| Product Selector Card |
Precision Signal Chain Products Selector Guide |
Aug 29th, 2016 |
| LTspice |
LTC6244 Demo Circuit - 60kHz, Positive and Negative Peak Detector |
Mar 7th, 2016 |
| LTspice |
LTC6078 Demo Circuit - pH Probe Amplifier |
Feb 24th, 2016 |
| Ad |
4GHz, 3fA, 0.45pF Op Amp |
Feb 10th, 2016 |
| LTspice |
LTC6268-10 Demo Circuit - Oscilloscope Differential Probe |
Nov 23rd, 2015 |
| Datasheet |
LTC6269-10 - Dice Data Sheet |
Jul 14th, 2015 |
| Datasheet |
LTC6269 - Dice Data Sheet |
Jul 14th, 2015 |
| Datasheet |
LTC6268-10 - Dice Data Sheet |
Jul 14th, 2015 |
| Datasheet |
LTC6268 - Dice Datasheet |
Jul 14th, 2015 |
| LT Journal |
Op Amp Combines Femtoamp Bias Current with 4GHz Gain Bandwidth Product, Shines New Light on Photonics Applications |
Jul 7th, 2015 |
| Design Note |
DN541 - Micropower Op Amp Drives 8-Channel 18-Bit Simultaneous Sampling ADC without Compromising Accuracy or Breaking the Power Budget |
Jun 23rd, 2015 |
| LTspice |
LT1792/LT1097 Demo Circuit - Low Noise Hydrophone Amplifier with DC Servo |
Jun 18th, 2015 |
| Press Release |
4GHz Amplifier Achieves <1pA Input Bias Current over -40°C to 85°C Temperature Range |
May 12th, 2015 |
| Article |
Transimpedance Amplifiers for Wide Range Photodiodes Have Challenging Requirements |
Apr 20th, 2015 |
| Datasheet |
LTC6268-10/LTC6269-10 - 4GHz Ultra-Low Bias Current FET Input Op Amp |
Apr 1st, 2015 |
| Press Release |
20µA Op Amp Provides 30µV Precision |
Mar 22nd, 2015 |
| LTspice |
LT1113 Demo Circuit - Low Noise Hydrophone Amplifier with DC Servo |
Mar 17th, 2015 |
| LTspice |
LT1055 Demo Circuit - ±120V Output Precision Op Amp |
Mar 9th, 2015 |
| Reliability Data |
R571 - Reliability Data |
Feb 17th, 2015 |
| Datasheet |
LT6023/LT6023-1 - Dual Micropower, 1V/μs Precision Rail-to-Rail Output Amplifier |
Feb 13th, 2015 |
| LTspice |
LTC6081/LT1790 Demo Circuit - Single Supply Strain Gauge Amplifier |
Feb 9th, 2015 |
| LTspice |
LT1792/LT1464 Demo Circuit - Low Noise Hydrophone Amplifier with DC Servo |
Feb 3rd, 2015 |
| LTspice |
LTC6244 Demo Circuit - Low Noise AC Difference Amplifier |
Jan 26th, 2015 |
| Design Note |
DN536 - Precision Op Amp Enables Fast Multiplexing at Low Power |
Jan 23rd, 2015 |
| LTspice |
LTC6081 Demo Circuit - Shock Sensor Amplifier (Accelerometer) |
Nov 10th, 2014 |
| LTspice |
LTC6081 Demo Circuit - Two Op Amp Instrumentation Amplifier |
Nov 3rd, 2014 |
| LTspice |
LT1028/LT1055/LT1634 Demo Circuit - Super Low Distortion Variable Sine Wave Oscillator |
Oct 20th, 2014 |
| Application Note |
AN148 - Does Your Op Amp Oscillate? |
Oct 9th, 2014 |
| Press Release |
Femtoamp Bias Current Op Amps Achieve 500MHz Gain Bandwidth for TIA & Buffer Applications |
Sep 29th, 2014 |
| Datasheet |
LTC6268/LTC6269 - 500MHz Ultra-Low Bias Current FET Input Op Amp |
Sep 22nd, 2014 |
| LTspice |
LTC2050HV Demo Circuit - Low Side Current Sensing |
Aug 7th, 2014 |
| LTspice |
LTC2050HV Demo Circuit - Low Side, Bidirectional Current Sensing |
Aug 7th, 2014 |
| LTspice |
LTC2050 Demo Circuit - Low Side Current Sense Amplifier |
Aug 7th, 2014 |
| Press Release |
Precision Op Amps Operate on 140V Supply |
Aug 3rd, 2014 |
| LTspice |
LTC6078 Demo Circuit - 60Hz Notch Filter |
Jul 31st, 2014 |
| Datasheet |
LTC6091 - Dual 140V, Rail-to-Rail Output, Picoamp Input Current Op Amp |
Jun 17th, 2014 |
| Press Release |
Micropower 30µV Op Amp Settles in 15µS to 0.0015% |
Mar 30th, 2014 |
| Ad |
60V Zero Drift |
Jan 29th, 2014 |
| LTspice |
LTC6090/LTC2054 Demo Circuit - µVolt Preamplifier for a Digital Voltmeter |
Jan 27th, 2014 |
| Datasheet |
LT6020/LT6020-1 - Dual Micropower, 5V/μs Precision Rail-to-Rail Output Amplifier |
Jan 21st, 2014 |
| LTspice |
LTC6090 Demo Circuit - Wide Dynamic Input-Output Range High Voltage Integrator |
Nov 13th, 2013 |
| Application Note |
AN141 - Risk Assessment Advice for High Reliability Amplifiers |
Oct 7th, 2013 |
| Product Selector Card |
High Voltage Amplifiers |
Sep 10th, 2013 |
| Product Selector Card |
SAR ADC Drivers |
Sep 5th, 2013 |
| Press Release |
60V Zero-Drift Operational Amplifier with 220nVP-P Noise Achieves Widest Dynamic Range |
Aug 22nd, 2013 |
| LTspice |
LTC6090/LT5400 Demo Circuit - Wide Common Mode Range 10x Gain Instrumentation Amplifier |
Aug 1st, 2013 |
| Product Selector Card |
SAR ADC Input Types |
Jul 23rd, 2013 |
| LT Journal |
Low Power, DC Accurate Drivers for 18-Bit ADCs |
Jul 9th, 2013 |
| Datasheet |
LTC2057/LTC2057HV - High Voltage, Low Noise Zero-Drift Operational Amplifier |
May 15th, 2013 |
| Design Note |
DN513 - High Voltage CMOS Amplifier Enables High Impedance Sensing with a Single IC |
Mar 1st, 2013 |
| Press Release |
140V Precision Op Amp Features 3pA Bias Current, 3.5µVP-P Noise for High Gain Applications |
Jan 29th, 2013 |
| LT Journal |
Monolithic Operational Amplifier Works from ±4.75V to ±70V and Features Rail-to-Rail Output Swing and Low Input Bias Current |
Jan 17th, 2013 |
| Datasheet |
LTC6090/LTC6090-5 - 140V CMOS Rail-to-Rail Output, Picoamp Input Current Op Amp |
Oct 30th, 2012 |
| Product Selector Card |
High Performance Op Amps |
Feb 10th, 2010 |
| LT Journal |
September 2009 - Consider New Precision Amplifiers for Updated Industrial Equipment Designs |
Sep 1st, 2009 |
| Datasheet |
LTC6084/LTC6085 - Dual/Quad 1.5MHz, Rail-to-Rail, CMOS Amplifiers |
Jul 22nd, 2008 |
| LT Journal |
Mar 2008 - CMOS Op Amp Outperforms Bipolar Amps in Precision Applications |
Mar 19th, 2008 |
| Press Release |
Tiny Low-Cost Rail-to-Rail Amplifiers Deliver Speed & Precision |
Nov 13th, 2007 |
| Press Release |
Sub-Microvolt Drift 3.5MHz CMOS Amplifiers Feature 1pA Bias Current and Low Noise |
Sep 25th, 2007 |
| Datasheet |
LTC6087/LTC6088 - Dual/Quad 14MHz, Rail-to-Rail CMOS Amplifiers |
Sep 5th, 2007 |
| Application Note |
AN113 - Power Conversion, Measurement and Pulse Circuits |
Aug 7th, 2007 |
| Datasheet |
LTC6081/LTC6082 - Precision Dual/Quad CMOS Rail-to-Rail Input/Output Amplifiers |
Aug 6th, 2007 |
| Design Note |
DN414 - Micropower Op Amps Work Down to 1.8V Total Supply, Guaranteed over Temperature |
Apr 12th, 2007 |
| Design Note |
DN400 - True Rail-to-Rail, High Input Impedance ADC Simplifies Precision Measurements |
Oct 4th, 2006 |
| Press Release |
1.6V High Precision Op Amps Consume Less then 1uA |
Sep 29th, 2006 |
| Datasheet |
LT6003/LT6004/LT6005 - 1.6V, 1µA Precision Rail-to-Rail Input and Output Op Amps |
Sep 20th, 2006 |
| Design Note |
DN399 - Low Noise Amplifiers for Small and Large Area Photodiodes |
Sep 19th, 2006 |
| Press Release |
Tiny 50MHz CMOS Op Amp Boasts Low Noise and High Precision |
Aug 18th, 2006 |
| Datasheet |
LTC6244 - Dual 50MHz, Low Noise, Rail-to-Rail, CMOS Op Amp |
Jul 17th, 2006 |
| Reliability Data |
R423 - Reliability Data |
Mar 30th, 2006 |
| LT Journal |
Mar 2006 40nVP-P Noise, 0.05V/C Drift, Chopped FET Amplifier |
Mar 28th, 2006 |
| LT Journal |
Dec 2005 Fast CMOS Op Amp Challenges Bipolar Amps on All Key Specs |
Mar 28th, 2006 |
| Reliability Data |
R515 Reliability Data |
Dec 28th, 2005 |
| Software and Simulation |
LF412 SPICE Model |
Dec 6th, 2005 |
| Software and Simulation |
LF412A SPICE Model |
Dec 2nd, 2005 |
| Press Release |
LTC6078/79 - 50uA CMOS Amplifier Equals Best Bipolar Op Amps with 0.7uV/°C Drift |
Sep 12th, 2005 |
| LT Journal |
Sep 2005 Power Precision Dual Op Amp Combines the Advantages of Bipolar and CMOS Amplifiers |
Sep 1st, 2005 |
| Reliability Data |
R513 Reliability Data |
Aug 30th, 2005 |
| Reliability Data |
R040 Reliability Data |
Aug 25th, 2005 |
| Press Release |
Low Offset 18MHz CMOS Amplifiers Boast Unprecedented Low Noise |
Aug 16th, 2005 |
| Datasheet |
LTC6078/LTC6079 - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output Amplifiers |
Aug 11th, 2005 |
| Datasheet |
LTC6240/LTC6241/LTC6242 - Single/Dual/Quad 18MHz, Low Noise, Rail-to-Rail Output, CMOS Op Amps |
Jun 28th, 2005 |
| LT Journal |
March 2005 - Low-Distortion Sine Wave Oscillator with Precise RMS Amplitude Stability |
Mar 25th, 2005 |
| Application Note |
AN96 - Delta Sigma ADC Bridge Measurement Techniques |
Jan 17th, 2005 |
| Design Note |
DN355 - Op Amp Selection Guide for Optimum Noise Performance |
Jan 7th, 2005 |
| Application Note |
AN98 - Signal Sources, Conditioners and Power Circuitry Circuits of the Fall, 2004 |
Nov 19th, 2004 |
| Spec Notice |
LTC1152 - Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp Specification Notice |
Nov 10th, 2004 |
| Datasheet |
LTC2054/LTC2055 - Single/Dual Micropower Zero-Drift Operational Amplifiers |
Sep 2nd, 2004 |
| Datasheet |
LT1008 - Picoamp Input Current, Microvolt Offset, Low Noise Op Amp |
Aug 9th, 2004 |
| Reliability Data |
R258 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LT1112/LT1114 - Dual/Quad Low Power Precision, Picoamp Input Op Amps |
Aug 9th, 2004 |
| Datasheet |
LT1168 - Low Power, Single Resistor Gain Programmable, Precision Instrumentation Amplifier |
Aug 9th, 2004 |
| Datasheet |
LT1884/LT1885 - Dual/Quad Rail-to-Rail Output, Picoamp Input Precision Op Amps |
Aug 9th, 2004 |
| Datasheet |
LT1169 - Dual Low Noise, Picoampere Bias Current, JFET Input Op Amp |
Aug 9th, 2004 |
| Datasheet |
LT1464 - Dual/Quad Micropower, 1MHz C-Load Picoampere Bias Current JFET Input Op Amps |
Aug 9th, 2004 |
| Datasheet |
LTC2050/LTC2050HV - Zero-Drift Operational Amplifiers in SOT-23 |
Aug 9th, 2004 |
| Datasheet |
LT1024 - Dual, Matched Picoampere, Microvolt Input, Low Noise Op Amp |
Aug 9th, 2004 |
| Reliability Data |
R414 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LT1097 - Low Cost, Low Power Precision Op Amp |
Aug 9th, 2004 |
| Reliability Data |
R418 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LT1881/LT1882 - Dual and Quad Rail-to-Rail Output, Picoamp Input Precision Op Amps |
Aug 9th, 2004 |
| Datasheet |
LT1457 - Dual, Precision JFET Input Op Amp |
Aug 9th, 2004 |
| Datasheet |
LT1462/LT1463 - Dual/Quad Micropower, 260µW C-Load Picoampere Bias Current JFET Input Op Amps |
Aug 9th, 2004 |
| Reliability Data |
R108 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LT1022 - High Speed, Precision JFET Input Operational Amplifier |
Aug 9th, 2004 |
| Datasheet |
LT1057/LT1058 - Dual and Quad, JFET Input Precision High Speed Op Amps |
Aug 9th, 2004 |
| Datasheet |
LF412A - Dual Precision JFET Input Operational Amplifiers |
Aug 9th, 2004 |
| Datasheet |
LTC1052/LTC7652 - Zero-Drift Operational Amplifier |
Aug 9th, 2004 |
| Datasheet |
LT1672/3/4 - 2µA Max, Av >=5 Single, Dual and Quad Over-The-Top Precision Rail-to-Rail Input and Output Op Amps |
Aug 9th, 2004 |
| Datasheet |
LT6013/LT6014 - Single/Dual 145µA, 9.5nV/rtHz, AV >=5, Rail-to-Rail Output Precision Op Amps |
Aug 9th, 2004 |
| Datasheet |
LTC1051 - Dual/Quad Precision Zero-Drift Operational Amplifiers With Internal Capacitors |
Aug 9th, 2004 |
| Datasheet |
LTC1151 - Dual ±15V Zero-Drift Operational Amplifier |
Aug 9th, 2004 |
| Reliability Data |
R465 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LTC1992 Family - Low Power, Fully Differential Input/Output Amplifier/Driver Family |
Aug 9th, 2004 |
| Datasheet |
LTC1049 - Low Power Zero-Drift Operational Amplifier with Internal Capacitors |
Aug 9th, 2004 |
| Reliability Data |
R361 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LT1113 - Dual Low Noise, Precision, JFET Input Op Amps |
Aug 9th, 2004 |
| Reliability Data |
R235 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors |
Aug 9th, 2004 |
| Datasheet |
LTC1100 - Precision, Zero-Drift Instrumentation Amplifier |
Aug 9th, 2004 |
| Reliability Data |
R106 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LT1012 - Picoamp Input Current, Microvolt Offset, Low Noise Op Amp |
Aug 9th, 2004 |
| Reliability Data |
R172 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LT1122 - Fast Settling, JFET Input Operational Amplifier |
Aug 9th, 2004 |
| Datasheet |
LT1055/LT1056 - Precision, High Speed, JFET Input Operational Amplifiers |
Aug 9th, 2004 |
| Datasheet |
LTC1152 - Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp |
Aug 9th, 2004 |
| Datasheet |
LT6010 - 135µA, 14nV/rtHz, Rail-to-Rail Output Precision Op Amp with Shutdown |
Aug 9th, 2004 |
| Reliability Data |
R062 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LTC1047 - Dual Micropower Zero-Drift Operational Amplifier with Internal Capacitors |
Aug 9th, 2004 |
| Datasheet |
LT1494/LT1495/LT1496 - 1.5µA Max, Single, Dual and Quad Precision Rail-to-Rail Input and Output Op Amps |
Aug 9th, 2004 |
| Datasheet |
LT6011/LT6012 - Dual/Quad 135µA, 14nV/rtHz, Rail-to-Rail Output Precision Op Amp |
Aug 9th, 2004 |
| Reliability Data |
R408 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LT1792 - Low Noise, Precision, JFET Input Op Amp |
Aug 9th, 2004 |
| Datasheet |
LT1793 - Low Noise, Picoampere Bias Current, JFET Input Op Amp |
Aug 9th, 2004 |
| Datasheet |
LTC1250 - Very Low Noise Zero-Drift Bridge Amplifier |
Aug 9th, 2004 |
| Reliability Data |
R376 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LT1167 - Single Resistor Gain Programmable, Precision Instrumentation Amplifier |
Aug 9th, 2004 |
| Reliability Data |
R048 Reliability Data |
Aug 9th, 2004 |
| Reliability Data |
R334 Reliability Data |
Aug 9th, 2004 |
| Datasheet |
LTC2051/LTC2052 - Dual/Quad Zero-Drift Operational Amplifiers |
Aug 9th, 2004 |
| Datasheet |
LTC1050 - Precision Zero-Drift Operational Amplifier with Internal Capacitors |
Aug 9th, 2004 |
| LT Journal |
May 2004 Fully Differential Gain-Block Family Simplifies Interface Designs |
May 1st, 2004 |
| LT Journal |
May 2004 Zero-Drift Op Amps Improve Performance and Save Power |
May 1st, 2004 |
| Design Note |
DN333 - Easy-to-Use Differential Amplifiers Simplify Balanced Signal Designs |
Mar 2nd, 2004 |
| Design Note |
DN331 - Dual 25µV Micropower Op Amp Fits in 3mm x 3mm Package |
Feb 2nd, 2004 |
| LT Journal |
Sep 2003 Complete USB Solution Provides PowerPath Control and Input Current Limiting while Charging a Li-Ion Battery |
Sep 1st, 2003 |
| LT Journal |
Sep 2003 Low Noise, Micropower Precision Op Amp Swings Outputs from Rail to Rail |
Sep 1st, 2003 |
| LT Journal |
Sep 2003 Versatile Hot Swap Controller with Open Circuit Detect, Foldback Current Limiting and Much More |
Sep 1st, 2003 |
| LT Journal |
May 2002 Small, Portable Altimeter Operates from a Single Cell |
May 1st, 2002 |
| Design Note |
DN266 - LT1880 SOT-23 Superbeta Op Amp Saves Board Space in Precision Applications |
Sep 1st, 2001 |
| Design Note |
DN257 - Resolving Very Small Temperature Differences with the LTC2402 |
May 2nd, 2001 |
| LT Journal |
May 2001 1MW Transimpedance Amplifier Achieves Near-Theoretical Noise Performance, 2.4GHz Gain Bandwidth, with Large-Area Photodiodes |
May 1st, 2001 |
| Design Note |
DN230 - Rail-to-Rail Amplifiers Operate on 2.7V with 20µV Offset |
Apr 15th, 2001 |
| Design Note |
DN254 - LT1806: 325MHz Low Noise Rail-to-Rail SOT-23 Op Amp Saves Board Space |
Apr 1st, 2001 |
| Application Note |
AN86 - A Standards Lab Grade 20-Bit DAC with 0.1ppm/° Drift: The Dedicated Art of Digitizing One Part Per Million |
Jan 1st, 2001 |
| LT Journal |
Nov 2000 Zero-Drift Operational Amplifier Family in Small-Footprint Packages Features 3µV Maximum DC Offset and30nV/°C Maximum Drift |
Nov 1st, 2000 |
| Application Note |
AN87 - Linear Technology Magazine Circuit Collection, Volume V: Data Conversion, Interface and Signal Conditioning Products |
Nov 1st, 2000 |
| LT Journal |
May 2000 Measure Resistances Easily, without Reference Resistor or Current Source |
May 1st, 2000 |
| LT Journal |
May 2000 New Rail-to-Rail Output Op Amps Bring Precision Performance to Low Voltage Systems |
May 1st, 2000 |
| LT Journal |
May 2000 New Instrumentation Amplifier: Single-Resistor Gain Set and Precision Front End Make Accuracy Easy |
May 1st, 2000 |
| LT Journal |
Feb 2000 LTC2050, Zero-Drift Operational Amplifier in SOT-23 Package Minimizes Board Area without Compromising Specs |
Feb 1st, 2000 |
| Design Note |
DN219 - 24-Bit ADC Measures from DC to Daylight |
Dec 1st, 1999 |
| Design Note |
Design Solutions 11 - Testing Linearity of the LTC2400 24-Bit No Latency Delta SigmaTM A/D Converter Help from the Nineteenth Century |
Nov 1st, 1999 |
| Application Note |
AN82 - Understanding and Applying Voltage References |
Nov 1st, 1999 |
| Design Note |
DN214 - Selecting Op Amps for Precision 16-Bit DACs |
Oct 1st, 1999 |
| LT Journal |
September 1999 - JFET Op Amps Equal Low Noise Bipolars and Have Picoamp Current Noise |
Sep 1st, 1999 |
| LT Journal |
Sep 1999 Four New Amplifiers Serve Many Applications |
Sep 1st, 1999 |
| Application Note |
AN78 - A Collection of Differential to Single-Ended Signal Conditioning Circuits for Use with the LTC2400, a 24-Bit No Latency Delta Sigma ADC in an SO-8 |
Aug 7th, 1999 |
| Design Note |
DN207 - LTC2400 High Accuracy Differential to Single-Ended Converter for ±5V Supplies |
Jul 1st, 1999 |
| LT Journal |
Jun 1999 LTC2400 Differential Bridge Digitizers |
Jun 1st, 1999 |
| LT Journal |
Jun 1999 4.5µA Li-Ion Battery Protection Circuit |
Jun 1st, 1999 |
| LT Journal |
Jun 1999 Designing the LT1167 Instrumentation Amplifier into a Single 5V Supply Application |
Jun 1st, 1999 |
| Design Note |
Design Solutions 6 - LTC2400 Differential to Single-Ended Converter for Single 5V Supply This Converter Has High Accuracy, Very Low Offset and Offset Drift, Rail-to-Rail Input Common Mode Range and is Live at Zero |
May 1st, 1999 |
| Design Note |
DN204 - UL Isolated Self-Powered Sensing |
Apr 3rd, 1999 |
| Design Note |
Design Solutions 5 - Low Level, High Accuracy, Bipolar Input Differential to Single-Ended Signal Conversion for 24-Bit A/D Single Supply Differential to Single-Ended Conversion Circuit Amplifies Low Level Bipolar Signals and Maintains the LTC2400's High |
Apr 1st, 1999 |
| Design Note |
Design Solutions 4 - High Accuracy, Differential to Single-Ended Conversion for Wide Range Bipolar Input Signals Bipolar Differential to Single-Ended Converter Drives the LTC2400's Input Rail-to-Rail |
Apr 1st, 1999 |
| Design Note |
Design Solutions 1 - LTC2400 High Accuracy Differential to Single-Ended Differential to Single-Ended Converter Has Very High Uncalibrated Accuracy and Low Offset and Drift |
Apr 1st, 1999 |
| Application Note |
AN75 - Circuitry for Signal Conditioning and Power Conversion |
Mar 1st, 1999 |
| LT Journal |
Aug 1998 Component and Measurement Advances Ensure 16-Bit DAC Settling Time (Part One) |
Aug 1st, 1998 |
| Application Note |
AN74 - Component and Measurement Advances Ensure 16-Bit DAC Settling Time |
Jul 1st, 1998 |
| Design Note |
DN182 - The LT1167: Single Resistor Sets the Gain of the Best Instrumentation Amplifier |
Jun 1st, 1998 |
| LT Journal |
May 1998 The LT1167: Precision, Low Cost, Low Power Instrumentation Amplifier Requires a Single Gain-Set Resistor |
May 1st, 1998 |
| Application Note |
AN72 - A Seven-Nanosecond Comparator for Single Supply Operation |
May 1st, 1998 |
| Design Note |
DN163 - 1µA Op Amp Permits Precision Portable Circuitry |
Sep 2nd, 1997 |
| Design Note |
DN161 - The Smart Rock |
Aug 1st, 1997 |
| Design Note |
DN140 - Updated Operational Amplifier Selection Guide for Optimum Noise Performance |
Oct 1st, 1996 |
| Design Note |
DN136 - Micropower Dual and Quad JFET Op Amps Feature pA Input Bias Currents and C-LoadTM Drive Capability |
Sep 1st, 1996 |
| Application Note |
AN67 - Linear Technology Magazine Circuit Collection, Volume III |
Sep 1st, 1996 |
| Design Note |
DN107 - C-Load TM Op Amps Conquer Instabilities |
Jul 1st, 1995 |
| Design Note |
DN101 - A Precision Wideband Current Probe for LCD Backlight Measurement |
Apr 1st, 1995 |
| Design Note |
DN84 - Source Resistance Induced Distortion in Op Amps |
Jul 1st, 1994 |
| Design Note |
DN83 - C-Load TM Op Amps Tame Instabilities |
Jun 1st, 1994 |
| Application Note |
AN59 - Applications of the LT1300 and LT1301 Micropower DC/DC Converters |
Jan 1st, 1994 |
| Design Note |
DN67 - A 1mV Offset, Clock-Tunable, Monolithic 5-Pole Lowpass Filter |
Feb 1st, 1993 |
| Application Note |
AN52 - Linear Technology Magazine Circuit Collection, Volume 1 |
Jan 1st, 1993 |
| Design Note |
DN56 - 3V Operation of Linear Technology Op Amps |
Feb 1st, 1992 |
| Application Note |
AN48 - Using the LTC Op Amp Macromodels |
Nov 8th, 1991 |
| Application Note |
AN45 - Measurement and Control Circuit Collection |
Jun 5th, 1991 |
| Application Note |
AN42 - Voltage Reference Circuit Collection |
Jun 1st, 1991 |