t.BA.ET.EK2.19HS (Electronics 2) 
Module: Electronics 2
This information was generated on: 29 March 2024
No.
t.BA.ET.EK2.19HS
Title
Electronics 2
Organised by
T ISC
Credits
4

Description

Version: 3.0 start 01 February 2022
 

Short description

Students acquire the knowledge and skills required for the understanding, analysis and design of standard electronic circuits with discrete components. This includes a systematic approach to the calculation, simulation and optimisation of modern circuits.

Module coordinator

Loeliger Teddy (loel)

Learning objectives (competencies)

Objectives Competences Taxonomy levels
You know the characteristics of bipolar and field-effect transistors and can determine these properties by measurements and compare them with the data sheet information. F, M K1 - K3
You can identify, analyze, dimension, build and test transistor amplifier circuits, current sources, current mirrors, and oscillators. F, M K1 - K4
You know the internal structure of an operational amplifier, its non-idealities, and can design a suitable operational amplifier circuit for a given application. F, M K1 - K6
You know the basic filter approximations and can calculate, characterize, design and dimension active filters using filter tables. F, M K1 - K5
You are experienced in working with a circuit simulation tool and can check the simulation output results for plausibility. M K3, K6
You work in teams of two on the setup and analysis of practical electronic circuits and practice the ability to shape interpersonal processes in a situation-specific, goal-oriented and effective manner. SO K5
You can identify core relations and equations in electronic circuit areas, condense them concisely and apply them to the analysis of circuits. SE K4, K5

Module contents

Based on exemplary electronic circuits in modern electronics modules,  circuits are identified, analysed, and designed.
The module includes the following topics:
- Bipolar Transistors (principle of operation, characteristics, equivalent circuits)
- Field-Effect Transistors (principle of operation, characteristics, equivalent circuits)
- Transistor Amplifier Circuits
- Current Sources and Current Mirrors
- Real Operational Amplifiers (structure, non-idealities, differential amplifier)
- Active Filters (filter theory, filter design, filter implementations)
- Oscillators (feedback, LC oscillators, RC oscillators, crystal oscillators, multivibrators, ring oscillators)

Teaching materials

- lecture slides
- lab instructions
- circuit simulation tool
- lab infrastructure (electronics setups, test and measurement instruments)
- exercises (for self-study)

Supplementary literature

 

Prerequisites

Elektronik 1

Teaching language

(X) German ( ) English

Part of International Profile

( ) Yes (X) No

Module structure

Type 3a
  For more details please click on this link: T_CL_Modulauspraegungen_SM2025

Exams

Description Type Form Scope Grade Weighting
Graded assignment during teaching semester exam written 30-45 min. grading 20 %
End-of-semester exam exam written 90 min. grading 80 %

Remarks

 

Legal basis

The module description is part of the legal basis in addition to the general academic regulations. It is binding. During the first week of the semester a written and communicated supplement can specify the module description in more detail.

Note

Course: Elektronik 2 - Praktikum
No.
t.BA.ET.EK2.19HS.P
Title
Elektronik 2 - Praktikum

Note

  • No module description is available in the system for the cut-off date of 29 March 2024.
Course: Elektronik 2 - Vorlesung
No.
t.BA.ET.EK2.19HS.V
Title
Elektronik 2 - Vorlesung

Note

  • No module description is available in the system for the cut-off date of 29 March 2024.