Course syllabus
Course-PM
EEN195 Applied design of power electronics on printed circuit boards lp2 HT23 (7.5 hp) CourseSyllabus_EEN195_2023_V5.pdf
Course is offered by the department of Electrical Engineering
Contact details
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Function |
Name |
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Contact info |
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Examiner |
Stefan Lundberg |
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Lecturers |
Paul Imgart |
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Fredrik Larsson |
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Stefan Lundberg |
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Artem Rodionov |
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Vaishnavi Ravi |
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Tutorial assistants |
Paul Imgart |
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Lakshmi Priya Gandla |
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Laboratory and Project assistants |
Paul Imgart |
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Artem Rodionov |
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Vaishnavi Ravi |
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Lakshmi Priya Gandla |
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Course purpose
The purpose with the course is to develop competence for the complete design process for a system of power electronics, a board power system, with advanced and complex loads in a limited product. The design process starts from the requirements/product knowledge and ends with a final assembled product, a physical product with a design that is based on the life cycle requirements of the product. This includes protective circuits/components, EMI filter, how primary and secondary converters form a board power system in a DC supplied system, how different optimizations influence the performance of the final product while still fulfilling the requirements, how different blocks works together as a highly efficient board power system and how different stage and design constraints forms the final product.
Schedule
Course literature
Lecture notes and handouts will be available on Canvas.
Course design
The prerequisite for this course is the course ENM061 - Power electronic converters or equivalent together with either ENM071 - Applied power electronics: Devices and implementations or DAT096 - Embedded system design project. This means that the course is continuing to build on the theory covered in these courses and it will be assumed that the students have followed the courses or have equivalent knowledge.
The course is designed around the practical design project where the student groups will go through the entire design process of a power electronic converter, from idea to verification measurements on the assemble design. The design process is supported by lectures for each step and each step should be documented in a written report that is submitted for assessment after each step in the process. The project is evaluated continuously both technically and according to time plan. In the end of the course the student groups should present the experiences with the other students in the course.
The students will perform the complete design process of a power electronic converter, from idea to verification measurements on the assemble design. The design process includes block design with different purpose and to perform thermal calculations, practical EMI (electromagnetic interference) design and transient protection design. The electric design will be a part of the course as a project task, but the complete design flow will be discussed and analysed. Process includes how to split requirement into relevant parts to be able to do correct complete design, simulation, electronic design, layout design, producibility and testability. Also, important aspects as practical fundamental understanding of how technical lifetime and MTBF have influence of design.
As can be seen in the teaching plan below there are:
18 lectures = 36 h
1 tutorials = 2 h
6 computer labs = 12 h
8 practical labs = 16 h
1 presentation = 4 h
1 oral exam = 1h
TOTAL: 71 h
This leaves 129 h for own work time, which means that you need to work on your own outside scheduled hours.
Teaching plan:
Paul Imgart PI in the teaching plan Contact info.
Fredrik Larsson FL in the teaching plan Contact info.
Stefan Lundberg SL in the teaching plan Contact info.
Lakshmi Priya Gandla LP in the teaching plan
Vaishnavi Ravi VR in the teaching plan Contact info.
Artem Rodionov AR in the teaching plan Contact info.
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Study week, Date, Time |
Description / Material |
Teacher |
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1 (44) Tue 31/10 13-15 |
Lecture 1: Course and project introduction
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SL |
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1 (44) Tue 31/10 15-17 |
Lecture 2: Setting the requirements and specifications of a design. |
FL |
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1 (44) Thu 2/11 13-15 |
Lecture 3: Requirements and specifications |
FL |
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1 (44) Thu 2/11 15-17 |
Lecture 4: Tools used for designing a converter on PCB |
FL |
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1 (44) Fri 3/11 13-15 |
Computer lab 1: Introduction of the tools for the project |
LP/PI |
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2 (45) Mon 6/11 23:59 |
Deadline hand in 1, Project requirements and specifications |
AR/PI |
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2 (45) Tue 7/11 13-15 |
Lecture 5: Electronic design, schematic and components
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FL |
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2 (45) Tue 7/11 15-17 |
Lecture 6: Electronic design, dimensioning |
FL |
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2 (45) Thu 9/11 13-15 |
Lecture 7: Simulations to aid the design |
FL/VR/PI |
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2 (45) Thu 9/11 15-17 |
Tutorial 1: Dimensioning components for a design |
PI/VR |
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2 (45) Fri 10/11 13-15 |
Computer lab 2: Help with drawing schematics and starting on layout |
LP/AR |
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3 (46) Mon 13/11 23:59 |
Deadline hand in 2, Schematics version 1. Schematic with all components, correct package/footprint by not necessarily final values and Writing quiz |
AR/PI/LP/VR |
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3 (46) Tue 14/11 13-15 |
Lecture 8: Electronic design, PCB
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FL |
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3 (46) Tue 14/11 15-17 |
Lecture 9: Electronic design, PCB/EMC |
FL |
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3 (46) Thu 16/11 13-15 |
Lecture 10, Guest lecture Würth Elektronik: Electronic design EMC |
FL/ Würth |
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3 (46) Thu 16/11 15-17 |
Lecture 11, Guest lecture Würth Elektronik: Electronic design derating |
FL/ Würth |
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3 (46) Fri 17/11 13-15 |
Computer lab 3: Support with PCB layout |
LP/AR/PI/VR |
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4 (47) Mon 20/11 23:59 |
Deadline hand in 3, PCB layout version 1, layout with all components, correct package/footprint and test points, by not necessarily final values |
LP/AR/PI/VR
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4 (47) Tue 21/11 13-15 |
Lecture 12: General feedback of PCB layouts, producibility and production of PCB |
FL |
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4 (47) Tue 21/11 15-17 |
Lecture 13: Product verification
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FL |
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4 (47) Thu 23/11 13-15 |
Computer lab 4: Help with PCB layout |
LP/AR/PI/VR |
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4 (47) Thu 23/11 15-17 |
Computer lab 5: Help with PCB layout |
LP/PI/VR/AR |
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4 (47) Fri 24/11 13-15 |
COMPULSORY Lecture 14: Handling of allergenic chemical products
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SL |
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4 (47) Sun 26/11 23:59 |
Deadline hand in 4, PCB layout version 2, this is what will be ordered
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5 (48) Tue 28/11 13-15 |
Lecture 15: System level bottom-up top-down approach for simulation
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FL |
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5 (48) Tue 28/11 15-17 |
Computer lab 6: Support with component selection |
LP/AR |
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5 (48) Wen 29/11 13:00 |
Deadline hand in 5, BOM, these are the components what will be ordered |
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5 (48) Thu 30/11 13-15 |
Study visit Aros Electronics, production line for PCB |
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5 (48) Thu 30/11 15-17 |
Study visit Aros Electronics, production line for PCB |
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5 (48) Fri 1/12 13-15 |
Lecture 16: Production of PCB, soldering, etc. |
SL |
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6 (49) Tue 5/12 13-15 |
Lecture 17: Product lifetime.
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FL/SL/AR |
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6 (49) Tue 5/12 15-17 |
Lecture 18: Product lifetime.
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FL/SL/AR |
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6 (49) Thu 7/12 13-15 |
Mounting of the PCB at CASE lab |
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6 (49) Thu 7/12 15-17 |
Mounting of the PCB at CASE lab |
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6 (49) Fri 8/12 13-15 |
Mounting of the PCB at ?? |
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7 (50) Tue 12/12 13-15 |
Test and verification of the PCB at CASE lab |
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7 (50) Tue 12/12 15-17 |
Test and verification of the PCB at CASE lab |
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7 (50) Thu 14/12 13-15 |
Test and verification of the PCB at CASE lab |
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7 (50) Thu 14/12 15-17 |
Test and verification of the PCB at CASE lab |
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7 (50) Fri 15/12 13-15 |
Test and verification of the PCB at CASE lab |
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7 (50) Fri 15/12 17:00 |
Deadline hand in 6, Lifetime calculation |
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8 (1) Wed 3/1 23:59 |
Deadline hand in 7, Final report, all chapters |
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8 (1) Friday 5/1 13:00 |
Deadline hand in 8, Presentation slides |
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9 (2) Mon 8/1 08-12 |
Presentations, all groups present for each other. This is compulsory for all |
SL/FL |
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9 (2) Thu 11/1 8-17 |
Individual oral examination, each person books a 30 min time slot on canvas. |
SL/FL |
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9 (2) Fri 12/1 8-17 |
Individual oral examination, each person books a 30 min time slot on canvas. |
SL/FL |
Changes made since the last occasion
- It is a new course.
Learning objectives and syllabus
Learning objectives:
- Create and evaluate different steps in a design process from idea to a finished product
- Design a product, with focus on the power electronic parts, from a base of requirements and system knowledge, with respect to the system context and environmental conditions the board is intended to operate in.
- Separate a complex system into fractions to simplify simulations in a practical engineering way
- Analyse and dimension parts of a design to comply with system boundaries
- Interpret and draw electronic schematics, including fundamental understanding and usage of electronic symbols and their connection to the physical layout of the board
- Construct a board layout based on an electronic schematic
- Adapt the product design to environmental condition requirements as well as applicable standards and regulations
- Analyse and compare different types of fault and transient protections.
- Analyse and evaluate a design from an EMI perspective, i.e. how radiated and conducted disturbances propagate and interact with different parts on the PCB and its surrounding.
- Apply producibility and testability in the design
- Discuss how thermal considerations impact different design choices as size/volume, humidity, indoor, outdoor, cooling, price etc.
- Reflect over the value creation made for others
- Plane the project, write a report to document the project and share the experiences with the other students in the course.
- Show an ability to within the project make judgements considering sustainable developments and ethical aspects through:
- Reflection and critical judgement of relevant dimensions of sustainable development
- Handle scientific writing in an ethically defendable way, for instance related to plagiarism and authorship.
- Utilise ethical principles for data acquisition, analysis and result presentation.
Link to the syllabus on Studieportalen.
Examination form
The course consists of two parts:
- Part A, Design exercise + laboratory, 4.0 credits, gradings scale Pass or Fail
- Part B, Oral examination, 3.5 credits, gradings scale Pass or Fail
For part A, the practical design exercise + laboratory, the students need to be presence and contribute to the project work and to each hand in of the report. The student also needs to pass the writing quiz on Canvas. For each hand in a small contribution report should be filled in. When all submissions are approved, and the experiences are shared with the other groups during the presentation session, the project work is approved, with grade Pass.
The individual oral examination is based on the design project, lectures and discussions during the course. The grading of the is Pass or Fail.
The final grade on the course is Pass or Fail. When both the practical design project and the oral examination are graded pass the final grade pass is given for the course.
All deadlines and compulsory things in the course are (these are also shown in the Teaching plan above):
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Study week, Date, Time |
Description |
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2 (45) Mon 6/11 23:59 |
Deadline hand in 1, Project requirements and specifications |
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3 (46) Mon 13/11 23:59 |
Deadline hand in 2, Schematics version 1. Schematic with all components, correct package/footprint by not necessarily final values and Writing quiz |
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4 (47) Mon 20/11 23:59 |
Deadline hand in 3, PCB layout version 1, layout with all components, correct package/footprint and test points, by not necessarily final values |
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4 (47) Fri 24/11 13-15 |
COMPULSORY Lecture 14: Handling of allergenic chemical products
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4 (47) Sun 26/11 23:59 |
Deadline hand in 4, PCB layout version 2, this is what will be ordered
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5 (48) Wen 29/11 13:00 |
Deadline hand in 5, BOM, this is the components what will be ordered |
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7 (50) Fri 15/12 17:00 |
Deadline hand in 6, Lifetime calculation |
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8 (1) Wed 3/1 23:59 |
Deadline hand in 7, Final report, all chapters |
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8 (1) Friday 5/1 13:00 |
Deadline hand in 8, Presentation slides |
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9 (2) Mon 8/1 08-12 |
Presentations, all groups present for each other. This is compulsory for all |
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9 (2) Thu 11/1 8-17 |
Individual oral examination, each person books a 30 min time slot on canvas. |
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9 (2) Fri 12/1 8-17 |
Individual oral examination, each person books a 30 min time slot on canvas. |
Course summary:
| Date | Details | Due |
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