Datasheet Linear Technology LT1014IN#PBF
Manufacturer | Linear Technology |
Series | LT1014 |
Part Number | LT1014IN#PBF |
Quad Precision Op Amp
Datasheets
Datasheet LT1013, LT1014
PDF, 573 Kb, Language: en, File uploaded: Aug 4, 2017, Pages: 26
Dual/Quad Precision Op Amps
Dual/Quad Precision Op Amps
Extract from the document
Prices
Packaging
Package | N-14 |
Package Code | N |
Package Index | 05-08-1510 (N14) |
Parametrics
Number of Channels | 4 |
Unity Gain BW | 0.8 MHz |
Av Min Stable | 1 V/V |
Avol | 78 dB |
Common Mode Rejection Ratio | 117 dB |
Cload | 100 pF |
Design Tools | LTspice Model |
Enoise 1/f Corner | 2 Hz |
Enoise Density | 22 nV/rtHz |
Export Control | no |
Ibias | 12 nA |
Inoise | 0.07 pA/rtHz |
Inoise 1/f Corner | 95 Hz |
Ios | 0.00015 µA |
Iout | 25 mA |
Isupply | 0.35 mA |
LF Enoise | 0.55 µVPP |
Operating Temperature Range | -40 to 85 °C |
Over-the-Top | no |
PSRR | 120 dB |
Rail-to-Rail | In to V- |
Rail-to-Rail In | no |
Rail-to-Rail Out | no |
SR | 0.4 V/µs |
Shutdown | no |
Single Supply | yes |
Type | VFB |
VinCM High (from V+) | 1.2 V |
VinCM Low (from V-) | -0.3 V |
Voh (from V+) | 1 V |
Vol (from V-) | 1 V |
Vos | 0.04 mV |
Vos TC | 0.3 µV/C |
Vs Max | 44 V |
Vs Min | 4 V |
Eco Plan
RoHS | Compliant |
Other Options
Application Notes
- Designing Linear Circuits for 5V Single Supply Operation &mdash AN11PDF, 230 Kb, File published: Sep 1, 1985
This note covers the considerations for designing precision linear circuits which must operate from a single 5V supply. Applications include various transducer signal conditioners, instrumentation amplifiers, controllers and isolated data converters.Extract from the document - Risk Assessment Advice for High Reliability Amplifiers &mdash AN141PDF, 299 Kb, File published: Oct 7, 2013Extract from the document
- Using the LTC Op Amp Macromodels &mdash AN48PDF, 297 Kb, File published: Nov 8, 1991
LTC's op amp macromodels are described in detail, along with the theory behind each model and complete schematics of each topology. Extended modeling topics are discussed, such as phase/frequency response modifications and asymmetric slew rate for JFET op amp models. LTC's macromodels are optimized for accuracy and fast simulation times. Simulation times can be further reduced by using streamlining techniques found throughout AN48.Extract from the document
Design Notes
- An LT1013 and LT1014 Op Amp SPICE Macromodel &mdash DN12PDF, 75 Kb, File published: Jul 1, 1988Extract from the document
- Noise Calculations in Op Amp Circuits &mdash DN15PDF, 224 Kb, File published: Sep 1, 1988Extract from the document
- Operational Amplifier Selection Guide for Optimum Noise Performance &mdash DN3PDF, 224 Kb, File published: Oct 1, 1987Extract from the document
- Chopper vs Bipolar Op Amps—An Unbiased Comparison &mdash DN42PDF, 70 Kb, File published: Dec 1, 1990Extract from the document
- 3V Operation of Linear Technology Op Amps &mdash DN56PDF, 78 Kb, File published: Feb 1, 1992Extract from the document
- Operational Amplifier Selection Guide for Optimum Noise Performance &mdash DN6PDF, 137 Kb, File published: Jan 1, 1988
Articles
- Consider New Precision Amplifiers for Updated Industrial Equipment Designs &mdash LT JournalPDF, 154 Kb, File published: Sep 1, 2009Extract from the document
Model Line
Series: LT1014 (8)
Manufacturer's Classification
- Signal Conditioning > Amplifiers > Operational Amplifiers (Op Amps) > Precision Amplifiers (Vos | High Voltage Amplifiers (>12V) | Low Power Amplifiers (Is < 1mA/amp)
Other Names:
LT1014INPBF, LT1014IN PBF