FPF:UFPA208 Digital Technology - Course Information
UFPA208 Digital Technology
Faculty of Philosophy and Science in OpavaSummer 2014
- Extent and Intensity
- 2/0/0. 4 credit(s). Type of Completion: zk (examination).
- Teacher(s)
- Ing. Miroslav Vala, CSc. (lecturer)
- Guaranteed by
- Ing. Miroslav Vala, CSc.
Centrum interdisciplinárních studií – Faculty of Philosophy and Science in Opava - Prerequisites (in Czech)
- UFPA120 Physical Foundations of Electr && UFPA121 Physical Foundations Electroni
Znalosti z předchozího studia předmětu Elektronika I na úrovni zápočtu. - Course Enrolment Limitations
- The course is also offered to the students of the fields other than those the course is directly associated with.
- fields of study / plans the course is directly associated with
- Multimedia Technologies (programme FPF, B1702 AplF)
- Course objectives
- The aim of the course is to provide students with basic knowledge of digital technology. The course is designed as a preparatory subject for articles based on knowledge of digital techniques, including: Converters of analog and digital signals, measurement systems, PC applications measuring system with a PC etc.
- Syllabus
- Introduction to digital technology . Display numbers in the general numeric base (2, 8, 10 , 16) , Boolean algebra and its basic laws. The basic logical operators. The definition of a complete system of logical functions , minimal complete systems of logic functions . The relationship between the physical structure and logical operators . Symbolic representation of basic operators . Implementation of logic functions by members of NAND and NOR. Definition of logic functions and their description logic equation and truth table , write a logical simplification of algebraic function minimization and Karnaugh method.
The physical realization of logic gates . Basic characteristics of the logic gates . Logical construction technology-based TTL , CMOS : electrical, static and dynamic properties of the members , assembling the product of a three-state outputs . The physical realization of logic gates into the sleeves and engagement . Modification of TTL and CMOS technologies . Application rules .
Combinational logic circuits . Definition of combinational circuits. Implementation sum and součinových functions with a large number of inputs , union and intersection of two binary variables , control of even or odd parity, decoders , multiplexers and demultiplexers , multiplexer as a function generator .
Flip-flops and registers . The principle of RS flip-flop , truth table MS analysis of static and dynamic parameters of the RS flip-flop , flip-flops RS , several entries . Features flip-flops, JK and D. General properties of flip-flops for counting and shifting , memory registers implemented in flip-flops RS , JK and D , the use of synchronous and asynchronous inputs. Implementation of shift registers and their types.
Counters . The principle of synchronous and asynchronous counting . Implementation of synchronous counters in a straight binary code , the equations and diagrams implementation of asynchronous counters in straight binary code. Integrated counter , synchronous counter with synchronous and asynchronous code.
Logic circuits for arithmetic operations . Basic operations on binary arithmetic. Construction adders for positive numbers , truth table , equation scheme. Adder for fast transmission. Using adders in the Subtractor . Comparative circuit , an arithmetic unit .
Memory. Definition of memory , memory technology , the basic parameters . Organization memory bushings , connecting sleeves for greater capacity. Memory with sequential selection and random access . Memory types and their use: RAM , LIFO and FIFO, SRAM and DRAM , PROM , EPROM and EEPROM . Programming memory.
Special circuits . Circuits to enlarge capacity ( driver ) , Schmitt trigger , monostable flip-flops and their applications , optoelectronic components , analog multiplexers .
Microprocessor systems . Block diagram of a general microprocessor system , characteristics of individual functional blocks , address , control and data bus . Computer with Harvard architecture and von Neumann computer type. Special microchip with integrated functional blocks .
- Introduction to digital technology . Display numbers in the general numeric base (2, 8, 10 , 16) , Boolean algebra and its basic laws. The basic logical operators. The definition of a complete system of logical functions , minimal complete systems of logic functions . The relationship between the physical structure and logical operators . Symbolic representation of basic operators . Implementation of logic functions by members of NAND and NOR. Definition of logic functions and their description logic equation and truth table , write a logical simplification of algebraic function minimization and Karnaugh method.
- Literature
- recommended literature
- Antošová, Marcela; Davídek, Vratislav. Číslicová technika - učebnice pro SOŠ. KOPP. ISBN 80-723-2206-0. info
- Pinker, Jiří. Mikroprocesory a mikropočítače. BEN, 2004. ISBN 80-730-0110-1. info
- Kesl Jan. Elektronika 3 číslicová technika. BEN, 2003. ISBN 80-7300-076-8. info
- Matoušek David. Číslicová technika základy konstruktérské praxe. BEN, 2002. ISBN 80-7300-025-3. info
- M. Frištacky, M. Kolesár a kol. Logické systémy. ALFA, 1990. ISBN 80-05-00414-1. info
- Bernard J. Od logických obvodů k mikroprocesorům. SNTL, Praha, 1986. info
- Boris Dědina, Pavle Valášek. Mikroprocesory a mikropočítače. SNTL, 1983. info
- J. Z. Sobotka. Přehled číslicových systémů. SNTL, 1981. info
- Teaching methods
- Interactive lecture
One-to-One tutorial - Assessment methods
- Credit
- Language of instruction
- Czech
- Further comments (probably available only in Czech)
- The course can also be completed outside the examination period.
- Teacher's information
- Student is required to attend at least 75% of exercises.
Completing assigned seminary tasks from exercises.
- Enrolment Statistics (Summer 2014, recent)
- Permalink: https://is.slu.cz/course/fpf/summer2014/UFPA208