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| Amplifier Basics | |
| Understanding Basic Analog Passive Devices | SLOA027 |
| Understanding Basic Analog Active Devices | SLOA026 |
| Understanding Operational Amplifier Specifications | SLOA011 |
| Designing Gain and Offset in Thirty Seconds | sloa097 |
| DC Parameters: Input Offset Voltage | SLOA059 |
| Worst-case design of op amp circuits | slyt120 |
| Feedback Theories | |
| Feedback Amplifier Analysis Tools | SLOA017 |
| Frequency response errors in voltage feedback op amps | SLYT146 |
| Choose of Amplifiers | |
| Match Amplifiers to Applications | Slyt213 |
| Integrated logarithmic amplifiers for industrial applications | SLYT088 |
| Matching operational amplifier bandwidth with applications | SLYT181 |
| Selecting High-Speed Operational Amplifiers Made Easy | SLOA051 |
| Stability Analysis | |
| Effect of Parasitic Capacitance in Op Amp Circuits | sloa013a |
| Stability Analysis of Voltage-Feedback Op Amps, Including Compensation Technique | SLOA020 |
| Using a De-compensated Op Amp for Improved Performance | SLYT174 |
| Op amp attenuators | SLYT093 |
| Op amp stability and input capacitance | SLYT087 |
| High Speed Applications | |
| Designing for low distortion with high-speed op amps | slyt133 |
| RF and IF Amplifiers with Op Amps | SLYT102 |
| Using high-speed op amps for high-performance RF design, Part 1 | slyt121 |
| Using high-speed op amps for high-performance RF design, Part 2 | slyt112 |
| Amplifier and Noise | |
| Noise Analysis for High-Speed Op Amps | SBOA066 |
| Noise Analysis in Operational Amplifier Circuits | SLVA043 |
| Calculating noise figure in op amps | slyt094 |
| Audio Amplifiers | |
| Audio power amplifier measurements, Part 1 | SLYT135 |
| Audio power amplifier measurements, Part 2 | SLYT128 |
| An audio circuit collection, Part 1 | SLYT155 |
| An audio circuit collection, Part 2 | SLYT145 |
| An audio circuit collection, Part 3 | SLYT134 |
| Audio Power Amplifier Solutions for New Wireless Phones | SLOA053 |
| Guidelines for Measuring Audio Power Amplifier Performance | SLOA068 |
| Calculating Gain for Audio Amplifiers | SLOA105 |
| Measuring Class-D Amplifiers for Audio Speaker Overstress Testing | SLOA116 |
| Reducing the output filter of a Class-D amplifier | SLYT198 |
| Power supply decoupling and audio signal filtering for the Class-D audio power amplifie | SLYT199 |
| Current-Feedback Amplifiers | |
| The Current-Feedback Op Amp: A High-Speed Building Block | SBOA076 |
| Current Feedback Amps: Review, Stability Analysis, and Applications | SBOA081 |
| Voltage Feedback vs. Current Feedback Op Amps | SLVA051 |
| A Current Feedback Op-Amp Circuit Collection | SLOA066 |
| Expanding the Usability of Current-Feedback Amplifiers | SLYT099 |
| Stabilizing Current-Feedback Op Amp while optimizing circuit performance using Pspice | SBOA095 |
| Fully Differential Amplifiers | |
| Fully-Differential Amplifiers (Rev. D) | SLOA054 |
| Analysis of Fully Differential Amplifiers | SLYT157 |
| Fully Differential Amplifiers Applications | SLYT143 |
| Fully-Differential OP Amps Made Easy | SLOA099 |
| Differential Op Amp Single-Supply Design Techniques | SLOA072 |
| A Differential Operational Amplifier Circuit Collection | SLOA064 |
| Fully differential amplifier design in high-speed data acquisition systems | slyt119 |
| Low-Power, High-Intercept Interface to the ADS5424, 105-MSPS Converter | SLYT223 |
| Active Output Impedance for ADSL Line Drivers | SLOA100 |
| Instrumentation Amplifiers | |
| Signal Conditioning Wheatstone Resistive Bridge Sensors | SLOA034 |
| Getting the Most Out of Your Instrumentation Amplifier Design | SLYT226 |
| Boost Instrument Amp CMR with Common-Mode Driven Supplies | sboa014 |
| Programmable-Gain Instrumentation Amplifiers | SBOA024 |
| AC Coupling Instrumentation and Difference Amplifiers | SBOA003 |
| Precision Absolute Value Circuits | SBOA068 |
| Level Shifting Signals with Differential Amplifiers | sboa038 |
| Layout | |
| The PCB is a component of op amp design | slyt166 |
| Reducing crosstalk of an op amp on a PCB | slyt190 |
| Reducing PCB design costs: From schematic capture to PCB layout | SLYT167 |
| High-Speed Operational Amplifier Layout Made Easy | SLOA046 |
| High Speed Amplifier PCB Layout Tips | sloa102 |
| How (Not) To Decouple High-Speed Operational Amplifiers | SLOA069 |
| Measuring Board Parasitic in High-Speed Analog Design | SBOA094 |
| PCB layout for the TPA005D1x and TPA032D0x Class-D APAs | slyt182 |
| Rail-to-Rail Amplifiers | |
| Use of Rail-to-Rail Operational Amplifiers | SLOA039 |
| A Single Supply Op Amp Circuit Collection | SLOA058 |
| Auto-zero amplifiers ease the design of high-precision circuits | SLYT204 |
| Using Op Amps for Filtering | |
| Analysis of the Sallen-Key Architecture | SLOA024 |
| Design Methodology for MFB Filters in ADC Interface Applications | SBOA114 |
| Active Low-Pass Filter Design | SLOA049 |
| Filter Design in Thirty Seconds | SLOA093 |
| Digitally Programmable, Time-Continuous Active Filter | sbfa005 |
| Handbook of Operational Amplifier Active RC Networks | sboa093a |
| Fast Setting Low-Pass Filter | sboa011 |
| FilterPro MFB and Sallen-Key Low-Pass Filter Design Program | SBFA001 |
| Active filters using current-feedback amplifiers | SLYT081 |
| Video Amps | |
| Measuring Differential Gain and Phase | SLOA040 |
| Video Designs Using High-Speed Amplifiers | SLOA057 |
| Video Operational Amplifier | SBOA069 |