Circuits in DSP

Lecturer:

Tutor:

Supervisor:

Department of Circuit Theory

Synopsis:

Logic function and logic functional blocks. Combinational circuits - multiplexers, decoders, adders, ALU's, hardware multipliers. Sequential circuits - flip- flops, registers, counters. Programmable logic circuits - PROM, PLA, PAL, GAL. Memories SRAM, DRAM. Memory block design, dynamic RAM support. Timing circuits, monostables, timing circuits. Controllers and microprogrammable automata. Displays and driver circuits for them, I/O circuits.

Requirements:

Syllabus of lectures:

1. Electronic logical elements, structures, compatibility, 3Volt structures

2. Buses and interconnecting lines, noises in power supply, bus conflicts

3. Logic and arithmetic operations, number systems, ALUs, multipliers

4. Categories and groups of logic integrated circuits: MSI, LSI, VLSI

5. Programmable logic circuits Description methods for logical design (HDL)

6. Synchronous and asynchronous sequential circuit function, counters, controllers

7. Static memories RAM, internal circuit structure, timing, memory systems

8. Dynamic memories RAM, internal circuit structure, timing, timing specialities, EDO

9. Special memories, magnetic bubbles, CCD, moving storage media

10. Pulse generation, oscillators, multivibrators, monostables

11. Display elements and their driving and controlling. Alphanumeric and graphical output

12. Processor architecture, basic elements of processor and their co-operation

13. Data transfer between digital systems, parallel and serial transmission, handshake

14. Introduction into the microcomputer design

Syllabus of tutorials:

1. Introduction into combination logic, logic elements, simple design procedures, easy tasks

2. Individual design of digital combinational network, drawing, simulation

3. Design of digital combinational network, practical realization in the lab, measurements

4. Network simulation in the ORCAD system

5. Design of digital sequential network, practical realization in the lab, measurements

6. Network simulation in the ORCAD system

7. Design of programmable controller using ROM memory, memory content specification

8. Feedback in the shift register, random sequence generators, CRC generator

9. Complex digital system simulations

10. Individual design project

11. Address decoders and memory system design

12. Individual project consultations

13. Individual project presentation

14. Credit

Study Objective:

Study materials:

1. Winkel, D., Prosser, F.: The Art of Digital Design. Prentice Hall, New Jersey, 1980

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans:

• Elektronika a sdělovací technika-bakalářský blok (compulsory elective course)
• Elektronika a sdělovací technika-bakalářský blok (compulsory elective course)