Digital Logic BasicsPoäng (3 sp)
Kod: ET22EC03
Poäng
3 op
Studieperiodens (kursens) lärandemål
Knowledge and understanding
After completing the course, the student should be able to:
- describe how Boolean algebra can be applied in digital circuit contexts
- analyze and simplify logic circuits
- describe the difference between digital components and low-level programs
Skills and Abilities
After completing the course, the student should be able to:
- plan and realize simple digital circuits
- use the rules for simplifying circuits
- create simple low-level programs and macros
Evaluation ability and Approach
After completing the course, the student should be able to:
- perform relevant selections of components and logical building blocks
- justify the choice of digital solution
Studieperiodens (kursens) innehåll
Number systems, codes and number conversion.
Logical algebra and gate circuits.
Logical functions and combinatorics.
Locking signals.
Circuit reduction with Karnaugh diagram.
Digital flip-flops.
Basics of Assembler programming.
Förkunskapskrav
No prerequisites.
Bedömningskriterier, tillräcklig (1)
Knowledge about the most basic binary logic and truth tables.
Knowledge about the most elementary logic circuits and components.
Knowledge about the basic principles for the design and simulation of simple digital circuits.
Bedömningskriterier, goda-synnerligen goda (3-4)
Is well acquainted with binary logic and truth tables.
Have a good knowledge of logical circuits, components and their characteristic properties.
Have a good knowledge of how to design and simulate simple digital circuits.
Bedömningskriterier, berömliga (5)
Has an excellent understanding of Boolean logic.
Has excellent insight into logic circuits, components and their characteristic properties.
Can independently design and simulate digital circuitry.
Läromaterial
Course documentation on Moodle.
Relevant teaching materials and reference documents.
Anmälningstid
02.07.2024 - 29.09.2024
Tajmning
23.09.2024 - 10.11.2024
Antal studiepoäng
3 op
Prestationssätt
Kontaktundervisning
Verksamhetspunkt
Vasa, Wolffskavägen 33
Undervisningsspråk
- Englanti
Utbildning
- Energy Technology
- Utbildning i el- och automationsteknik
Lärare
- Hans Lindén
Lärare
Ronnie Sundsten
Grupper
-
ET24D-VEnergy Technology, 2024
Lärandemål
Knowledge and understanding
After completing the course, the student should be able to:
- describe how Boolean algebra can be applied in digital circuit contexts
- analyze and simplify logic circuits
- describe the difference between digital components and low-level programs
Skills and Abilities
After completing the course, the student should be able to:
- plan and realize simple digital circuits
- use the rules for simplifying circuits
- create simple low-level programs and macros
Evaluation ability and Approach
After completing the course, the student should be able to:
- perform relevant selections of components and logical building blocks
- justify the choice of digital solution
Innehåll
Number systems, codes and number conversion.
Logical algebra and gate circuits.
Logical functions and combinatorics.
Locking signals.
Circuit reduction with Karnaugh diagram.
Digital flip-flops.
Basics of Assembler programming.
Tid och plats
v.39-45
Wolffskavägen 33
Studiematerial och rekommenderad litteratur
Kurskompendium
Kompletterande material
Undervisningsmetoder
Föreläsningar/handledd undervisning
Simuleringar
Självstudier
Bedömningsmetoder (förverkligande) och -kriterier (studieperioder/kurser)
Kursexamination tre veckor efter avslutad kurs.
Teoritent v. 44-45.
Inlämning av laborationsuppgifter enligt givna deadlines.
Studerandes tidsanvändning och belastning
Förutom deltagande i föreläsnings-/laborationstillfällena kräver kursen aktivt eget arbete.
Den inledande teorin om talsystem och -omvandling samt Boolesk logik kräver rikligt med egna arbetsinsatser för fullständig förståelse.
Laborationsuppgifterna och deras dokumentering utförs främst i form av eget arbete på lektionstid, men även på egen tid.
Vitsordsskala
H-5
Bedömningskriterier, tillfredsställande-synnerligen tillfredsställande (1-2)
Knowledge about the most basic binary logic and truth tables.
Knowledge about the most elementary logic circuits and components.
Knowledge about the basic principles for the design and simulation of simple digital circuits.
Arviointikriteerit, goda-synnerligen goda (3-4)
Is well acquainted with binary logic and truth tables.
Have a good knowledge of logical circuits, components and their characteristic properties.
Have a good knowledge of how to design and simulate simple digital circuits.
Arviointikriteerit, berömliga (5)
Has an excellent understanding of Boolean logic.
Has excellent insight into logic circuits, components and their characteristic properties.
Can independently design and simulate digital circuitry.
Bedömningsmetoder (förverkligande) och -kriterier (studieperioder/kurser)
Kursen bedöms enligt tentresultat och inlämningsuppgifter.
Underkänd (0)
Mindre än 40% av kurspoängen.
Bedömningskriterier, tillfredsställande-synnerligen tillfredsställande (1-2)
40% - 63% av kurspoängen.
Bedömningskriterier, goda-synnerligen goda (3-4)
64% - 87% av kurspoängen.
Bedömningskriterier, berömliga (5)
Minst 88% av kurspoängen.
Förkunskapskrav
No prerequisites.
Anmälningstid
15.06.2023 - 24.09.2023
Tajmning
25.09.2023 - 19.11.2023
Antal studiepoäng
3 op
Prestationssätt
Kontaktundervisning
Ansvarig enhet
Institutionen för teknik och sjöfart
Verksamhetspunkt
Vasa, Wolffskavägen 33
Undervisningsspråk
- Englanti
Utbildning
- Energy Technology
- Utbildning i el- och automationsteknik
Lärare
- Hans Lindén
Lärare
Ronnie Sundsten
Grupper
-
ET23D-VEnergy Technology, 2023
Lärandemål
Knowledge and understanding
After completing the course, the student should be able to:
- describe how Boolean algebra can be applied in digital circuit contexts
- analyze and simplify logic circuits
- describe the difference between digital components and low-level programs
Skills and Abilities
After completing the course, the student should be able to:
- plan and realize simple digital circuits
- use the rules for simplifying circuits
- create simple low-level programs and macros
Evaluation ability and Approach
After completing the course, the student should be able to:
- perform relevant selections of components and logical building blocks
- justify the choice of digital solution
Innehåll
Number systems, codes and number conversion.
Logical algebra and gate circuits.
Logical functions and combinatorics.
Locking signals.
Circuit reduction with Karnaugh diagram.
Digital flip-flops.
Basics of Assembler programming.
Vitsordsskala
H-5
Bedömningskriterier, tillfredsställande-synnerligen tillfredsställande (1-2)
Knowledge about the most basic binary logic and truth tables.
Knowledge about the most elementary logic circuits and components.
Knowledge about the basic principles for the design and simulation of simple digital circuits.
Arviointikriteerit, goda-synnerligen goda (3-4)
Is well acquainted with binary logic and truth tables.
Have a good knowledge of logical circuits, components and their characteristic properties.
Have a good knowledge of how to design and simulate simple digital circuits.
Arviointikriteerit, berömliga (5)
Has an excellent understanding of Boolean logic.
Has excellent insight into logic circuits, components and their characteristic properties.
Can independently design and simulate digital circuitry.
Förkunskapskrav
No prerequisites.