Code | Name of the Course Unit | Semester | In-Class Hours (T+P) | Credit | ECTS Credit |
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HEE105 | BASIC ELECTRONICKS I | 1 | 3 | 3 | 4 |
GENERAL INFORMATION |
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Language of Instruction : | Turkish |
Level of the Course Unit : | BACHELOR'S DEGREE, TYY: + 6.Level, EQF-LLL: 6.Level, QF-EHEA: First Cycle |
Type of the Course : | Compulsory |
Mode of Delivery of the Course Unit | - |
Coordinator of the Course Unit | Assist.Prof. BEDİA MERİH ÖZÇETİN |
Instructor(s) of the Course Unit | Assist.Prof. KANAN BABANLI |
Course Prerequisite | No |
OBJECTIVES AND CONTENTS |
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Objectives of the Course Unit: | In this course, it is aimed to introduce the production and working properties and electrical properties of various semiconductor electronic devices and to provide them with skills to analyze and simulate the basic electronic circuits in which these elements are used. |
Contents of the Course Unit: | Basic electronics is one of the core courses of the program. He will use the materials he knows here in other vocational courses. A good understanding of the subjects is proportional to success in mathematics and direct current circuit analysis courses. |
KEY LEARNING OUTCOMES OF THE COURSE UNIT (On successful completion of this course unit, students/learners will or will be able to) |
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Defines the applications of electronics in industry. (1)-Information Interprets electronic circuit elements and devices and their functions in electronic circuit. (2)-Grip Uses basic electronic circuit analysis methods. (3)-Application Uses electronic circuit simulation software with tools and devices in electronics laboratory (3)-Application Analyzes basic electronic circuits.(4)-Analysis |
WEEKLY COURSE CONTENTS AND STUDY MATERIALS FOR PRELIMINARY & FURTHER STUDY |
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Week | Preparatory | Topics(Subjects) | Method |
1 | Semiconductors Diodes | Diode symbols; Diode characteristics and properties; Series and parallel diodes; Main properties and usage of silicon controlled rectifiers (thyristors), light emitting diodes, photoconductor diodes, varistors, rectifier diodes; Functional testing of diodes | - |
2 | Semiconductors Diodes | Diode symbols; Diode characteristics and properties; Series and parallel diodes; Main properties and usage of silicon controlled rectifiers (thyristors), light emitting diodes, photoconductor diodes, varistors, rectifier diodes; Functional testing of diodes | - |
3 | Semiconductors Diodes | Diode symbols; Diode characteristics and properties; Series and parallel diodes; Main properties and usage of silicon controlled rectifiers (thyristors), light emitting diodes, photoconductor diodes, varistors, rectifier diodes; Functional testing of diodes | - |
4 | Semiconductors Diodes | Diode symbols; Diode characteristics and properties; Series and parallel diodes; Main properties and usage of silicon controlled rectifiers (thyristors), light emitting diodes, photoconductor diodes, varistors, rectifier diodes; Functional testing of diodes | - |
5 | Semiconductors Diodes | Materials, electron configuration, electrical properties; P and N type materials: effects of impurities on conduction, majority and minority characters; PN junction in semiconductor, potential development across the PN junction under unbiased, straight biased and reverse biased conditions; Diode parameters: Reverse peak voltage, maximum direct current, temperature, frequency, leakage current, power loss; Operation and function of diodes in the following circuits: Breaker circuits, clamp circuits, full and half wave rectifiers, bridge rectifiers/rectifiers, voltage doublers and trippers; Detailed operation and characteristic features of the following assemblies: Silicon controlled rectifier (thyristor), light emitting diode, Schottky diode, photoconductor diode, varactor diode, varistor, rectifier diodes, Zener diode | - |
6 | Semiconductors Diodes | Materials, electron configuration, electrical properties; P and N type materials: effects of impurities on conduction, majority and minority characters; PN junction in semiconductor, potential development across the PN junction under unbiased, straight biased and reverse biased conditions; Diode parameters: Reverse peak voltage, maximum direct current, temperature, frequency, leakage current, power loss; Operation and function of diodes in the following circuits: Breaker circuits, clamp circuits, full and half wave rectifiers, bridge rectifiers/rectifiers, voltage doublers and trippers; Detailed operation and characteristic features of the following assemblies: Silicon controlled rectifier (thyristor), light emitting diode, Schottky diode, photoconductor diode, varactor diode, varistor, rectifier diodes, Zener diode | - |
7 | Semiconductors Diodes | Materials, electron configuration, electrical properties; P and N type materials: effects of impurities on conduction, majority and minority characters; PN junction in semiconductor, potential development across the PN junction under unbiased, straight biased and reverse biased conditions; Diode parameters: Reverse peak voltage, maximum direct current, temperature, frequency, leakage current, power loss; Operation and function of diodes in the following circuits: Breaker circuits, clamp circuits, full and half wave rectifiers, bridge rectifiers/rectifiers, voltage doublers and trippers; Detailed operation and characteristic features of the following assemblies: Silicon controlled rectifier (thyristor), light emitting diode, Schottky diode, photoconductor diode, varactor diode, varistor, rectifier diodes, Zener diode | - |
8 | - | MID-TERM EXAM | - |
9 | Semiconductors Diodes | Materials, electron configuration, electrical properties; P and N type materials: effects of impurities on conduction, majority and minority characters; PN junction in semiconductor, potential development across the PN junction under unbiased, straight biased and reverse biased conditions; Diode parameters: Reverse peak voltage, maximum direct current, temperature, frequency, leakage current, power loss; Operation and function of diodes in the following circuits: Breaker circuits, clamp circuits, full and half wave rectifiers, bridge rectifiers/rectifiers, voltage doublers and trippers; Detailed operation and characteristic features of the following assemblies: Silicon controlled rectifier (thyristor), light emitting diode, Schottky diode, photoconductor diode, varactor diode, varistor, rectifier diodes, Zener diode | - |
10 | Semiconductors Diodes | Materials, electron configuration, electrical properties; P and N type materials: effects of impurities on conduction, majority and minority characters; PN junction in semiconductor, potential development across the PN junction under unbiased, straight biased and reverse biased conditions; Diode parameters: Reverse peak voltage, maximum direct current, temperature, frequency, leakage current, power loss; Operation and function of diodes in the following circuits: Breaker circuits, clamp circuits, full and half wave rectifiers, bridge rectifiers/rectifiers, voltage doublers and trippers; Detailed operation and characteristic features of the following assemblies: Silicon controlled rectifier (thyristor), light emitting diode, Schottky diode, photoconductor diode, varactor diode, varistor, rectifier diodes, Zener diode | - |
11 | Semiconductors Diodes | Materials, electron configuration, electrical properties; P and N type materials: effects of impurities on conduction, majority and minority characters; PN junction in semiconductor, potential development across the PN junction under unbiased, straight biased and reverse biased conditions; Diode parameters: Reverse peak voltage, maximum direct current, temperature, frequency, leakage current, power loss; Operation and function of diodes in the following circuits: Breaker circuits, clamp circuits, full and half wave rectifiers, bridge rectifiers/rectifiers, voltage doublers and trippers; Detailed operation and characteristic features of the following assemblies: Silicon controlled rectifier (thyristor), light emitting diode, Schottky diode, photoconductor diode, varactor diode, varistor, rectifier diodes, Zener diode | - |
12 | Semiconductors Diodes | Materials, electron configuration, electrical properties; P and N type materials: effects of impurities on conduction, majority and minority characters; PN junction in semiconductor, potential development across the PN junction under unbiased, straight biased and reverse biased conditions; Diode parameters: Reverse peak voltage, maximum direct current, temperature, frequency, leakage current, power loss; Operation and function of diodes in the following circuits: Breaker circuits, clamp circuits, full and half wave rectifiers, bridge rectifiers/rectifiers, voltage doublers and trippers; Detailed operation and characteristic features of the following assemblies: Silicon controlled rectifier (thyristor), light emitting diode, Schottky diode, photoconductor diode, varactor diode, varistor, rectifier diodes, Zener diode | - |
13 | Semiconductors Diodes | Materials, electron configuration, electrical properties; P and N type materials: effects of impurities on conduction, majority and minority characters; PN junction in semiconductor, potential development across the PN junction under unbiased, straight biased and reverse biased conditions; Diode parameters: Reverse peak voltage, maximum direct current, temperature, frequency, leakage current, power loss; Operation and function of diodes in the following circuits: Breaker circuits, clamp circuits, full and half wave rectifiers, bridge rectifiers/rectifiers, voltage doublers and trippers; Detailed operation and characteristic features of the following assemblies: Silicon controlled rectifier (thyristor), light emitting diode, Schottky diode, photoconductor diode, varactor diode, varistor, rectifier diodes, Zener diode | - |
14 | Semiconductors Diodes | Materials, electron configuration, electrical properties; P and N type materials: effects of impurities on conduction, majority and minority characters; PN junction in semiconductor, potential development across the PN junction under unbiased, straight biased and reverse biased conditions; Diode parameters: Reverse peak voltage, maximum direct current, temperature, frequency, leakage current, power loss; Operation and function of diodes in the following circuits: Breaker circuits, clamp circuits, full and half wave rectifiers, bridge rectifiers/rectifiers, voltage doublers and trippers; Detailed operation and characteristic features of the following assemblies: Silicon controlled rectifier (thyristor), light emitting diode, Schottky diode, photoconductor diode, varactor diode, varistor, rectifier diodes, Zener diode | - |
15 | - | FINAL EXAM | - |
16 | - | FINAL EXAM | - |
17 | - | FINAL EXAM | - |
SOURCE MATERIALS & RECOMMENDED READING |
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ASSESSMENT |
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Assessment & Grading of In-Term Activities | Number of Activities | Degree of Contribution (%) | Description |
Level of Contribution | |||||
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0 | 1 | 2 | 3 | 4 | 5 |
KNOWLEDGE |
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Theoretical |
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Programme Learning Outcomes | Level of Contribution | ||||||
0 | 1 | 2 | 3 | 4 | 5 | ||
1 |
Applies the knowledge and skills related to the field by considering the legal dimension of occupational health and safety.
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3 | |||||
2 |
Can make applications related to aviation electricity.
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3 | |||||
3 |
Can make applications related to aviation electronics.
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4 | |||||
4 |
Learns the aviation applications of Electrical-Electronics subjects.
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4 | |||||
5 |
Relates the concepts of entrepreneurship and innovation to the field.
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4 |
KNOWLEDGE |
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Factual |
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Programme Learning Outcomes | Level of Contribution | ||||||
0 | 1 | 2 | 3 | 4 | 5 | ||
1 |
Uses theoretical and applied knowledge about the field in business life by choosing appropriate analytical methods and modeling techniques.
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5 | |||||
2 |
Adapts to the environment in which works as a team member.(dişil)
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5 | |||||
3 |
Develops a suitable solution method when faced with a problem
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4 | |||||
4 |
Prepares written agreements with relevant institutions in accordance with the legislation.
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5 | |||||
5 |
As a team member, manages all stages from planning to implementation of aviation activities
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4 |
SKILLS |
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Cognitive |
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Programme Learning Outcomes | Level of Contribution | ||||||
0 | 1 | 2 | 3 | 4 | 5 | ||
1 |
Since has technical dexterity in a negative situation in her field, she can take the necessary precautions and intervene in the situation.(dişil)
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5 | |||||
2 |
Makes the problem encountered in a study in the field appropriate within the team.
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4 |
SKILLS |
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Practical |
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Programme Learning Outcomes | Level of Contribution | ||||||
0 | 1 | 2 | 3 | 4 | 5 | ||
1 |
Uses computer software, information and communication technologies at the level required by the field (use) Bloom 3
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5 | |||||
2 |
A sketch, diagram, graph, etc., describing the subject. reading and interpreting documents (interprent). (Bloom 2)
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5 |
OCCUPATIONAL |
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Autonomy & Responsibility |
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Programme Learning Outcomes | Level of Contribution | ||||||
0 | 1 | 2 | 3 | 4 | 5 | ||
1 |
Since will graduate with a certificate from the recognized school, she has the necessary knowledge and dexterity in the fields of aviation electricity and electronics.
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3 | |||||
2 |
Develops solutions for unforeseen problems encountered in practice. (develop) (Bloom 6)
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3 |
OCCUPATIONAL |
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Learning to Learn |
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Programme Learning Outcomes | Level of Contribution | ||||||
0 | 1 | 2 | 3 | 4 | 5 | ||
1 |
Determines the learning requirements related to the field (determine) (Bloom 3)
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4 | |||||
2 |
Uses lifelong learning principles in professional development (Bloom 3)
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4 |
OCCUPATIONAL |
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Communication & Social |
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Programme Learning Outcomes | Level of Contribution | ||||||
0 | 1 | 2 | 3 | 4 | 5 | ||
1 |
Apply technical drawing knowledge effectively in business life (Bloom 3)
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5 | |||||
2 |
By informing the relevant people and institutions on the issues related to the field; states his thoughts and suggestions for solutions to problems in written and verbal form (state) (Bloom 1)
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4 | |||||
3 |
Discusses with experts (debate) by supporting their thoughts and solutions to problems with quantitative and qualitative data (Bloom 2)
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5 | |||||
4 |
Participates in training at international level (participate) (Bloom 3)
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4 | |||||
5 |
Organizes activities for the professional development of employees under his/her responsibility. (organized) (Bloom 6)
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5 |
OCCUPATIONAL |
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Occupational and/or Vocational |
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Programme Learning Outcomes | Level of Contribution | ||||||
0 | 1 | 2 | 3 | 4 | 5 | ||
1 |
Graduates with a school certificate recognized by SHGM and the need for qualified electrical-electronic personnel in the aviation sector is met.
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4 | |||||
2 |
He uses the knowledge and skills he gained during his undergraduate education in business life. (Bloom 3)
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5 | |||||
3 |
Solves the problems encountered in the field. (solve) (Bloom 3)
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4 | |||||
4 |
Applies the necessary behavior culture on quality management and processes, environmental protection and occupational safety to the team (apply) (Bloom 3)
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4 | |||||
5 |
He places the safety factor awareness in himself and his team. (locate) Bloom 1)
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5 |
WORKLOAD & ECTS CREDITS OF THE COURSE UNIT |
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Workload for Learning & Teaching Activities |
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Type of the Learning Activites | Learning Activities (# of week) | Duration (hours, h) | Workload (h) |
Lecture & In-Class Activities | 14 | 3 | 42 |
Preliminary & Further Study | 5 | 3 | 15 |
Land Surveying | 0 | 0 | 0 |
Group Work | 0 | 0 | 0 |
Laboratory | 0 | 0 | 0 |
Reading | 0 | 0 | 0 |
Assignment (Homework) | 7 | 3 | 21 |
Project Work | 0 | 0 | 0 |
Seminar | 0 | 0 | 0 |
Internship | 0 | 0 | 0 |
Technical Visit | 0 | 0 | 0 |
Web Based Learning | 0 | 0 | 0 |
Implementation/Application/Practice | 0 | 0 | 0 |
Practice at a workplace | 0 | 0 | 0 |
Occupational Activity | 0 | 0 | 0 |
Social Activity | 0 | 0 | 0 |
Thesis Work | 0 | 0 | 0 |
Field Study | 0 | 0 | 0 |
Report Writing | 0 | 0 | 0 |
Final Exam | 1 | 1 | 1 |
Preparation for the Final Exam | 2 | 5 | 10 |
Mid-Term Exam | 1 | 1 | 1 |
Preparation for the Mid-Term Exam | 2 | 5 | 10 |
Short Exam | 0 | 0 | 0 |
Preparation for the Short Exam | 0 | 0 | 0 |
TOTAL | 32 | 0 | 100 |
Total Workload of the Course Unit | 100 | ||
Workload (h) / 25.5 | 3,9 | ||
ECTS Credits allocated for the Course Unit | 4,0 |