System Theory 2.

Course description:
Finite state systems. Digital circuits. Binary logical networks.
Combinational logic: Canonic logic functions, minimization and Karnaugh maps. Implementing arbitrary truth tables, coders and decoders, multiplexers and demultiplexers, summators, realisation with  memory and PLA elements.
Sequential logic: characterisation of sequential circuits. Asynchron and synchronously clocked systems. Types of flip-flops. Design of synchronous and asynchronous sequential circuits. Typical sequential  circuits: registers, counters, sequential PAL.
Control unit: characterisation with flow diagram. Design of synchronous control unit with phase register. The processor.  Fundamentals of microcomputers and microcontrollers: architecture, registers and I/O. Instruction set and addressing. Examples.

Recommended Texts:

• Horowitz P., Hill W.: The Art of Electronics, Cambridge University Press, Cambridge, 1995
• Traub H.: Logic Design and Microprocessors, McGraw-Hill, 1981
• Wiatrowski C. A., House C. H.: Logic Circuits and Microcomputer Systems, McGraw-Hill, Auckland, 1980
• Arató P.: Logikai rendszerek tervezése, Tankönyvkiadó, Bp, 1983
• Bánhidi L. ... : Automatika mérnököknek, Nemzeti Tankönyvkiadó, Bp. 1991