AKM AK2970 Zero drift operational amplifier Datasheet

[AK2970]
AK2970
Zero Drift Operational Amplifier
1. General Description
AK2970 is the dual channel CMOS operational amplifires which is available to output with very low input offset
voltage (± 5V@10V) and near zero input offset dirft.
It’s operated with very small current consumptions, 2mA typ. (VDD:10V), which is available to operate full swing
signals in output. AK2970 is appropriate to Sensor Pre Amp. applications.
2. Features
 Wide Supply Operation Range: 4.5V ~ 13.2V (±2.25V ~ ±6.6V)
 Very Low Input Offset Voltage : ± 5V max. (@VDD:10V)
 Near Zero Dirft over time and temperature : ± 20nV/C max. (@VDD:10V)
 Input Voltage Range : VSS – VDD
 Full Swing Outputs to 10k Load
 Power Supply Current : 2mA typ. (@VDD: 10V, No Load)
 Gain Bandwidth : 4MHz typ.
 Slew Rate : 4V/sec typ.
 Operationg Temperature Range : -40 ~ 125C
 Package : MSOP8
Part Name
AK2970H
Channel Nummber
2
Package
MSOP8
3. Block Diagram
1:OUTA
2:NINA
8:VDD
A
7:OUTB
B
3:PINA
4:VSS
6:NINB
5:PINB
MSOP8
（AK2970）
Rev.1.01Ea
2013/2
-1-
[AK2970]
4. Pin Configurations and Functions
Pin number Pin Name
1
OUTA
2
NINA
3
PINA
4
VSS
5
PINB
6
NINB
7
OUTB
8
VDD
Note 1.
PWR
AI
AO
I/O : Note 1
AO
AI
AI
PWR
AI
AI
AO
PWR
Function
Amplifier A Output
Amplifier A Inverted Input
Amplifier A No Inverted Input
Power Supply Ground
Amplifier B No Inverted Input
Amplifier B Inverted Input
Amplifier B Output
Positive Power Supply
: Power Supply
: Analog Input
: Analog Output
5. Absolute Maximum Ratings
( VSS = 0V : Note 2 )
Parameter
Supply Voltage
Input Voltage
Input Current
Storage Temperature Range
Symbol
VDD
VTD
IIN
Tstg
Min
-0.3
-0.3
-10
-55
Max
14
VDD + 0.3
+10
150
Units
V
V
mA
C
Note 2. All voltage with respect to ground
Note 3. Operational at or beyond these limits may result in permanent damage to the device. Normal
operation is not guaranteed at these extremes.
6. Recommended Operating Conditions
Parameter
Operationg Temperature Range
Supply Voltage
Symbol
Ta
VDD
Min.
-40
4.5
Rev.1.01Ea
Typ.
Max.
125
13.2
Units
C
V
Conditions
2013/2
-2-
[AK2970]
7. Electrical Characteristics
 DC Characteristics ( typical condition is VDD=10V,Ta=25C )
VDD:10V, Vcm=VDD/2, Ta:-40 to 125C, unless otherwise noted
Parameter
Input Voltage Offset
Input Voltage
Offset Drift
Input Bias Current
Input Common
Mode Range
Output Voltage
Swing
CMRR
Symbol
Conditions
VIO
Ta=25°C,inverting-amp,
gain@60dB
VDD:10V,all temperature
range, inverting-amp,
gain@60dB
VDD5V,All temperature
Inverting amp@60dB
VDD4.5V,All temperature
Inverting amp@60dB
Inverting amp@60dB
VDD6V
,
Inverting-amp@60dB
VDD5V
Inverting-amp@60dB
Vdd4.5V,
Inverting-amp@60dB
Ta=25C (@1/2*VDD)
Rf=510kΩ ：Note 4
VIOD
IS
VICM
VOM
RL10kΩ（@1/2*VDD）
min
Typ
Max
Units
±1
±5
V
±5
V
±10
V
±20
V
±20
±40
nV/℃
nV/℃
±50
nV/℃
±70
nV/℃
±5
±50
pA
VSS
VDD
V
0.1
VDD-0.1
V
CMR
@Common mode rage
110
130
dB
105
dB
VDD5V
@ Common mode rage
85
dB
VDD4.5V
@ Common mode rage
100
dB
VDD4.5V
@(VSS~[VDD-0.1])
PSRR
SVR VDD:4.5V ~ 13.2V
110
130
dB
Large Signal
Av
110
130
dB
RL10kΩ（@1/2*VDD）
Voltage Gain
@Max. output range
Short Circuit
IOS
Short Vout and VDD or VSS,
±50
mA
Current
by voltage follower
Short Vout and VDD or VSS,
±180
mA
by voltage follower
VDD:13.2V
Output Current
IOS
Vcm:VSS@out [VSS+1V]
±15
mA
Vcm:VDD@out [VDD-1V]
VDD:4.5V
±5
mA
Power Supply
Idd
VDD:10V
:Note 5
1.0
1.8
mA/ch
Current
VDD:4.5 ~ 13.2V :Note 5
1.0
2.5
mA/ch
Note 4. It is defined by "offset voltage (Voff)" of transformer impedance amplifier. When beedback
resister is Rf. Input bias current is expressed by a following formula. Is= Voff/Rf
When using it as transformer impedance amplifier, "VCOM=VDD/2" are recommended.
Note 5. It does not contain output drive current.
Rev.1.01Ea
2013/2
-3-
[AK2970]
■ Analog AC Characteristics (typ. value condition : VDD=10V, Ta=25C)
項
目
Gain Banb Width
Slew rate
Voltage Noise Density
Overload Recovery
Time
VDD=10V、Vcm=VDD/2、Ta:-40~125C , unless otherwise noted
min Typ max
記号
条件
単位
GB Inverting-amp@60dB Load cap.=
4
MHz
20pF
VDD:13.2V
6.5
MHz
VDD:4.5V
3
MHz
SR |Av|=1, Load cap.=20pF,
10%⇔90%
VDD:13.2V
VDD:4.5V
VNI @1kHz
0.1~10Hz
:Note 6
0.1~1Hz
:Note 6
TOR Av:-50 times, Load capacitance:
20pF, 200mV input, VDD:10V, ±10%
attainment time of the last value
CIND
CINC
Input
Differential
Capacitance Common
Mode
Maximum Capacitance
CL
Loads
Note 6. It was converted from noise density.
4
V/s
10
1.7
V/s
V/s
50
0.8
0.3
10
nVrms/√Hz
Vpp
Vpp
sec
1.5
5
pF
pF
150
pF
<Reference information>
- When output load=150pF , phase margin = 70deg typ.
- Chopper clock frequency : 10kHz typ.
Rev.1.01Ea
2013/2
-4-
[AK2970]
8. Typical Operating Characteristics (Reference)
■Supply Current vs. Temperature (Vin:1/2VDD)
■Supply Current vs. VDD (Vin:1/2VDD)
■Closed loop gain vs. frequency
(VDD=4.4V, Ta=25C)
■Closed loop gain vs. frequency
(VDD=10V, Ta=25C)
Rev.1.01Ea
2013/2
-5-
[AK2970]
■ Short circuit current vs. Temperature
(VDD=±2.2V)
■ Short circuit current vs. Temperature
(VDD=±5V)
■ Power consumption distribution
■ Offset distribution
Rev.1.01Ea
2013/2
-6-
[AK2970]
■Offset vs. Temperature
■Common Mode Rejection Ratio vs. Frequency
■ Power Supply Rejection Ratio vs. Frequency
(VDD=4.4V, Ta=25C)
■ Power Supply Rejection Ratio vs. Frequency
(VDD=10V, Ta=25C)
Rev.1.01Ea
2013/2
-7-
[AK2970]
■ Power Supply Rejection Ratio vs. Temperature
(VDD=4.4V, Ta=25C)
■ Voltage noise density
(VDD=10V, Ta=25C, f=0~10kHz)
Rev.1.01Ea
2013/2
-8-
[AK2970]
9．Package
9.1.
Outline Dimensions
( unit : mm )
MSOP8
0.127 +0.1
-0.05
1.1±0.08
0.55±0.2
2.8
4.0±0.1
2.9 +0.12
-0.1
0.65
+0.1
0.1 -0.05
0~10°
0.1
0.2
+0.05
-0.03
0.1 M
9.2. Marking
MSOP8
8
7
6
5
(1) 1 pin indicator
(2) Part number ( AK2970 : 970 )
(3) Date code ( Year )
(4) Date code ( Month )
(5) In-house control code
970
(2)
YMA
(1)
(3) (4) (5)
1
2
3
4
Rev.1.01Ea
2013/2
-9-
[AK2970]
IMPORTANT NOTICE
 These
products
and
their
specifications
are
subject
to
change
without
notice.
When you consider any use or application of these products, please make inquiries the sales office of Asahi
Kasei Microdevices Corporation (AKM) or authorized distributors as to current status of the products.
 Descriptions of external circuits, application circuits, software and other related information contained in this
document are provided only to illustrate the operation and application examples of the semiconductor products.
You are fully responsible for the incorporation of these external circuits, application circuits, software and other
related information in the design of your equipments. AKM assumes no responsibility for any losses incurred by
you or third parties arising from the use of these information herein. AKM assumes no liability for infringement
of any patent, intellectual property, or other rights in the application or use of such information contained herein.
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official approval under the law and regulations of the country of export pertaining to customs and tariffs,
currency exchange, or strategic materials.
 AKM products are neither intended nor authorized for use as critical componentsNote1) in any safety, life support,
or other hazard related device or systemNote2), and AKM assumes no responsibility for such use, except for the
use approved with the express written consent by Representative Director of AKM. As used here:
Note1) A critical component is one whose failure to function or perform may reasonably be expected to result, whether
directly or indirectly, in the loss of the safety or effectiveness of the device or system containing it, and which must therefore
meet very high standards of performance and reliability.
Note2) A hazard related device or system is one designed or intended for life support or maintenance of safety or for
applications in medicine, aerospace, nuclear energy, or other fields, in which its failure to function or perform may
reasonably be expected to result in loss of life or in significant injury or damage to person or property.
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and the buyer or distributor agrees to assume any and all responsibility and liability for and hold AKM harmless
from any and all claims arising from the use of said product in the absence of such notification.
Rev.1.01Ea
2013/2
- 10 -