HITACHI HA12167FB

HA12167FB/HA12169FB
Audio Signal Processor for Cassette Deck (Deck 1 Chip)
ADE-207-110B (Z)
3rd. Edition
June 1997
Description
HA12167FB/HA12169FB is silicon monolithic bipolar IC providing REC volume system, Level meter
system and Dolby noise reduction system in one chip.
Functions
• REC equalizer
× 2 channel
• Equalizer volume
× 2 channel
• Dolby B/C NR
× 2 channel
• REC/PB input electronic volume
× 2 channel
• Level Meter
× 2 channel
• DAC for adjusting bias
× 2 channel
Features
• Available to create characteristics of REC equalizer by changing external resistor, no coil
• Equalizer volume is available to calibrate recording automatically with micro-controller
• Electronic volume built-in is available to set the level of recording and play back automatically with
micro-controller
• 4 types of input (3 out of 4 are by way of electronic volume)
• Input electronic control switching is irrelevant to REC/PB electronic control switching
• Dolby noise reduction system is available with double cassette decks (Unprocessed signal output
available from recording out terminals during PB mode)
• Log-compressed level meter output is range from 0 V to 5 V (Usable as music search switchable gain of
0 dB and 20 dB respectively)
• Normal-speed/high-speed, normal/metal/chrome fully electronic control switching built-in
• NR-ON/OFF, Dolby B/C, MPX ON/OFF fully electronic control switching built-in
• Reduction of the number of pins by transfered serial data to electronic volume control switching and
another control switching (Controllable from micro-controller directly)
• Small the number of external parts
HA12167FB/HA12169FB
Ordering Information
Operating Voltage
Type
Package
PB-OUT Level
REC-OUT Level Dolby Level
Min
Max
HA12167FB
QFP-80
775 mVrms
300 mVrms
12.0 V
15.0 V
HA12169FB
(14 × 14)
580 mVrms
11.0 V
15.0 V
*
300 mVrms
Dolby is a trademark of Dolby Laboratories Licensing Corporation.
A license from Dolby Laboratories Licensing Corporation is required for the use of this IC.
Rev.3, Jun. 1997, page 2 of 73
HA12167FB/HA12169FB
Pin Description (VCC = 14 V, Ta = 25°C, No signal, The value in the show typical value.)
Pin No.
(QFP-80)
Terminal
Name
Zin
DC Voltage
65
RPI
100 kΩ
VCC/2
LM IN
100 kΩ
Level meter input
EQ IN
100 kΩ
Equalizer input
Equivalent Circuit
Description
Recording input
76
9
52
12
49
66, 67, 69 VRI
100 kΩ
VCC/2 + 0.7 V
Volume input
72, 74, 75
30, 31
VCC
—
VCC
—
Power supply
77
REF
—
VCC/2
—
Ripple filter
62
NR IN
—
VCC/2
NR processor
input
SS 1
—
VCC/2
Spectral skewing
amp input
CCR
—
VCC/2
Current controlled
resistor output
79
3
58
5
56
Rev.3, Jun. 1997, page 3 of 73
HA12167FB/HA12169FB
Pin Description (VCC = 14 V, Ta = 25°C, No signal, The value in the show typical value.)
(Cont)
Pin No.
(QFP-80)
Terminal
Name
Zin
DC Voltage
63
IA OUT
—
VCC/2
Equivalent Circuit
VCC
Description
Input amp output
GND
78
61
VREF
Reference voltage
80
2
buffer output
PB OUT
Play back
59
4
(Decode) output
SS 2
Spectal skewing
57
8
amp. output
REC OUT
Recording
53
15
(Encode) output
EQ OUT
Equalizer output
46
1
TP
1.5 kΩ
VCC/2
HLS DET
—
2.3 V
+
–
Bias trap terminal
60
6
55
7
LLS DET
54
Rev.3, Jun. 1997, page 4 of 73
Time constant pin
for rectifier
HA12167FB/HA12169FB
Pin Description (VCC = 14 V, Ta = 25°C, No signal, The value in the show typical value.)
(Cont)
Pin No.
(QFP-80)
Terminal
Name
Zin
DC Voltage
64
BIAS
—
0.28 V
Equivalent Circuit
Description
Dolby NR
reference current
input
GND
14
IREF
—
27
MF
EQ parameter
26
fQ
current input
25
f/Q
24
GH
23
GL
22
GP
35
BIAS ADJ (N) —
36
BIAS ADJ (M)
parameter current
37
BIAS ADJ (C)
input
21
HM
—
1.2 V
EQ reference
current input
1.2 V
Bias DAC
—
EQ parameter
selector
GND
20
HC
19
HN
18
NM
17
NC
16
NN
Rev.3, Jun. 1997, page 5 of 73
HA12167FB/HA12169FB
Pin Description (VCC = 14 V, Ta = 25°C, No signal, The value in the show typical value.)
(Cont)
Pin No.
(QFP-80)
Terminal
Name
Zin
DC Voltage
68
CONT
3.3 kΩ
VCC/2 – 1.5 V
to VCC/2
Equivalent Circuit
Description
DAC output
volume control
input
VCC /2
DAC
OUT
73
13
EQ CONT
1.65 kΩ
LM DET
—
48
10
0.2 V
LM
OUT
Time constant pin
for level meter
GND
LM DET
51
11
LM OUT
—
0.2 V
Level meter output
NR ON/OFF
100 kΩ
—
Mode control time
constant
50
45
GND
44
C/B
43
MPX
Rev.3, Jun. 1997, page 6 of 73
HA12167FB/HA12169FB
Pin Description (VCC = 14 V, Ta = 25°C, No signal, The value in the show typical value.)
(Cont)
Pin No.
(QFP-80)
Terminal
Name
Zin
DC Voltage
42
RESET
100 kΩ
—
Equivalent Circuit
Description
Mode control input
D•GND
GND
41
STB
40
DATA
39
CLK
38
INJ
—
0.7 V
—
Injection current
2
input I L
47
D-GND
—
0.0 V
—
Digital (Logic)
ground
70
GND
—
0.0 V
—
Ground
BIAS CONT
—
—
71, 34
28
VCC
Bias DAC output
GND
33
29
DAC OUT
—
—
VCC
Bias DAC buffer
out
GND
32
Rev.3, Jun. 1997, page 7 of 73
Rev.3, Jun. 1997, page 8 of 73
67
68
69
VRI 2 (L)
CONT (L)
VRI 1 (L)
76
77
78
RPI (R)
REF
IA OUT (R)
80
75
VRI 3 (R)
Vref (R)
74
VRI 2 (R)
79
73
CONT (R)
NRIN (R)
72
71
VRI 1 (R)
MPX
66
VRI 3 (L)
GND
65
RPI (L)
70
64
BIAS
62
63
MPX
61
IA OUT (L)
NRIN (L)
Vref (L)
1
60
SS1
(R)
3
5
56
54
53
52
6
7
8
9
DOLBY B/C NR
DOLBY B/C NR
55
10
51
11
50
+
–
–
+
SS2 CCR HLS LLS REC LM LM LM
(R) (R) DET DET OUT IN DET OUT
(R) (R) (R) (R) (R) (R)
4
E. VOL
6BIT
DAC
TP PBOUT
(R) (R)
2
IA
57
E. VOL
58
6BIT
DAC
IA
59
TP PBOUT
(L)
(L)
SS1
(L)
BIAS
TRAP
BIAS
TRAP
48
EQ
IN
(R)
12
14
EQ
OUT
(R)
15
REC
EQ
5BIT
DAC
EQ
VOL
46
REC
EQ
5BIT
DAC
EQ
VOL
47
IREF
EQ
CONT
(R)
13
RECT
LMA
LMA
RECT
49
EQ
IN
(L)
18
43
41
19
20
IIL
LOGIC
42
NC NM HN HC
6BIT
DAC
6BIT
DAC
SW
44
17
NN
16
45
EQ
EQ
CONT
OUT NR
(L)
(L) ON/
RESET
OFF C/B MPX
D-GND
STB
EQ-CONTROLER
HLS LLS REC LM LM LM
SS2 CCR DET DET OUT IN DET OUT
(L) (L) (L) (L) (L) (L) (L) (L)
BIAS ADJ (C)
BIAS ADJ (M)
BIAS ADJ (N)
GND
BIAS CONT (L)
DAC OUT (L)
37
36
35
34
33
32
FM
INJ
38
21
22
23
24
25
26
HM
GP
GL
GH
f/Q
fQ
BIAS CONT (R)
28
27
DAC OUT (R)
29
30
VCC
CLK
39
31
DATA
40
HA12167FB/HA12169FB
Block Diagram
HA12167FB/HA12169FB
Absolute Maximum Ratings
Item
Symbol
Rating
Unit
Supply voltage
VCC max
15
V
Power dissipation
Pd
750
mW
Operating temperature
Topr
–30 to +75
°C
Storage temperature
Tstg
–55 to +125
°C
Note
1
Note: For Ta is higher than 65°C, reduce Pd at the rate of 12.5 mW/°C.
Please, see the below graph.
[mW]
750
625
Pd
–30
65
Ta
75
[˚C]
Rev.3, Jun. 1997, page 9 of 73
Symbol Min
Typ
MPX NR
B/C
REC
Input
Tape
Input EQ Bias fin
OUT
Pin Meter Speed Tape DAC DAC DAC [Hz] Level
Output
R
L
R
L
———– ———–
Input
Note
IQ
—
34.5 42.0 mA
PB
PV
OFF OFF B
VRI1 NOR NOR NOR 32
0
0
—
—
No signal
—
—
—
—
30
31
GV IA
RPI
18.5 20.0 21.5 dB
REC RV
ON
OFF B
RPI
NOR NOR NOR 63
0
0
1k
0
76
65
78
63
Rev.3, Jun. 1997, page 10 of 73
4.3
5.8
B-ENC 1.7
-5 k
3.2
4.7
————————–
B-ENC 2.8
-2 k
dB
ON
OFF B
→ ON
RPI
NOR NOR NOR 63
0
0
2k
–20
76
65
8
53
REC RV
ON
OFF B
→ ON
RPI
NOR NOR NOR 63
0
0
5k
–20
76
65
8
53
———————————————————————————————————————————–
REC RV
5.9
7.9
ON
OFF C
→ ON
RPI
NOR NOR NOR 63
0
0
1k
–20
76
65
8
53
11.8
13.8
REC RV
ON
OFF C
→ ON
RPI
RPI
NOR NOR NOR 63
NOR NOR NOR 63
0
0
0
0
700
1k
–30
–60
76
65
8
53
76
65
8
53
———————————————————————————————————————————–
C-ENC 9.8
-700
OFF C
→ ON
————————–
ON
———————————————————————————————————————————–
REC RV
REC RV
dB
C-ENC 18.1 19.6 21.6
-1 k (2)
————————–
C-ENC 3.9
-1 k (1)
VO Max 12.0 13.0 —
dB
REC RV
ON
ON
C
RPI
NOR NOR NOR 63
0
0
1k
—
76
65
8
53
1
dB
REC RV
ON
ON
C
RPI
NOR NOR NOR 63
0
0
—
—
Rg = 5.1 kΩ
CCIR/ARM
76
65
8
53
THD (C) —
0.08 0.3
%
REC RV
ON
ON
C
RPI
NOR NOR NOR 63
0
0
1k
0
76
65
8
53
–85.0 –79.0 dB
–80.0 –74.0
CT
—
(VRI1
←→ RPI)
–80.0 –74.0
————————–
CT
—
(VRI1
←→ VRI2)
————————–
CT
—
(R←→ L)
ON
OFF B
VPI1 NOR NOR NOR 0
0
0
1k
6
72
69
8
53
ON
OFF B
VRI1 NOR NOR NOR 0
←→
VRI2
0
0
1k
6
72/
74
69/
67
2
59
REC RV
ON
OFF B
VRI1 NOR NOR NOR 0/63 0
←→
RRI
0
1k
6
72/
76
69/
65
2
59
———————————————————————————————————————————–
REC RV
———————————————————————————————————————————–
REC RV
———————————————————————————————————————————————————————————
Crosstalk
———————————————————————————————————————————————————————————
T.H.D.
———————————————————————————————————————————————————————————
Signal to noise S/N (C) 60.0 63.0 —
ratio
———————————————————————————————————————————————————————————
Signal handling
———————————————————————————————————————————————————————————
C-typ
encode
boost
———————————————————————————————————————————————————————————
B-type
encode
boost
———————————————————————————————————————————————————————————
Input amp.
gain
———————————————————————————————————————————————————————————
Quiescent
current
——————————————————————————————————————————————————————————————————–
Item
REC RV
Max Unit /PB /PV
——————–
Specification
Application Terminal
————————————————————————————————————— —————————
Test Conditions
HA12167FB/HA12169FB
Electrical Characteristics (Ta = 25°C, VCC = 14 V, Dolby Level 300 mVrms at
RECOUT)
Symbol Min
Typ
MPX NR
B/C
REC
Input
Tape
Input EQ Bias fin
OUT
Pin Meter Speed Tape DAC DAC DAC [Hz] Level
Output
R
L
R
L
———– ———–
Input
Note
—
—
—
—
—
—
—
—
—
—
—
—
—
—
CLK, DATA,
—
—
—
—
—
—
—
—
—
—
—
—
—
—
———————————————————————————– STB
—
—
—
—
—
—
—
—
——————–
39
40
41
——–
Vout
500
580
670
665
775
900
—————–
mVrms REC RV
ON
OFF B
RPI
NOR NOR NOR 63
0
0
1k
0
High
Low
HA12169
HA12167
76
65
2
59
Vofs
–100 0.0
+100 mV
PB
PV
OFF OFF C
→ ON
RPI
NOR NOR NOR 63
0
0
—
—
No signal
—
—
2
59
2
–1.0 0.0
1.0
dB
—
—
—
—
—
—
—
—
—
—
—
—
—
—
76
65
78
63
REC RV
ON
OFF B
VRI1 NOR NOR NOR 0
0
0
1k
—
Vin = 100 mVrms 72
69
78
63
GVrec VR –56.0 –50.0 –47.0 dB
(Min)
REC RV
ON
OFF B
VRI1 NOR NOR NOR 62
0
0
1k
—
Vin = 2 Vrms
72
69
78
63
——————————————————————————————————————————————————————
GVrec VR 17.5 19.1 21.5 dB
(Max)
PB
PV
ON
OFF B
VRI1 NOR NOR NOR 0
0
0
1k
—
Vin = 100 mVrms 72
69
78
63
PB
PV
ON
OFF B
VRI1 NOR NOR NOR 62
0
0
1k
—
Vin = 100 mVrms 72
69
78
63
CTrec VR —
(MUT)
–82
–75
dB
REC RV
ON
OFF B
VRI1 NOR NOR NOR 63
0
0
1k
—
Vin = 2 Vrms
72
69
2
59
12.0 —
dBS REC RV
ON
OFF B
VRI1 NOR NOR NOR 42
0
0
1k
—
THD = 1%
72
69
2
59
dB
REC RV
ON
OFF B
VRI1 NOR NOR NOR —
0
0
(1 k) 0
Vin = 100 mVrms 72
Rg = 5.1 k, A-WTG
69
2
59
3
THD (VR) —
0.04 0.3
%
REC RV
ON
OFF B
VRI1 NOR NOR NOR —
0
0
1k
0
Vin = 100 mVrms 72
69
2
59
3
———————————————————————————————————————————————————————————
T.H.D. of REC
volume
———————————————————————————————————————————————————————————
Signal to noise S/N (VR) 78.0 84.0 —
ratio of REC
volume
———————————————————————————————————————————————————————————
REC volume max Vin max 11.0
input level
(VR)
———————————————————————————————————————————————————————————
REC volume
mute level
———————————————————————————————————————————————————————————
GV PB VR 15.0 17.0 19.0 dB
(Min)
——————————————————————————————————————————————————————
PB volume gain GV PB VR 27.0 29.0 31.0 dB
(Max)
———————————————————————————————————————————————————————————
REC volume
gain
———————————————————————————————————————————————————————————
Channel balance ∆Gv
———————————————————————————————————————————————————————————
PB-out of fset
———————————————————————————————————————————————————————————
PBoutput
level
———————————————————————————————————————————————————————————
Serial digital
VSH
4.0 —
5.3 V
input level ——————————
VSL
–0.2 —
1.0
——————————————————————————————————————————————————————————————————–
Item
REC RV
Max Unit /PB /PV
——————–
Specification
Application Terminal
————————————————————————————————————— —————————
Test Conditions
HA12167FB/HA12169FB
Electrical Characteristics (Ta = 25°C, VCC = 14 V, Dolby Level 300 mVrms at
RECOUT) (Cont)
Rev.3, Jun. 1997, page 11 of 73
Symbol Min
Typ
MPX NR
B/C
REC
Input
Tape
Input EQ Bias fin
OUT
Pin Meter Speed Tape DAC DAC DAC [Hz] Level
Output
R
L
R
L
———– ———–
Input
Note
23.5 25.5 27.5 dB
23.5 25.5 27.5
Rev.3, Jun. 1997, page 12 of 73
25.0 27.0 29.0
31.0 33.5 36.0
ON
OFF B
RPI
NOR NOR NOR 63
0
0
500
—
Vin = –32 dBs
12
49
15
46
ON
OFF B
RPI
NOR NOR NOR 63
0
0
1k
—
Vin = –32 dBs
12
49
15
46
ON
OFF B
RPI
NOR NOR NOR 63
0
0
5k
—
Vin = –32 dBs
12
49
15
46
REC RV
ON
OFF B
RPI
NOR NOR NOR 63
0
0
12 k —
Vin = –32 dBs
12
49
15
46
———————————————————————————————————————————–
REC RV
———————————————————————————————————————————–
REC RV
———————————————————————————————————————————–
REC RV
8
10
dB
REC RV
ON
OFF B
RPI
NOR NOR NOR 63
0/30 0
1k
—
Vin = –32 dBs
12
49
15
46
dBS REC RV
ON
OFF B
RPI
NOR NOR NOR 63
16
0
1k
—
THD = 1%
12
49
15
46
—
–75
–62
dB
REC RV
ON
OFF B
RPI
NOR NOR NOR 63
31
0
1k
—
Vin = –9 dBs
1 kHz BPF
12
49
15
46
dB
REC RV
ON
OFF B
RPI
NOR NOR NOR 63
0
0
—
—
Rg = 5.1 kΩ,
A-WTG
12
49
15
46
0.2
0.5
%
REC RV
ON
OFF B
RPI
NOR NOR NOR 63
16
0
1k
—
Vin = –26 dBs
12
49
15
46
+400 mV
REC RV
OFF OFF B
RPI
NOR NOR NOR 63
0
0
—
—
No signal
—
—
15
46
4
2.50 2.75 3.00 V
REC RV
ON
OFF B
RPI
NOR NOR NOR 63
0
0
1k
0
9
52
11
50
REC RV
ON
OFF B
RPI
NOR NOR NOR 63
0
0
1k
12
9
52
11
50
REC RV
ON
OFF B
RPI
NOR NOR NOR 63
0
0
1k
–20
9
52
11
50
LM
2.45 2.75 3.05 V
(–20 dB) 2
REC RV
ON
OFF B
RPI
20 dB NOR NOR 63
0
0
1k
–20
9
52
11
50
——————————————————————————————————————————————————————
LM
0.70 1.00 1.30 V
(–20 dB) 1
——————————————————————————————————————————————————————
LM
3.55 3.85 4.15 V
(12 dB)
——————————————————————————————————————————————————————
LM
(0 dB)
———————————————————————————————————————————————————————————
Level meter
output
———————————————————————————————————————————————————————————
Equalizer of fset Vofs (EQ) –400 0.0
———————————————————————————————————————————————————————————
THD of equalizer THD (EQ) —
———————————————————————————————————————————————————————————
Signal to noise S/N (EQ) 57.0 62.0 —
radio of equalizer
———————————————————————————————————————————————————————————
Equalizer volume GV EQ
mute gain
(MUT)
———————————————————————————————————————————————————————————
Equalizer max Vin Max –10.0 –9.0 —
input level
(EQ)
———————————————————————————————————————————————————————————
Equalizer volume ∆GV EQ 6
variable a range (1 k)
———————————————————————————————————————————————————————————
GVEQ
(12 k)
————————–
GVEQ
(5 k)
————————–
GVEQ
(1 k)
————————–
Equalizer gain GVEQ
(500)
——————————————————————————————————————————————————————————————————–
Item
REC RV
Max Unit /PB /PV
——————–
Specification
Application Terminal
————————————————————————————————————— —————————
Test Conditions
HA12167FB/HA12169FB
Electrical Characteristics (Ta = 25°C, VCC = 14 V, Dolby Level 300 mVrms at
RECOUT) (Cont)
Symbol Min
Typ
MPX NR
B/C
REC
Input
Tape
Input EQ Bias fin
OUT
Pin Meter Speed Tape DAC DAC DAC [Hz] Level
Output
R
L
R
L
———– ———–
Input
Note
ON
OFF B
RPI
NOR NOR NOR 63
0
0
—
—
No signal
—
—
11
50
REC RV
ON
OFF B
RPI
20 dB NOR NOR 63
0
0
—
—
No signal
—
—
11
50
———————————————————————————————————————————–
REC RV
12.0 13.0 V
REC RV
OFF OFF B
VRI1 NOR NOR MET 63
0
63
—
—
—
—
29
32
—
0.5
1.0
V
REC RV
OFF OFF B
VRI1 NOR NOR MET 63
0
0
—
—
—
—
29
32
Note: 1. HA12167: VCC = 12 V
HA12169: VCC = 11 V
2. VCC = 15 V
3. Adjust the input volume to Dolby level.
4. VCC = 15 V
——————————————————————————————————————————————————————————————————–
DAC output Min VB Min
———————————————————————————————————————————————————————————
DAC output Max VB Max 11.0
———————————————————————————————————————————————————————————
Level meter of LMofs 1 —
150 300 mV
fset
————————–
LMofs 2 —
200 350
——————————————————————————————————————————————————————————————————–
Item
REC RV
Max Unit /PB /PV
——————–
Specification
Application Terminal
————————————————————————————————————— —————————
Test Conditions
HA12167FB/HA12169FB
Electrical Characteristics (Ta = 25°C, VCC = 14 V, Dolby Level 300 mVrms at
RECOUT) (Cont)
Rev.3, Jun. 1997, page 13 of 73
0.47µ
R36
5.1k
+
72
C35
71
74
75
R37
10k
R38
10k
R39
5.1k
64
77
C40
1µ
+
C39
76
C37
C38
C39
C36
0.47µ 0.47µ 0.47µ
1µ
+
+
+
+
73
65
VRI2(L)
VRI2(R)
66
VRI3(L)
VRI3(R)
67
RPI(L)
RPI(R)
68
63
62
R40
2.4k
78
79
IAOUT(L)
IAOUT(R)
69
R41
5.6k
R1
10k
1
60
80
61
Vref(L)
Vref(R)
70
NR IN(L)
NR IN(R)
R29
5.6k
TP(L)
TP(R)
R30
2.4k
59
+
2
3
C1
2.2µ
2200p
56
C26
2200p
57
560
R26
4
5
R3
C4
560 2200p
2200p
C2 C3
R2
22k
58
C27 C28
R27
22k
SS1(L)
SS1(R)
R31
18k
SS2(L)
SS2(R)
+
C30
0.47µ
CCR(L)
CCR(R)
+
+
+
C33
C32
C31
1µ
0.47µ 0.47µ
55
C25
0.1µ
54
C24
0.1µ
C5
0.1µ
6
7
R78
12k
C6
0.1µ
HLSDET(L)
HLSDET(R)
+
C34
0.47µ
LLSDET(L)
LLSDET(R)
C7
2.2µ
53
+
C23
2.2µ
52
C22
0.1µ
51
+
50
R22
51k
48
+
C19
1µ
C20
0.47µ
49
+
C8
0.1µ
R5
7.5k
R4
47k
8
+
9
10
C9 R6
1µ 100k
+
11
R7
51k
HA12167/HA12169 (REC 1 CHIP)
13
C10
C11
0.47µ
+ 1µ
12
+
47
Digital
GND
R8
24k
14
46
+
C18
2.2µ
R21
10k
R9
10k
15
C12
+ 2.2µ
43
+
C15
4.7µ
R80
22k
42
41
R20
22k
10P
40
R19
22k
16
17
18
19
22
33k
33k
R70
R64
R58
R76
23
R77
R71
R65
R59
R53
R47
37
R16
24k
R52
38
R17
1.2k
R46
+5V
10P
C45
39
R18
22k
10P
C46
21
44
+
C16
4.7µ
C47
20
45
+
C17
4.7µ
4
NR ON/OFF
NN
C21 R23
1µ 100k
C/B
NC
2200p 2200p
R24
47k
MPX
NM
R32
5.1k
RESET
NH
R33
10k
STB
HC
R34
10k
DATA
HM
R25
7.5k
CLK
GP
R79
12k
INJ
GL
C29
2.2µ
36
R15
20k
35
R14
33k
24
33k
R75
R69
R63
R57
R51
R45
25
51k
R74
R68
R62
R56
R50
R44
R49
R43
51k
R73
R67
R61
R55
26
BIAS ADJ(C)
GH
+
BIAS ADJ(M)
f/Q
R28
10k
BIAS ADJ(N)
fQ
R35
5.1k
GND
GND
VRI1(L)
VRI1(R)
CONT(L)
CONT(R)
BIAS
REF
PB OUT(L)
PB OUT(R)
RECOUT(L)
RECOUT(R)
DGND
IREF
LMIN(L)
LMIN(R)
EQOUT(L)
EQOUT(R)
LMDET(L)
LMDET(R)
34
GND
33
+
R13
100k
R72
R66
R60
R54
R48
R42
100k
27
FM
LMOUT(L)
LMOUT(R)
BIAS CONT(L)
32
C14
1µ
R12
10k
29
AGND
C13 R10
1µ 100k
+
28
BIAS CONT(R)
EQIN(L)
EQIN(R)
DAC OUT(L)
DAC OUT(R)
EQCONT(L)
EQCONT(R)
31
VCC
Rev.3, Jun. 1997, page 14 of 73
DGND
R11
10k
30
VCC
MODE
CONTROLLER
VCC
C41
100µ
+
HA12167FB/HA12169FB
Test Circuit
R10
510
C5
120P
1MHz
C4
30P
C
D
IC No.
1
2, 10
3, 5, 6, 7, 12
4
8, 9
11
B
E
D11 IC9
G
TTL Type
74HC221
74HC00
74HC74
74HC393
74HC165
74HC04
F
H
CLK
N13 IC11
R9
X'tal 1M
N12 IC11
X'tal OSC
+
C3
100µ
R11 R12 R13 R14 R15 R16
22k
22k 22k
22k 22k
22k
L
I
N
J
M
K
IC 1
SW14 SW13 SW12 SW11 SW10 SW9
A
R25
22k
SW15
R1
22k
R2
22k
GND
CLK
INHI
BIT
Q
Q
CLR
+
R3
1M
QH
Z
Q
Q
CLR
D1 IC3
D
PR
D
500kHz
250kHz
125kHz
Q
R5
22k
SW17
MCLK
D2 IC3
Q
CLR
PR
62.5kHz
R9
22k
B
C
Pin Name
CN2
A
B
C
D
A
CN3
I
J
K
L
D
E
SW7 SW6 SW5 SW4
G
D10 IC8
Pin No.
5
6
7
8
F
D
QH
IC1
N5 IC10
D
Q
QA
D
Q
Q
CLR
PR
D7 IC5
R7
22k
N8 IC10
D9
IC7
Q
CLR
PR
CLR
D15 IC12
Q
CLR
PR
Q
SW16
R6
22k
N9 IC11
SHIFT Serial
LOAD
.IN
R26
22k
CN3
M
N
Z
GND
BIT
CLK INHI
CLK
N1 IC2
N8 IC11
Pin Name
CN2
E
F
G
H
H
SW3 SW2 SW1
R17 R18 R19 R20 R21 R22 R23 R24
22k 22k
22k 22k 22k 22k 22k
22k
B
D
H
G
F
E
C
A
QD
SW8
QC
D12 IC4
JP2
Pin No.
1
2
3
4
QH
SHIFT Serial
LOAD
.IN
CLR
QA QB
TRIGGER
C1
2.2µ
VCC(+5V)
D
Q
Q
CLR
PR
QB
D6 IC5
D
Q
QC
Q
CLR
PR
D13 IC4
Q
D
Q
D
Q
QD
Q
Pin No.
1
2
3
4
5
6
2
4
3
5
6
1
Pin Name
RST
DATA
CLK
STB
VCC
GND
Output connector CN1
N7 IC10
N4 IC2
N11 IC11
D3 IC12
JP1
N6 IC10
Q
CLR
N3 IC2
D
D4 IC6 PR
R28
22k
D4 IC7
R29
22k
R27
22k
D10
IC11
N2 IC2
Q
CLR
PR
R8
1M
Q
CLR
PR
D5 IC6
Q
CLR
C2
2.2µ +
DATA
STB
CLK
VCC
GND
RST
HA12167FB/HA12169FB
Mode Controller
Rev.3, Jun. 1997, page 15 of 73
Rev.3, Jun. 1997, page 16 of 73
–30
–25
–20
–15
–10
–5
0
RPI
VRI 3
VRI 2
VRI 1
–24.3
dBs
RPI
VRI*
–0.4dBs
–25.2dBs
43mVrms
E. VOL
IA
–5.2dBs
IAOUT
6k
2.4k
14k
NRIN
MPX
1.5k
TP
–2.5dBs
HA12169
HA12167
0dBs
DOLBY - NR
PBOUT
BIAS TRAP
300mVrms
–8.2dBs
580mVrms
775mVrms
+
RECOUT
–26dBs
E. VOL
REC EQ
0dBs = 775mVrms
EQIN
+
* Input limit of VRI is more than 12dB on Vo max, and not variable range.
–8.2dBs
VREF
5.6k
–9dBs
–5dBs
–1dBs
EQOUT
HA12167FB/HA12169FB
Level Diagram
REC Mode (1 kHz NR-OFF)
–35
–30
–25
–20
–15
–10
–5
0
–34.2
dBs
VRI
–28.2
dBs
RPI
–22.2dBs
RPI
VRI 3
VRI 2
VRI 1
43mVrms
–25.2
dBs
E. VOL
IA
–5.2dBs
IAOUT
6k
2.4k
14k
NRIN
MPX
1.5k
TP
–8.2dBs
VREF
5.6k
(HA12169)
–2.5dBs
(HA12167)
0dBs
DOLBY - NR
PBOUT
BIAS TRAP
300mVrms
–8.2dBs
580mVrms
775mVrms
+
RECOUT
EQIN
+
REC EQ
0dBs = 775mVrms
–26dBs
E. VOL
–9dBs
–5dBs
–1dBs
EQOUT
HA12167FB/HA12169FB
PB Mode (1 kHz NR-OFF)
Rev.3, Jun. 1997, page 17 of 73
HA12167FB/HA12169FB
Application Note
Power Supply Range
HA12167FB/HA12169FB are designed to operate on either single supply or split supply.
The operating range of the supply voltage is shown in table 1.
Table 1
Supply Voltage
Type No.
Single Supply
Split Supply
HA12167FB
12 V to 15 V
±6.0 V to 7.5 V
HA12169FB
11 V to 15 V
±6.0 V to 7.5 V
The lower limit of supply voltage depends on the line output reference level.
The minimum value of the overload margin is specified as 12 dB by Dolby Laboratories. HA12167 series
are provided with two line output level, which will permit an optimum overload margin for power supply
conditions.
Reference Voltage
For the single supply operation these devices provide the reference voltage of half the supply voltage that is
the signal grounds. As the peculiarity of these devices, the capacitor for the ripple filter is very small about
1/100 compared with their usual value. The Reference voltage are provided for the left channel and the
right channel separately. The block diagram is shown as figure 1.
61
VCC
+
–
L channel
reference
R channel
reference
77
–
+
+
1 µF
80
Figure 1 The Block Diagram of Reference Voltage Supply
Rev.3, Jun. 1997, page 18 of 73
HA12167FB/HA12169FB
Operating Mode Control
HA12167FB/HA12169FB provides fully electronic switching circuits. All switches are controlled by serial
data.
Table 2
Threshold Voltage (VTH)
Pin No.
Lo
Hi
Unit
42
–0.2 to 1.5
3.5 to 5.3
V
39, 40, 41
–0.2 to 1.0
4.0 to 5.3
V
Notes: 1. Voltages shown above are determined by internal circuits of LSI when take pin 47 (DGND pin) as
reference pin. On split supply use, same VTH can be offered by connecting DGND pin to GND
pin.
This means that it can be controlled directly by micro processor.
2. Each pins are on pulled down with 100 kΩ internal resistor.
Therefore, it will be low-level when each pins are open.
3. Note on serial data inputting
(a)
The clock frequency on CLK must be less than 500 kHz.
(b)
Over shoot level and under shoot level of input signal must be the value shown below.
When connecting microcomputer or Logic-IC with HA12167FB/HA12169FB directly, there is
apprehension of rash-current under some transition timming of raising voltage or falling voltage at VCC
ON/OFF.
For this countermeasure, connect 10 kΩ to 20 kΩ resistor with each pins. It is shown in test circuit on this
data sheet.
In case of changing NR-ON/OFF at the C-mode, for the countermeasure of the noise of pop, perform the
following processes.
In case of changing NR-OFF to NR-ON at C-mode. C-mode, NR-OFF → B-mode, NR-OFF → B-mode,
NR-ON → C-mode, NR-ON.
In case of changing NR-ON to NR-OFF at C-mode. C-mode, NR-ON → B-mode, NR-ON → B-mode,
NR-OFF → C-mode, NR-OFF.
Under 5.3 V
0
Within –0.2 V
Figure 2 Input Level
Rev.3, Jun. 1997, page 19 of 73
HA12167FB/HA12169FB
Serial Data Formatting
14 bit shift register is employed.
CLK and data are stored during STB being high and data is latched when STB goes high to low.
Reset goes reset a state when reset low and high releasles reset. (High fixed at use time)
Attention Point of Serial Interface
• Reset goes low condition when a power supply is ON or OFF.
• Characteristics select of Bias DAC is connected with equalizer tape selector.
• Bias DAC register is all low when a time of tape select.
• Bias DAC register is all low and Bias DAC out is dropped low level at compulsion by force.
• Input pin select, REC/PB select and Input volume gain select does not select at the same time.
• Input volume must go mute condition when selected of RPI is input pin select.
CLK
DATA
0
1
2
3
4
5
6
7
8
9
10
STB
11
12
13
Latch of data
RESET
Reset release
Figure 3 Serial Data Timming Chart Figure
MUTE
DAC
DACOUT
Buff
BIAS CONT
+
Figure 4 Bias DAC Output Circuit
Rev.3, Jun. 1997, page 20 of 73
HA12167FB/HA12169FB
Serial Data Formatting
Bit Mode Control
Input Voltage
No.
Reset
Tape
selector 1 bit 1
bit 0
H
Metal
Crom
Eaqualizer Voltage
Reset
Basic DAC
Reset
Reset
L
L
I-bit 0 L
channel
L
E-bit 0 L
channel
L
B-bit o L
channel
L
I-bit 1 L
E-bit 1 L
B-bit 1 L
L
I-bit 2 L
E-bit 2 L
B-bit 2 L
3
Meter
H Meter sensitivity 20 dB L
sensitivity up
I-bit 3 L
E-bit 3 L
B-bit 3 L
4
Input
selector 1 bit 5
L
I=bit 4 L
E-bit 4 L
B-bit 4 L
L
I-bit 5 H
—
B-bit 5 L
H
R
I-bit 0 L
channel
R
E-bit 0 L
channel
H
I-bit 1 L
E-bit 1 L
B-bit 1 L
L
I-bit 2 L
E-bit 2 L
B-bit 2 L
L
I-bit 3 L
E-bit 3 L
B-bit 3 L
L
I-bit 4 L
E-bit 4 L
B-bit 4 L
—
I-bit 5 H
—
B-bit 5 L
0
H
L
1
Tape
selector 2
2
Tape
speed
L
Normal
Normal
H Hi speed selection
L Normal speed selection
L Meter sensitinity normal
H
L
5
Input
selector 2
6
REC/PB
bit 4
H
VRI3
VRI2
L
RPI
VRI1
H PB mode selection
—
R
B-bit 0
channel
L REC mode selection
7
Input
voltage
gain
H PB mode volume gain
L Rec mode volume gain
8
MPX
H ON
9
NR
H ON
10
B/C
L OFF
L OFF
H C
L B
11
—
12
Registor
selector 1 bit 13
H
L
—
13
Registor
selector 2
—
bit 12
H
L
Bias DAC
Input volume
Equalizer volume Mode control
Rev.3, Jun. 1997, page 21 of 73
HA12167FB/HA12169FB
Input Volume Register
I-bit 5
I-bit 4
I-bit 3
I-bit 2
I-bit 1
I-bit 0
Gain
L
L
L
L
L
L
Increase
L
L
L
L
L
H
↑
L
L
L
L
H
L
:
L
L
L
L
H
H
:
:
:
:
:
:
:
:
:
:
:
:
:
:
↓
H
H
H
H
H
L
Decrease
H
H
H
H
H
H
Mute
Equalizer Volume Register
E-bit 4
E-bit 3
E-bit 2
E-bit 1
E-bit 0
Gain
L
L
L
L
L
Increase
L
L
L
L
H
↑
L
L
L
H
L
:
L
L
L
H
H
:
:
:
:
:
:
:
:
:
:
:
:
↓
H
H
H
H
L
Decrease
H
H
H
H
H
Mute
Bias DAC Register
B-bit 5
B-bit 4
B-bit 3
B-bit 2
B-bit 1
B-bit 0
Bias
L
L
L
L
L
L
Mute
L
L
L
L
L
H
Decrease
L
L
L
L
H
L
↑
L
L
L
L
H
H
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
H
H
H
H
H
L
↓
H
H
H
H
H
H
Increase
Rev.3, Jun. 1997, page 22 of 73
HA12167FB/HA12169FB
MPX ON/OFF Switch
MPX-OFF mode means that signal from input amp doesn’t go through the MPX filter, but signal goes
through the NR circuit after being attenuated 3 dB by internal resistor. Refer to figure 5. For not cause any
level difference between MPX-ON mode and MPX-OFF mode, it is requested to use MPX-filter which has
definitely 3 dB attenuated. And when applying other usage except figure 5,
take consideration to give bias voltage to NR-IN terminal by resistor or so on because internal of NR-IN
terminal has no bias resistor.
Application as for the Dubbing Cassette Deck
HA12167FB/HA12169FB series has unprocessor signal from recording out terminals during playback
mode. So, it is simply applied for dubbing cassette decks.
MPX
filter
5.6 k
10 mH 220 P
2.4 k
IA OUT
BIAS TRAP
NR IN
Vref
TP
IA
MPX ON
6k
NR
processer
X1
1.5 k
14 k
MPX OFF
3 dB ATT
Figure 5 MPX ON/OFF Switch Block Diagram
Rev.3, Jun. 1997, page 23 of 73
HA12167FB/HA12169FB
A deck
B deck
PB EQ
PB EQ
Compensation
of low
frequency
reagion
VRI 2 VRI 3
REC OUT
REC
PB
EQ IN
REC IN VRI 1
HA12167/9
EQ OUT
PB OUT
Figure 6 Application for Dubbing Deck
Injector Current
2
HA12167FB/HA12169FB has logic circuit which is fabricated by I L into IC. To operate this circuit, it is
required enough injector current. Injector current goes into from the INJ pin (pin 38) and external resistor
is required to connect to this pin for adequate current. The value of external resistor is obtained by using
following equations. And put them with ±10% tolerance value which is calculated. VINJ can allow to
connect to VCC shown below. Large injector current fear to cause mis-operation of Logic under the
condition of high temperature. Also, small injector current fear to cause mis-operation (stop operation).
Under the condition of low temperature. Therefore, pay attention to have good stability of VINJ.
RINJ =
VINJ – 0.7
3.6
RINJ =
VINJ + VEE – 0.7
3.6
[kΩ]
Single supply
[kΩ]
Split supply
Gain Control of Electronic Volume
HA12167FB/HA12169FB is designed in order to change the gain by DAC fabricated into IC. To reduce
the click noise when changing volume gain instantaneously, required to connect the capacitor and resistor
(CR time constant) to CONT pin (pin 13, 48, 68, 73). These terminals are also be used as output pin of
DAC. Therefore, by forcing voltage and current to these terminals, it is applicable to control volume gain
directly. But, voltage forced to these terminals must be from VCC/2 –2 V to VCC/2 (for split supply use, –2 V
to 0 V) in this case. And, this case, change of a gain depending on a temperature gets large.
Rev.3, Jun. 1997, page 24 of 73
HA12167FB/HA12169FB
RINJ
RINJ
38
38
HA12167/9
3.6 mA
VINJ
70
VINJ
34
71
HA12167/9
3.6 mA
70
71
34
VEE
a) Single supply use
b) Split supply use
Figure 7 Injector Current Application
The Tolerances of External Components for Dolby NR-Block
For adequate Dolby NR tracking response, take external components shown below.
For C5, C6, C24, and C25, please employ a few object of the leak, though you can be useful for an
electrolytic-capacitor.
C27
2200 p
±5%
R31
18 k
±2%
C28
2200 p
±5%
R26
560
±2%
R24
22 k
±2%
64
59
BIAS
PB OUT
(L)
C26
2200 p
±5%
C25
0.1 µ
±10%
C24
0.1 µ
±10%
58
57
56
55
54
SS1
(L)
SS2
(L)
CCR
(L)
HLS
DET(L)
LLS
DET(L)
HA12167/9 (REC 1 Chip)
PB OUT
(R)
SS1
(R)
SS2
(R)
CCR
(R)
HLS
DET(R)
LLS
DET(R)
2
3
4
5
6
7
R2
R3
560
±2%
22 k
±2%
Unit R : Ω
C: F
C2
2200 p
±5%
C4
2200 p
±5%
C5
0.1 µ
±10%
C6
0.1 µ
±10%
C3
2200 p
±5%
Figure 8 Tolerances of External Components
Rev.3, Jun. 1997, page 25 of 73
HA12167FB/HA12169FB
BIAS DAC
The full-scale of DAC is computed by the formula mentioned below.
V29 =
2.4
× R10
R14 to 16
[V]
V32 =
2.4
× R13
R14 to 16
[V]
R14:
Normal Tape (pin 35)
R15:
Metal Tape (pin 36)
R16:
Chrome Tape (pin 37)
The maximum source current of DAC output (pin 29, 32) is 2 mA. Therefor the Bias-osc is drived through
external transisitor of emitter-follower.
Level Meter
The coupling capacitor of LMIN pin (9 pin and 52 pin).
For these capacitors, please employ a small object of the leak.
Rev.3, Jun. 1997, page 26 of 73
HA12167FB/HA12169FB
The Application of Equalizer Frequency Response
EQ
IN
EQ
VR
GP
+
OP 2
–
+
Gm 1
–
R1
F/Q
–
Gm 2
+
–
OP 5
+
R6
C1
R7
R5
R4
+
OP 6
–
+
Gm 3
–
C2
R10
FM
+
Gm 4
–
C3
+
OP 7
–
GL
–
Gm 5
+
+
OP 3
–
GH
–
Gm 6
+
R8
R9
–
OP 4
+
EQ
OUT
Figure 9 REC Equalizer Block Diagram
Transfer Function:


C3 Gm6
C3
⋅
⋅S
⋅S
1+


⋅ R10
⋅ R10
Vout
R
R
Gm4
Gm4
Gm5
8
4

= GV  Gm5 ⋅
⋅
+ Gm1⋅
⋅
C3
C2
C1
C2
R

Vin
R9
R 6 + R 7 1+ R4 ⋅ R7 ⋅
⋅S
⋅ S+ 4 ⋅
⋅
⋅S 2 
1+

Gm4


R5 R6 + R7 Gm3
R5 Gm2 Gm3
⋅


1+ 6.67 × 10–10 RFM R GH ⋅S

3.0 × 10–10 ⋅ RFQ ⋅S
9 
R
GL
 RGL ⋅

+ R GP ⋅
=
–10
–11
–20
2

⋅ RFQ ⋅S+ 2.5 × 10
⋅ RFQ ⋅ RF/Q S 
1+ 4.5 × 10
1+ 6.67 × 10
RREF
RFM ⋅S




Note: RREF .... 14 pin bias resistance
GV ...... Gain of EQ-VR
Rev.3, Jun. 1997, page 27 of 73
HA12167FB/HA12169FB
Gain
g1
3dB
BW
g2
g3
f1
f2
f3
Figure 10 REC Equalizer Frequency Response
9
(6.67 × R GP + RGH )
RREF
9 × RGL
g2 =
R REF
9 × RGH
g3 =
R REF
g1 =



 when Gain of EQ - VR is center



f1 =
1
2π × 6.67 × 10–10 × RFM
f2 =
RGL
2π × 6.67 × 10–10 × RFM × RGH
f3 =
1
0.3
⋅
2 π 2.25 × 10 –21 × R × R
FQ
F/Q
BW =
Q=
1
4π × 2.78 × 10–10 × RF/Q
f3
= 3.51 ×
BW
RF/Q
RFQ
Rev.3, Jun. 1997, page 28 of 73
f
HA12167FB/HA12169FB
Equalizer Characteristics Control Using a Bias DAC
When only one of the bias DAC channels is used, any one of the six parameters (FM, fQ, f/Q, GH, GL, and
GP) that set the equalizer’s chara cteristics can controlled by the unused bias DAC.
The figure below gives one example.
R ADJ
6 bit
DAC
37
BIAS ADJ (C)
36
BIAS ADJ (M)
35
BIAS ADJ (N)
34
GND
33
BIAS CONT
32
DAC OUT
31
VCC
30
29
6 bit
DAC
28
27
26
EQcontroller
25
24
23
22
21
FM
fQ
f/Q
GH
GL
GP
HM
R’GP
16
17
18
19
20
NN NC NM HN HC
R GP = R’GP //
63 R ADJ
2n
n: DAC step
Figure 11 Bias DAC Control of the GP Parameter
Rev.3, Jun. 1997, page 29 of 73
HA12167FB/HA12169FB
Figures 12, 13, and 14 show the characteristics when GP is controlled by a bias DAC.
60
E_DAC = 0 step
VCC = 14 V
RFM = 100 k Ω
RFQ = 51 k Ω
B_DAC RF/Q = 51 k Ω
RGH = 33 k Ω
RGL = 33 k Ω
0
Gain (dB)
50
R’GP = 510 k Ω
40
RADJ = 20 k Ω
16
30
46
63
30
20
100
1k
Frequency (Hz)
10 k
30 k
Figure 12 Equalizer Gain vs. Frequency
60
E_DAC = 0 step
VCC = 14 V
R’GP = 510 k Ω
55
EQ peak gain (dB)
R’GP = 120 k Ω
R’GP = 47 k Ω
50
RFM = 100 k Ω
RFQ = 51 k Ω
RF/Q = 51 k Ω
RGH = 33 k Ω
RGL = 33 k Ω
45
40
RADJ = 20 k Ω
35
30
0
10
20
30
40
50
60
70
B_DAC step
Figure 13 Equalizer Peak Gain vs. DAC Step Characteristics (1)
Rev.3, Jun. 1997, page 30 of 73
HA12167FB/HA12169FB
60
E_DAC = 0 step
VCC = 14 V
RADJ = 33 kΩ (Normal)
55
RADJ = 24 kΩ (Chrome)
EQ peak gain (dB)
RADJ = 20 kΩ (Metal)
RFM = 100 k Ω
RFQ = 51 kΩ
RF/Q = 51 k Ω
RGH = 33 k Ω
RGL = 33 k Ω
50
45
R’GP = 510 k Ω
40
35
0
10
20
30
40
50
60
70
B_DAC step
Figure 14 Equalizer Peak Gain vs. DAC Step Characteristics (2)
When the (variable) width of the DAC step is to be changed, the gain at step 0 or at step 63 must be
changed. The step 0 gain can be changed using R’GP as shown in figure 13. Also, R’GP can be switched
using the tape selector, as shown in figure 15. However, it is necessary to take into account that the value
of RADJ, which sets the step 63 gain, is also used for the output bias. When the load resistance on pin 33 is
RL, the following formula gives the output bias, VBMAX.
VBMAX = 2.4 × RL / RADJ
Therefore, it is possible to compensate the output bias, VBMAX for the RADJ setting by changing RL.
Note: RADJ should be in the range 16 kΩ to 75 kΩ.
Rev.3, Jun. 1997, page 31 of 73
HA12167FB/HA12169FB
6 bit
DAC
28
27
26
EQcontroler
25
24
23
22
21
FM
fQ
f/Q
GH
GL
GP
R’GP
HM
16
17
18
19
20
NN NC NM HN HC
R GP = R’GP //
n: DAC step
Figure 15 Switch by Tape Select
Rev.3, Jun. 1997, page 32 of 73
63 R ADJ
2n
Quiescent Current vs. Supply Voltage (2)
38
37
37
36
36
Quiescent Current (mA)
Quiescent Current vs. Supply Voltage (1)
38
35
34
33
32
31
10
12
14
16
34
33
PB NR-OFF
PB NR-B
PB NR-C
31
30
8
35
32
REC NR-OFF
REC NR-B
REC NR-C
18
30
Supply Voltage (V) RPIin I.DAC=0
No.Signal
8
10
12
14
16
18
Supply Voltage (V) RPIin I.DAC=0
No.Signal
Encode Boost vs. Frequency (1) HA12167FB
12
10
Encode Boost (dB)
Quiescent Current (mA)
HA12167FB/HA12169FB
8
: 0 dB
: –10 dB
: –20 dB
: –30 dB
: –40 dB
NR-B
VCC =14 V
VCC =15 V
6
VCC =12 V
4
2
0
100
1k
10 k
100 k
Frequency (Hz)
Rev.3, Jun. 1997, page 33 of 73
HA12167FB/HA12169FB
Encode Boost vs. Frequency (2) HA12167FB
25
: 0 dB
: –20 dB
: –30 dB
: –40 dB
: –60 dB
NR-C
20
VCC =15 V
Encode Boost (dB)
15
VCC =12 V, 14 V
10
5
0
–5
–10
100
1k
10 k
100 k
Frequency (Hz)
Encode Boost vs. Frequency (3) HA12169FB
12
Encode Boost (dB)
10
8
: 0 dB
: –10 dB
: –20 dB
: –30 dB
: –40 dB
NR-B
VCC =14 V
VCC =15 V
6
VCC =11 V
4
2
0
100
1k
10 k
Frequency (Hz)
Rev.3, Jun. 1997, page 34 of 73
100 k
HA12167FB/HA12169FB
Encode Boost vs. Frequency (4) HA12169FB
25
: 0 dB
: –20 dB
: –30 dB
: –40 dB
: –60 dB
NR-C
20
VCC =15 V
Encode Boost (dB)
15
VCC =11 V, 14 V
10
5
0
–5
–10
100
1k
10 k
100 k
Frequency (Hz)
Input Amp. Gain vs. Frequency (1) HA12167FB
40
PBOUT
Input Amp. Gain (dB)
20
RECOUT
0
–20
RECmode
NR-OFF
VCC =14 V
–40
–60
10
100
1k
10 k
100 k
1M
Frequency (Hz)
Rev.3, Jun. 1997, page 35 of 73
HA12167FB/HA12169FB
Input Amp. Gain vs. Frequency (2) HA12167FB
40
PBOUT
Input Amp. Gain (dB)
20
RECOUT
0
–20
PBmode
NR-OFF
VCC =14 V
–40
–60
10
100
1k
10 k
100 k
1M
Frequency (Hz)
Input Amp. Gain vs. Frequency (3) HA12169FB
40
PBOUT
Input Amp. Gain (dB)
20
RECOUT
0
–20
RECmode
NR-OFF
VCC =14 V
RPI
–40
–60
10
100
1k
10 k
Frequency (Hz)
Rev.3, Jun. 1997, page 36 of 73
100 k
1M
HA12167FB/HA12169FB
Input Amp. Gain vs. Frequency (4) HA12169FB
40
PBMODE PBOUT
Input Amp. Gain (dB)
20
RECMODE RECOUT
0
–20
PBmode
NR-OFF
VCC =14 V
–40
–60
10
100
1k
10 k
100 k
1M
Frequency (Hz)
Rev.3, Jun. 1997, page 37 of 73
HA12167FB/HA12169FB
Total Harmonic Distortion vs. Output Level (1)
Total Harmonic Distortion T.H.D. (%)
10
: 10 kHz
: 1 kHz
: 100 Hz
VCC = 14 V, RPIin, RECmode
RECOUT, 0 dB = 300 mVrms,
25 Hz HPF, 80 kHz LPF,
NR-OFF
1.0
0.1
0.01
–15
–10
–5
0
5
10
15
Output Level Vout (dB)
Total Harmonic Distortion vs. Output Level (2)
Total Harmonic Distortion T.H.D. (%)
10
: 10 kHz
: 1 kHz
: 100 Hz
1.0
VCC = 14 V, RPIin, RECmode
RECOUT, 0 dB = 300 mVrms,
25 Hz HPF, 80 kHz LPF,
NR-B
0.1
0.01
–15
–10
–5
0
5
Output Level Vout (dB)
Rev.3, Jun. 1997, page 38 of 73
10
15
HA12167FB/HA12169FB
Total Harmonic Distortion vs. Output Level (3)
Total Harmonic Distortion T.H.D. (%)
10
1.0
: 10 kHz
: 1 kHz
: 100 Hz
VCC = 14 V, RPIin, RECmode
RECOUT, 0 dB = 300 mVrms,
25 Hz HPF, 80 kHz LPF,
NR-C
0.1
0.01
–15
–10
–5
0
5
10
15
Output Level Vout (dB)
Total Harmonic Distortion vs. Output Level (4)
Total Harmonic Distortion T.H.D. (%)
10
: 10 kHz
: 1 kHz
: 100 Hz
1.0
VCC = 14 V, RPIin, PBmode
PBOUT, 0 dB = 775 mVrms,
25 Hz HPF, 80 kHz LPF,
NR-OFF
0.1
0.01
–15
–10
–5
0
5
10
15
Output Level Vout (dB)
Rev.3, Jun. 1997, page 39 of 73
HA12167FB/HA12169FB
Total Harmonic Distortion vs. Output Level (5)
Total Harmonic Distortion T.H.D. (%)
10
: 10 kHz
: 1 kHz
: 100 Hz
1.0
VCC = 14 V, RPIin, PBmode
PBOUT, 0 dB = 775 mVrms,
25 Hz HPF, 80 kHz LPF,
NR-B
0.1
0.01
–15
–10
–5
0
5
10
15
Output Level Vout (dB)
Total Harmonic Distortion vs. Output Level (6)
Total Harmonic Distortion T.H.D. (%)
10
: 10 kHz
: 1 kHz
: 100 Hz
VCC = 14 V, RPIin, PBmode
PBOUT, 0 dB = 775 mVrms,
25 Hz HPF, 80 kHz LPF,
1.0 NR-C
0.1
0.01
–15
–10
–5
0
5
Output Level Vout (dB)
Rev.3, Jun. 1997, page 40 of 73
10
15
HA12167FB/HA12169FB
: NR-OFF
: NR-B
: NR-C
15
10
RECmode, RECOUT
RPIin, f = 1 kHz
0 dB = 300 mVrms
T.H.D. = 1%
Maximum Output Level vs.
Supply Voltage (2) HA12167FB
20
Maximum Output Level Vo max (dB)
Maximum Output Level Vo max (dB)
Maximum Output Level vs.
Supply Voltage (1) HA12167FB
20
5
: NR-OFF
: NR-B
: NR-C
15
10
PBmode, PBOUT
RPIin, f = 1 kHz
0 dB = 775 mVrms
T.H.D. = 1%
5
8
10
12
14
16
8
Supply Voltage VCC (V)
Maximum Output Level vs.
Supply Voltage (3) HA12169FB
20
12
14
16
: NR-OFF
: NR-B
: NR-C
15
10
RECmode,RPIin,RECOUT
0 dB = 300 mVrms
25 Hz HPF +19 kHz LPF
T.H.D. = 1%
5
Maximum Output Level vs.
Supply Voltage (4) HA12169FB
20
Maximum Output Level Vo max (dB)
Maximum Output Level Vo max (dB)
10
Supply Voltage VCC (V)
: NR-OFF
: NR-B
: NR-C
15
10
PBmode,RPIin,PBOUT
0 dB = 580 mVrms
25 Hz HPF +19 kHz LPF
T.H.D. = 1%
5
8
10
12
14
Supply Voltage VCC (V)
16
8
10
12
14
16
Supply Voltage VCC (V)
Rev.3, Jun. 1997, page 41 of 73
HA12167FB/HA12169FB
Signal to Noise Ratio vs.
Supply Voltage (1) HA12167FB
95
PB NR-C
PB NR-B
REC NR-OFF
PB NR-OFF
80
REC NR-B
70
PB NR-C
90
Signal to Noise Ratio S/N (dB)
90
Signal to Noise Ratio S/N (dB)
Signal to Noise Ratio vs.
Supply Voltage (2) HA12169FB
95
PB NR-B
REC NR-OFF
PB NR-OFF
80
REC NR-B
70
REC NR-C
REC NR-C
RPIin, Rg = 5.1 k Ω CCIR/ARM
60
RPIin, Rg = 5.1 k Ω CCIR/ARM
60
8
10
12
14
16
Supply Voltage VCC (V)
8
10
12
14
16
Supply Voltage VCC (V)
Crosstalk vs. Frequency (1)
(L→R)
–20
Crosstalk (dB)
–40
RECVol, VRI1in, RECOUTout
I. DAC = 0 EQ. DAC = 31
VCC = 14
NR-C
–60
NR-B
NR-OFF
–80
–100
–120
100
1k
10 k
Frequency (Hz)
Rev.3, Jun. 1997, page 42 of 73
100 k
HA12167FB/HA12169FB
Crosstalk vs. Frequency (2)
(L→R)
–20
–60
NR-OFF
–80
NR-B
–100
NR-C
–120
100
1k
10 k
100 k
Frequency (Hz)
Crosstalk vs. Frequency (3)
(VRI1
VRI2, VRI3, RPI)
–20
–40
Crosstalk (dB)
Crosstalk (dB)
–40
PBVol, VRI1in, PBOUTout
I. DAC = 0 EQ. DAC = 31
VCC = 14
RECVol, VRI1in, PBOUTout
I. DAC = 0, VCC = 14 V
–60
VRI 2
–80
VRI 3
RPI
–100
–120
100
1k
10 k
100 k
Frequency (Hz)
Rev.3, Jun. 1997, page 43 of 73
HA12167FB/HA12169FB
Crosstalk vs. Frequency (4)
(VRI1
VRI2, VRI3, RPI)
–20
Crosstalk (dB)
–40
PBVol, VRI1in, PBOUTout
I. DAC = 0, VCC = 14 V
–60
VRI 2
VRI 3
–80
RPI
–100
–120
100
1k
10 k
100 k
Frequency (Hz)
Crosstalk vs. Frequency (5)
(VRI2
VRI1, VRI3, RPI)
–20
–40
RECVol, VRI2in, PBOUTout
I. DAC = 0, Vcc = 14 V
Crosstalk (dB)
VRI 3
–60
RPI
VRI 1
–80
–100
–120
100
1k
10 k
Frequency (Hz)
Rev.3, Jun. 1997, page 44 of 73
100 k
HA12167FB/HA12169FB
Crosstalk vs. Frequency (6)
(VRI2
VRI1, VRI3, RPI)
–20
–40
PBVol, VRI2in, PBOUTout
I. DAC = 0, VCC = 14 V
Crosstalk (dB)
VRI 3
–60
VRI 1
–80
RPI
–100
–120
100
1k
10 k
100 k
Frequency (Hz)
Crosstalk vs. Frequency (7)
(VRI3
VRI1, VRI2, RPI)
–20
–40
RECVol, VRI3in, PBOUTout
I. DAC = 0, VCC = 14 V
Crosstalk (dB)
VRI 2
–60
RPI
–80
VRI 1
–100
–120
100
1k
10 k
100 k
Frequency (Hz)
Rev.3, Jun. 1997, page 45 of 73
HA12167FB/HA12169FB
Crosstalk vs. Frequency (8)
(VRI3
VRI1, VRI2, RPI)
–20
–40
PBCVol, VRI3in, PBOUTout
I. DAC = 0, VCC = 14 V
Crosstalk (dB)
VRI 2
–60
RPI
–80
VRI 1
–100
–120
100
1k
10 k
100 k
Frequency (Hz)
Crosstalk vs. Frequency (9)
(RPI VRI 1, VRI 2, VRI 3)
–20
REC Vol, RPIin, PBOUTout
I.DAC = 0, VCC = 14 V
–40
Crosstalk (dB)
VRI 3
–60
VRI 2
–80
VRI 1
–100
–120
100
1k
10 k
Frequency (Hz)
Rev.3, Jun. 1997, page 46 of 73
100 k
HA12167FB/HA12169FB
Crosstalk vs. Frequency (10)
(RPI VRI 1, VRI 2, VRI 3)
–20
PB Vol, RPIin, PBOUTout
I.DAC = 0, VCC = 14 V
VRI 3
–40
Crosstalk (dB)
VRI 2
–60
VRI 1
–80
–100
–120
100
1k
10 k
100 k
Frequency (Hz)
Ripple Rejection Ratio vs. Frequency (1)
Ripple Rejection Ratio R.R.R. (dB)
20
0
RECVol, VRI3in, RECOUTout
I.DAC = 0, VCC = 14 V
C
–20
B
–40
OFF
–60
–80
10
100
1k
10 k
100 k
1M
Frequency (Hz)
Rev.3, Jun. 1997, page 47 of 73
HA12167FB/HA12169FB
Ripple Rejection Ratio vs. Frequency (2)
Ripple Rejection Ratio R.R.R. (dB)
20
0
RECVol, VRI3in, EQOUTout
I.DAC = 0, EQ, DAC = 0
C
VCC = 14 V
–20
B
–40
–60
–80
10
OFF
100
1k
10 k
100 k
1M
100 k
1M
Frequency (Hz)
Ripple Rejection Ratio R.R.R. (dB)
Ripple Rejection Ratio vs. Frequency (3)
0
PBVol, VRI3in, PBOUTout
I.DAC = 0, VCC = 14 V
–10
–20
OFF
–30
–40
–45
10
B
C
100
1k
10 k
Frequency (Hz)
Rev.3, Jun. 1997, page 48 of 73
HA12167FB/HA12169FB
Input Volume Gain vs. DAC Step (1) HA12167FB
40
Input Volume Gain (dB)
20
0
–20
VCC = 14 V, RECVol
f = 1 kHz
VRI1in, PBOUTout
80 kHz LPF, 400 Hz HPF
–40
–60
0
10
20
30
40
50
60
DAC Step
Input Volume Gain (dB)
Input Volume Gain vs. DAC Step (2) HA12167FB
35
30
25
VCC = 14 V, PBVol
f = 1 kHz
VRI2in, PBOUTout
80 kHz LPF, 400 Hz HPF
20
15
0
10
20
30
40
50
60
DAC Step
Rev.3, Jun. 1997, page 49 of 73
HA12167FB/HA12169FB
Input Volume Gain vs. DAC Step (3) HA12169FB
40
Input Volume Gain (dB)
20
0
–20
VCC = 14 V, RECVol
f = 1 kHz
VRI1in, PBOUTout
80 kHz LPF, 400 Hz HPF
–40
–60
0
10
20
30
40
50
60
DAC Step
Input Volume Gain (dB)
Input Volume Gain vs. DAC Step (4) HA12167FB
35
30
25
VCC = 14 V, PBVol
f = 1 kHz
VRI2in, PBOUTout
80 kHz LPF, 400 Hz HPF
20
15
0
10
20
30
DAC Step
Rev.3, Jun. 1997, page 50 of 73
40
50
60
HA12167FB/HA12169FB
Signal to Noise Ratio vs. DAC Step (1)
Signal to Noise Ratio S/N (dB)
75
DIN-AUDIO
80
CCIR-ARM
85
JIS-A
90
VCC = 14 V, RECVol
VRI1in, PBOUTout
95
0
10
20
30
40
DAC Step
50
60
Signal to Noise Ratio vs. DAC Step (2)
Signal to Noise Ratio S/N (dB)
60
65
70
CCIR-ARM
DIN
-AU
DIO
JIS-A
75
VCC = 14 V, PBVol
VRI2in, PBOUTout
80
0
10
20
30
40
DAC Step
50
60
Rev.3, Jun. 1997, page 51 of 73
Maximum Output Voltage Vo max (dB) (0dB = 775 mVrms)
HA12167FB/HA12169FB
20
Maximum Output Voltage vs.
DAC Step (1) HA12167FB
15
10
5
0
VCC = 14 V
RECVol, f = 1 kHz
VRI1in, PBOUTout
T.H.D. = 1 %
80 kHz LPF, 400 Hz HPF
10
20
30
40
50
60
Maximum Output Voltage Vo max (dB) ( dB = 775 mVrms)
DAC Step
20
Maximum Output Voltage vs.
DAC Step (2) HA12167FB
15
10
5
VCC =14 V
PBVol, f=1 kHz
VRI2in, PBOUTout T.H.D.=1%
80 kHz LPF, 400 Hz HPF
0
10
20
30
DAC Step
Rev.3, Jun. 1997, page 52 of 73
40
50
60
Maximum Output Voltage Vo max (dB) (0 dB = 580 mVrms)
HA12167FB/HA12169FB
Maximum Output Voltage vs.
DAC Step (3) HA12169FB
22.5
17.5
12.5
7.5
VCC = 14 V
RECVol, f = 1 kHz
VRI1in, PBOUTout
T.H.D. = 1 %
80 kHz LPF, 25 Hz HPF
2.5
0
10
20
30
40
50
60
Maximum Output Voltage Vo max (dB) (0 dB = 580 mVrms)
DAC Step
22.5
Maximum Output Voltage vs.
DAC Step (4) HA12169FB
17.5
12.5
7.5
VCC =14 V
PBVol, f=1 kHz
VRI2in, PBOUTout T.H.D.=1%
80 kHz LPF, 25 Hz HPF
2.5
0
10
20
30
40
50
60
DAC Step
Rev.3, Jun. 1997, page 53 of 73
HA12167FB/HA12169FB
Total Harmonic Distortion vs. DAC Step (1)
Total Harmonic Distortion T.H.D. (%)
10
f=100 Hz RECmode
VRI1in PBOUTout
VCC =14 V
80 kHz LPF
+10 dB
1.0
0 dB
–10 dB
0.1
0.01
0
10
20
30
40
DAC Step
50
60
Total Harmonic Distortion vs. DAC Step (2)
Total Harmonic Distortion T.H.D. (%)
10
f=1 kHz RECmode
VRI1in PBOUTout
VCC =14 V
80 kHz LPF
+10 dB
1.0
0 dB
–10 dB
0.1
0.01
0
Rev.3, Jun. 1997, page 54 of 73
10
20
30
40
DAC Step
50
60
HA12167FB/HA12169FB
Total Harmonic Distortion vs. DAC Step (3)
Total Harmonic Distortion T.H.D. (%)
10
f=10 kHz RECmode
VRI1in PBOUTout
VCC =14 V
80 kHz LPF
+10 dB
1.0
0 dB
–10 dB
0.1
0.01
0
10
20
30
40
DAC Step
50
60
Total Harmonic Distortion vs. DAC Step (4)
Total Harmonic Distortion T.H.D. (%)
10
f=100 kHz PBmode
VRI2in PBOUTout
VCC =14 V 80 kHz LPF
1.0
–10 dB
0.1
0 dB
+10 dB
0.01
0
10
20
30
40
DAC Step
50
60
Rev.3, Jun. 1997, page 55 of 73
HA12167FB/HA12169FB
Total Harmonic Distortion vs. DAC Step (5)
Total Harmonic Distortion T.H.D. (%)
10
f=1 kHz PBmode
VRI2in PBOUTout
VCC =14 V 80 kHz LPF
1.0
–10 dB
0.1
0 dB
+10 dB
0.01
0
10
20
30
40
DAC Step
50
60
Total Harmonic Distortion vs. DAC Step (6)
Total Harmonic Distortion T.H.D. (%)
10
f=10 kHz PBmode
VRI2in PBOUTout
VCC =14 V 80 kHz LPF
1.0
–10 dB
0.1
0 dB
+10 dB
0.01
0
Rev.3, Jun. 1997, page 56 of 73
10
20
30
40
DAC Step
50
60
HA12167FB/HA12169FB
REC Volume Maximam Input Level Vin Max (dBs)
REC Volume Maximam Input
Level vs. Supply Voltage
15
10
5
RECVol I.DAC Step=42
VRI1in PBOUTout f=1 kHz
0
8
10
12
14
16
Supply Voltage (V)
Volume Gain (dB)
Volume Gain vs. Frequency (1) HA12167FB
20
I.DAC 0
I.DAC 10
I.DAC 20
0
I.DAC 30
I.DAC 40
–20
I.DAC 50
–40
I.DAC 62
–60
–70
10
VRI1
PBOUT
100
RECVolume
1k
VCC =14 V
10 k
100 k
1M
Frequency (Hz)
Rev.3, Jun. 1997, page 57 of 73
HA12167FB/HA12169FB
Volume Gain vs. Frequency (2) HA12167FB
50
Volume Gain (dB)
40
I.DAC 0
I.DAC 32
30
I.DAC 62
20
10
VRI 2
0
10
PBOUT
PBVolume
100
VCC =14 V
1k
10 k
100 k
1M
Frequency (Hz)
Volume Gain vs. Frequency (3) HA12169FB
STEP 0
20
STEP 10
Volume Gain (dB)
STEP 20
STEP 30
0
STEP 40
–20
STEP 50
–40
STEP 60
STEP 62
–60
–70
10
VRI1
PBOUT
100
RECVolume
1k
VCC =14 V
10 k
Frequency (Hz)
Rev.3, Jun. 1997, page 58 of 73
100 k
1M
HA12167FB/HA12169FB
Volume Gain vs. Frequency (4) HA12169FB
40
STEP 0
Volume Gain (dB)
32
STEP 32
24
STEP 62
16
8
VRI 2
0
10
PBOUT
PBVolume
100
VCC =14 V
1k
10 k
100 k
1M
Frequency (Hz)
Input Volume Gain vs.
Temperature (1) HA12167FB
35
Input Volume Gain vs.
Temperature (2) HA12167FB
0
20
: 0 step
: 10 step
: 20 step
: 30 step
: 62 step
RECVol
VRI1in PBOUTout
VCC =14 V
f=1 kHz
400 Hz HPF
80 kHz LPF
Input Volume Gain (dB)
Input Volume Gain (dB)
20
30
25
20
40
60
40
20
0
20
40
60
Temperature Ta ( C)
80
15
40
PBVol
VRI2in PBOUTout
f=1 kHz
VCC =14 V
400 Hz HPF
80 kHz LPF
20
0
20
40
: 0 step
: 32 step
: 62 step
60
80
Temperature Ta ( C)
Rev.3, Jun. 1997, page 59 of 73
HA12167FB/HA12169FB
15
10
RECVol
VRI1in PBOUTout
VCC =14 V T.H.D.=1%
400 Hz HPF
80 kHz LPF
: 0 step
: 16 step
: 25 step
: 30 step
5
0
40
20
0
20
40
60
Maximum Output Level vs. Temperature (2)
20
Maximum Output Level Vomax (dBs)
Maximum Output Level Vomax (dBs)
Maximum Output Level vs. Temperature (1)
20
15
10
PBVol
VRI2in PBOUTout
VCC =14 V T.H.D.=1%
400 Hz HPF
80 kHz LPF
: 0 step
: 32 step
: 62 step
5
0
40
80
20
Temperature Ta ( C)
Level Meter Output vs. Input Level
20
40
60
80
Level Meter Output vs.
Supply Voltage (1) HA12167FB
4
VCC = 14 V
fin = 1 kHz
0 dB = 775 mVrms
3.0
3
Level Meter Output (V)
Level Meter Output (V)
4.0
0
Temperature Ta ( C)
2.0
1.0
2
: 0 dB range Vin=+12 dB
: 0 dB range Vin=0 dB
: 0 dB range Vin=–20 dB
: 20 dB range Vin=–20 dB
1
0
–80 –60 –40 –20
0
Input Level Vin (dB)
Rev.3, Jun. 1997, page 60 of 73
20
40
0
8
10 12 14 16
Supply Voltage (V)
18
HA12167FB/HA12169FB
Level Meter Output vs. Temperature
Level Meter Output vs.
Supply Voltage (2) HA12169FB
4
2
: 0 dB range Vin=+12 dB
: 0 dB range Vin=0 dB
: 0 dB range Vin=–20 dB
: 20 dB range Vin=–20 dB
1
Level Meter Output LMout (V)
Level Meter Output (V)
3
4.0
3.0
2.0
: 0 dB range 0 dB
: 0 dB range 12 dB
: 20 dB range 5 dB
: 20 dB range 20 dB
1.0
f = 1 kHz VCC = 14 V
0
0
8
10 12 14 16
Supply Voltage (V)
18
40
20
0
20
40
60
80
Temperature Ta ( C)
Level Meter Output vs. Frequency
Level Meter Output (V)
3.2
: Normal range Vin=0 dB
: 20 dBup range Vin=–20 dB
3.0
2.8
2.6
2.4
2.2
2.0
20
100
1k
Frequency (Hz)
10 k
50 k
VCC = 14 V
Rev.3, Jun. 1997, page 61 of 73
HA12167FB/HA12169FB
Equalizer Gain vs. Frequency (1)
55
Equalizer Gain (dB)
50
40
RGP
RGL
RGH
RF/Q
RFQ
RFM
(1) (2)
NN HN
33 k 33 k
33 k 33 k
33 k 33 k
51 k 20 k
51 k 27 k
100 k 100 k
(3)
(4)
NC HC
33 k 33 k
51 k 51 k
51 k 51 k
51 k 20 k
51 k 27 k
100 k 100 k
(5)
NM
47 k
51 k
51 k
51 k
51 k
100 k
(6)
HM
47 k
51 k
51 k
20 k
27 k
100 k
(5)
(6)
(3)
(1)
30
(4)
(2)
20
10
EQin EQout VCC =14 V EQ.DAC=0 Vin=–38 dBS
5
10
100
1k
10 k
100 k
1M
Frequency (Hz)
Equalizer Gain vs. Frequancy (2)
Equalizer Gain (dB)
50
40
DAC 0
30
20
DAC 16
DAC 30
10
EQin EQout VCC =14 V Vin=–36 dBS
0
10
100
1k
10 k
Frequency (Hz)
100 k
1M
Equalizer Gain vs. Frequancy (3)
40
Equalizer Gain
0
DAC 30
–40
–80
DAC 31
–120
EQin EQout VCC =14 V Vin=–36 dBS
–160
10
Rev.3, Jun. 1997, page 62 of 73
100
1k
10 k
Frequency (Hz)
100 k
1M
HA12167FB/HA12169FB
Total Harmonic Distortion vs.
Equalizer Output Level (1)
50
Total Harmonic DIstortion T.H.D. (%)
3.5 kHz
EQin EQout 0 step
VCC = 14 V, 0 dB = –1 dBs
10
1 kHz
15 kHz
1.0
350 Hz
0.1
–30
6.3 kHz
10 kHz
–20 –10
0
10
20
Equalizer Output Level (dB)
30
Total Harmonic Distortion vs.
Equalizer Output Level (2)
Total Harmonic DIstortion T.H.D. (%)
50
EQin EQout 16 step
VCC = 14 V, 0 dB = –4 dBs
15 kHz
10
315 Hz
3.15 kHz
6.3 kHz
1.0
10 kHz
1 kHz
0.1
–30
–20 –10
0
10
20
Equalizer Output Level (dB)
30
Rev.3, Jun. 1997, page 63 of 73
HA12167FB/HA12169FB
Total Harmonic Distortion vs.
Equalizer Output Level (3)
Total Harminic Distortion T.H.D. (%)
50
EQin EQout 30 step
VCC = 14 V, 0 dB = –8 dBs
10
315 Hz
1 kHz
1.0
10 kHz
15 kHz
0.1
–30
6.3 kHz
3.15 kHz
–20 –10
0
10
20
Equalizer Output Level (dB)
30
Equalizer Amp. Gain vs. R GL
Equalizer Amp. Gain GL (dB)
45
40
EQin EQout VCC = 14 V
Vin = –46 dBS = 0 dB
EQ.DAC = 0 Step
R GH = R GP = 33 k
R FQ = R F/Q = 51 k
R FM = 100 k
35
30
25
: 316 Hz
: 1 kHz
20
15
5k
Rev.3, Jun. 1997, page 64 of 73
10 k
30 k
100 k
R GL ( )
300 k
1M
HA12167FB/HA12169FB
Equalizer Amp. Gain vs. R GH
45
EQin EQout VCC = 14 V
Vin = –46 dBS = 0 dB
EQ.DAC = 0 Step
Equalizer Amp. Gain GH (dB)
40
R GL = 33 k
R GP = 16 k
R FQ = R F/Q = 24 k
R FM = 390 k
f = 6.3 kHz
35
30
25
20
15
5k
10 k
30 k
100 k
300 k
1M
R GH ( )
Equalizer Amp. Gain vs. RGP
65
Equalizer Amp. Gain GP (dB)
60
55
50
EQin EQout
Vcc = 14 V
EQ.DAC = 0 Step
R GL = R GH = 33 k
R FQ = R F/Q = 51 k
R FM = 100 k
f = 19 kHz
45
40
35
5k
10 k
30 k
100 k
300 k
1M
R GP ( )
Rev.3, Jun. 1997, page 65 of 73
HA12167FB/HA12169FB
Equalizer Cutoff Frequency vs. RFM
Equalizer Cutoff Frequency (Hz)
100 k
EQin EQout
Vcc = 14 V
EQ.DAC=0 Step
10 k
1k
R GL = 120 k
R GH = 7.5 k
R FQ = R F/Q = 24k
R GP = 16 k
100
5 k 10 k
300 k 500 k
Equalizer Peak Frequency vs. RFQ
1M
Equalizer Peak Frequency fo (Hz)
30 k
100 k
RFM ( )
EQin EQout
Vcc = 14 V
EQ.DAC = 0 Step
100 k
10 k
R F/Q
: 12 k
: 24 k
: 51 k
: 100 k
: 200 k
: 390 k
1k
5k
Rev.3, Jun. 1997, page 66 of 73
10 k
30 k
100 k
RFQ ( )
300 k 500 k
HA12167FB/HA12169FB
Equalizer Quality Factor vs. RFQ
Equalizer Quality Factor Q.
15
EQin EQout
Vcc = 14 V
EQ.DAC = 0 Step
Vin = - 50 dBs
R F/Q =
: 390 k
: 200 k
: 100 k
: 51 k
: 24 k
: 12 k
10
5
0
5k
10 k
30 k
100 k
300 k
1M
RFQ ( )
Equalizer Gain vs. DAC Step
31
VCC = 14 V
EQin EQOUTout
f = 1 kHz
Vin = –26dBs
EQ. Gain (dB)
26
21
16
0
10
20
30
DAC Step
Rev.3, Jun. 1997, page 67 of 73
HA12167FB/HA12169FB
Equalizer Noise vs. DAC Step
–60
EQ. Noise (dBs)
VCC = 14 V
JIS-A filter
–65
–70
–75
0
10
20
30
DAC Step
Equalizer Vo max, Vin max vs. DAC Step
15
0
10
–5
Vin max
5
–10
EQin EQout
f = 1 kHz Vcc = 14 V
T.H.D. = 1%
0
10
20
DAC Step
Rev.3, Jun. 1997, page 68 of 73
30
–15
Equalizer Vin max (dBs)
Equalizer Vo max (dBs)
Vo max
HA12167FB/HA12169FB
Equalizer Vo max, Vin max vs. Supply Voltage
0
15
EQin EQout
f = 1 kHz
T.H.D.=1%
Equalizer Gain vs. Temperature
30
Vo max
: 0 Step
: 16 Step
: 30 Step
Vin max
: 0 Step
: 16 Step
: 30 Step
0
–3
20
30 step
15
–15
VCC = 14 V, Vin = 26 dBs
f = 1 kHz
10
–18
40
10
12
14
16
Supply Voltage (V)
20
0
20
40
60
80
Temperature Ta (°C)
Equalizer Vo max, Vin max vs. Temperature
15
0
Vo max
5
10
EQin EQout VCC = 14 V
0 step f = 1 kHz
0
3
10
Vin max
5
Equalizer Vin max (dBs)
8
16 step
Gain (dB)
–10
5
25
Equalizer Vin max (dBs)
–5
10
Equalizer Vo max (dBs)
Equalizer Vo max (dBs)
0 step
15
18
40
20
0
20
40
60
80 90
Temperature Ta (°C)
Rev.3, Jun. 1997, page 69 of 73
HA12167FB/HA12169FB
Maximum Output Level vs. BIAS Adjust Register
14
VCC = 14 V
B. DAC = 63 Step
Maximum Output Level (V)
12
Normal
Crom
Metal
10
8
6
4
2
0
5k
10 k
100 k
1M
BIAS Adjust Register RADJ (Ω)
DAC Output Level vs. DAC Step
14
DAC Output Level (V)
12
VCC =14 V
Metal : 20 k Ω
Crom : 24 k Ω
Normal : 33 k Ω
10
Metal
8
Crom
6
Normal
4
2
0
10
20
30
DAC Step
Rev.3, Jun. 1997, page 70 of 73
40
50
60
HA12167FB/HA12169FB
Bias Vomax vs. Supply Voltage
20
Metal
Crom
Normal
18
VCC Line
Bias Vo max (V)
16
14
12
10
8
B.DAC=63 step
RADJ =10 k Ω
6
4
8
10
12
14
Supply Voltage (V)
16
Rev.3, Jun. 1997, page 71 of 73
HA12167FB/HA12169FB
Package Dimensions
Unit: mm
17.2 ± 0.3
14
60
41
40
0.65
17.2 ± 0.3
61
80
21
1
0.10
Rev.3, Jun. 1997, page 72 of 73
0.10 +0.15
–0.10
0.17 ± 0.05
0.15 ± 0.04
0.83
2.70
0.12 M
3.05 Max
20
0.32 ± 0.08
0.30 ± 0.06
1.6
0˚ – 8˚
0.8 ± 0.3
Hitachi Code
JEDEC Code
EIAJ Code
Weight
FP-80A
—
ED-7404A
1.2 g
HA12167FB/HA12169FB
Disclaimer
1. Hitachi neither warrants nor grants licenses of any rights of Hitachi’s or any third party’s patent,
copyright, trademark, or other intellectual property rights for information contained in this document.
Hitachi bears no responsibility for problems that may arise with third party’s rights, including
intellectual property rights, in connection with use of the information contained in this document.
2. Products and product specifications may be subject to change without notice. Confirm that you have
received the latest product standards or specifications before final design, purchase or use.
3. Hitachi makes every attempt to ensure that its products are of high quality and reliability. However,
contact Hitachi’s sales office before using the product in an application that demands especially high
quality and reliability or where its failure or malfunction may directly threaten human life or cause risk
of bodily injury, such as aerospace, aeronautics, nuclear power, combustion control, transportation,
traffic, safety equipment or medical equipment for life support.
4. Design your application so that the product is used within the ranges guaranteed by Hitachi particularly
for maximum rating, operating supply voltage range, heat radiation characteristics, installation
conditions and other characteristics. Hitachi bears no responsibility for failure or damage when used
beyond the guaranteed ranges. Even within the guaranteed ranges, consider normally foreseeable
failure rates or failure modes in semiconductor devices and employ systemic measures such as failsafes, so that the equipment incorporating Hitachi product does not cause bodily injury, fire or other
consequential damage due to operation of the Hitachi product.
5. This product is not designed to be radiation resistant.
6. No one is permitted to reproduce or duplicate, in any form, the whole or part of this document without
written approval from Hitachi.
7. Contact Hitachi’s sales office for any questions regarding this document or Hitachi semiconductor
products.
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Copyright  Hitachi, Ltd., 2000. All rights reserved. Printed in Japan.
Colophon 2.0
Rev.3, Jun. 1997, page 73 of 73