TÜRKÇE
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Information
| Unit | FACULTY OF ENGINEERING |
| BIOMEDICAL ENGINEERING PR. | |
| Code | BMM207 |
| Name | Circuit Analysis |
| Term | 2018-2019 Academic Year |
| Semester | 3. Semester |
| Duration (T+A) | 4-0 (T-A) (17 Week) |
| ECTS | 6 ECTS |
| National Credit | 4 National Credit |
| Teaching Language | Türkçe |
| Level | Lisans Dersi |
| Type | Normal |
| Label | C Compulsory |
| Mode of study | Yüz Yüze Öğretim |
| Catalog Information Coordinator | Doç. Dr. CABBAR VEYSEL BAYSAL |
| Course Instructor |
Doç. Dr. CABBAR VEYSEL BAYSAL
(Güz)
(A Group)
(Ins. in Charge)
|
Course Goal / Objective
To learn the basic concepts of electrical -electronic circuits and the theoretical analysis methods.
Course Content
Electrical circuit variables and components :Current, voltage, power and energy, supplies and simple components. Resistive circuits: Kirchhoff current and voltage laws for basic circuit analysis. Current and voltage calculations in series and/or parellel circuits. Circuit analysis methods: Node Voltage Analysis, Mesh Current Analysis. Thevenin and Norton theorems, source transformations and superposition principle. Capacitance and inductance . Transient analysis of RL, RC circuits. Transient analysis of RLC circuits. Sinusoidal Steady State (SSS) , phasors and impedance. Power analysis methods in SSS . Mutual Inductance and Transformers. Frequency response of circuits. Filter circuits and Bode diagrams . Laplace transformation in circuit analysis.
Course Precondition
Resources
Notes
Course Learning Outcomes
| Order | Course Learning Outcomes |
|---|---|
| LO01 | Ability to define electrical circuit variables such as current, voltage, power and energy. |
| LO02 | Ability to use Ohm's law and Kirchhoff's current and voltage laws for basic circuit analysis. |
| LO03 | Apply node voltages, mesh currents, superposition and Thevenin / Norton methods for basic circuit analysis. |
| LO04 | Ability to express the concepts of inductance, capacitance and mutual inductance and use them in circuit analysis. |
| LO05 | Be able to perform transient analysis of RL, RC and RLC circuits. |
| LO06 | Be able to perform circuit analysis and power calculations in Sinusoidal Steady State. |
| LO07 | Be able to analyze the frequency response of circuits and apply the Laplace transform in circuit analysis. |
Relation with Program Learning Outcome
| Order | Type | Program Learning Outcomes | Level |
|---|---|---|---|
| PLO01 | - | 1. Solve the scientific problems encountered in medicine and medical technologies by applying technical approaches of disciplines. 2. Self development on science and technology issues. 3. Assess the contributions of engineering solutions on medicine, medical technologies and healthcare | 3 |
| PLO02 | - | 1. Define the problems about Biomedical Engineering 2. Modelling the problems about Biomedical Engineering. | 3 |
| PLO03 | - | 1. Analyse data and interpret results | 3 |
| PLO04 | - | 1. Utilize modern techniques and computing tools which are essential for Engineering applications | 4 |
| PLO05 | - | 1. Design and analyse a defined process 2. Recognise national and international problems for Biomedical Engineering | 5 |
| PLO06 | - | Understand the research problems of medical doctor with engineering perspective | 5 |
| PLO07 | - | 1. Describe the ideas clearlywith written and verbally 2. Have the interdisciplinary teamwork skills | 5 |
| PLO08 | - | 1. Have knowledge on calibration and quality assurance systems in Biomedical Engineering 2. Have the sense of responsibility and professional ethics | 5 |
Week Plan
| Week | Topic | Preparation | Methods |
|---|---|---|---|
| 1 | Electrical circuit variables :Current, voltage, power and energy. | Reading lecture materials | |
| 2 | Basic electrical circuit components : supplies and simple components. | Reading lecture materials | |
| 3 | Resistive circuits: Kirchhoff current and voltage laws for basic circuit analysis. Current and voltage calculations in series and/or parellel circuits. | Reading lecture materials | |
| 4 | Circuit analysis methods-1: Node Voltage Analysis, Mesh Current Analysis. | Reading lecture materials | |
| 5 | Circuit analysis methods-2: Thevenin and Norton theorems, source transformations and superposition principle. | Reading lecture materials | |
| 6 | Capacitance and inductance . | Reading lecture materials | |
| 7 | Transient analysis of RL, RC circuits. | Reading lecture materials | |
| 8 | Mid-Term Exam | Reading lecture materials | |
| 9 | Transient analysis of RLC circuits. | Reading lecture materials | |
| 10 | Sinusoidal Steady State (SSS) , phasors and impedance . | Reading lecture materials | |
| 11 | Power analysis methods in SSS . | Reading lecture materials | |
| 12 | Mutual Inductance and Transformers. | Reading lecture materials | |
| 13 | Frequency response of circuits. | Reading lecture materials | |
| 14 | Filter circuits and Bode diagrams . | Reading lecture materials | |
| 15 | Laplace Method for Circuit analysis | Reading lecture materials | |
| 16 | Term Exams | Reading lecture materials | |
| 17 | Term Exams | Reading lecture materials |
Assessment (Exam) Methods and Criteria
| Assessment Type | Midterm / Year Impact | End of Term / End of Year Impact |
|---|---|---|
| 1. Midterm Exam | 100 | 40 |
| General Assessment | ||
| Midterm / Year Total | 100 | 40 |
| 1. Final Exam | - | 60 |
| Grand Total | - | 100 |
Student Workload - ECTS
| Works | Number | Time (Hour) | Workload (Hour) |
|---|---|---|---|
| Course Related Works | |||
| Class Time (Exam weeks are excluded) | 14 | 4 | 56 |
| Out of Class Study (Preliminary Work, Practice) | 14 | 4 | 56 |
| Assesment Related Works | |||
| Homeworks, Projects, Others | 0 | 0 | 0 |
| Mid-term Exams (Written, Oral, etc.) | 1 | 12 | 12 |
| Final Exam | 1 | 28 | 28 |
| Total Workload (Hour) | 152 | ||
| Total Workload / 25 (h) | 6,08 | ||
| ECTS | 6 ECTS | ||