Front-End instrumentation

By the end of this course, students will be able to:

•    Understand the fundamental principles of analog-to-digital (ADC) and digital-to-analog (DAC) conversions.

•    Analyze sources of noise and error in instrumentation chains, including quantization noise and spectral aliasing.

•    Design and size appropriate anti-aliasing filters, particularly using switched-capacitor filters.

•    Select and configure components (ADCs, DACs, filters) based on application requirements.

•    Evaluate the performance of signal acquisition or generation chains.

This course covers the principles and challenges of signal conversion and processing in instrumentation chains. Key topics include:

•    Analog-to-Digital (ADC) and Digital-to-Analog (DAC) Conversion: Architectures (flash, SAR, sigma-delta, etc.), resolution, speed, and limitations.

•    Noise and Errors: Quantization noise, signal-to-noise ratio (SNR), total harmonic distortion (THD), and spectral aliasing.

•    Associated Filtering: Design of anti-aliasing filters, switched-capacitor filters, and digital filters (FIR, IIR).

•    Practical Applications: Case studies on acquisition chains (sensors, conditioning, ADC) and signal generation (DAC, reconstruction, filtering).

•    Tools and Methods: Use of simulation software (PSpice, MATLAB) and measurement instruments (oscilloscope, spectrum analyzer).

The course combines theoretical lectures, tutorials, and lab sessions to apply concepts to real-world problems.

•    Basic knowledge of analog electronics (operational amplifiers, passive and active filters).

•    Familiarity with signal processing concepts (Fourier transform, sampling).

•    Experience with simulation software (PSpice, MATLAB).

•    Basic knowledge in FPGA programming (VHDL, Vivado)