*请在TI公司搜索引擎的关键字部分输入对应的PDF文档号以获得详细的应用笔记信息
| Data Converter Basics/Data Converter Specifications | |
| Understanding Data Converters | SLAA013 |
| A Glossary of Analog-to-Digital Specifications and Performance Characteristics | SBAA146 |
| Selecting an ADC | SBAA004 |
| Choosing an ADC and Op Amp for Minimum Offset | SLAA064 |
| Calculating noise figure and third-order intercept in ADCs | SLYT090 |
| Dynamic Tests for ADC Performance | SBAA002 |
| Switched-Capacitor ADC Analog Input Calculations | SLAA036 |
| Data Acquisition Basics | |
| Complete Temp Data Acquisition System from a Single +5V Supply | SBAA050 |
| Signal Acquisition and Conditioning with Low Supply Voltages | SLAA018 |
| Aspects of Data Acquisition System Design | SLYT191 |
| Interface ADC to DSP | |
| Using Quad and Octal ADCs in SPI Mode | SLYT150 |
| A Methodology of Interfacing Serial A-to-D Converters to DSPs | SLYT175 |
| Efficiently Interfacing Serial Data Converters to High-Speed DSPs | SLYT160 |
| Simple DSP interface for ADS784x/834x ADCs | SLYT210 |
| Using Direct Data Transfer to Maximize Data Acquisition Throughput | SLYT111 |
| New DSP development environment includes data converter plug-ins | SLYT158 |
| Sigma-Delta ADCs | |
| How to Get 23 bits of Effective Resolution from Your 24-bit Converter | SBAA017 |
| Understanding the ADS1252 Input Circuitry | SBAA082 |
| Understanding the ADS1251, ADS1253, and ADS1254 Input Circuitry | SBAA086 |
| Guide for Delta-Sigma Converters: ADS1210, ADS1211, ADS1212, ADS1213 | SBAA016 |
| Programming Tricks for Higher Conversion Speeds Utilizing Sigma-Delta Converters | SBAA005 |
| Giving Delta-Sigma Converters a Gain Boost with a Front-End Analog Gain Stage | SBAA006 |
| Using Ceramic Resonators with the ADS1255/6 | SBAA104 |
| Improved 60Hz Performance for ADS1211 | SBAA040 |
| Implementing a Direct Thermocouple Interface with MSP430x4xx and ADS1240 | SLAA125 |
| Operating the 16-bit, 5MSPS ADS1605 at Double the Output Data Rate | SLAA180 |
| Synchronization of External Analog Multiplexers with Delta-Sigma ADCs | SBAA013 |
| Data Capture with Multiple ADS1244 or ADS1245 Devices in Parallel | SBAA116 |
| Synchronizing the ADS1271 | SBAS355 |
| SAR ADCs | |
| Tips for Using the ADS78xx Family of ADCs | SBAA003 |
| SPI-Based Data Acquisition/Monitor Using the TLC2551 Serial ADC | SLAA108 |
| Interfacing Low Power Serial (SPI) ADCs to the MSP430F449 | SLAA234 |
| The Operation of the SAR-ADC Based on Charge Redistribution | SLYT176 |
| Two-Channel, 500-kSPS Operation of the ADS8361 | SLYT082 |
| ADS8342 SAR ADC Inputs | SBAA127 |
| Pipelined ADCs | |
| High-Speed Data Conversion | SBAA045 |
| Clocking High-Speed Data Converters | SLYT075 |
| Implementing a CDC7005 Low Jitter Clock Solution for High Speed High IF ADC Applications | SLWA034 |
| 14-Bit, 125-MSPS ADS5500 Evaluation | SLYT074 |
| ADS809 Analog-to-Digital Converter with Large Input Pulse Signal | SLYT083 |
| ADCs Support Multicarrier Systems | SLWY001 |
| ADS82x ADC with Non-Uniform Sampling Clock | SLYT089 |
| Techniques for Sampling High-Speed Graphics with Lower-Speed A/D Converters | SLYT184 |
| LVDS Outputs on the ADS527x | SBAA118 |
| Using the ADSDeSer-50EVM to Deserialize ADS527x 10-Bit Outputs | SBAA119 |
| Interfacing High-Speed LVDS Outputs of the ADS527x/ADS524x | SBOA104 |
| Standard Procedure Direct Measurement Sub-picosecond RMS Jitter High-Speed ADC | SLWA036 |
| Layout | |
| ADS5500, OPA695: PC Board Layout for Low Drivers Distortion High-Speed ADC | SBAA113 |
| Analog-to-Digital Converter Grounding Practices Affect System Performance | SBAA052 |
| Voltage Reference | |
| Voltage Reference Scaling Techniques Increase Converter and Resolution Accuracy | SBAA008 |
| ADC Gain Calibration - Extending the ADC Input Range | SBAA107 |
| Building a Stable DAC External Reference Circuit | SLAA172 |
| Adjusting the A/D Voltage Reference to Provide Gain | SLYT109 |
| The Design and Performance of a Precision Voltage Reference Circuit for 14-bit and 16-bit AD/DA | SLYT168 |
| Precision Voltage References | SLYT183 |
| Digital-to-Analog Converters | |
| Bipolar Voltage Outputs for the TLV56xx Family of DACs | SLAA113 |
| DAC5686/DAC5687 Clock Generation Using PLL & External Clock Modes | SLWA040 |
| Analog Interfaces | |
| Buffer Op Amp to ADC Circuit Collection | SLOA098 |
| Interfacing op amps and analog-to-digital converters | SLYT104 |
| Getting the Full Potential from your ADC | SBAA069 |
| Sensor to ADC—analog interface design | SLYT173 |
| Evaluating operational amplifiers as input amplifiers for A-to-D converters | SLYT193 |
| Matching the Noise Performance of the Operational Amplifier to the ADC | SLYT237 |
| Amplifiers and Bits: An Introduction to Selecting Amplifiers for Data Conv. | SLOA035 |
| High-Voltage Signal Conditioning for Low Voltage ADCs | sboa097a |
| High-Voltage Signal Conditioning for Differential ADCs | SBOA096 |
| Measuring Single-Ended 0V-5V Signals with Differential Delta-Sigma ADCs | SBAA133 |
| RLC Filter Design for ADC Interface | SBAA108 |
| Accurately measuring ADC driving-circuit settling time | slyt262 |
| Interfacing the VCA8617 with High-Speed ADCs | SBAA130 |
| Multiplexing ADS8411 | SLAA285 |
| Data Converters for Industrial Power Measurements | SBAA117 |
| Pressure Transducer to ADC Application | SLOA056 |
| Thermistor Temperature Transducer to ADC Application | SLOA052 |
| Wideband Complementary Current Output DAC Single-Ended Interface | SBAA135 |