Code: | F 618 |
Department: | Department of Optics and Quantum Electronics |
Course director: | József Klebniczki |
Credits: | 2 |
Semester: | 6th |
Hours/week: | 2+0 |
Prerequisities: | System Theory 1. |
Type of assessment: | K |
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.
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