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Operational Amplifier. LMC6044 Datasheet

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Operational Amplifier. LMC6044 Datasheet






LMC6044 Amplifier. Datasheet pdf. Equivalent




LMC6044 Amplifier. Datasheet pdf. Equivalent





Part

LMC6044

Description

CMOS Quad Micropower Operational Amplifier



Feature


LMC6044 www.ti.com SNOS612D – NOVEMB ER 1994 – REVISED MARCH 2013 LMC6044 CMOS Quad Micropower Operational Ampli fier Check for Samples: LMC6044 FEATUR ES 1 •2 Low Supply Current: 10 μA/Am p (Typ) • Operates from 4.5V to 15.5V Single Supply • Ultra Low Input Curr ent: 2 fA (Typ) • Rail-to-Rail Output Swing • Input Common-Mode Range Incl udes Ground APPLICATIONS • Batte.
Manufacture

Texas Instruments

Datasheet
Download LMC6044 Datasheet


Texas Instruments LMC6044

LMC6044; ry Monitoring and Power Conditioning • Photodiode and Infrared Detector Pream plifier • Silicon Based Transducer Sy stems • Hand-Held Analytic Instrument s • pH Probe Buffer Amplifier • Fir e and Smoke Detection Systems • Charg e Amplifier for Piezoelectric Transduce rs DESCRIPTION Ultra-low power consump tion and low input-leakage current are the hallmarks of the LMC6044. .


Texas Instruments LMC6044

Providing input currents of only 2 fA ty pical, the LMC6044 can operate from a s ingle supply, has output swing extendin g to each supply rail, and an input vol tage range that includes ground. The LM C6044 is ideal for use in systems requi ring ultra-low power consumption. In ad dition, the insensitivity to latch-up, high output drive, and output swing to ground without req.


Texas Instruments LMC6044

uiring external pull-down resistors make it ideal for single-supply battery-pow ered systems. Other applications for th e LMC6044 include bar code reader ampli fiers, magnetic and electric field dete ctors, and hand-held electrometers. Thi s device is built with National's advan ced Double-Poly Silicon-Gate CMOS proce ss. See the LMC6041 for a single, and t he LMC6042 for a d.

Part

LMC6044

Description

CMOS Quad Micropower Operational Amplifier



Feature


LMC6044 www.ti.com SNOS612D – NOVEMB ER 1994 – REVISED MARCH 2013 LMC6044 CMOS Quad Micropower Operational Ampli fier Check for Samples: LMC6044 FEATUR ES 1 •2 Low Supply Current: 10 μA/Am p (Typ) • Operates from 4.5V to 15.5V Single Supply • Ultra Low Input Curr ent: 2 fA (Typ) • Rail-to-Rail Output Swing • Input Common-Mode Range Incl udes Ground APPLICATIONS • Batte.
Manufacture

Texas Instruments

Datasheet
Download LMC6044 Datasheet




 LMC6044
LMC6044
www.ti.com
SNOS612D – NOVEMBER 1994 – REVISED MARCH 2013
LMC6044 CMOS Quad Micropower Operational Amplifier
Check for Samples: LMC6044
FEATURES
1
2 Low Supply Current: 10 μA/Amp (Typ)
• Operates from 4.5V to 15.5V Single Supply
• Ultra Low Input Current: 2 fA (Typ)
• Rail-to-Rail Output Swing
• Input Common-Mode Range Includes Ground
APPLICATIONS
• Battery Monitoring and Power Conditioning
• Photodiode and Infrared Detector Preamplifier
• Silicon Based Transducer Systems
• Hand-Held Analytic Instruments
• pH Probe Buffer Amplifier
• Fire and Smoke Detection Systems
• Charge Amplifier for Piezoelectric Transducers
DESCRIPTION
Ultra-low power consumption and low input-leakage current are the hallmarks of the LMC6044. Providing input
currents of only 2 fA typical, the LMC6044 can operate from a single supply, has output swing extending to each
supply rail, and an input voltage range that includes ground.
The LMC6044 is ideal for use in systems requiring ultra-low power consumption. In addition, the insensitivity to
latch-up, high output drive, and output swing to ground without requiring external pull-down resistors make it
ideal for single-supply battery-powered systems.
Other applications for the LMC6044 include bar code reader amplifiers, magnetic and electric field detectors, and
hand-held electrometers.
This device is built with National's advanced Double-Poly Silicon-Gate CMOS process.
See the LMC6041 for a single, and the LMC6042 for a dual amplifier with these features.
Connection Diagram
14-Pin PDIP/SOIC
Instrumentation Amplifier
These devices have limited built-in ESD protection. The leads should be shorted together or the device placed in conductive foam
during storage or handling to prevent electrostatic damage to the MOS gates.
1
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
All trademarks are the property of their respective owners.
2
PRODUCTION DATA information is current as of publication date.
Products conform to specifications per the terms of the Texas
Instruments standard warranty. Production processing does not
necessarily include testing of all parameters.
Copyright © 1994–2013, Texas Instruments Incorporated




 LMC6044
LMC6044
SNOS612D – NOVEMBER 1994 – REVISED MARCH 2013
www.ti.com
Absolute Maximum Ratings(1)(2)
Differential Input Voltage
Supply Voltage (V+ V)
Output Short Circuit to V+
Output Short Circuit to V
Lead Temperature (Soldering, 10 sec.)
Current at Input Pin
Current at Output Pin
Current at Power Supply Pin
Power Dissipation
Storage Temperature Range
Junction Temperature(5)
ESD Tolerance(6)
Voltage at I/O Pin (V+)
±Supply Voltage
16V
See (3)
See (4)
260°C
±5 mA
±18 mA
35 mA
See (5)
65°C to +150°C
110°C
500V
+0.3V, (V) 0.3V
(1) Absolute Maximum Ratings indicate limts beyond which damage to the device may occur. Operating Ratings indicate conditions for
which the device is intended to be functional, but do not guarantee specific performance limits. For guaranteed specifications and test
conditions, see the Electrical Characteristics. The guaranteed specifications apply only for the test conditions listed.
(2) If Military/Aerospace specified devices are required, please contact the Texas Instruments Sales Office/Distributors for availability and
specifications.
(3) Do not connect output to V+ when V+ is greater than 13V or reliability may be adversely affected.
(4) Applies to both single-supply and split-supply operation. Continuous short circuit operation at elevated ambient temperature can result in
exceeding the maximum allowed junction temperature of 110°C. Output currents in excess of ±30 mA over long term may adversely
affect reliability.
(5) The maximum power dissipation is a function of TJ(max), θJA, and TA. The maximum allowable power dissipation at any ambient
temperature is PD = (TJ(max) TA)/θJA.
(6) Human body model, 1.5 kΩ in series with 100 pF.
Operating Ratings
Temperature Range
Thermal Resistance (θJA)(1)
Power Dissipation
LMC6044AI, LMC6044I
Supply Voltage
14-Pin PDIP
14-Pin SOIC
40°C TJ +85°C
4.5V V+ 15.5V
85°C/W
115°C/W
See (2)
(1) All numbers apply for packages soldered directly into a PC poard.
(2) For operating at elevated temperatures, the device must be derated based on the thermal resistance θJA with PD = (TJ TA)/θJA.
2
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Copyright © 1994–2013, Texas Instruments Incorporated




 LMC6044
LMC6044
www.ti.com
SNOS612D – NOVEMBER 1994 – REVISED MARCH 2013
Electrical Characteristics
Unless otherwise specified, all limits guaranteed for TA = TJ = 25°C. Boldface limits apply at the temperature extremes. V+ =
5V, V= 0V, VCM = 1.5V, VO = V+/2, and RL > 1M unless otherwise specified.
Symbol
Parameter
Conditions
Typical (1)
LMC6044AI
Limit (2)
LMC6044I
Limit (2)
Units
(Limit)
VOS
Input Offset Voltage
1
3
6
mV
3.3
6.3
max
TCVOS Input Offset Voltage
Average Drift
1.3
μV/°C
IB
IOS
RIN
CMRR
Input Bias Current
Input Offset Current
Input Resistance
Common Mode Rejection
Ratio
0V VCM 12.0V
V+ = 15V
0.002
4
0.001
2
>10
75
68
66
4
pA max
2
TeraΩ
62
dB
60
min
+PSRR Positive Power Supply
Rejection Ratio
5V V+ 15V
VO = 2.5V
75
68
62
dB
66
60
min
PSRR Negative Power Supply
Rejection Ratio
0V V≤ −10V
VO = 2.5V
94
84
74
dB
83
73
min
CMR
0.4
0.1
0.1
V
Input Common-Mode
Voltage Range
V+ = 5V & 15V
For CMRR 50 dB
0
0
max
V+ 1.9V
V+ 2.3V
V+ 2.3V
V
V+ 2.5V
V+ 2.4V
min
AV
RL = 100 kΩ(3)
Large Signal Voltage Gain
RL = 25 kΩ (3)
1000
400
Sourcing
300
500
180
Sinking
120
1000
200
Sourcing
160
250
100
Sinking
60
300
V/mV
200
min
90
V/mV
70
min
100
V/mV
80
min
50
V/mV
40
min
VO
4.987
4.970
4.940
V
V+ = 5V
RL = 100 kΩ to 2.5V
4.950
4.910
min
0.004
0.030
0.060
V
0.050
0.090
max
4.980
4.920
4.870
V
V+ = 5V
RL = 25 kΩ to 2.5V
4.870
4.820
min
0.010
0.080
0.130
V
Output Swing
0.130
0.180
max
14.970
14.920
14.880
V
V+ = 15V
RL = 100 kΩ to V+/2
14.880
14.820
min
0.007
0.030
0.060
V
0.050
0.090
max
14.950
14.900
14.850
V
V+ = 15V
RL = 25 kΩ to V+/2
14.850
14.800
min
0.022
0.100
0.150
V
0.150
0.200
max
(1) Typical Values represent the most likely parametric norm.
(2) All limits are guaranteed at room temperature (standard type face) or at operating temperature extremes (bold face type).
(3) V+ = 15V, VCM = 7.5V and RL connected to 7.5V. For Sourcing tests, 7.5V VO 11.5V. For Sinking tests, 2.5V VO 7.5V.
Copyright © 1994–2013, Texas Instruments Incorporated
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3
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