Course Learning Outcomes (CLOs) are those describing the knowledge, skills and competencies that students are expected to achieve upon successful completion of the course. In this context, Course Learning Outcomes defined for this course unit are as follows:
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| Knowledge
(Described as Theoritical and/or Factual Knowledge.)
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1) Know the basic circuit elements in electrical circuits, know the current, voltage, power and energy concepts and analyze the resistive and operational amplifier circuits with different methods.
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2) Make steady state analysis in sinusoidal circuits, know the concepts of complex, active and reactive power.
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3) Know the basic semiconductor electronic circuit elements such as diode, transistor and analyze amplifier circuits.
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4) Know the electromechanic energy transformation which is the basis of electrical machines.
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| Skills
(Describe as Cognitive and/or Practical Skills.)
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1) Analyze the circuits containing capacitor and inductor.
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| Competences
(Described as "Ability of the learner to apply knowledge and skills autonomously with responsibility", "Learning to learn"," Communication and social" and "Field specific" competences.)
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| Week |
Subject |
Materials Sharing * |
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Related Preparation |
Further Study |
| 1) |
Basic electrical quantities and circuit elements, Kirchoff's laws, power and energy in circuits. |
Reading assignment, Preparatory study
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| 2) |
Circuit analysis techniques: Node voltage and mesh current methods; Assignment of projects |
Reading assignment, Preparatory study
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Project work, Homework assignment
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| 3) |
Circuit analysis techniques: Node voltage and mesh current methods |
Reading assignment, Preparatory study
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Project work, Homework assignment
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| 4) |
Introduction to operational amplifiers |
Reading assignment, Preparatory study
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Project work, Homework assignment
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| 5) |
Natural and step response of first order (RL and RC) circuits |
Reading assignment, Preparatory study
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Project work, Homework assignment
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| 6) |
Natural and step responses of RLC circuits. |
Reading assignment, Preparatory study
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Project work, Homework assignment
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| 7) |
Steady-state analysis of sinusoidal circuits and power calculation; Submission of the first delivery of the project |
Reading assignment, Preparatory study
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Project work, Homework assignment
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| 8) |
Midterm |
Preparatory study
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| 9) |
Three-phase circuits |
Reading assignment, Preparatory study
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Project work, Homework assignment
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| 10) |
Semiconductor circuit elements: diode, transistor, thyristor and triac |
Reading assignment, Preparatory study
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Project work, Homework assignment
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| 11) |
Amplifier circuits, DC and AC analysis in amplifier circuits |
Reading assignment, Preparatory study
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Project work, Homework assignment
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| 12) |
Magnetic circuits and transformers; submission of the second delivery of the project |
Reading assignment, Preparatory study
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Project work, Homework assignment
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| 13) |
Electromechanical energy transformation and electric machines |
Reading assignment, Preparatory study
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Project work, Homework assignment
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| 14) |
Electromechanical energy transformation and electric machines |
Reading assignment, Preparatory study
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Project work, Homework assignment |
| 15) |
Review, Submission of the final delivery of the project and presentation |
Reading assignment, Preparatory study
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Project work, Homework assignment
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(KPLOs and SPLOs are the abbreviations for Key & Sub- Programme Learning Outcomes, respectively. )
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Programme Learning Outcomes |
Contribution Level (from 1 to 5) |
1) |
Uses and applies theoretical and applied sciences in the field of basic science subjects for the solution of computer engineering problems. |
4 |
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1.1 Has sufficient knowledge in mathematics, science, computer science and computer engineering; use theoretical and applied knowledge in these fields together to solve computer engineering problems |
4 |
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2) |
Analyzes computer engineering applications, designs and develops models to meet specific requirements under realistic constraints and conditions. For this purpose, selects and uses appropriate methods, tools and technologies. |
3 |
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2.1 Identify, define, formulate and solve complex computer engineering problems; for this purpose select and apply appropriate analytical and modeling methods |
3 |
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2.2 Designs a complex computer and software based system, process, device or product to meet certain requirements under realistic constraints and conditions, including economics, environmental issues, sustainability, manufacturability, ethics, health, safety, social and political issues; For this purpose, it applies modern design methods. |
3 |
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2.3 Selects and effectively uses modern techniques and tools and information technologies required for computer science and computer engineering applications. |
3 |
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2.4 Designs and conducts experiments, collects data, analyzes and interprets the results for the study of computer science and computer engineering problems and research topics. |
2 |
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3) |
Owns the competencies required by the constantly developing field of computer engineering and the global competitive environment. |
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3.1 Works effectively individually and in multi-disciplinary teams, takes responsibility. |
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3.2 Accesses the information and for this purpose searches for resources, uses databases and other information resources. |
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3.3 Awares of the necessity of lifelong learning, follows developments in science and technology and renews itself continuously. |
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3.4 Communicates effectively in Turkish, both orally and in writing, has at least one foreign language knowledge at the level of European Language Portfolio B1. |
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3.5 Manage projects, has conscious of workplace practices, employee health, environmental and work safety; aware of the legal consequences of engineering applications. |
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3.6 Has awareness of the universal and social effects of engineering solutions and applications; has awareness of entrepreneurship and innovativeness and knowledgeable about contemporary issues. |
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3.7 Has professional and ethical responsibility. |
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3.8 Has information about the standards used in computer engineering applications. |
1 |
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3.9 Has quality consciousness. |
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3.10 Has the capacity to work in at least one of the important application areas of computer science and computer engineering. |
1 |
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4) |
Applies the theoretical knowledge in business life during a semester. |
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4.1 Experiences all processes in business life. |
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4.2 Takes part in activities related to the field of education in a business operating in the field. |
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4.3 Questions the application with theoretical knowledge. |
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4.4 Compiles the knowledge and experience gained in the field. |
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5) |
S/he acquires the competencies that develop by the expectations of business world and the society defined as the institutional outcomes of our university on the advanced level in relation with his/her field. |
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5.1 Acquires the analyzing solving the problems and managing the conflicts. |
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5.2 Participates as a team member and takes responsibility in the environments that require the solving of the conflicts and acts as a leader when necessary. |
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5.3 Has awareness for ethical and social responsivity. |
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5.4 By supporting the learnt courses with quantitative and qualitative data; and by using verbal and visual communication means, s/he transfers them to the groups within and outside his/her group in a systematical and effective way. |
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5.5 Evaluates the norms and standards present in the works in which s/he takes responsibility in a critical point of view. |
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5.6 Develops strategical, innovative and entrepreneurial ideas. |
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5.7 Acquires competence of managing the change. |
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5.8 Shows development personally and socially with and awareness for lifelong learning. |
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5.9 Follows advanced technologies and developments about digital transformation. |
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5.10 Has cultural awareness and s/he transfers this to the groups within and outside his/her field. |
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5.11 Has awareness about citizenship competency. |
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5.12 Acquires communication in a Foreign Language (English) competence defined on the level of at least B1 in European Language Portfolio. (In programs whose medium of instruction is English, on the level of B2/B2+). |
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ECTS Information Package / Course Catalogue