The workshops will focus on the exploration of the signal chain and techniques to quantify noise. It will also include the examination of the signal conditioning of the analog /digital converters, along with bit resolution, speed, the reference voltage, optimization of resolution and filters.
Additionally, a technical dive into the Op Amp, including the structure and choice of components, influences, disruptive factors, suggestions for improving the signal chain, tools and circuit suggestions, along with practical tips.
Agenda
- 09:00 Welcome
- 09:15 Theory Part 1: Op Amps
- 10:30 Coffee Break
- 10:45 Theory Part 2: ADCs
- 12:00 ADI Signal Chain Design & Analysis Tool
- 12:30 Lunch Break
- 13:30 Hands-On Workshop
- 15:30 Wrap-Up, Q&A
Theory Part 1: Op Amps - Demystifying noise
- Why do we care about noise
- What types of noise exist
- Noise in resistors, transistors, amplifiers
- How to compute the total noise
- How to estimate noise in amplifier circuits
- Comparison of theoretical analysis with simulations
Theory Part 2: A/D Convertors - Precision Signal Chain
- Introduction to Signal Chains
- Sampled Data Systems
- Introduction to Analog-to-Digital Converters ADCs
- Type of ADCs
- Driving ADC’s Inputs
- Driving ADC’s Reference
- Precision Signal Chain Analysis
- Signal Chain Noise Analysis
- Gain Stage considerations
- Digital Filtering Benefits
Hands-on Workshop: 0.1Hz to 10 Hz Demo
In the demo attendees are going to estimate the 0.1 Hz to 10 Hz noise for three different amplifiers from the datasheets:
- LT1782 – a low power op amp
- ADA4077 – a low noise op amp
- ADA4522 – a low noise, zero-drift op amp
The workshop will include,
Using the information provided to estimate the noise from the data sheet.
Use the ADALM2000 + demo board to measure the noise.
Compare our measured results to our estimated results.
Use the Network Analyzer feature of the ADALM2000 to measure the filter response from 1 Hz to 100 Hz.
Signal Chain Designer Demo and conclude with simulating the circuit on Signal Chain Designer and compare the results.