HITACHI HA17558

HA17558 Serise
Dual Operational Amplifier
Description
HA17558 is dual operational amplifiers which provides internal frequency compensation and high
performance. It can be applied widely to measuring control equipment and to general Use. The two
amplifiers share a common bias network and power supply leads.
Features
•
•
•
•
•
High voltage Gain: 104dB (Typ)
High speed: 1V/µs
Continuous short-circuit protection
Low-noise operational amplifiers
Internal frequency compensation
Ordering Information
Type No.
Application
Package
HA17558FP
Industrial use
FP-8D
HA17558F
Commercial use
FP-8D
HA17558
Commercial use
DP-8
HA17558PS
Industrial use
DP-8
HA17558 Serise
Pin Arrangement
Vout1
1
Vin(–)1
2
Vin(+)1
3
VEE
4
1
– +
2
+ –
8
VCC
7
Vout2
6
Vin(–)2
5
Vin(+)2
(Top View)
Circuit Schematic (1/2)
VCC
Vin(+)
Vin(–)
Vout
to VCC
VEE
2
HA17558 Serise
Absolute Maximum Ratings (Ta = 25°C)
Ratings
HA17558
HA17558
PS
HA17558
F
HA17558
FP
Unit
Item
Symbol
Supply voltage
VCC
+18
+18
+18
+18
V
VEE
–18
–18
–18
–18
V
±30
±30
±30
±30
V
Differential input voltage
VIN (diff)
Common-mode input voltage
VCM*
±15
3
±15
1
670*
±15
1
±15
385*
2
385*
V
2
Power dissipation
PT
670*
mW
Operating temperature
Topr
–20 to
+75
–20 to
+75
–20 to
+75
–20 to
+75
–20 to
+75
Storage temperature
Tstg
–55 to
+125
–55 to
+125
–55 to
+125
–55 to
+125
°C
Notes: 1. These are the allowable values up to Ta = 45 °C. Derate by 8.3mW/°C above that temperature.
2. These are the allowable values up to Ta = 31 °C mounting on 30% wiring density glass epoxy
board. Derate by 7.14mW/°C above that temperature.
3. If the supply voltage is less than ±15V, input voltage should be less than supply voltage.
Electrical Characteristics (Ta = 25°C, VCC = +15V, VEE = –15V)
Item
Symbol
Min
Typ
Max
Unit
Test conditions
Input offset voltage
VIO
—
0.5
6
mV
RS ≤ 10kΩ
Input offset current
I IO
—
5
200
nA
Input bias current
I IB
—
50
500
nA
Voltage gain
AVD
86
104
—
dB
RL ≥ 2kΩ, VO = ±10V
Maximum output voltage
Vop-p
±12
±14
—
V
RL ≥ 10kΩ
Maximum output voltage
Vop-p
±10
±12.4
—
V
RL ≥ 2kΩ
Common mode input voltage
range
VCM
±12
±14
—
V
Common mode rejection ratio
CMR
70
100
—
dB
RS ≤ 10kΩ
Supply voltage rejection ratio
PSRR
—
10
150
µV/V
RS ≤ 10kΩ
Power dissipation
Pd
—
90
170
mW
2-channel, No load
Slew rate
SR
—
1.0
—
V/µs
AVD = 1
Equivalent input noise voltage
VNI
—
6
—
µVp-p
RS = 1kΩ, f = 1HZ to 1kHZ
Channel separation
CS
—
105
—
dB
f = 1kHz
3
HA17558 Serise
Characteristic Curves
Maximum Output Voltage vs. Frequency
4
VCC = 15 V
VEE = –15 V
RL = 2 kΩ
100
80
60
40
20
0
1
10
100 1 k 10 k 100 k 1 M 10 M
Frequency f (Hz)
Maximum Output Voltage VOP-P (V)
120
36
VCC = 15 V
VEE = –15 V
RL = 2 kΩ
32
28
24
20
16
12
8
4
0
100
Power Supply Rejection Ratio
vs. Ambient Temperature
120
1M
130
VCC = 15 V
VEE = –15 V
VCC = 15 V
VEE = –15 V
110
100
90
80
70
–20
1k
10 k
100 k
Frequency f (Hz)
Voltage Gain vs. Ambient Temperature
Voltage Gain AVD (dB)
Power Supply Rejection Ratio PSRR (dB)
Open Loop Voltage Gain AV(OL) (dB)
Open Loop Voltage Gain vs. Frequency
0
20
40
60
Ambient Temperature Ta (°C)
80
120
110
100
90
80
–20
0
20
40
60
Ambient Temperature Ta (°C)
80
HA17558 Serise
Power Supply Rejection Ratio PSRR (dB)
Power Supply Rejection Ratio vs. Frequency
120
VCC = 15 V
VEE = –15 V
100
80
60
40
20
0
100
300
1k
3k
10 k 30 k
Frequency f (Hz)
100 k 300 k
1M
Common–mode Rejection Ratio CMR (dB)
Common-mode Rejection Ratio vs. Frequency
120
VCC = 15 V
VEE = –15 V
Ta = 25°C
RL = ∞
100
80
60
40
20
0
100
300
1k
3k
10 k 30 k
Frequency f (Hz)
100 k 300 k
1M
5
HA17558 Serise
Maximum Output Voltage
vs. Ambient Temperature
Output Voltage VO (V)
10
Maximum Output Voltage VOP-P (VP-P)
Transient Response
VCC = 15 V
VEE = –15 V
5
0
–5
–10
0
10
20
30
40
Time t (µs)
90
80
70
60
50
–20
0
20
40
60
Ambient Temperature Ta (°C)
6
Maximum Output Voltage VOP-P (VP-P)
Power Dissipation Pd (mW)
VCC = 15 V
VEE = –15 V
RL = ∞
80
VCC = 15 V
VEE = –15 V
RL = 2 kΩ
32
24
16
8
0
–20
60
0
20
40
Ambient Temperature Ta (°C)
80
Maximum Output Voltage vs. Load Resistance
Power Dissipation vs. Ambient Temperature
100
40
30
25
VCC = 15 V
VEE = –15 V
f = 1 kHz
20
15
10
5
100 200
500
1k
2k
Load Resistance RL (Ω)
5k
10 k
HA17558 Serise
Common-mode Input Voltage vs.
Supply Voltage
Supply Current vs. Supply Voltage
20
Supply Current ICC (mA)
RL = ∞
4
3
2
1
0
±4
±6
±9
±12
±15
±18
Common-mode Input Voltage VCM (V)
5
10
0
–10
–20
±4
Supply Voltage VCC, VEE (V)
±8
±12
±16
Supply Voltage VCC, VEE (V)
±18
Input Bias Current vs. Ambient Temperature
VCC = 15 V
VEE = –15 V
Slew Rate vs. Supply Voltage
1.2
80
Slew Rate SR (V/µs)
Input Bias Current IIB (nA)
100
60
40
20
0
–20
1.0
0.8
0.6
0.4
±4
0
20
40
60
Ambient Temperature Ta (°C)
80
f = 1 kHz
RL = 2 kΩ
CL = 100 pF
Ta = 25°C
AV = 1
±15
±6
±9
±12
Supply Voltage VCC, VEE (V)
±18
7
HA17558 Serise
Input Offset Current vs. Ambient Temperature
Input Offset Voltage vs. Supply Voltage
VCC = 15 V
VEE = –15 V
Input Offset Voltage VIO (mV)
Input Offset Current IIO (nA)
40
20
0
–20
–40
–20
0
20
40
60
Ambient Temperature Ta (°C)
80
4
2
0
–2
–4
–4
–6
–9
–12
–15
Supply Voltage VCC, VEE (V)
–18
Slew Rate vs. Ambient Temperature
1.4
Voltage Gain vs. Supply Voltage
100
f = 10 Hz
RL = 2 kΩ
80
60
1.2
VCC = 15 V
VEE = –15 V
RL = 2 kΩ
CL = 100 pF
AV = 1
1.0
0.8
0.6
40
–4
8
Slew Rate SR (V/µs)
Voltage Gain AVD (dB)
120
–6
–9
–12
–15
Supply Voltage VCC, VEE (V)
–18
0.4
–20
0
20
40
60
Ambient Temperature Ta (°C)
80
HA17558 Serise
Output Short Current vs. Ambient Temperature
Output Short Current IOS (mA)
60
VCC = 15 V
VEE = –15 V
50
Sink
40
30
Source
20
10
–20
0
20
40
60
Ambient Temperature Ta (°C)
80
Input Noise Voltage vs. Frequency
Input Noise Voltage VNI (nV/√
Hz)
100
RS = 100 Ω
30
10
3
1
10
30
100
300
1k
Frequency f (Hz)
3k
10 k
9
HA17558 Serise
Common-mode Rejection Ratio
vs. Ambient Temperature
4
2
0
–2
–4
–20
10
VCC = 15 V
VEE = –15 V
0
20
40
60
Ambient Temperature Ta (°C)
80
Common-mode Rejection Ratio CMR (dB)
Input Offset Voltage VIO (mA)
Input Offset Voltage vs. Ambient Temperature
140
VCC = 15 V
VEE = –15 V
120
100
80
60
40
–20
0
20
40
60
Ambient Temperature Ta (°C)
80
HA17558 Serise
Circuit Example
RIAA Pre-amplifier
0.0022 µF
0.01 µF
+15 V
+
100 µF
–
36 kΩ
390 kΩ
33 µF
–
Input
2.2 kΩ 33 µF
Otuput
HA17558
+
10 kΩ
+
47 µF
–
56 kΩ
–
100 µF
+
1 kΩ
–15 V
T.H.D. vs. Output Voltage (RIAA Pre-Amp)
T.H.D. vs. Output Voltage (RIAA Pre–Amp)
1.0
60
VCC = 15 V
VEE = –15 V
50
T.H.D (%)
0.1
20 kHz
0.03
10 kHz
0.01
1 kHz
40
30
20
10
0.003
0.001
0.01
Voltage Gain AVD (dB)
0.3
20 kHz
0.03
0.1
0.3
1.0
Output Voltage (Vrms)
3
10
0
10
30
100
300
1k
3k
10 k
Frequency f (Vrms)
30 k
100 k
11
HA17558 Serise
Package Dimensions
Unit: mm
6.3
7.4 Max
9.6
10.6 Max
8
5
1
0.89
4
1.3
7.62
0.1 Min
2.54 Min 5.06 Max
1.27 Max
+ 0.10
0.25 – 0.05
0.48 ± 0.10
2.54 ± 0.25
0° – 15°
Hitachi Code
JEDEC
EIAJ
Mass (reference value)
DP-8
Conforms
Conforms
0.54 g
Unit: mm
4.85
4.4
5.25 Max
5
8
1
0.75 Max
*0.22 ± 0.05
0.20 ± 0.04
2.03 Max
4
0.25
6.50 +– 0.15
1.05
1.27
*0.42 ± 0.08
0.40 ± 0.06
0.10 ± 0.10
0° – 8°
0.25
0.60 +– 0.18
0.15
0.12 M
*Dimension including the plating thickness
Base material dimension
12
Hitachi Code
JEDEC
EIAJ
Mass (reference value)
FP-8D
—
Conforms
0.10 g
HA17558 Serise
Cautions
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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Tel: Tokyo (03) 3270-2111 Fax: (03) 3270-5109
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Copyright ' Hitachi, Ltd., 1998. All rights reserved. Printed in Japan.
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