Engineering Skills-1

6 ECTS credits
150 h study time

Offer 1 with catalog number 1018418ANR for all students in the 1st and 2nd semester at a (A) Bachelor - preliminary level.

Semester

1st and 2nd semester

Enrollment based on exam contract

Impossible

Grading method

Grading (scale from 0 to 20)

Can retake in second session

Yes

Enrollment Requirements

Om dit opleidingsonderdeel te kunnen opnemen, moet je gelijktijdig het opleidingsonderdeel ‘Basiselektronica’ opnemen of moet je reeds geslaagd zijn voor ‘Basiselektronica’.

Taught in

Dutch

Faculty

Faculteit Ingenieurswetenschappen

Department

Industriële ingenieurswetenschappen

Educational team

Tim De Troyer (course titular)
Robin Verbruggen
Jonas Verbeke

Activities and contact hours

84 contact hours Seminar, Exercises or Practicals
84 contact hours Seminar, Exercises or Practicals
48 contact hours Independent or External Form of Study

Course Content

This course introduces some essential engineering skills. The course consists of:

Part scheduling and exam skills
Part engineering project: The student designs and implements individually a digital apparatus (alarm clock, thermometer, or similar), using skills taught during Basic electronics and Informatics. The project entails:
- Introduction to analysis of experimental data (including measurement error and error propagation)
- Introduction to rapid prototyping
  - CAD
  - laser cutting
  - 3D printing
  - PCB etching
  - programming of a microcontroller (Arduino)
- Design and manufacturing of a digital aparatus
  - digital and analog elementary components
  - electronic control elements
  - introduction to 'schematic capture' and 'Printed Circuit Board' design
  - sintering and cabling techniques
  - programming microcontrollers
Part communicaiton skills
- Language test and guidance. A mandatory Dutch language test is organised. The students completes a number of exercise modules independently.
- Introduction to technical-scientific communication
  - Reading data sheets and technical manuals
  - Taking notes, writing lab reports
  - Graphical representation of (measurement) data

Course material

Handbook (Recommended) : Leren programmeren, meten en sturen met Arduino, J. de Jong, Edu'Actief, 9789037260304, 2021
Handbook (Recommended) : Autodesk Inventor 2022 Basis FA, R.H.P. Van Bussel en B.C.H. Verbeek, BSP Bookstore, 9789493238121, 2022

Additional info

Description tutoring: during consult or by appointment.

Participation in the practical exercise sessions and laboratory practicals is mandatory.

Learning Outcomes

objectives

D1: can design parts with 3D CAD software (BaLO 3, 4)

D2: can determine possibilities and limitations of a mechanism (BaLO 3, 4, 6)

D3: has insight in the working anc construction princples of mechanical parts (BaLO 1, 4, 6)

D4: has insight in measurement errors and uncertainties and can apply this (BaLO 1, 6, 8)

D5: has insight in the propagation of errors and can apply this (BaLO 1, 6, 8)

D6: has insight in the elementary principles of safety and risk mitigation, and applies this (BaLO 9, 13)

D7: can read, analyse, dan present grafphically data sets, e.g. using a spread sheet programme (BaLO 1, 6, 8, 11)

D8: is aware of what an engineer does in the industry (BaLO 13)

D9: can measure physical quantities and acquire the data with a pc (BaLO 6, 11)

AD1: reasons and acts in a structured and systematic manner (BaLO 9)

AD2: communicates in Dutch in a comprehensible and structured manner (BaLO 10, 11)

AD3: develops a professional attitude (BaLO 9, 10, 13)

Leerresultaten

BaLO_1 To possess in-depth, application-oriented knowledge, understanding and practical skills related to mathematics and science, directed towards engineering applications.

BaLO_3 To solve practical engineering problems from an understanding of the basic theory and from an understanding of basic methods for the schematisation and modelling of processes or systems.

BaLO_4 Implementation-oriented and analytical problem-solving, design, development and creative innovation with a focus on the operational implications of the specific case.

BaLO_6 Based on acquired insight, to select the appropriate methods of research, design and solution and appropriately apply the results in a scientific and effective manner.

BaLO_8 To demonstrate a research attitude: accuracy, critical reflection, scientific and technical curiosity, justification of choices.

BaLO_9 To demonstrate an engineering attitude: attention to planning, to technical, economic and societal factors as well as managerial implications, assessment of the risks and feasibility of the proposed approach or solution, being result-driven and achieving effective solutions, innovative thinking.

BaLO_10 To correctly handle the scientific and discipline-specific terminology in language relevant to the programme.

BaLO_11 To present and communicate the results of technical and scientific work, in writing, orally and visually.

BaLO_13 To act in an ethical and socially responsible manner with attention to technical, economic, human and sustainability aspects.

Grading

The final grade is composed based on the following categories:
Other Exam determines 100% of the final mark.

Within the Other Exam category, the following assignments need to be completed:

Other Exam with a relative weight of 100 which comprises 100% of the final mark.

Note: Exam time 1st session:
Part communication: language test and assignments : 20% (transferred to second session if 10/20 or more)
Part engineering project: assignment: 80% (transferred to second session if 10/20 or more)
Exam time 2nd session:
Part communication: 20%
Part engineering project: assignment: 80%

When achieving a result of less than 8 out of 20 on one of the parts (except for the part language), then the lowest number becomes the final result for this course.

Not observing the laboratory regulations during the preparation, execution and/or reporting of the practicum, may result in a zero for the considered practicum.

Additional info regarding evaluation

Not observing the laboratory regulations during the preparation, execution and/or reporting of the practicum, may result in a zero for the considered practicum.

An illegitimate absence of more than 25 % at the laboratory practicals leads to an absent quotation for the laboratory practicals. The sanctions taken in the first exam session are transferred to the second exam session.

For every part with practical exercise sessions (part engineering project, part planning and exam skills), an illegitimate absence of more than 25 % for the practical exercise sessions leads to a refusal to participate the practical exercises exam and/or the test (whichever is applicable). This leads to an absent quotation for the related part. The sanctions taken in the first exam session are transferred to the second exam session.

The part engineering project entails an introduction to rapid protoyping. The student is expected to independently (using tutorials) learn how to work with the rapid prototyping machines (3D printing, laser cutting, PCB etching) and with Arduino. The student needs to show that the tutorials have been successfully completed at the start of the second semester. If this is not so, the student will not be allowed to participate in the WPOs of the project in the second semester.

Allowed unsatisfactory mark

The supplementary Teaching and Examination Regulations of your faculty stipulate whether an allowed unsatisfactory mark for this programme unit is permitted.

Academic context