please use fader volume.
25/26
BD3860K
Audio ICs
9. About relation between BBE and the other audio parameter
When BBE is ON, please use all flat of tone and loudness. And when you use other processor (SRS/Spatializer/QSound etc.), please plan that BBE places in later in later position. When you use Dolby-Surround or Dolby-ProLogic, it
is no problem that BBE places in first position to reduce numbers of channels. But if you cannot apply to Dolby lab.
For permission, BBE places in later position.
!External dimensions (Units : mm)
14.0 ± 0.3
10.0 ± 0.2
23
22
44
12
2.15 ± 0.1
0.05
1
0.8
11
0.35 ± 0.1
1.2
14.0 ± 0.3
10.0 ± 0.2
33
34
0.15 ± 0.1
0.15
QFP44
26/26
Appendix
Notes
No technical content pages of this document may be reproduced in any form or transmitted by any
means without prior permission of ROHM CO.,LTD.
The contents described herein are subject to change without notice. The specifications for the
product described in this document are for reference only. Upon actual use, therefore, please request
that specifications to be separately delivered.
Application circuit diagrams and circuit constants contained herein are shown as examples of standard
use and operation. Please pay careful attention to the peripheral conditions when designing circuits
and deciding upon circuit constants in the set.
Any data, including, but not limited to application circuit diagrams information, described herein
are intended only as illustrations of such devices and not as the specifications for such devices. ROHM
CO.,LTD. disclaims any warranty that any use of such devices shall be free from infringement of any
third party's intellectual property rights or other proprietary rights, and further, assumes no liability of
whatsoever nature in the event of any such infringement, or arising from or connected with or related
to the use of such devices.
Upon the sale of any such devices, other than for buyer's right to use such devices itself, resell or
otherwise dispose of the same, no express or implied right or license to practice or commercially
exploit any intellectual property rights or other proprietary rights owned or controlled by
ROHM CO., LTD. is granted to any such buyer.
Products listed in this document use silicon as a basic material.
Products listed in this document are no antiradiation design.
The products listed in this document are designed to be used with ordinary electronic equipment or devices
(such as audio visual equipment, office-automation equipment, communications devices, electrical
appliances and electronic toys).
Should you intend to use these products with equipment or devices which require an extremely high level of
reliability and the malfunction of with would directly endanger human life (such as medical instruments,
transportation equipment, aerospace machinery, nuclear-reactor controllers, fuel controllers and other
safety devices), please be sure to consult with our sales representative in advance.
About Export Control Order in Japan
Products described herein are the objects of controlled goods in Annex 1 (Item 16) of Export Trade Control
Order in Japan.
In case of export from Japan, please confirm if it applies to "objective" criteria or an "informed" (by MITI clause)
on the basis of "catch all controls for Non-Proliferation of Weapons of Mass Destruction.
Appendix1-Rev1.0