RENESAS HA12211NT

To all our customers
Regarding the change of names mentioned in the document, such as Hitachi
Electric and Hitachi XX, to Renesas Technology Corp.
The semiconductor operations of Mitsubishi Electric and Hitachi were transferred to Renesas
Technology Corporation on April 1st 2003. These operations include microcomputer, logic, analog
and discrete devices, and memory chips other than DRAMs (flash memory, SRAMs etc.)
Accordingly, although Hitachi, Hitachi, Ltd., Hitachi Semiconductors, and other Hitachi brand
names are mentioned in the document, these names have in fact all been changed to Renesas
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corporate statement, no changes whatsoever have been made to the contents of the document, and
these changes do not constitute any alteration to the contents of the document itself.
Renesas Technology Home Page: http://www.renesas.com
Renesas Technology Corp.
Customer Support Dept.
April 1, 2003
Cautions
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Remember to give due consideration to safety when making your circuit designs, with appropriate
measures such as (i) placement of substitutive, auxiliary circuits, (ii) use of nonflammable material or
(iii) prevention against any malfunction or mishap.
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contained therein.
HA12211NT
Audio Signal Processor for Cassette Deck (Deck 1 Chip)
ADE-207-223A (Z)
2nd. Edition
June 1997
Description
HA12211NT is silicon monolithic bipolar IC providing REC equalizer system, PB equalizer system and
each electronic control switch in one chip.
Functions
• PB equalizer
× 2 channel
• REC equalizer × 2 channel
• Each electronical control switch to change equalizer characteristics
• REC mute
• REC head return switch
Features
• REC equalizer is very small number of external parts.(4 types of frequency characteristics built-in)
• PB equalizer built-in. (A/B input changing system, 4 types of frequency characteristics)
• Independent PB sensitivity for A deck, B deck.
• Normal-speed/high-speed, normal tape/chrome tape switching built-in.
• Controllable from direct micro-computer output.
• Available to reduce substrate-area because of high integration and small external parts.
HA12211NT
Pin Description, Equivalent Circuit (VCC = 10.5V, Vref = 5.25V, Ta = 25°C, No signal,
The value in the table show typical value.)
Pin No.
Pin Name
Note
1
VCC
V = VCC
2
RECOUT (L)
Equivalent Circuit
Pin Description
VCC Pin
VCC
V = Vref
REC-EQ output
V
GND
3
RECOUT (R)
4
REC-RETURN
V = Vref
V’ = Vref
VCC
REC Return
I
V
4
V’
5 pin, 6 pin
I
GND
5
PB-IN B (L)
6
PB-IN B (R)
7
VREF
PB B Deck input
VCC
V = Vref
V’ = VCC / 2
Reference
10k
V’
V
10k
GND
8
PB-IN A(L)
V = Vref
VCC
PB A Deck input
V
9
PB-IN A(R)
Rev.2, Jun. 1997, page 2 of 34
HA12211NT
Pin Description, Equivalent Circuit (VCC = 10.5V, Vref = 5.25V, Ta = 25°C, No signal,
The value in the table show typical value.) (cont)
Pin No.
Pin Name
Note
10
PB-NF (L)
V = Vref
Equivalent Circuit
Pin Description
VCC
PB EQ Feed back
V
139k
11
PB-NF (R)
12
PB-EQ (L)
NAB Output
V = Vref
V
GND
13
PB-EQ (R)
14
PB-Cal A(L)
V = Vref
VCC
Feed back input
for gain
adjustment
VCC
REC-EQ input
10k
Vref 7
15
PB-Cal A(R)
16
PB-Cal B(R)
17
PB-Cal B(L)
26
AUX (R)
V
V = Vref
100k
Vref 7
27
AUX (L)
28
TAPE (R)
29
TAPE (L)
V
Rev.2, Jun. 1997, page 3 of 34
HA12211NT
Pin Description, Equivalent Circuit (VCC = 10.5V, Vref = 5.25V, Ta = 25°C, No signal,
The value in the table show typical value.) (cont)
Pin No.
18
Pin Name
PBOUT (R)
Note
Equivalent Circuit
Pin Description
VCC
V = Vref
PB output
V
GND
19
PBOUT (L)
20
A/B
VCC
I = 20µA
Mode control input
I
22k
100k
GND
21
HSP
22
Acr
23
Bcr
24
REC-SEL
I = 20µA
V = 2.5V
VCC
Mode control input
I
100k
V
50k
GND
25
IREF
Equalizer
reference current
input
V = 1.2V
V
30
GND
Rev.2, Jun. 1997, page 4 of 34
GND Pin
470
470
1
VCC
29
5.6k
2
28
TAPE(R)
Bias
5.6k
3
REC-OUT(R)
TAPE(L)
L-ch
REC-OUT(L)
27
4
B(L)
PB-IN
5
26
AUX(R)
12dB
REC-EQ
30
GND
R-ch
AUX(L)
REC-RETURN
IREF
B(R)
PB-IN
6
25
A
B
+
A(L)
8
5k
23
BCr
PB-IN
470µ
7
139k
+
–
24
REC-SEL
VREF
ACr
21
HSP
A(R)
PB-IN
9
(R)
11
PB-NF
B
A
20
A/B
(L)
12
PB-EQ
10k
+
–
19
PB-OUT(L)
470 0.022µ
0.022µ
10
470
(L)
PB-NF
2.7k 2.26k 1.12k
R-ch
L-ch
22
(R)
13
PB-EQ
18
PB-OUT
(R)
to Dolby
A(L)
B(L)
17 B(R) 16
RB : 100kB
14
RB : 100kB
15
Unit R : Ω
C:F
A(R)
PB-CAL
PB-CAL
from logic
PB-CAL
PB-CAL
REC IN
GND
VCC
HA12211NT
Block Diagram
Rev.2, Jun. 1997, page 5 of 34
HA12211NT
Parallel Data Format
Pin No.
Pin Name
L
1,
3
1,
2,
22
A CrO2
* *
23
B CrO2
* * *
21
HSP
Normal speed *
20
3
3
1,
A/B
3
Ain active * *
3
Return SW ON *
3
REC OUT active *
24
Note:
REC IN SEL
TAPE
H
A/B
A CrO2
B CrO2
L
H
L
H
L
L
120µ
120µ
60µ
60µ
L
H
120µ
70µ
60µ
35µ
H
L
70µ
120µ
35µ
60µ
H
H
70µ
70µ
35µ
35µ
2. REC-EQ LOGIC
HSP
B CrO2
L
H
L
Normal speed
TAPE I
High speed
TAPE I
H
Normal speed
TAPE II
High speed
TAPE II
Rev.2, Jun. 1997, page 6 of 34
—
*
—
* *
1
1,
2
—
Hi speed
—
Bin active *
—
Return SW OFF
1
—
REC OUT Hiz
MUTE *
HSP
3. Unforced pin state
H
3
1. PB-EQ LOGIC
L
M
AUX
HA12211NT
Functional Description
Power Supply Range
This IC is designed to operate on single supply, shown by table 1.
Table 1
Spply Voltage
Item
Power Supply Range
Single Supply
9.5V to 15.0V
Reference Voltage
So little is the current drivability of AC reference (Vref) that the Vref voltage may be altered by A/B
switching of PB-EQ.
Provided it causes you anxiety, please use the constant 1/2 VCC voltage circuit, for example, figure 1.
In addition, this IC has a capacitor charger for Vref pin.
1
VCC
Lch PB-EQ reference voltage
Lch REC-EQ reference voltage
470Ω
Rch REC-EQ reference voltage
Rch PB-EQ reference voltage
30
7
GND
Vref
+
470µF
Figure 1 Reference Voltage Circuit
Rev.2, Jun. 1997, page 7 of 34
HA12211NT
Operating Mode Control
This IC provides fully electronic switching circuits. And each operating mode control is controlled by
parallel data (DC voltage).
Table 2
Threshold Voltage (Vth)
Pin No.
Lo
Mid
Hi
Unit
20, 21, 22, 23
0.0 to 2.5
—
4.0 to VCC
V
Test Condition
Input Pin
Measure
V
24
Note:
0.0 to 1.0
2.0 to 3.0
4.0 to VCC
V
1. 20 to 23 pins are pulled down Lo level, and 24 pin is pulled to Mid level by the inside resistor
100kΩ.
2. Over shoot level and under shoot level of input signal must be the standardized.
(High: VCC, Low: –0.2V)
Block Diagram
This IC can be constructed for simple system which has little external parts by used the head serving both
as Recording and Play back because of REC return SW built-in.
With output Hi-Z of REC-EQ and input muting, this IC is realized not only REC mute attenuation
sufficiently but reducing pop noise in REC muting.
Note: Referring to Parallel Data Format also.
C9
RECOUT
–
+
2
REC - EQ
C11
Hi-Z SW
R1
Tape IN
29
AUX IN
27
4
RETURN SW
B head
5
PB IN (B)
A head
8
B
+
–
A
+
–
19
PBOUT
PB IN (A)
Vref
10
R7
14
12
C7
R18
R9
Normal Speed
Normal Tape
PB - A, Tape IN Select
Figure 2 Block Diagram (Lch)
Rev.2, Jun. 1997, page 8 of 34
17
HA12211NT
Level Diagram
It is the target that total play back output level is adjusted to 300mV; Dolby level, which the PB system
gain in all is included of external amplifier’s (Dolby IC etc.) as follows figure 3. Though A head
adjustment is independent of B, select the value of R9, R18 adequately.
Regarding REC-EQ adjust the gain in front of input to this IC.
The level diagram at 1kHz is shown by figure 4.
Note: 1. R1 needs the value more than 1kHz.
2. Depending on the employed REC/PB head and test tape characteristics, there is rare case that
the REC-EQ frequency characteristics of this IC can not be matched to the required
characteristics because of built-in resistors which determined the REC-EQ parameters in this
case, please inquire the responsible agent because of the adjustment of built-in resistors is
necessary.
300mV
(Dolby Level)
HA12134A
23.9mV
11.3mV
100kΩ
VR = 11kΩ
0.6mV
25.5dB
0 to 20.8dB
20dB
+
–
Dolby IC
10kΩ
100kΩ VR
Figure 3 PB Level Diagram (Normal Speed, Normal Tape, 1kHz)
Rev.2, Jun. 1997, page 9 of 34
HA12211NT
REC-EQ clip level
1.8V
300mV
(Dolby Level)
263mV
100mV
1kHz
Dolby IC
5.6kΩ
R1
REC-EQ
Figure 4 REC Level Diagram (Normal Speed, Normal Tape, 1kHz)
Rev.2, Jun. 1997, page 10 of 34
HA12211NT
Absolute Maximum Rating (Ta = 25°C)
Item
Symbol
Rating
Unit
Max supply voltage
VCC max
16
V
Power dissipation
Pd
500
mW
Operating temperature
Topr
–40 to +75
°C
Storage temperature
Tstg
–55 to +125
°C
Operating voltage
Vopr
9.5 to 15
V
Note
Ta ≤ 75°C
Rev.2, Jun. 1997, page 11 of 34
Rev.2, Jun. 1997, page 12 of 34
32.0
28.0
23.8
22.4
17.8
2.0
0.1
38
60
70
60
—
35.0
31.0
26.8
25.4
20.8
—
0.5
70
—
—
—
1.0
3.0
VCC
Max
32.0
2.5
2. VCC = 9.5V, Vref = 4.75V, R9, R10, R18, R19 = 56kΩ
Note: 1. Large level without clipping
PB-EQ Gain
29.0
25.0
20.8
19.4
14.8
0.3
—
—
50
70
CT PB/REC(2) 60
—
—
—
60
–0.2
2.0
4.0
VIL2
VIM
VIH
Typ
22.8
—
CT PB/REC(1) 50
Min
16.0
–0.2
Symbol
IQ
VIL1
GV PB (1)
GV PB (2)
GV PB (3)
GV PB (4)
GV PB (5)
PB-EQ Maximum output Vomax PB
PB-EQ THD
THD PB
PB-EQ Noise voltage
VN PB
PB-EQ Channel
CT R/L (1)
separation
CT A/B
PB-EQ Crosstalk
PB-REC Crosstalk
Item
Quiescent current
Logical threshold
dB
dB
dB
dB
dB
dB
Vrms
%
µVrms
dB
dB
dB
V
V
V
Unit
mA
V
A
B
A/B
A/B
A/B
A/B
A/B
A/B
A/B
A/B
A/B
A
A/B
—
—
—
—
A/B
A
1k
Norm TYPE I TYPE I Tape
*1
0.6
0.6
0.6
0.6
0.6
—
0.6
—
*1
1k
10k
10k
20k
20k
1k
1k
—
1k
—
—
—
*1
—
—
—
1k
—
—
—
*1
—
—
—
1k
—
—
—
27/
29
9
R
Input
26/
28
8
L
3
18
R
11
9
10
8
18
19
19
19
19
19
19
19
19
19
19
2
19
L
Output
Application Terminal
9/6 8/5 18
9/6 8/5 18
9/6 8/5 18
9/6 8/5 18
9/6 8/5 18
THD=1%*2
9/6 8/5 18
9/6 8/5 18
Rg=820Ω, DIN-AUDIO 9/6 8/5 18
8/5 9/6 18
Vin
(mVrms) Other
—
No signal
—
Norm TYPE I TYPE I Tape/
AUX
Norm TYPE I TYPE I Tape/
AUX
Norm TYPE I TYPE I Tape
Norm TYPE I TYPE I Tape
Norm TYPE II TYPE II Tape
High TYPE I TYPE I Tape
High TYPE II TYPE II Tape
Norm TYPE I TYPE I Tape
Norm TYPE I TYPE I Tape
Norm TYPE I TYPE I Tape
Norm TYPE I TYPE I Tape
—
—
—
REC fin
HSP
A CrO2 B CrO2 IN SEL (Hz)
Norm TYPE I TYPE I Mute —
—
—
—
—
—
Test Condition
IC Condition
COM
1
20 to
23
24
24
20 to
24
HA12211NT
Electrical Characteristics (Ta = 25°C, VCC = 10.5V, Vref = 5.25V, PB-EQ standard DC
gain 55.9dB (R9, R10, R18, R19 = 11.0kΩ))
A
A
A
A
A
A
A
dB
dB
dB
dB
dB
dB
dB
14.9
24.7
14.0
20.2
29.7
—
—
23.5
8.5
12.9
21.7
12.5
18.2
26.7
60
60
80
GV REC-NC 3 20.5
GV REC-HN 1 7.0
GV REC-HN 2 10.9
GV REC-HN 3 18.7
GV REC-HC 1 11.0
GV REC-HC 2 16.2
GV REC-HC 3 23.7
50
CT Tape/AUX 50
70
—
52
THD REC
S/N REC
REC-EQ S/N
2. VCC = 9.5V, Vref = 4.75V
Note: 1. Large level without clipping
1.2
Vomax REC
R-MUTE ATT
56
0.35
1.8
A
dB
10.0
16.2
GV REC-NC 2 14.2
CT R/L (2)
A
dB
12.8
11.3
GV REC-NC 1 9.8
—
0.7
—
—
26.5
dB
%
Vrms
dB
dB
A
A
A
A
A
A
A
dB
23.3
20.3
GV REC-NN 3 17.3
dB
A
dB
13.3
11.3
GV REC-NN 2 9.3
18.2
A/B
A
Unit
dB
Max
9.7
Typ
8.2
Symbol
Min
GV REC-NN 1 6.7
REC-EQ Maximum
output
REC-EQ THD
REC-EQ Attenuation
REC-EQ Channel
separation
REC-EQ Crosstalk
REC-EQ Frequency
response
High speed
TYPE II
REC-EQ Frequency
response
High speed
TYPE I
REC-EQ Frequency
response
Normal speed
TYPE II
Item
REC-EQ Frequency
response
Normal speed
TYPE I
1k
1k
1k
20k
10k
2k
20k
10k
2k
10k
5k
1k
10k
5k
Norm TYPE I TYPE I Tape/ 1k
AUX
Norm TYPE I TYPE I Tape/ 1k
AUX
Norm TYPE I TYPE I Tape/ —
AUX
Norm TYPE I TYPE I Tape/
AUX
Norm TYPE I TYPE I Tape/
AUX
Norm TYPE I TYPE II Tape/
AUX
Norm TYPE I TYPE II Tape/
AUX
Norm TYPE I TYPE II Tape/
AUX
High TYPE I TYPE I Tape/
AUX
High TYPE I TYPE I Tape/
AUX
High TYPE I TYPE I Tape/
AUX
High TYPE I TYPE II Tape/
AUX
High TYPE I TYPE II Tape/
AUX
High TYPE I TYPE II Tape/
AUX
Norm TYPE I TYPE I Tape/
AUX
Norm TYPE I TYPE I Tape
AUX
Norm TYPE I TYPE I Mute
REC fin
HSP
A CrO2 B CrO2 IN SEL (Hz)
Norm TYPE I TYPE I Tape/ 1k
AUX
Test Condition
IC Condition
—
100
—
*1
*1
*1
10
10
10
10
10
10
10
10
10
10
10
Rg=5.1kΩ, A-WTG
THD=1%*2
Vin
(mVrms) Other
10
27/
29
27/
29
27/
29
27/
29
27/
29
27/
29
27/
29
27/
29
27/
29
27/
29
27/
29
27/
29
27/
29
26/
28
26/
28
26/
28
26/
28
26/
28
26/
28
26/
28
26/
28
26/
28
26/
28
26/
28
26/
28
26/
28
L
27/
29
27/
29
27/
29
27/
29
27/
29
R
26/
28
26/
28
26/
28
26/
28
26/
28
Input
2
3
3
3
3
3
3
3
3
3
3
3
3
2
2
2
2
2
2
2
2
2
2
2
2
2
3
3
2
3
2
2
3
3
L
2
R
3
Output
Application Terminal
COM
HA12211NT
Electrical Characteristics (Ta = 25°C, VCC = 10.5V, Vref = 5.25V, EQIN standard level
= 100mV = 0dB) (cont)
Rev.2, Jun. 1997, page 13 of 34
AC VM1
ON
OFF
AUDIO
SG
SW10
C16
C15 100µ
100µ +
+
R20
470
R22
470
VCC1
VCC2
DC
DC
SOURCE 1 SOURCE 2
PB
R29
C17
420 µ
Lch
SW12
R2
5.6k
4
R15
22k
Lch
+
6
+
Bin
Ain
Bin
24
SW5
70
AUX
16
17
18
19
+
7
R18
11 k
R19
11 k
20
SW1
21
SW2
R17
10 k
C14
0.47µ
SW15
22
SW3
C13 +
+ 0.47µ
R16
10k
Rch
Lch
23
SW4
9
+
10
R5 C5 R6 C6 R7
820 10µ 820 10µ 420
8
+
HA12211NT (DP-30S)
R3 C3 R4 C4
820 10µ 820 10µ
5
Rch SW11 RchSW14 Ain
R1
5.6k
2.2 µ
1
+
3
2
VCC
+ C2
TAPE (L)
REC-OUT (L)
C1
2.2 µ
R14
5.1k
AUX (L)
REC-RETURN
+
TAPE (R)
REC-OUT (R)
GND
R13
5.1k
C9
C10 C11
C12
+
+
+
0.1µ 0.1µ 0.1µ 0.1µ
29
28
27
26
25
R12
5.1k
B-IN (R)
30
TAPE
A-IN (L)
R11
5.1k
A-IN (R)
AUX
R8
470
11
12
C7
0.022 µ
C8
0.022 µ
13
PB-NF (L)
SW7
PB-NF (R)
SW9
Lch
PB·EQ (L)
REC
SW8
AUX (R)
B-IN (L)
70
B120/70
B-120
A120/70
PB·EQ (R)
AUX
TAPE
IREF
High
SP.
Normal/High
A-120
A/B
TAPE
REC-SEL
VREF
BIN
PB-OUT (L)
SP.Normal
PB-OUT (R)
AIN
B-PB-CAL (L)
14
R9
11k
15
A-PB-CAL (L)
B-PB-CAL (R)
Rev.2, Jun. 1997, page 14 of 34
A-PB-CAL (R)
Rch SW6
R10
11k
SW16
Unit R : Ω
C:F
NOISE METER WITH
A·WTG FILTER
AND DIN-AUDIO FILTER
DISTORTION OSCILO NOISE
AC VM2 ANALYZER SCOPE METER
REC
PB
HA12211NT
Test Circuit
HA12211NT
Characteristics Curve
Quiescent Current vs. Supply Voltage
28
26
Quiescent Current (mA)
24
Ain, Normal, TYPE I
Ain, High, TYPE II
Bin, Normal, TYPE I
Bin, High, TYPE II
22
20
18
16
14
8
10
12
14
Supply Voltage (V)
16
18
PB-EQ Gain vs. Frequency
60
50
Gain (dB)
40
Normal, TYPE I
30
Normal, TYPE II
20
High, TYPE I
High, TYPE II
10
10
100
1k
10k
Frequency (Hz)
100k
1M
Rev.2, Jun. 1997, page 15 of 34
HA12211NT
PB-EQ Maximum Output Level vs. Supply Voltage (1)
Maximum Output Level Vomax (Vrms)
5.0
Ain → PBOUT
Normal, TYPE I
100Hz
1kHz
10kHz
4.0
3.0
2.0
1.0
8
10
12
14
Supply Voltage (V)
16
18
PB-EQ Maximum Output Level vs. Supply Voltage (2)
Maximum Output Level Vomax (Vrms)
5.0
Ain → PBOUT
Normal, TYPE II
100Hz
1kHz
10kHz
4.0
3.0
2.0
1.0
8
Rev.2, Jun. 1997, page 16 of 34
10
12
14
Supply Voltage (V)
16
18
HA12211NT
PB-EQ Maximum Output Level vs. Supply Voltage (3)
Maximum Output Level Vomax (Vrms)
5.0
Ain → PBOUT
High, TYPE I
100Hz
1kHz
10kHz
4.0
3.0
2.0
1.0
8
10
12
14
Supply Voltage (V)
16
18
PB-EQ Maximum Output Level vs. Supply Voltage (4)
Maximum Output Level Vomax (Vrms)
5.0
Ain → PBOUT
High, TYPE II
100Hz
1kHz
10kHz
4.0
3.0
2.0
1.0
8
10
12
14
Supply Voltage (V)
16
18
Rev.2, Jun. 1997, page 17 of 34
HA12211NT
PB-EQ Noise vs. Supply Voltage
50
Normal, TYPE I
Normal, TYPE II
High, TYPE I
High, TYPE II
Noise (µVrms)
40
DIN-AUDIO
30
CCIR/ARM
20
10
8
10
12
14
Supply Voltage (V)
16
18
PB-EQ Total Harmonic Distortion vs. Output Level (1)
10.0
VCC = 10.5V, Ain, PBOUT, Normal, TYPE I
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
T.H.D. (%)
1.0
0.1
0.01
–20
Rev.2, Jun. 1997, page 18 of 34
–10
0
Output Level VOUT (dBv)
10
HA12211NT
PB-EQ Total Harmonic Distortion vs. Output Level (2)
10.0
VCC = 10.5V, Ain, PBOUT, Normal, TYPE II
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
T.H.D. (%)
1.0
0.1
0.01
–20
–10
0
Output Level VOUT (dBv)
10
PB-EQ Total Harmonic Distortion vs. Output Level (3)
10.0
VCC = 10.5V, Ain, PBOUT, High, TYPE I
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
T.H.D. (%)
1.0
0.1
0.01
–20
–10
0
Output Level VOUT (dBv)
10
Rev.2, Jun. 1997, page 19 of 34
HA12211NT
PB-EQ Total Harmonic Distortion vs. Output Level (4)
10.0
VCC = 10.5V, Ain, PBOUT, High, TYPE II
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
T.H.D. (%)
1.0
0.1
0.01
–20
–10
0
Output Level VOUT (dBv)
10
PB-EQ Crosstalk vs. Frequency
0
VCC = 10.5V, Normal, TYPE I
Crosstalk (dB)
–20
–40
Bin → Ain
–60
–80
Ain → Bin
–100
10
100
Rev.2, Jun. 1997, page 20 of 34
1k
10k
Frequency (Hz)
100k
1M
HA12211NT
PB-EQ Channel Separation vs. Frequency
0
VCC = 10.5V, Normal, TYPE I
Channel Separation (dB)
–20
L → Rch
–40
–60
R → Lch
–80
–100
10
100
1k
10k
Frequency (Hz)
100k
1M
PB-EQ Gain vs. External Resistor
45
VCC = 10.5V, Normal, TYPE I
25.5dB
Ain
40
PBOUT
R100kB
10kΩ
Gain (dB)
35
30
25
20
10
100
1k
External Resistor R100kB (Ω)
10k
100k
Rev.2, Jun. 1997, page 21 of 34
HA12211NT
PB-EQ Gain vs. Frequency
40
High, TYPE II
Normal, TYPE II
30
Gain (dB)
Normal, TYPE I
20
10
High, TYPE I
0
10
100
1k
Frequency (Hz)
10k
100k
REC-EQ Maximum Output Level vs. Supply Voltage (1)
4.5
Maximum Output Level Vomax (Vrms)
4.0
3.5
3.0
2.5
2.0
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
TAPE in, RECOUT,
Normal, TYPE I
1.5
1.0
8
Rev.2, Jun. 1997, page 22 of 34
10
12
14
Supply Voltage (V)
16
18
HA12211NT
REC-EQ Maximum Output Level vs. Supply Voltage (2)
4.5
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
TAPE in, RECOUT,
Normal, TYPE II
Maximum Output Level Vomax (Vrms)
4.0
3.5
3.0
2.5
2.0
1.5
1.0
8
10
12
14
Supply Voltage (V)
16
18
REC-EQ Maximum Output Level vs. Supply Voltage (3)
4.5
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
TAPE in, RECOUT,
High, TYPE I
Maximum Output Level Vomax (Vrms)
4.0
3.5
3.0
2.5
2.0
1.5
1.0
8
10
12
14
Supply Voltage (V)
16
18
Rev.2, Jun. 1997, page 23 of 34
HA12211NT
REC-EQ Maximum Output Level vs. Supply Voltage (4)
4.5
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
TAPE in, RECOUT,
High, TYPE II
Maximum Output Level Vomax (Vrms)
4.0
3.5
3.0
2.5
2.0
1.5
1.0
8
10
12
14
Supply Voltage (V)
16
18
REC-EQ Signal to Noise Ratio vs. Supply Voltage
Signal to Noise Ratio S/N (dB)
70
A-WTG, Vin = 100mVrms
Normal, TYPE I
Normal, TYPE II
High, TYPE I
High, TYPE II
65
60
55
50
8
Rev.2, Jun. 1997, page 24 of 34
10
12
14
Supply Voltage (V)
16
18
HA12211NT
REC-EQ Total Harmonic Distortion vs. Output Level (1)
10.0
T.H.D. (%)
TAPEin, RECOUT, VCC = 10.5V, Normal, TYPE I
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
1.0
0.1
–20
–10
0
Output Level VOUT (dBv)
10
REC-EQ Total Harmonic Distortion vs. Output Level (2)
10.0
T.H.D. (%)
TAPEin, RECOUT, VCC = 10.5V, Normal, TYPE II
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
1.0
0.1
–20
–10
0
Output Level VOUT (dBv)
10
Rev.2, Jun. 1997, page 25 of 34
HA12211NT
REC-EQ Total Harmonic Distortion vs. Output Level (3)
10.0
T.H.D. (%)
TAPEin, RECOUT, VCC = 10.5V, High, TYPE I
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
1.0
0.1
–20
–10
0
Output Level VOUT (dBv)
10
REC-EQ Total Harmonic Distortion vs. Output Level (4)
10.0
T.H.D. (%)
TAPEin, RECOUT, VCC = 10.5V, High, TYPE II
100Hz (30kHz L.P.F.)
1kHz (400Hz H.P.F. + 30kHz L.P.F.)
10kHz (400Hz H.P.F. + 80kHz L.P.F.)
1.0
0.1
–20
Rev.2, Jun. 1997, page 26 of 34
–10
0
Output Level VOUT (dBv)
10
HA12211NT
REC-EQ Crosstalk vs. Frequency
0
VCC = 10.5V, Normal, TYPE I
Crosstalk (dB)
–20
–40
–60
AUX → TAPE
–80
TAPE → AUX
–100
10
100
1k
10k
Frequency (Hz)
100k
1M
100k
1M
REC-EQ Channel Separation vs. Frequency
0
VCC = 10.5V, Normal, TYPE I
Channel Separation (dB)
–20
–40
R → Lch
–60
L → Rch
–80
–100
10
100
1k
10k
Frequency (Hz)
Rev.2, Jun. 1997, page 27 of 34
HA12211NT
REC-EQ Mute Attenuation vs. Frequency
0
VCC = 10.5V, Vin = +10dB (0dB = 10mVrms)
Mute Attenuation (dB)
–20
–40
Ain → Bin
–60
–80
TAPE AUXin → MUTE
–100
10
100
1k
10k
Frequency (Hz)
100k
1M
PB-EQ → REC-OUT Crosstalk vs. Frequency
0
VCC = 10.5V, PBOUT = 100mVrms = 0dB
Mute Attenuation (dB)
–20
–40
High, TYPE II
–60
–80
–100
10
Normal, TYPE I
100
Rev.2, Jun. 1997, page 28 of 34
1k
10k
Frequency (Hz)
100k
1M
HA12211NT
REC-EQ → PB-EQ Crosstalk vs. Frequency
0
VCC = 10.5V, PBOUT = 60mVrms = 0dB
Mute Attenuation (dB)
–20
–40
–60
Normal, TYPE I
–80
High, TYPE II
–100
10
100
1k
10k
Frequency (Hz)
100k
1M
Ripple Rejection Ratio (PBOUT) vs. Frequency
0
Normal, TYPE I
Ripple Rejection Ratio (dB)
–20
Normal, TYPE II
–40
High, TYPE II
High, TYPE I
–60
–80
–100
10
100
1k
10k
Frequency (Hz)
100k
1M
Rev.2, Jun. 1997, page 29 of 34
HA12211NT
Ripple Rejection Ratio (RECOUT) vs. Frequency
0
High, TYPE II
Ripple Rejection Ratio (dB)
–20
Normal, TYPE II
–40
High, TYPE I
Normal, TYPE I
–60
–80
–100
10
100
1k
10k
Frequency (Hz)
100k
1M
∆Vref vs. External Bleeder Resistor
250
11 VCC
R
200
∆Vref : PB-Ain → Bin (mV)
17 Vref
R
30 GND
150
100
50
0
100
Rev.2, Jun. 1997, page 30 of 34
1k
10k
External Bleeder Resistor R (Ω)
100k
1M
HA12211NT
REC Return SW Resistor vs. Vin Level
180
VCC = 10.5V
R=
R
R.Return
5
140
REC Return SW Resistor (Ω)
V
10 20 – 1
160
4
820Ω
Bin
+
100µ
V
1
V
2 CC
120
820Ω
100
Vin = 775mVrms
80
60
40
20
0
–40
–30
–20
–10
Vin Level (dBm)
0
10
SW-VTH vs. Supply Voltage (1)
TAPE / MUTE / AUX
Check Level : ±0.5dB, ±50dB
VIH
4.0
VIH
VIMH
3.0
SW-VTH (V)
VIM
VIL VIML VIMH VIH
2.0
VIM
VIML
VIL
1.0
VIL
8
10
12
14
Supply Voltage (V)
16
18
Rev.2, Jun. 1997, page 31 of 34
HA12211NT
SW-VTH vs. Supply Voltage (2)
5.0
A-TYPE I / II
B-TYPE I / II
Check Level : ±0.5dB
SW-VTH (V)
4.0
3.0
Lo
Hi
2.0
VIL VIH
1.0
8
Rev.2, Jun. 1997, page 32 of 34
10
12
14
Supply Voltage (V)
16
18
HA12211NT
Package Dimensions
Unit: mm
27.10
28.10 Max
8.8
1.0
15
0.48 ± 0.10
0.51 Min
1.78 ± 0.25
10.16
5.06 Max
1.5 Max
2.54 Min
1
10.0 Max
16
30
+ 0.10
0.25 – 0.05
1 – 13
Hitachi Code
JEDEC Code
EIAJ Code
Weight
DP-30S
—
SC-549-30
1.98 g
Rev.2, Jun. 1997, page 33 of 34
HA12211NT
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.
Sales Offices
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Semiconductor & Integrated Circuits.
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Tel: Tokyo (03) 3270-2111 Fax: (03) 3270-5109
URL
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Tel: <49> (89) 9 9180-0
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Telex : 23222 HAS-TP
URL : http://www.hitachi.com.tw
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URL : http://www.hitachi.com.hk
Copyright  Hitachi, Ltd., 2000. All rights reserved. Printed in Japan.
Colophon 2.0
Rev.2, Jun. 1997, page 34 of 34