Academic year
2021-22
Is found in:
- Associate Degree of Internet of Things, programme stage 1
This is a single course unit.
Study load:
6 credits
It is not possible to enrol in this course unit under
- exam contract (to obtain a credit).
- exam contract (to obtain a degree).
Co-ordinator: Van Houtven Patrick
Other teaching staff: De Ridder Ward, Smets Marc, Van Loo Erwin
Languages: Dutch
Scheduled for: Semester 1 or Semester 2
This course unit is marked out of 20 (rounded to an integer).
Prerequisites
There are no prerequisites for this course.
Re-sit exam: is possible.
Possibility of tolerance: This course unit is eligible for tolerance according to the criteria as determined by the degree programme you are enrolled in.
Total study time: 156,00 hours
Learning outcomes (list)
08: Communication: communicates in an appropriate way in a strong globalised, international and multilingual professional environment.
The student explains the functional action of a conenction usiing the proper technical jargon. |
01: Design: Analyzes an IOT-assignment and considers, together with the client/user and/or colleagues-experts, one or more technical solutions. Determines and collects the necessary components.
The students defines capacity and induction. |
The student explains the charge and discharge course of a capacitor and/or a coil. |
The student explains the functioning of FET's, OPAM's, tension regulators and transistors. |
The student analyzes simple connections with resistances, capacitors, coils, diodes and transistors. |
The student describes the functioning of passive filter connections. |
The student applies the Boolean logic. |
The student consults datasheets and characterizations of electric and electronic components at the account of their choice of components. |
The student calculates the impedance of an AC circuit with ohm resistances, capacities and coils. |
The student analyzes simple circuits. |
The student explains the use of bipolar transistors. |
03: Delivery: Tests the IoT-systems, delivers them and gives istructions for a proper and efficient use.
The student applies measuring methods. |
The student measures tension forms in function of the time. |
The student predicts the functioning of electronic and electric connections. |
The student interprets the measurement results and compares these with the target value. |
The student describes measuring methods. |
The student executes measurements with electric measuring instruments and links them up with regard to the functionality of the connections. |
The student measures digital and analogous signals and executes measurements typical for the specific company to control the optimal functioning. |
02: Execution: Supports the IOT-developer by practically executing the IoT-assignment. Configures, optimalizes,programmes and installs IoT-systems.
The student uses electronic building blocks in a practical circuit. |
Educational organisation (list)
Evaluation (list)
Evaluation(s) for first exam chance
Moment | Form | % | Remark |
Academic year | Continuous skills assessment simulation (Permanent evaluation) | 30,00 | Permanent uitgesteld |
Academic year | Knowledge test | 40,00 | Momentopname op examen |
Academic year | Skills assessment simulation | 30,00 | Momentopname op examen |
Evaluation(s) for re-sit exam
Moment | Form | % | Remark |
2nd examination period | Knowledge test | 40,00 | Momentopname op examen |
2nd examination period | Skills assessment simulation | 60,00 | Momentopname op examen |