- Code
- CMP 212
- Name
- Logical circuits
- Semester
- 4
- Lecture hours
- 2.00
- Seminar hours
- 0.00
- Laborator hours
- 2.00
- Credits
- 3.00
- ECTS
- 6.00
- Description
-
Basic knowledge of logical circuits and their functionality. Numerical systems including binary, octal and hexadecimal systems, Weight codes. Analyze and build the logical circuit for encoders, decoders, multiplexer, and demultiplexer. Introduction to Boolean algebra and how this theory is used for simplifying logical functions. Concept of combinational circuits, bistable, sequential circuits
- Objectives
-
This course aims to provide knowledge on digital systems and their uses. During this course the student is given knowledge about the different ways in which information can be digitized, processed and obtained. The course begins with a complete analysis of numerical systems and their representation in binary form, to continue with the introduction of Boolean algebra, logic gates and their analysis. We introduce the combinational circuits, design and operation, sequential circuits their function and usage.
- Java
- Tema
- 1
- Numerical systems. Decimal - binary transformation and vice versa.
- 2
- Octal and hexadecimal system. Binary-octal transformations, binary-hexadecimal transformation and vice versa
- 3
- Arithmetic operations with binary numbers
- 4
- Codes
- 5
- Boolean algebra
- 6
- Logic Circuits. Introduction to combinational circuits
- 7
- Mid-term
- 8
- Combinatorial circuits: Logical gates and their use and the truth tables. Application of logic gates in the design of Combinatorial circuits
- 9
- Encoders and Decoders and their applications. Code converters
- 10
- Multiplexer and its application
- 11
- Introduction to sequential circuits
- 12
- Flip-flops and their design. SR Flip-flop, JK and D flip-flop . Truth tables
- 13
- Registers: Design and their applications
- 14
- Registers: Design and their applications
- 15
- Sequential synchronous circuits, their analysis.
- 16
- Final Exam
- 1
- The student will demonstrate an understanding theory, logic, switching circuits, and Boolean algebra
- 2
- The student will demonstrate an understanding of graph theory
- 3
- The student will demonstrate an understanding of combinational circuits
- 4
- The student will demonstrate an understanding of Sequential circuits
- Quantity Percentage Total percent
- Midterms
- 1 20% 20%
- Quizzes
- 0 0% 0%
- Projects
- 1 10% 10%
- Term projects
- 0 10% 0%
- Laboratories
- 0 10% 0%
- Class participation
- 1 10% 10%
- Total term evaluation percent
- 40%
- Final exam percent
- 60%
- Total percent
- 100%
- Quantity Duration (hours) Total (hours)
- Course duration (including exam weeks)
- 16 4 64
- Off class study hours
- 14 4 56
- Duties
- 1 0 0
- Midterms
- 1 8 8
- Final exam
- 1 10 10
- Other
- 1 10 10
- Total workLoad
- 148
- Total workload / 25 (hours)
- 5.92
- ECTS
- 6.00