HIT HA12177, HA12175, HA12174, HA12173 Datasheet
HA12173 Series
Audio Signal Processor for Car Deck and Cassette Deck
(Dolby B/C-type NR with PB Amp)
ADE-204-016
1st Edition
Nov. 1992
Description
HA12173 series are silicon monolithic bipolar IC providing Dolby noise reduction system*, music sensor
and PB equalizer system in one chip.
Functions
• PB equalizer × 2 channel
• Dolby B/C-NR × 2 channel
• Music sensor × 1 channel
Features
• Different type of PB equalizer characteristics selection (normal/chrome or metal) is available with fully
electronic control switching built-in.
• 2 type of input selection (RADIO/TAPE) is available.
• Changeable to Forward, Reverse-mode for PB head with fully electronic control switching built-in.
• Available to change music sensing level by external resistor.
• Music sensing level selection is available with fully electronic control switching built-in.
• Available to change frequency response of music sensor.
• NR-ON/OFF and REC/PB fully electronic control switching built-in.
• 4 type of PB-out level.
• Available to allow common PCB designs with HA12163 series.
* Dolby is a trademark of Dolby Laboratories Licensing Corporation.
A license from Dolby Laboratories Licensing Co r por ation is required for the use of this IC.
HA12173 Series
Ordering Information
Operating voltage range*
Products PB-OUT level REC-OUT level Dolby-level Min Max
HA12173 300 mVrms 300 mVrms 300 mVrms 7.0V 16V
HA12174 450 mVrms 300 mVrms 300 mVrms 8.0V 16V
HA12175 580 mVrms 300 mVrms 300 mVrms 9.5V 16V
HA12177 775 mVrms 300 mVrms 300 mVrms 12.0V 16V
Note: 1. The minimum operating voltage of HA12173 series are defferent from the HA12163 series
(Dolby B - type).
1
Pin Description (VCC = 9 V Single supply, Ta = 25°C, No signal, The value in the table
show typical value)
Terminal
Pin No.
2, 41 TAI 100 kΩ VCC/2
name Zin
DC
voltage Equivalent circuit Description
Tape input
VCC/ 2
4, 39 RAI Radio input
25 MSI Music sensor
rectifier input
10, 33 HLS DET — 2.5 V Time constant
pin for rectifier
11, 32 LLS DET
3 BIAS — 0.28 V
GND
Reference
current input
Rev.1, Nov. 1992, page 2 of 66
HA12173 Series
Pin Description (VCC = 9 V Single supply, Ta = 25°C, No signal, The value in the table
show typical value) (cont)
Terminal
Pin No.
24 MS DET — V
19 MS GV 100 kΩ —
40 RIP — VCC/2 Ripple filter
name Zin
DC
voltage Equivalent circuit Description
CC
GND
DGND
GND
Time constant
pin for rectifier
Mode control
input
Rev.1, Nov. 1992, page 3 of 66
HA12173 Series
Pin Description (VCC = 9 V Single supply, Ta = 25°C, No signal, The value in the table
show typical value) (cont)
Terminal
Pin No.
name Zin
43, 56 EQ OUT — VCC/2
DC
voltage Equivalent circuit Description
V
CC
GND
Equalizer output
6, 37 PB OUT Play back
(Decode) output
30 MS V
REF
Reference
voltage buffer
output
26 MA OUT Music sensor
amp output
47, 52 V
REF
Reference
voltage buffer
output
12, 31 REC OUT Recording
(Encode) output
8, 35 SS2 Spectral skewing
amp. output
44, 55 EQ OUT-M — VCC/2
V
CC
Equalizer output
(Metal)
Rev.1, Nov. 1992, page 4 of 66
GND
HA12173 Series
Pin Description (VCC = 9 V Single supply, Ta = 25°C, No signal, The value in the table
show typical value) (cont)
Terminal
Pin No.
21 MS OUT — —
22 V
23 MS V
20 D GND — 0V — Digital (Logic)
27 MS GND Music sensor
49, 50 GND Ground
48, 51 FIN — VCC/2 PB - EQ input for
name Zin
CC
CC
—VCC— Power supply
DC
voltage Equivalent circuit Description
MS V
D GND
CC
Music sensor
output to MPU
ground
ground
forward
46, 53 RIN PB - EQ input for
reverse
45, 54 NFI Negative
feedback
terminal of PB EQ amp.
28 NOI Negative
feedback input
for normal speed
29 FFI Negative
feedback input
for FF or REW
Rev.1, Nov. 1992, page 5 of 66
HA12173 Series
Pin Description (VCC = 9 V Single supply, Ta = 25°C, No signal, The value in the table
show typical value) (cont)
Terminal
Pin No.
13 C/B 100 kΩ —
14 ON/OFF
15 REC/PB
16 TAPE/RADIO
17 120 µ/170 µ
18 F/R
7, 36 SS1 — VCC/2 Spectral skewing
name Zin
DC
voltage Equivalent circuit Description
Mode control
input
D GND
GND
amp. input
9, 34 CCR — VCC/2 Current
controled
resistor output
1, 5, 38, 42 NC No connection
Rev.1, Nov. 1992, page 6 of 66
Block Diagram
HA12173 Series
RADIO
IN(L)
EQOUT(L)
42 41 40 39 38 37 30 29
43
120/70
44
45
46
V (L)
47
REF
48
GND
49
GND
50
51
V (R)
52
REF
53
54
55
120/70
56
EQOUT(R)
+
RIP
+
–
R/F
×1
×1
R/F
–
+
BIAS
T/R
T/R
PBOUT(L)
+
–
RECOUT(L)
36 35 34 33 32 31
DOLBY B/C-NR
S/R
–
LPF
+
MS AMP
DOLBY B/C-NR
968713
1110
MS VREF
DET
MS GND
MS V
CC
V
CC
D GND
141254132
C/B
28
27
26
25
24
23
22
21
20
19
18
17
16
15
ON/OFF
+
MS OUT
(S/R)
MS G
V
F/R
120 µ/70 µ
TAPE/RADIO
REC/PB
V
CC
To Microcomputer
From
Microcomputer
IN(R)
PBOUT(R)RADIO
RECOUT(R)
Absolute Maximum Ratings
Item Symbol Ratings Unit Condition
Supply voltage VCC max 16 V
Power dissipation P
T
Operating temperature Topr –40 to +85 °C
Storage temperature Tstg –55 to +125 °C
500 mW Ta≤85°C
Rev.1, Nov. 1992, page 7 of 66
HA12173 Series
Electrical Characteristics (Ta = 25°C Dolby level 300 mVrms (Rec-out pin))
HA12173 VCC = 9.0 V HA12174 VCC = 9.0 V
HA12175 V
Item Symbol Min Typ Max Unit Test Condition Note
Quiescent current I
Q
Input HA12173 GvIA TAI 18.5 20.0 21.5 dB Vin = 0 dB, f = 1 kHz
Amp. GvIA RAI 15.5 17.0 18.5
gain HA12174 GvIA TAI 22.0 23.5 25.0 Vin = 0 dB, f = 1 kHz
GvIA RAI 19.0 20.5 22.0
HA12175 GvIA TAI 24.2 25.7 27.2 Vin = 0 dB, f = 1 kHz
GvIA RAI 21.2 22.7 24.2
HA12177 GvIA TAI 26.7 28.2 29.7 Vin = 0 dB, f = 1 kHz
GvIA RAI 23.7 25.2 26.7
B-type Encode ENC –2k 2.8 4.3 5.8 dB Vin = –20 dB, f = 2 kHz
boost ENC –5k 1.7 3.2 4.7 Vin = –20 dB, f = 5 kHz
C-type Encode ENC –1k (1) 3.9 5.9 7.9 dB Vin = –20 dB, f = 1 kHz
boost ENC –1k (2) 18.1 19.6 21.6 Vin = –60 dB, f = 1 kHz
ENC –700 9.8 11.8 13.8 Vin = –30 dB, f = 700 Hz
Signal handling Vo max 12.0 13.0 — dB THD = 1%, f = 1 kHz *1
Signal to noise
S/N 60.0 64.0 — dB Rg = 5.1 kΩ, CCIR/ARM
ratio
THD THD — 0.05 0.3 % Vin = 0 dB, f = 1 kHz
Channel CT RL (1) 70.0 85.0 — dB Vin = 0 dB, f = 1 kHz RAI input
separation CT RL (2) 50.0 60.0 — Vin = 0.6 mVrms, f = 1 kHz EQ input
Crosstalk CT EQ → RAI 70.0 80.0 — Vin = 0.6 mVrms, f = 1 kHz EQ input
CT RAI → EQ 50.0 60.0 — Vin = 0 dB, f = 1 kHz RAI input
PB - EQ gain Gv EQ 1k 37.0 40.0 43.0 dB Vin = 0.6 mVrms, f = 1 kHz 120 µ
Gv EQ 10k (1) 33.0 36.0 39.0 Vin = 0.6 mVrms, f = 10 kHz
Gv EQ 10k (2) 29.0 32.0 35.0 70 µ
PB - EQ maximum
VoM 300 600 — mVrms THD = 1%, f = 1 kHz *1
output
PB - EQ THD THD - EQ — 0.05 0.3 % Vin = 0.6 mVrms, f = 1 kHz
Noise voltage level
V
N
converted in input
MS sensing level VON (1) –36.0 –32.0 –28.0 dB f = 5 kHz, Normal speed
VON (2) –18.0 –14.0 –10.0 f = 5 kHz, High speed
10.0 16.0 24.0 mA No input No Signal
— 0.7 1.5 µVrms Rg = 680 Ω, DIN - AUDIO
= 12.0 V HA12177 VCC = 14.0 V
CC
NR-B70 µ
Rev.1, Nov. 1992, page 8 of 66
HA12173 Series
Electrical Characteristics (Ta = 25°C Dolby level 300 mVrms (Rec-out pin)) (cont)
HA12173 VCC = 9.0 V HA12174 VCC = 9.0 V
HA12175 V
Item Symbol Min Typ Max Unit Test Condition Note
MS output low
V
OL
level
MS output leak
I
OH
current
Control voltage V
IL
V
IH
Note: 1. HA12173 VCC = 7.0 V, HA12174 VCC = 8.0 V, HA12175 VCC = 9.5 V, HA12177 VCC = 12.0 V
—1.01.5V
—0.02.0µA
–0.2 — 1.5 V
3.5 — 5.3
= 12.0 V HA12177 VCC = 14.0 V
CC
Rev.1, Nov. 1992, page 9 of 66
HA12173 Series
Test Circuit
5 V
R29
R30
EQOUT (L)
10 k
10 k
SW22
PBOUT (L)
ON
RECOUT (L)
DC VM1
SW21
SW24
SW23
EQOUT(L)
OFF
LR
PBOUT(L)
RECOUT(L)
RAI (L)
DC SOURCE1
R27
330 k
R28
18 k
C21
2200 p
R33
5.1 k
EQIR (L)
EQIF(L)
SW25
A GND
C29
100 µ
+
CC
V
MS
+
R24
330 k
C14
0.01 µ
R25
47 k
C28
4700 p
R26
33 k
+
C15
2.2 µ
C18
2200 p
C20
2200 p
R32
+
C19
2.2 µ
+
C23
0.47 µ
R34
5.1 k
C24
0.1 µ
R35
5.1 k
R36
12 k
R38
330 k
R39
180
C25
0.01 µ
R40
680
+
R41
680
C27
22 µ
+
V
C13
0.33 µ
MS
DET
MSI
MA
OUT
MS
GND
FFI NOI
MS
VREF
REC
C16
0.1 µ
LLS
C17
0.1 µ
HLS
(L)
CCR
R31
560
(L)
SS2
(L)
SS1
22 k
PB
N.C.
(L)
RAI
+
RIP
C22
1 µ
(L)
TAI
N.C.
EQ
R37
18 k
EQ
(L)
NFI
(L)
RIN
C26
22 µ
(L)
VREF
(L)
FIN
49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 3334 32 31 30 29 28 27 26 25 24 23 22
GND
Note : The capacitor (C29) should
be connected.
It's recommended to be
connected close to the IC.
MS
2120
OUT
CC
D
GND
GV
MS
1918
F/R
17
/70µ
120µ
16
TAPE/
RADIO
/PB
1514131211109876543215655545352
REC
ON/
OFF
C/B
(L)
OUT
DET
DET
OUT
(R)
REC
OUT
(L)
(R)
LLS
DET
(L)
(R)
HLS
DET
(R)
CCR
(R)
SS2
(R)
SSI
(L)
PB
(R)
OUT
N.C.
(R)
RAI
HA12173/4/5/7 (PB 1 Chip)
BIAS
(R)
TAI
N.C.
(L)
(R)
EQ
OUT
OUT
(L)
(R)
EQ
OUT-M
OUT-M
(R)
NFI
(R)
RIN
(R)
VREF
(R)
51
FIN
GND
50
R23
3.9 k
SW1SW2
R22
22 k
R21
22 k
SW3SW4
R20
22 k
R19
22 k
+
SW5SW6
R18
22 k
C33
22 µ
R17
22 k
C32
PB REC 120 µ 70 µ SER REP
22 µ
+
+
C11
0.1 µ
C10
0.1 µ
OFF ON TAP RAD FOR REV
R16
22 k
SW7
C
B
C31
22 µ
+
C12
2.2 µ
R13
560
R12
22 k
+
C8
2.2 µ
C5
0.47 µ
+
R11
18 k
C4
0.1 µ
R8
5.1 k
R7
12 k
R6
18 k
C3
0.01 µ
R2
680
++
C2
22 µ
R1
680
C1
22 µ
C7
R9
R5
R3
2200 p
5.1 k
330 k
180
EQIF(R)
SW16
SW13 SW12 SW11 SW10 SW9 SW8
SW14
C9
2200 p
C6
2200 p
EQIR (R)
RAI (R)
LR
SW15
DC SOURCE2
R10
5.1 k
ON OFF
DC SOURCE3
SW18
MSOUT
RECOUT(R)
PBOUT(R)
SW17
D GND
EQOUT(R)
AC VM1 AUDIO SG
L
R
RECOUT(R)
PBOUT(R)
SW19 SW20
EQOUT(R)
R15
R14
10 k
10 k
AC VM2
ANALYZER
DISTORTION
OSCILLO SCOPE
NOISE METER
Ω
Unit R:
C: F
Note
1) Resistor tolerance are ± 1%
2) Capacitor tolerance are ± 1%
Noise meter
with CCIR/ARM filter
and DIN-AUDIO filter
Rev.1, Nov. 1992, page 10 of 66
HA12173 Series
Functional Description
Power Supply Range
HA12173 series are provided with four line output level, which will permit on optimum overload margin
for power supply conditions. And this series are designed to operate on either single supply or split supply.
Table 1 Supply Voltage
Item HA12173 HA12174 HA12175 HA12177
Single supply 7.0 V to 16.0 V 8.0 V to 16.0 V 9.5 V to 16.0 V 12.0 V to 16.0 V
Split supply GND level ±5.0 V to 8.0 V ±5.0 V to 8.0 V ±5.0 V to 8.0 V ±6.0 V to 8.0 V
VEE level ±3.5 V to ±8.0 V ±4.0 V to 8.0 V ±4.8 V to 8.0 V ±6.0 V to 8.0 V
A. 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.
B. In case of using digital GND terminal referring to GND level, operating voltage range varies
depending on the condition at power on. On using the HA12173/174/175, use within the following
ranges to avoid latch-ups.
When power on in NR-OFF mode: ±5.0 V to ±8.0 V
When power on in NR-ON mode: ±5.7 V to ±8.0 V
C. In the reverse-voltage conditions such as ‘D-GND is higher than V
GND’, excessive current flows into the D-GND to destory this IC. To prevent such destru ctio n, pa y
attention to the followings on using.
Single power supply : Short-circuit the D-GND and GND directory on the board mounting this IC.
Split power supply : Avoid reverse conditions of D-GND and V
transient-time of power ON/OFF.
’ or ‘D-GND is lower than
CC
or VEE voltage, including
CC
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.
Rev.1, Nov. 1992, page 11 of 66
HA12173 Series
22
47
V
(L)
V
CC
+
REF
RIPGND 49 50 40
+
C22
–
+
–
+
–
52
1 Fµ
L channel
reference
Music sensor
reference
R channel
reference
V
(R)
REF
MS V52
REF
Figure 1 The Block Diagram of Reference Voltage Supply
Operating Mode Control
HA12173 series provide fully electronic switching circuits. And each operating mode control are
controlled by parallel data (DC voltage).
Table 2 Threshold Voltage (V
Pin No. Low High Unit Test condition
13, 14, 15, 16,
17, 18, 19
–0.2 to 1.5 3.5 to 5.3 V
)
TH
Input Pin Measure
22 k
V
Rev.1, Nov. 1992, page 12 of 66
HA12173 Series
Table 3 Switching Truth Table
Pin No. Low High
13 B - NR C - NR
14 NR - OFF NR - ON
15 PB REC
16 TAPE RADIO
17 120 µ (NORMAL) 70 µ (METAL or CHROME)
18 FORWARD REVERSE
19 SER (FF or REV) REP (NORMAL SPEED)
Notes: 1. Voltages shown above are determined by internal circuits of LSI when take pin 20 (DGND pin) as
reference pin. On split supply use, same V
pin.
This means that it can be controlled directly by microprocessor. But power supply should be
over ±5 V, notwithstanding the prescription of table 1.
2. Each pins are on pulled down with 100 kΩ internal resistor.
Therefore, it will be low-level when each pins are open.
3. Over shoot level and under shoot level of input signal must be the standardized (High: 5.3 V,
Low: –0.2 V)
4. When connecting microcomputer or Logic-IC with HA12173 series directly, there is apprehension
of rush-current under some transition timming of raising voltage or falling voltage at V
On using, connect protective resistors of 10 to 22 kΩ to all the control pins. It is shown is test
circuit on this data sheet. And pins fixed to low level should be preferably open.
5. Pay attention not to make digital GND voltage lower than GND voltage.
can be offered by connecting DGND pin to GND
TH
ON/OFF.
CC
Rev.1, Nov. 1992, page 13 of 66
HA12173 Series
Input Block Diagram and Lev e l Diagram
R34
5.1 k
R35
5.1 k
EQ OUT
C24
0.1µ
HA12173: 300 mVrms (–8.2 dBs)
HA12174: 450 mVrms (–4.7 dBs)
HA12175: 580 mVrms (–2.5 dBs)
HA12177: 775 mVrms (0.0 dBs)
RAITAI PBOUT
R36
R39
180
R38
330 k
12 k
R37
18 k
C25
0.01µ
Unit R:
C: F
Ω
EQ OUT-M
EQ AMP
NFI
R
IN
V
REF
F
IN
Figure 2 Input Block Diagram
Adjustment of Playback Dolby Level
30 mVrms
(–28.2 dBs)
+–
0.6 mVrms
(–62.2 dBs)
42.4 mVrms
(–25.2 dBs)
INPUT AMP
+
NR circuit
–
The each level shown above is typical value
when offering PBOUT level to PBOUT pin.
(EQ AMP Gv = 40 dB f = 1 kHz)
RECOUT
300 mVrms
(–8.2 dBs)
After replace R34 and R35 with a half-fix volume of 10 kΩ, adjust RECOUT level to be Dolby level with
playback mode.
Note on Connecting with Tape Head to IC
This IC has no internal resistor to give the DC bias current to equalizer amp., therefore the DC bias current
will give through the head. This IC provides the Vref buffer output pin for Rch and Lch separ ately (has
two Vref terminal). In case of use that the Rch and Lch reference of head are connected commonly, please
use one of Vref terminals of IC (47 pin or 52 pin) for head reference. If both 47 pin and 52 pin of IC are
connected, rush current give the great damage to IC. The application circuit is shown in figure 3.
Rev.1, Nov. 1992, page 14 of 66
43
44
HA12173 Series
45
46
47
48
49
50
51
52
53
54
55
V (L)
REF
GND
GND
V (R)
REF
–
R/F
R/F
– +
+
56
Figure 3 Application Circuit
Rev.1, Nov. 1992, page 15 of 66
HA12173 Series
The Sensitivity Adjustment o f a Music Sensor
Adjusting MS AMP. gain by external resistor, the sensitivity of music sensor can set up.
TAI (L)
X1
–6 dB
X1
TAI (R)
R28 R27
R26 R25
C28
4700 p
MS
V
REF
L·R signal addition circuit
+
–
26 dB
LPF
25 kHz MS AMP
C14
0.01 µ
FFI NOI MA
OUT
+
–
V
CC
R24
330 k
MSI MS
DET
DET
100 k
+
C13
0.33 µ
Unit R:
MS OUT
D GND
Ω
C: F
DV
CC
I
R
L
Microcomputer
D GND
L
Rev.1, Nov. 1992, page 16 of 66
Figure 4 Music Sensor Block Diagram
HA12173 Series
Gv1
Gv
[dB]
Gv2
1. Normal mode
Gv1 = 20log 1+
f1=
⋅π ⋅
2
R27
R28
1
C14⋅100 k
f
1
Figure 5 Frequency Response
[dB]
[Hz], f 2=25 k[Hz]
f
2
Normal speed
f
3
FF or REV
1 k10010 10 k 25 k 100 k
f [Hz]
f
4
2. FF or REW mode
R25
Gv2 = 20log 1+
=
f3
2⋅π⋅C28⋅R26
1
[dB]
R26
[Hz],f4=25k [Hz]
A standard level of TAI pin is 30 mVrms and the gain for TAI to MS AMP input is 10, therefore, the
other channel sensitivity of music sensor (S) is computed by the formula mentioned below.
S=20 log
C
30
⋅
10⋅ A
[dB]
1
A = MS AMP. gain (B dB)
S = –7.3–B [dB] C = 130 mVrms (typ.)
S is 6 dB up in case of the both channels.
C = The sensing level of music sensor
Rev.1, Nov. 1992, page 17 of 66
HA12173 Series
Music Sensor Output (MS OUT)
As for the internal circuit of music sensor block, music sensor out pin is connected to the collector of NPN
Type directly, Output level will be “high” when sensing no sign a l. And outp ut level will be “low” when
sensing signal.
Connection with microcomputer, design I
– MSOUTLo*
DV
I
L
CC
=
R
L
at 1 mA typ.
L
* MSOUTLo: Sensing signal (about 1 V)
Notes: 1. Supply voltage of MS OUT pin must be less than V
2. MS V
pin and VCC pin are required the same voltage.
CC
voltage.
CC
The Tolerances of External Components for Dolby NR-block
For adequate Dolby NR tracking response, take external components shown below.
C21
2200 p
SS1
(L)
±5%
C20
2200 p
±5%
SS2
(L)
R31
560
±2%
CCR
(L)
C18
2200 p
±5%
HLS
DET (L)
C17
0.1
±10%
µ
R32
22 k
±2%
37 36 35 34 33
PB OUT
(L)
32
LLS
DET (L)
C16
0.1
µ
±10%
HA12173 Series (PB 1 Chip)
3
PB OUT
(R)
67 910
R11
18 k
±2%
R12
22 k
±2%
SS1
(R)
C7
2200 p
±5%
C6
2200 p
±5%
SS2
(R)
8
R13
560
±2%
CCR
(R)
C9
2200 p
±5%
DET(R)BIAS
HLS
C10
0.1
±10%
DET(R)
µ
LLS
11
C11
0.1
µ
±10%
Unit R:
C: F
Figure 6 Tolerances of External Components
PB Equalizer for Double Speed
PB equalizer can be design for double speed by using external components shown in figure 7. Application
data is shown in figure 8.
Rev.1, Nov. 1992, page 18 of 66
Ω
HA12173 Series
4.7
R38
330 k
R39
180
R35
5.1 k
µ
0.015
µ
+
R36
12 k
R37
18 k
C25
0.01
No
µ
R
Do
EQ OUT
EQ
OUT-M
EQ
AMP.
NFI
RIN
V
REF
FIN
– +
22 k
VR1
µ
0.1
+
TAI RAI PBOUT
INPUT AMP.
No : Normal speed
Do : Double speed
Please ajust RECOUT level to
*
be Dolby level with volume of
VR 1.
+
–
NR
circuit
RECOUT
Unit
R:
C: F
Ω
Figure 7 Application Circuit for Double Speed
60
50
40
V
G (dB)
30
20
10
20 100 1 k 10 k 100 k
Frequency (Hz)
Figure 8 Application data
µ
120
70
R = 2.7 k
R = 2.2 k
R = 1.8 k
R = 1.3 k
OUTPUT = TAIpin
*
Normal speed
µ
Double speed
Rev.1, Nov. 1992, page 19 of 66
HA12173 Series
Circuit For Split Supply
HA12173
EE
EE
5 V
R29
R30
EQOUT (L)
10 k
10 k
SW22
PBOUT (L)
ON
RECOUT (L)
DC VM1
SW21
SW24
SW23
EQOUT(L)
OFF
LR
PBOUT(L)
RAI (L)
DC SOURCE1
R27
330 k
RECOUT(L)
R28
18 k
C21
2200 p
R33
5.1 k
EQIR (L)
EQIF(L)
SW25
0.33 µ
C17
+
C16
0.1 µ
560
R37
C30
100 µ
0.1 µ
18 k
EE
(V )
DC SOURCE2
CC
V
MS
V
MS
DET
MSI
MA
OUT
MS
GND
FFI NOI
MS
VREF
REC
OUT
LLS
DET
HLS
DET
(L)
CCR
(L)
SS2
(L)
SS1
PB
OUT
N.C.
(L)
RAI
RIP
(L)
TAI
N.C.
EQ
OUT
EQ
OUT-M
(L)
NFI
(L)
RIN
(L)
VREF
(L)
FIN
49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 3334 32 31 30 29 28 27 26 25 24 23 22
GND
Note : In case of using digital GND
terminal referring to V level,
separate digital GND and
analog GND and connect
digital GND terminal to V .
MS
2120
OUT
CC
D
GND
GV
MS
/70µ
120µ
TAPE/
RADIO
/PB
REC
ON/
OFF
(L)
(R)
REC
OUT
(L)
(R)
LLS
DET
(L)
(R)
HLS
DET
(R)
CCR
(R)
SS2
(R)
SSI
(L)
PB
(R)
OUT
(R)
RAI
HA12173/4/5/7 (PB 1 Chip)
(R)
TAI
F/R
C/B
N.C.
BIAS
R22
22 k
1918
R21
22 k
R20
22 k
17
R19
22 k
+
16
R18
22 k
C33
22 µ
1514131211109876543215655545352
R17
22 k
C32
22 µ
+
R16
22 k
+
C31
22 µ
C11
0.1 µ
C10
0.1 µ
R13
560
R12
22 k
C8
C4
N.C.
(L)
(R)
EQ
OUT
(L)
EQ
OUT-M
NFI
RIN
VREF
FIN
R6
(R)
(R)
18 k
C3
0.01 µ
(R)
C2
(R)
(R)
GND
22 µ
51
50
D GND
DC SOURCE2
DC SOURCE3
L
SW18
PBOUT(R)
EQOUT(R)
AC VM1 AUDIO SG
R
RECOUT(R)
PBOUT(R)
MSOUT
R23
3.9 k
SW1SW2
SW3SW4
SW5SW6
PB REC 120 µ 70 µ SER REP
OFF ON TAP RAD FOR REV
SW7
C
B
+
C12
2.2 µ
C9
C7
2200 p
+
2.2 µ
C5
0.47 µ
+
R11
18 k
R9
5.1 k
0.1 µ
R8
5.1 k
R7
12 k
R5
330 k
R3
180
R2
680
++
R1
680
C1
22 µ
EQIF(R)
SW16
LR
SW13 SW12 SW11 SW10 SW9 SW8
SW14
2200 p
C6
2200 p
EQIR (R)
RAI (R)
SW15
RECOUT(R)
R10
5.1 k
ON OFF
SW17
SW19 SW20
EQOUT(R)
R15
10 k
R14
10 k
AC VM2
ANALYZER
DISTORTION
OSCILLO SCOPE
NOISE METER
Ω
Unit R:
C: F
Noise meter
with CCIR/ARM filter
and DIN-AUDIO filter
CC
(V )
A GND
C29
100 µ
+
+
C13
R24
330 k
C14
0.01 µ
R25
47 k
C28
4700 p
R26
33 k
+
C15
2.2 µ
C18
2200 p
R31
C20
2200 p
R32
22 k
+
C19
2.2 µ
+
C23
0.47 µ
R34
5.1 k
C24
0.1 µ
R35
5.1 k
R36
12 k
R38
330 k
R39
180
C25
0.01 µ
R40
680
+
C26
22 µ
R41
680
C27
22 µ
+
Rev.1, Nov. 1992, page 20 of 66
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