Course units:
D1. COMBINATIONAL CIRCUITS
1.1. Analogue and digital signals.
1.2. Binary representation and coding.
1.3. Basic logic gates
1.4. Integrated circuits
1.5. Boolean algebra
1.6. Analysis and design of combinational circuits
D2. COMBINATIONAL SUBSYSTEMS
2.1. Specific purpose subsystems. Decoders, encoders, code converters, quantity comparators.
2.2. General purpose subsystems. Multiplexers, demultiplexers, programmable logic devices
(PLDs).
2.3. Arithmetic circuits. Adders, subtractors, arithmetic-logic units.
2.4. Applications
D3. SEQUENTIAL CIRCUITS
3.1. Asynchronous sequential circuits. Level-triggered bistables (latches).
3.2. Synchronous sequential circuits. Flip-flops.
3.3. Applications of sequential circuits. Counters, timers, frequency dividers, and shift registers.
D4: LOGIC FAMILIES.
4.1. Introduction.
4.2. TTL logic family. Basic configuration. Electrical characteristics.
4.3. CMOS logic family. Basic configuration. Electrical characteristics.
4.4. Connectivity between ICs of different families.
4.5. IC manufacturers' datasheets.
A1: INTRODUCTION TO THE SEMICONDUCTOR DIODE
A2: BIPOLAR JUNCTION TRANSISTOR (BJT)
A3: FIELD EFFECT TRANSISTORS
A4: AMPLIFIERS
A5: THE OPERATIONAL AMPLIFIER AND ITS LINEAR APPLICATIONS
A6: THE OPERATIONAL AMPLIFIER AND ITS NONLINEAR APPLICATIONS.
