1. Describe the properties of differential amplifiers
2. Combine the basic amplifier stages of multistage amplifiers
3. Describe the specificity of power amplifiers
4. Distinguish the impact of capacity at low and at high frequencies
5. Calculate the amplifier time constants
6. Analyze complex feedback amplifiers
7. Identify the stability of the feedback amplifier
8. Describe the sinusoidal oscillators operation
9. Describe the properties of AD and DA converters

Lectures

Problem solving

Lab excercises

1. Static and dynamic operational amplifyer limitations for analog signal processing circuits, Operational amplifier circuits for linear analog functions
2. Operational amplifier circuits for nonlinear analog functions, Analog signal switching and multiplexing circuits
3. Ideal OpAmp electrical characteristics, Basic amplifier configurations, integrator, differentiator
4. Differential and instrumentation amplifier, Comparators and multivibrators
5. Bipolar and FET differential amplifiers, Differential and common-mode gain; Common-mode rejection ratio
6. Differential amplifiers with current sources, Differential amplifier transfer characteristics, Amplitude response; Lower and upper cutoff frequency
7. Common-emitter and common-source low-frequency response, Other single-stage and multistage amplifiers low-frequency response, Common-emitter and common-source high-frequency response
8. Midterm exam
9. Common-collector, common-base and cascode high-frequency response, Basic feedback structure and topologies; Properties of negative feedback, Negative feedback amplifier analysis
10. Stability problems; Stability and pole location; Nyquist stability criterion; Gain and phase margins, Stability study using Bode plots
11. Frequency compensation; Dominant-pole compensation, Transistor structures (fully- and partially- depleted)
12. RC oscillator circuits, LC and crystal oscillators
13. Characteristics of analog-to-digital (AD) converters and digital-to-analog (DA) converters, Building blocks of AD and DA (switches, comparators, resistor arrays, capacitor arrays), Frequency compensation; Dominant-pole compensation, Transistor structures (fully- and partially- depleted)
14. Basic AD architectures, Basic DA architectures
15. Final exam