| 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 |
| Design Note |
DN536 - Precision Op Amp Enables Fast Multiplexing at Low Power |
Jan 23rd, 2015 |
| Design Note |
DN513 - High Voltage CMOS Amplifier Enables High Impedance Sensing with a Single IC |
Mar 1st, 2013 |
| 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 |
| Design Note |
DN399 - Low Noise Amplifiers for Small and Large Area Photodiodes |
Sep 19th, 2006 |
| Design Note |
DN355 - Op Amp Selection Guide for Optimum Noise Performance |
Jan 7th, 2005 |
| 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 |
| 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 |
| 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 |
| 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 |
| Design Note |
DN214 - Selecting Op Amps for Precision 16-Bit DACs |
Oct 1st, 1999 |
| Design Note |
DN207 - LTC2400 High Accuracy Differential to Single-Ended Converter for ±5V Supplies |
Jul 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 |
| Design Note |
DN182 - The LT1167: Single Resistor Sets the Gain of the Best Instrumentation Amplifier |
Jun 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 |
| 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 |
| Design Note |
DN67 - A 1mV Offset, Clock-Tunable, Monolithic 5-Pole Lowpass Filter |
Feb 1st, 1993 |
| Design Note |
DN56 - 3V Operation of Linear Technology Op Amps |
Feb 1st, 1992 |
| Design Note |
DN51 - Gain Trimming In Instrumentation Amplifier Based Systems |
Jun 1st, 1991 |
| Design Note |
DN43 - LT1056 Improved JFET Op Amp Macromodel Slews Asymmetrically |
Jan 1st, 1991 |
| Design Note |
DN42 - Chopper vs Bipolar Op Amps—An Unbiased Comparison |
Dec 1st, 1990 |
| Design Note |
DN40 - Designing with a New Family of Instrumentation Amplifiers |
Oct 1st, 1990 |
| Design Note |
DN36 - Ultra Low Noise Op Amp Combines Chopper and Bipolar Op Amps |
Jul 1st, 1990 |
| Design Note |
DN28 - A SPICE Op Amp Macromodel for the LT1012 |
Nov 1st, 1989 |
| Design Note |
DN25 - A Single Amplifier, Precision High Voltage Instrument Amp |
Aug 1st, 1989 |
| Design Note |
DN5 - Temperature Measurement Using Data Acquisition Systems |
Mar 1st, 1989 |
| Design Note |
DN15 - Noise Calculations in Op Amp Circuits |
Sep 1st, 1988 |
| Design Note |
DN9 - Chopper Amplifiers Complement a DC Accurate Low-Pass Filter |
Mar 1st, 1988 |
| Design Note |
DN6 - Operational Amplifier Selection Guide for Optimum Noise Performance |
Jan 1st, 1988 |
| Design Note |
DN3 - Operational Amplifier Selection Guide for Optimum Noise Performance |
Oct 1st, 1987 |