Digital Technology and Hardware (5 cr)
Code: TTC1060-3029
General information
Enrollment
20.11.2023 - 04.01.2024
Timing
08.01.2024 - 30.04.2024
Number of ECTS credits allocated
5 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Lutakko Campus
Teaching languages
- English
Seats
20 - 35
Degree programmes
- Bachelor's Degree Programme in Information and Communications Technology
Teachers
- Jouko Kotkansalo
Groups
-
TIC23S1Bachelor's Degree Programme in Information and Communications Technology
- 09.01.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 16.01.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 23.01.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 30.01.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 06.02.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 13.02.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 20.02.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 05.03.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 12.03.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 19.03.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 26.03.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 02.04.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 09.04.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 16.04.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 23.04.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
- 30.04.2024 08:45 - 11:00, Digital Technology and Hardware TTC1060-3029
Objectives
After taking this course, you will understand the function and importance of digital reading systems as part of an information system. You know the basic concepts of logical design and can apply the state machine principle to practical problems.
EUR-ACE: Knowledge and understanding
EUR-ACE: Engineering practice
Competences:
You know the basic concepts of digital technology and know how to use them in programming and logic design. You can break up large entities into pieces that can be easily implemented with state machine techniques. You understand the essential basic functions of the processor, memories and peripherals and know how to make simple programs for embedded systems.
Content
Number systems
- binary number
- floating point number
- fixed point number
Basics in Boolean algebra
- coupling function
- minimization of coupling
Sequential logic
- Eccless-Jordan circuit
- State machine
Memories
- memory types
- memory architecture
- characteristics of memory
Processor structure
- registers
- arithmetic unit
- control part
Basics of micro controller
- peripheral devices
- programming
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1: The student knows the basics in digital and computer technology.
Satisfactory 2: You can design small logical structures with discrete logic.
Evaluation criteria, good (3-4)
Good 3: You understand state machine logic and can apply it to practical problems.
Very good 4: You know the basics of embedded systems and know how to program them.
Evaluation criteria, excellent (5)
Excellent 5: You understand the mutual functioning of processors and peripherals well and know how to design the device in such a way that its testing and data security are taken into account in the implementation.