E-book recommendation: Analog Dialogue Industrial Automation Anthology

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E-book recommendation: Analog Dialogue Industrial Automation Anthology [Copy link]

【《Analog Dialogue》Industrial Automation Anthology】collects the hard work of many ADI engineers, and I hope it will be helpful to everyone. The following is the catalog of [《Analog Dialogue》Industrial Automation Anthology】. Interested netizens can download this anthology for free. Download method: Click >>“I want to download " to enter the download channel. ●Understand and continue the safe operation of Σ-ΔADC ●Use SiP technology to improve the precision data acquisition signal chain Density ●Selecting the most suitable MEMS accelerometer for the application - Part 2 ●Selecting the most suitable MEMS accelerometer for the application - Part 1 ●Integrated capacitive PGA in ADC: Redefining performance ●Electromagnetic flowmeter: Design considerations and solutions [size =3]●Op amp input overvoltage protection: clamping and integration ●Analog front-end design considerations for RTD ratiometric temperature measurement ●ADI's data converter product online evaluation tool Virtual Eval User Guide ●Break through the design barriers of PLCDCS multi-channel analog input channel isolation, high density and high EMI radiation ●The new generation of SAR ADC solves the problem of precision data acquisition signals Difficulties in chain design ●FPGA-based system improves motor control performance [size =3]●IC power-on and shutdown ●Four steps to quickly lead to mass production: Develop software-defined radio using model-based design ●ESD diodes are used for voltage clamping ●Applications Engineer Q&A ●Minimum load current operation—zero load operation [size=3 ]●Understand the output of switching regulators and speed up power supply design ●Easily implement complex power supply timing control ●Introduction to MEMS vibration monitoring ●Using creative compensation to realize a small amplifier driving a 200 mW load[ /font] ●Simple circuit makes digital power controller compatible with analog control ●Adjustable Noise reduction network for output low dropout voltage regulators ●Electromagnetic flowmeter can achieve high accuracy in industrial applications ●In-depth understanding of differential amplifiers ●How to avoid errors when designing circuits for bridge sensors Trapped ●Understand the low dropout voltage regulator (LDO) to achieve system optimization design ●ADC modeling tools speed up the evaluation process ●Minimize errors in multiplexed three-wire RTD data acquisition systems[ /size] ●System demonstration platform simplifies the transition from evaluation to prototyping [size=3 ]●Precision successive approximation ADC reference voltage source design ●Protect RS-485 communication network from harmful EMC events[/ font] ●Understand the contribution of amplifier noise to the total noise in the ADC signal chain ●Based on FPGA system provides 3D video by combining two video streams ●Utilizes fast, high-precision SAR-type analog-to-digital converters to extend battery life[/size ] ●ADuC7026 provides programmable voltage for evaluating multi-power systems ●Design a robust isolated RS-232 data interface suitable for industrial applications in harsh environments ●Analyze the frequency response of inertial MEMS in stable systems[ /size] ●Good grounding guidelines ●Modern DACs and DAC buffers The amplifier improves system performance and simplifies design ●Low noise gain optional amplifier [ size=3]●DDS devices generate high-quality waveforms: simple, efficient and flexible ●Precision SAR analog-to-digital converter front-end amplifier and RC filtering amplifier design ●Compensate amplifiers that remain stable at gains greater than or equal to 10 to operate at lower gains ●Compact and flexible low-power modem IC improves HART communication network ●In-depth understanding of digiPOT specifications and architecture to improve communication performance ●The system demonstration platform facilitates rapid prototyping and evaluation ●Use low-power, unity-gain differential amplifier to implement low-cost current source ●High-resolution temperature measurement[ /size] ●Simple measurement of operational amplifier ●How to activate the mobile phone LED indicators while keeping standby time unaffected ●Cyclic Redundancy Check Ensures Correct Data Communication ●Low Dropout Regulators—Why Bypass Capacitor Selection Is Important ●Electromagnetic Interference (EMI) Filtering Reduces Errors in Precision Analog Applications ●Oversampling ADC Combined with PGA Provides 127 dB Dynamic Range ●Successfully Implementing DC-DC Buck-Boost Regulators in Systems ●Monitoring and Sequencing of Multi-Power Systems ●Ultra-High Performance Differential Output Programmable Gain Instrumentation Amplifier for Data Acquisition ●Dual Difference Amplifier with On-Chip Resistors Enables Precision ADC Drivers ●Quad 16-Bit Voltage and Current Output DACs Save Space, Cost, and Power in Multichannel PLCs ●Power Cycling 101: Reducing Power Consumption in Advanced Sensor Products ●Full-Featured Pedometer Design Using 3-Axis Digital Accelerometer ●High-Efficiency Buck Using Synchronous Inverse SEPIC Topology ●Differential Output Difference Amplifier System with G=1/2 ●Get More from Absolute Value Circuits—Use Difference Amplifiers to Implement Low-Power, High-Performance Absolute Value Circuits ●ADI’s View on Free and Open Source Software ●Application Engineer Q&A—39 Zero-Drift Operational Amplifiers ●Driving PIN Diodes: The Operational Amplifier Approach ●ADIsimPower Provides Robust, Customizable DC-DC Converter Design ●Termination of Clock Distribution Devices for High-Speed Converters ●High-Side Current Sensing with Wide Dynamic Range: Three Solutions ●Using Multichannel DDS to Implement Phase-Coherent FSK Modulation ●Two Simple, Accurate, Flexible Methods for Thermocouple Temperature Measurement =●High Performance Differential Amplifier with Precision Supply Reference Level Shifting ●Difference Amplifiers Form the Heart of Precision Current Sources ●Phase Response of Active Filters Part II: Low-Pass and High-Pass Responses ●Successfully Using Low-Dropout Regulators in Systems ●Noise Measurements of Low Fixed-Gain Differential Amplifiers ●Automatic Calibration Technique Reduces DAC Offset Error to Less than 1mV ●Using Digital Isolators to Simplify USB Isolation in Medical and Industrial Applications ●High-Speed Differential ADC Driver Design Guide ●Accelerometers—Fantasy and Reality●PLC Evaluation Board Simplifies Industrial Process Control System Design●Notch Filter Reduces Amplifier Peaking and Improves Gain Flatness●Reconstructs DAC Transfer Function from Harmonic Spectrum Contents●Smart Energy Metering Improves Energy Efficiency and Makes the World Greener●Designing a High-Performance Phase-Locked Loop with a High-Voltage VCO●Equipment Clock Synchronization Using IEEE 1588 and Blackfin Embedded Processors ●Application Engineer Answers—39 Zero-Drift Operational Amplifiers ●Driving PIN Diodes: The Operational Amplifier Approach ●ADIsimPower Provides Robust, Customizable DC-DC Converter Design ●Termination of Clock Distribution Devices for High-Speed Converters ●High-Side Current Sensing with Wide Dynamic Range: Three Solutions ●Phase-Coherent FSK Modulation Using Multichannel DDS ●Two Simple, Accurate, Flexible Methods for Thermocouple Temperature Measurement =●High Performance Differential Amplifier with Precision Supply Reference Level Shifting ●Difference Amplifiers Form the Heart of Precision Current Sources ●Phase Response of Active Filters Part II: Low-Pass and High-Pass Responses ●Successfully Using Low-Dropout Regulators in Systems ●Noise Measurements of Low Fixed-Gain Differential Amplifiers ●Automatic Calibration Technique Reduces DAC Offset Error to Less than 1mV ●Using Digital Isolators to Simplify USB Isolation in Medical and Industrial Applications ●High-Speed Differential ADC Driver Design Guide ●Accelerometers—Fantasy and Reality●PLC Evaluation Board Simplifies Industrial Process Control System Design●Notch Filter Reduces Amplifier Peaking and Improves Gain Flatness●Reconstructs DAC Transfer Function from Harmonic Spectrum Contents●Smart Energy Metering Improves Energy Efficiency and Makes the World Greener●Designing a High-Performance Phase-Locked Loop with a High-Voltage VCO●Equipment Clock Synchronization Using IEEE 1588 and Blackfin Embedded Processors ●Application Engineer Answers—39 Zero-Drift Operational Amplifiers ●Driving PIN Diodes: The Operational Amplifier Approach ●ADIsimPower Provides Robust, Customizable DC-DC Converter Design ●Termination of Clock Distribution Devices for High-Speed Converters ●High-Side Current Sensing with Wide Dynamic Range: Three Solutions ●Phase-Coherent FSK Modulation Using Multichannel DDS ●Two Simple, Accurate, Flexible Methods for Thermocouple Temperature Measurement =●High Performance Differential Amplifier with Precision Supply Reference Level Shifting ●Difference Amplifiers Form the Heart of Precision Current Sources ●Phase Response of Active Filters Part II: Low-Pass and High-Pass Responses ●Successfully Using Low-Dropout Regulators in Systems ●Noise Measurements of Low Fixed-Gain Differential Amplifiers ●Automatic Calibration Technique Reduces DAC Offset Error to Less than 1mV ●Using Digital Isolators to Simplify USB Isolation in Medical and Industrial Applications ●High-Speed Differential ADC Driver Design Guide ●Accelerometers—Fantasy and Reality●PLC Evaluation Board Simplifies Industrial Process Control System Design●Notch Filter Reduces Amplifier Peaking and Improves Gain Flatness●Reconstructs DAC Transfer Function from Harmonic Spectrum Contents●Smart Energy Metering Improves Energy Efficiency and Makes the World Greener●Designing a High-Performance Phase-Locked Loop with a High-Voltage VCO●Equipment Clock Synchronization Using IEEE 1588 and Blackfin Embedded Processors