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TEMEL ELEKTRİK II LAB DERS TANITIM VE UYGULAMA BİLGİLERİ

Kodu Dersin Adı Yarıyıl Süresi(T+U) Kredisi AKTS Kredisi
HEE104 TEMEL ELEKTRİK II LAB 2 2 1 2

DERS BİLGİLERİ

Dersin Öğretim Dili : Türkçe
Dersin Düzeyi BACHELOR'S DEGREE, TYY: + 6.Level, EQF-LLL: 6.Level, QF-EHEA: First Cycle
Dersin Türü Zorunlu
Dersin Veriliş Şekli -
Dersin Koordinatörü Assist.Prof. BEDİA MERİH ÖZÇETİN
Dersi Veren Öğretim Üyesi/Öğretim Görevlisi
Ders Ön Koşulu Yok

AMAÇ VE İÇERİK

Amaç: The aim of this course is to provide students with the ability to use analog and digital electronic circuits and systems and to correct their malfunctions.
İçerik: The aim of lesson; It is aimed to ensure that the student has the knowledge to explain the historical development of aviation according to periods and to explain the basic principles of flight (lift flight force, other forces and the factors affecting them).

DERSİN ÖĞRENME ÇIKTILARI (Öğrenciler, bu dersi başarı ile tamamladıklarında aşağıda belirtilen bilgi, beceri ve/veya yetkinlikleri gösterirler.)

Recognizes the basic electrical circuit elements. Solves electronic circuits by using ambient current method. Calculates the working values ​​of transistors. Recognizes npn type transistors. Recognizes pnp type transistors. Makes real circuit design for a specific purpose by using the electronic circuit elements learned.

HAFTALIK DERS KONULARI VE ÖNGÖRÜLEN HAZIRLIK ÇALIŞMALARI

Hafta Ön Hazırlık Konular Yöntem
1 Capacitance/Capacitor Capacitor operation and operation; Factors affecting flange capacitance area, distance between flanges, number of flanges, dielectric and dielectric invariance, operating voltage, voltage voltage; Capacitor types, structure and function; Capacitor color coding; Capacitance and voltage calculations in series and parallel circuits; Exponential charge and discharge of capacitor, time constants; Testing capacitors. -
2 Capacitance/Capacitor Capacitor operation and operation; Factors affecting flange capacitance area, distance between flanges, number of flanges, dielectric and dielectric invariance, operating voltage, voltage voltage; Capacitor types, structure and function; Capacitor color coding; Capacitance and voltage calculations in series and parallel circuits; Exponential charge and discharge of capacitor, time constants; Testing capacitors. -
3 Capacitance/Capacitor Capacitor operation and operation; Factors affecting flange capacitance area, distance between flanges, number of flanges, dielectric and dielectric invariance, operating voltage, voltage voltage; Capacitor types, structure and function; Capacitor color coding; Capacitance and voltage calculations in series and parallel circuits; Exponential charge and discharge of capacitor, time constants; Testing capacitors. -
4 Magnetism theory of magnetism; Properties of the magnet; The movement of the magnet suspended in the earth's magnetic field; Magnetization and demagnetization; Magnetic shielding; Various types of magnetic materials; Structure and working principles of electromagnets; The "hand" rules that determine the magnetic field around a current carrying conductor; -
5 Magnetism theory of magnetism; Properties of the magnet; The movement of the magnet suspended in the earth's magnetic field; Magnetization and demagnetization; Magnetic shielding; Various types of magnetic materials; Structure and working principles of electromagnets; The "hand" rules that determine the magnetic field around a current carrying conductor; -
6 Magnetism theory of magnetism; Properties of the magnet; The movement of the magnet suspended in the earth's magnetic field; Magnetization and demagnetization; Magnetic shielding; Various types of magnetic materials; Structure and working principles of electromagnets; The "hand" rules that determine the magnetic field around a current carrying conductor; -
7 magnetism Inductance/Inductor Magneto motor strength, field strength, magnetic flux density, permeability, hysteresis loop, residual magnet flux density, magnetic resistance to demagnetizing force, saturation point, eddy currents; Precautions for the care and storage of magnets. Faraday's Law; The process of inducing voltage in a conductor moving in a magnetic field; Induction principles; Effects depending on the magnitude of the induced voltage: Magnetic field strength, flux change rate, number of conductor turns; mutual induction; Effect of rate of change of primary current and effect of mutual induction on induced voltage; Factors affecting mutual induction; The number of turns in the winding, the physical size of the winding, the permeability of the winding, the position of the windings to each other; Lenz's Law and polarity determination rules; Back/reverse emf, self-induced; Saturation point: Major uses of inductors. -
8 - MID-TERM EXAM -
9 Inductance/Inductor Faraday's Law; The process of inducing voltage in a conductor moving in a magnetic field; Induction principles; Effects depending on the magnitude of the induced voltage: Magnetic field strength, flux change rate, number of conductor turns; mutual induction; Effect of rate of change of primary current and effect of mutual induction on induced voltage; Factors affecting mutual induction; The number of turns in the winding, the physical size of the winding, the permeability of the winding, the position of the windings to each other; Lenz's Law and polarity determination rules; Back/reverse emf, self-induced; Saturation point: Major uses of inductors. -
10 Inductance/Inductor Faraday's Law; The process of inducing voltage in a conductor moving in a magnetic field; Induction principles; Effects depending on the magnitude of the induced voltage: Magnetic field strength, flux change rate, number of conductor turns; mutual induction; Effect of rate of change of primary current and effect of mutual induction on induced voltage; Factors affecting mutual induction; The number of turns in the winding, the physical size of the winding, the permeability of the winding, the position of the windings to each other; Lenz's Law and polarity determination rules; Back/reverse emf, self-induced; Saturation point: Major uses of inductors. -
11 Inductance/Inductor DC Motor/Generator Theory Faraday's Law; The process of inducing voltage in a conductor moving in a magnetic field; Induction principles; Effects depending on the magnitude of the induced voltage: Magnetic field strength, flux change rate, number of conductor turns; mutual induction; Effect of rate of change of primary current and effect of mutual induction on induced voltage; Factors affecting mutual induction; The number of turns in the winding, the physical size of the winding, the permeability of the winding, the position of the windings to each other; Lenz's Law and polarity determination rules; Back/reverse emf, self-induced; Saturation point: Major uses of inductors. Basic engine and generator theory; The structure and purpose of the components in the DC generator; Operation of current output and current flow direction in DC generators and factors affecting them; Operation of output power, torque, speed and rotation direction of DC motors and factors affecting them; Series wound, parallel wound and compound motors; Starter Generator structure. -
12 DC Motor/Generator Theory Basic engine and generator theory; The structure and purpose of the components in the DC generator; Operation of current output and current flow direction in DC generators and factors affecting them; Operation of output power, torque, speed and rotation direction of DC motors and factors affecting them; Series wound, parallel wound and compound motors; Starter Generator structure. -
13 DC Motor/Generator Theory Basic engine and generator theory; The structure and purpose of the components in the DC generator; Operation of current output and current flow direction in DC generators and factors affecting them; Operation of output power, torque, speed and rotation direction of DC motors and factors affecting them; Series wound, parallel wound and compound motors; Starter Generator structure. -
14 DC Motor/Generator Theory Basic engine and generator theory; The structure and purpose of the components in the DC generator; Operation of current output and current flow direction in DC generators and factors affecting them; Operation of output power, torque, speed and rotation direction of DC motors and factors affecting them; Series wound, parallel wound and compound motors; Starter Generator structure. -
15 - FINAL EXAM -
16 - FINAL EXAM -
17 - FINAL EXAM -

KAYNAKLAR

ÖLÇME VE DEĞERLENDİRME

Yarıyıl İçi Yapılan Çalışmaların Ölçme ve Değerlendirmesi Etkinlik Sayısı Katkı Yüzdesi Açıklama
(0) Etkisiz (1) En Düşük (2) Düşük (3) Orta (4) İyi (5) Çok İyi
0 1 2 3 4 5

DERSİN PROGRAM ÖĞRENME ÇIKTILARINA KATKISI

KNOWLEDGE
Theoretical
Program Yeterlilikleri/Çıktıları Katkı Düzeyi
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.
3
2
Can make applications related to aviation electricity.
4
3
Can make applications related to aviation electronics.
4
4
Learns the aviation applications of Electrical-Electronics subjects.
5
5
Relates the concepts of entrepreneurship and innovation to the field.
4
KNOWLEDGE
Factual
Program Yeterlilikleri/Çıktıları Katkı Düzeyi
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.
4
2
Adapts to the environment in which works as a team member.(dişil)
5
3
Develops a suitable solution method when faced with a problem
4
4
Prepares written agreements with relevant institutions in accordance with the legislation.
5
5
As a team member, manages all stages from planning to implementation of aviation activities
3
SKILLS
Cognitive
Program Yeterlilikleri/Çıktıları Katkı Düzeyi
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)
4
2
Makes the problem encountered in a study in the field appropriate within the team.
3
SKILLS
Practical
Program Yeterlilikleri/Çıktıları Katkı Düzeyi
0 1 2 3 4 5
1
Uses computer software, information and communication technologies at the level required by the field (use) Bloom 3
4
2
A sketch, diagram, graph, etc., describing the subject. reading and interpreting documents (interprent). (Bloom 2)
3
OCCUPATIONAL
Autonomy & Responsibility
Program Yeterlilikleri/Çıktıları Katkı Düzeyi
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.
4
2
Develops solutions for unforeseen problems encountered in practice. (develop) (Bloom 6)
4
OCCUPATIONAL
Learning to Learn
Program Yeterlilikleri/Çıktıları Katkı Düzeyi
0 1 2 3 4 5
1
Determines the learning requirements related to the field (determine) (Bloom 3)
4
2
Uses lifelong learning principles in professional development (Bloom 3)
5
OCCUPATIONAL
Communication & Social
Program Yeterlilikleri/Çıktıları Katkı Düzeyi
0 1 2 3 4 5
1
Apply technical drawing knowledge effectively in business life (Bloom 3)
4
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)
5
3
Discusses with experts (debate) by supporting their thoughts and solutions to problems with quantitative and qualitative data (Bloom 2)
3
4
Participates in training at international level (participate) (Bloom 3)
2
5
Organizes activities for the professional development of employees under his/her responsibility. (organized) (Bloom 6)
3
OCCUPATIONAL
Occupational and/or Vocational
Program Yeterlilikleri/Çıktıları Katkı Düzeyi
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.
4
2
He uses the knowledge and skills he gained during his undergraduate education in business life. (Bloom 3)
5
3
Solves the problems encountered in the field. (solve) (Bloom 3)
4
4
Applies the necessary behavior culture on quality management and processes, environmental protection and occupational safety to the team (apply) (Bloom 3)
4
5
He places the safety factor awareness in himself and his team. (locate) Bloom 1)
3

DERSİN İŞ YÜKÜ VE AKTS KREDİSİ

Öğrenme-Öğretme Etkinlikleri İş Yükü
Öğrenme-Öğretme Etkinlikleri Etkinlik(hafta sayısı) Süresi(saat sayısı) Toplam İş Yükü
Lecture & In-Class Activities 14 2 28
Preliminary & Further Study 0 0 0
Land Surveying 0 0 0
Group Work 0 0 0
Laboratory 0 0 0
Reading 0 0 0
Assignment (Homework) 0 0 0
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 13 2 26
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 0 0 0
Mid-Term Exam 0 0 0
Preparation for the Mid-Term Exam 0 0 0
Short Exam 0 0 0
Preparation for the Short Exam 0 0 0
TOTAL 28 0 55
Genel Toplam 55
Toplam İş Yükü / 25.5 2,2
Dersin AKTS(ECTS) Kredisi 2,0