Learning Outcomes:
On the successful completion of this module students should be able to:
- Explain the operation of analogue electronic devices and circuits and appreciate the technologies underpinning such devices and circuits.
- Identify, formulate and solve the correct relationships and hence analyse basic analogue electronic circuits and building blocks.
- Design analogue electronic circuits using amplifiers, op-amps and oscillators to meet given specifications
- Simulate and build relevant circuits, design and carry out experiments to measure their performance, and analyse and interpret the resulting measured experimental data;
- Effectively communicate the results of their work through written laboratory reports.
Indicative Module Content:
The module content is arranged in 8 sections which cover the following topics:
- Review of single transistor circuits for MOSFETs and BJTs and their small signal models.
- Multi-transistor electronic circuits and their small signal models including differential amplifiers, cascode amplifiers, output stages (Class A, B, and AB)
- Operational amplifiers and their non-ideal effects. Applications of Op amps including Schmitt Trigger, Oscillator and Precision rectifier;
- Feedback, stability, and related issues in electronic amplifiers;
- Oscillator circuits including RC oscillators, LC oscillators and Crystal oscillators;
- Phase Locked Loops
- Analogue to digital and digital-to-analogue converters; (Flash, SAR, Subranging and Pipeline ADCs)
- Power electronic circuits; Buck and Boost converters