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Introduction to Electronics (5 cr)

Code: TE00CE12-3005

General information


Enrollment

30.11.2022 - 18.01.2023

Timing

09.01.2023 - 30.04.2023

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Engineering and Business

Campus

Kupittaa Campus

Teaching languages

  • English

Seats

0 - 100

Degree programmes

  • Degree Programme in Information and Communication Technology
  • Degree Programme in Information and Communications Technology

Teachers

  • Mikko Peltonen de Santiago
  • Jaakko Lamminpää

Scheduling groups

  • Pienryhmä 1 (Size: 0. Open UAS: 0.)
  • Pienryhmä 2 (Size: 0. Open UAS: 0.)

Groups

  • PINFOS22C
    PINFOS22C
  • PINFOK23A
    PINFOK23A
  • PINFOS22A
    PINFOS22A

Small groups

  • Pienryhmä 1
  • Pienryhmä 2

Objective

After completing the course the student:
- is able to use multimeter and oscilloscope
- can name common components used in electronics and knows their basic characteristics
- can calculate currents, voltages and resistances as well as powers in simple circuits
- knows the basics of digital and analog blocks and their couplings in electronics.

Content

- Basic concepts of Circuit analysis and measurements: current, voltage, resistance, power
- Active and passive components used in electronics
- Basics of analog and digital electronics

Materials

Material available for this course in Itslearning including slides and example calculations as well as links to online material.
In independent study you can use any electronics book for engineers (introductory level) and any available online material.

Teaching methods

Lectures, preliminary assignments and calculations, laboratory work.

Exam schedules

The emphasis is on the laboratory reports and course cannot be passed by taking only the test.
The test is held during a laboratory session and the date is in ITSlearning.
One laboratory session at the end of the course is for completing a missing lab work or redoing a failed assignment.
Grade for a passed lab work cannot be raised.

International connections

Flipped learning, hands on working, combining theory and practice during lab work.

Completion alternatives

None.

Student workload

Lectures: 7x 2 h = 14 h
Lab. sessions: 13x 3 h = 39 h
Independent study: 26 h
Preliminary assignments: 26 h
Finishing reports: 20 h

Content scheduling

Course includes building simple circuits on a protoboard and basic measurements.
Main topics are: DC circuits and connections, AC circuits and basic components, semiconductors in a simple circuit, and using equipment to measure these circuits.

Course is held in Spring 2023.

More accurate description and timetable is found on ITSlearning.

Evaluation scale

H-5

Assessment methods and criteria

Course consists of two parts:
- Introduction to circuits and measurement techniques (weight 60 %)
- Introduction to electronics (transistors, opamps and logic gates) (weight 40 %)

Both parts need to be completed with a passing grade.
Missing work receives a grade of -3.
Only tasks returned on time will be evaluated.

Redoing failed or missing parts must be agreed with the teacher separately. Laboratory work or reports with passing grade cannot be retaken.

Assessment criteria, fail (0)

Does not meet the requirements for the grade 1.

Assessment criteria, satisfactory (1-2)

Student
- can build a simple circuit by connecting components to the protoboard.
- can measure the resistance, voltage and current from different branches of the circuit.
- knows the basic laws of electronics
- All assignments are returned, even if the reports are lacking.

Assessment criteria, good (3-4)

Student
- can apply Kirchoff's laws to analyze the circuit
- knows and understands the concept of power
- preliminary calculations and measurements are mostly correct
- reports are done with care and include the relevant information

Assessment criteria, excellent (5)

Student
- has grasped the fundamentals of electric circuits
- can choose the correct components for different situations
- can analyze the circuit and understands how it functions
- can evaluate the results critically
- reports are precise, stylish and show analysis of the circuit

Qualifications

High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school maths curriculum and course: Introduction to Mathematics and Physics
OR
equivalent skills