lmc6064ep National Semiconductor Corporation, lmc6064ep Datasheet

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lmc6064ep

Manufacturer Part Number
lmc6064ep
Description
Precision Cmos Quad Micropower Operational Amplifier
Manufacturer
National Semiconductor Corporation
Datasheet
1.LMC6064EP.pdf (16 pages)
© 2011 National Semiconductor Corporation
Precision CMOS Quad Micropower Operational Amplifier
General Description
The LMC6064EP is a precision quad low offset voltage, mi-
cropower operational amplifier, capable of precision single
supply operation. Performance characteristics include ultra
low input bias current, high voltage gain, rail-to-rail output
swing, and an input common mode voltage range that in-
cludes ground. These features, plus its low power consump-
tion make the LMC6064EP ideally suited for battery powered
applications.
Other applications using the LMC6064EP include precision
full-wave rectifiers, integrators, references, sample-and-hold
circuits, and true instrumentation amplifiers.
This device is built with National's advanced double-Poly Sil-
icon-Gate CMOS process.
For designs that require higher speed, see the LMC6084 pre-
cision quad operational amplifier.
For single or dual operational amplifier with similar features,
see the LMC6061 or LMC6062 respectively.
ENHANCED PLASTIC
PATENT PENDING
Ordering Information
Note 1: For the following (Enhanced Plastic) version, check for availability: LMC6064AIMEP, LMC6064IMEP, LM6064AIMXEP, LM6064IMXEP,
LMC6064AINEP, LMC6064INEP. Parts listed with an "X" are provided in Tape & Reel and parts without an "X" are in Rails.
Note 2: FOR ADDITIONAL ORDERING AND PRODUCT INFORMATION, PLEASE VISIT THE ENHANCED PLASTIC WEB SITE AT: www.national.com/
mil
Note 3: Refer to package details under Physical Dimensions
Part Number
LMC6064AIMEP
(Note
Extended Temperature Performance of −40°C to +85°C
Baseline Control - Single Fab & Assembly Site
Process Change Notification (PCN)
Qualification & Reliability Data
Solder (PbSn) Lead Finish is standard
Enhanced Diminishing Manufacturing Sources (DMS)
Support
1,
Note
2)
201144 Version 2 Revision 3
201144
VID Part Number
V62/04748-01
TBD
LMC6064EP
Print Date/Time: 2011/08/30 23:14:26
Features
(Typical Unless Otherwise Noted)
Applications
Low offset voltage: 100 μV
Ultra low supply current: 16 μA/Amplifier
Operates from 4.5V to 15V single supply
Ultra low input bias current: 10 fA
Output swing within 10 mV of supply rail, 100k load
Input common-mode range includes V
High voltage gain: 140 dB
Improved latchup immunity
Instrumentation amplifier
Photodiode and infrared detector preamplifier
Transducer amplifiers
D/A converter
Selected Military Applications
Selected Avionics Applications
NS Package Number
M14A
TBD
(Note
OBSOLETE
August 30, 2011
www.national.com
3)

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lmc6064ep Summary of contents

Page 1

... Precision CMOS Quad Micropower Operational Amplifier General Description The LMC6064EP is a precision quad low offset voltage, mi- cropower operational amplifier, capable of precision single supply operation. Performance characteristics include ultra low input bias current, high voltage gain, rail-to-rail output swing, and an input common mode voltage range that in- cludes ground ...

Page 2

Connection Diagram www.national.com 14-Pin DIP/SO Top View Low-Leakage Sample and Hold 2 201144 Version 2 Revision 3 Print Date/Time: 2011/08/30 23:14:26 20114401 20114413 ...

Page 3

Absolute Maximum Ratings If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. Differential Input Voltage Voltage at Input/Output Pin   Supply Voltage (V + − V − ) Output Short Circuit ...

Page 4

Symbol Parameter V Output Swing O I Output Current Output Current 15V I Supply Current S AC Electrical Characteristics apply at the temperature extremes. V Symbol Parameter SR Slew Rate ...

Page 5

Note 5: Applies to both single-supply and split-supply operation. Continous short circuit operation at elevated ambient temperature can result in exceeding the maximum allowed junction temperature of 150°C. Output currents in excess of ±30 mA over long term may adversely ...

Page 6

Typical Performance Characteristics Distribution of LMC6064AIMEP Input Offset Voltage (T = +25°C) A Distribution of LMC6064AIMEP Input Offset Voltage (T = +125°C) A Supply Current vs Supply Voltage www.national.com 20114415 20114417 20114419 6 201144 Version 2 Revision 3 Print Date/Time: ...

Page 7

Common Mode Rejection Ratio vs Frequency 20114421 Input Voltage Noise vs Frequency 20114423 Output Characteristics Sinking Current 20114425 201144 Version 2 Revision 3 Power Supply Rejection Ratio vs Frequency Output Characteristics Sourcing Current Gain and Phase Response vs Temperature (−55°C ...

Page 8

Gain and Phase Response vs Capacitive Load with kΩ L Open Loop Frequency Response Inverting Large Signal Pulse Response www.national.com 20114427 20114429 20114431 8 201144 Version 2 Revision 3 Print Date/Time: 2011/08/30 23:14:26 Gain and Phase Response ...

Page 9

Non-Inverting Large Signal Pulse Response 20114433 Stability vs Capacitive Load kΩ L 20114435 201144 Version 2 Revision 3 Crosstalk Rejection vs Frequency Stability vs Capacitive Load MΩ Print Date/Time: 2011/08/30 23:14:26 20114434 ...

Page 10

... It is quite common to use large values of feedback resistance for amplifiers with ultra-low input current, like the LM- C6064EP. Although the LMC6064EP is highly stable over a wide range of operating conditions, certain precautions must be met to achieve the desired pulse response when a large feedback resistor is used. Large feedback resistors and even small val- ues of input capacitance, due to transducers, photodiodes, and circuit board parasitics, reduce phase margins ...

Page 11

... CMOS devices tend to be susceptible to latchup due to their internal parasitic SCR effects. The (I/O) input and output pins look similar to the gate of the SCR. There is a minimum cur- rent required to trigger the SCR gate lead. The LMC6064EP 201144 Version 2 Revision 3 Ω, which is nor- 12 Ω ...

Page 12

... The extremely high input impedance, and low power con- sumption, of the LMC6064EP make it ideal for applications that require battery-powered instrumentation amplifiers. Ex- amples of these types of applications are hand-held pH probes, analytic medical instruments, magnetic field detec- tors, gas detectors, and silicon based pressure transducers. ...

Page 13

FIGURE 8. Low-Leakage Sample and Hold FIGURE Square Wave Oscillator 13 201144 Version 2 Revision 3 Print Date/Time: 2011/08/30 23:14:26 20114413 20114414 www.national.com ...

Page 14

Physical Dimensions www.national.com inches (millimeters) unless otherwise noted 14-Pin Small Outline Package NS Package Number M14A 14-Pin Molded Dual-In-Line Package NS Package Number N14A 14 201144 Version 2 Revision 3 Print Date/Time: 2011/08/30 23:14:26 ...

Page 15

Version 2 Revision 3 Print Date/Time: 2011/08/30 23:14:26 www.national.com ...

Page 16

... National Semiconductor and the National Semiconductor logo are registered trademarks of National Semiconductor Corporation. All other brand or product names may be trademarks or registered trademarks of their respective holders. ...

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