PANASONIC AN4558S

AN4558 (AN6552),
AN4558S (AN6552S)
Dual Operational Amplifiers
AN4558 (AN6552)
Unit:mm
1
8
2
7
3
6
4
2.54
9.4±0.3
TheAN4558 (AN6552) andthe AN4558S (AN6552S)
are dual operational amplifiers with phase compensation
circuits built-in, and suitable for application to various
electronic circuits such as active filters and audio preamplifiers.
0.5±0.1
1.2±0.25
■ Overview
5
0.51min.
6.3±0.3
3.8±0.25 (3.45)
■ Features
• Phase compensation circuit
• High voltage gain, low noise
• Output short-circuit protection
• Slew rate:SR=1V/µ s typ.
7.62±0.25
3—15˚
0.15+ 0.1 5
– 0.0
8-pin DIL Plastic Package (DIP008-P-0300B)
Unit:mm
8
2
7
3
6
4
5
0.3
0.15
0.65
0.1±0.1
1.5±0.2
1
5.0±0.3
0.4±0.25
1.27
0.6±0.3
AN4558S (AN6552S)
4.2±0.3
6.5±0.3
8-pin PANAFLAT Plastic Package (SOP008-P-0225A)
■ Block Diagram
VCC
8
R3
R16
Q10
Q3
2
Vin1+
3
Q1
Q2
Q8
R1
R2
R12 DZ
R7
R20
Q18
Q21
Q12
Q7
D2
C4
Q27
Q20
Q19
Q22
R8 R9
R4
1
4
7
VO1
VEE
VO2
6
Vin2–
5
Vin2+
Q23
Q24
R13
Q16
Q17
Q29
Q6
Q5
C1
Q14
Q9
R5
C2
Q18
Q26
R19
R6
D1
Q4
Q15
R21
Vin1–
Q13
Q11
Q25
Q28
R17
R15
C3
R14
■ Absolute Maximum Ratings (Ta=25˚C)
Symbol
Rating
Supply voltage
VCC
±18
V
Differential input voltage
VID
±30
V
Common-mode input voltage
VICM
±15
V
Parameter
Voltage
AN4558 (AN6552 )
Power dissipation
PD
AN4558S (AN6552S)
Topr
Operating ambient temperature
Temperature
Storage
temperature
AN4558 (AN6552)
Tstg
AN4558S (AN6552S)
Unit
500
mW
360
–20 to +75
˚C
–55 to +150
˚C
–55 to +125
■ Electrical Characteristics (VCC=15V, VEE=–15V, Ta=25˚C)
Parameter
Symbol
Input offset voltage
VI
(offset)
Input offset current
IIO
Input bias current
IBias
Voltage gain
GV
Maximum output voltage
VO (max.)
Condition
min
> 10kΩ
RS =
typ
max
Unit
0.5
6
mV
5
200
nA
500
nA
RL >
= 2kΩ, VO=±10V
>10Ω
RL =
86
100
±12
±14
V
RL >
= 2kΩ
±10
±13
V
±14
V
Common-mode input voltage width
VCM
±12
Common-mode rejection ratio
CMR
70
Supply voltage rejection ratio
SVR
dB
90
dB
30
150
170
µV/V
Power consumption
PC
RL= ∞
90
Slew rate
SR
RL >
= 2kΩ
1.0
V/µs
Equivalent input noise voltage
Vni
RS=1kΩ, B=10Hz to 30kHz
2.5
µVrms
■ Pin Assignments
■ Pin Descriptions
Pin No.
VO1
1
Vin1–
2
Vin1+
3
VEE
4
–
+
mW
8
VCC
7
VO2
–
6
Vin2–
+
5
Vin2+
Pin name
1
Ch.1 output
2
Ch.1 inverting input
3
Ch.1 non inverting input
4
VEE (GND)
5
Ch.2 non inverting input
6
Ch.2 inverting input
7
Ch.2 output
8
VCC
GV–f
Maximum Output Voltage VO (max.) (V)
VCC=15V
VEE=–15V
Ta=25˚C
100
Voltage Gain GV (dB)
VO (max.)–RL
80
60
40
20
0
1
26
22
18
14
VCC=15V
VEE=–15V
Ta=25˚C
10
10 100 1k 10k 100k 1M 10M 100M
100
Frequency f (Hz)
VO (max.)–f
10k
100k
28
24
20
16
12
8
4
1
10
100
1k
10k
100k
10
10
5
0
–5
–10
–15
0
4
2200pF
8
12
16
20
0.01µF
390kΩ
VCC=8V—30V
100kΩ
–
OP. Amp.
+
100
1k
10k
VCC=15V
VEE=–15V
RL=2kΩ
Ta=25˚C
VCC
8
6
2, 6
8
–
DUT
+
3, 5
4
VEE
1, 7
RL
2kΩ
4
2
Supply Voltage VCC=–VEE (V)
33µF
10
–20
100µF
100kΩ
5
VO–t
15
36kΩ
2.2kΩ
10
20
–25
1M
Frequency f (Hz)
■ Application Circuit
15
12
Output Voltage VO (V)
32
RS=1kΩ
GV=40dB
Ta=25˚C
20
VO (max.)–VCC, VEE
VCC=15V
VEE=–15V
Ta=25˚C
36
VCC=15V
VEE=–15V
Frequency f (Hz)
25
Maximum Output Voltage VO (max.) (V)
Maximum Output Voltage VO (max.) (V)
1k
25
Load Resistance RL (Ω)
40
0
Vni–f
30
Equivalent Input Noise Voltage Vni (nV/Hz)
120
33µF
47µF
1kΩ
RIAA Pre-Amp. (Single Voltage Operation)
10kΩ
0
0 10 20 30 40 50 60 70 80 90 100
Time t (µs)