Lehrveranstaltungen in Stud.IP

aktuelles Semester
zur Veranstaltung in Stud.IP Studip_icon
Software für Eingebettete Systeme
Untertitel:
Module: Software für Eingebettete Systeme
Semester:
SoSe 24
Veranstaltungsart:
Lecture + Lab
Veranstaltungstyp:
Vorlesung (Lehre)
Veranstaltungsnummer:
lv1069_s24
DozentIn:
Prof. Dr. Bernd-Christian Renner, Peter Oppermann, Johannes Göpfert, Fabian Steinmetz
Beschreibung:
Embedded systems are present everywhere in our daily lives and are integral parts of modern engineering. They start with smart lightbulbs or electric door openers and continue with control units for automotive applications or industrial machines. Furthermore, safety-critical systems, such as airbags or ventilators, are controlled with an embedded system.

Course Objectives

In this course, the students learn to develop software for embedded systems. At first, the students learn the concepts of embedded systems, including hardware structures and software design. Afterwards, they are introduced to microcontrollers and their functionalities, such as input and output registers, timers, interrupts, and bus systems. At the end of this course, the students know how to develop, implement, and test software for embedded systems.

Prerequisites

Students taking this course must be familiar with the C programming language and its concepts, for example, pointers and procedural programming. Furthermore, basic knowledge of software design and electrical engineering is helpful for this course.

Lab

A lab accompanies the lecture, where the students learn to program a microcontroller and apply the lecture’s content. Using an ATmega32U4, the students develop a hardware-oriented and low-level software library to address digital input and output pins, read analog to digital (ADC) converters for analog sensors, use hardware timers and interrupts, and control an actuator. At the end of the lab, the students combine all functionalities and implement software for different applications.
Leistungsnachweis:
Written Exam
ECTS-Kreditpunkte:
6
Weitere Informationen aus Stud.IP zu dieser Veranstaltung
Heimatinstitut: E-24 Autonome Cyber-Physische Systeme
In Stud.IP angemeldete Teilnehmer: 153
Anzahl der Postings im Stud.IP-Forum: 10
Anzahl der Dokumente im Stud.IP-Downloadbereich: 35
voriges Semester
zur Veranstaltung in Stud.IP Studip_icon
Software für Eingebettete Systeme
Untertitel:
Module: Software für Eingebettete Systeme
Semester:
SoSe 24
Veranstaltungsart:
Lecture + Lab
Veranstaltungstyp:
Vorlesung (Lehre)
Veranstaltungsnummer:
lv1069_s24
DozentIn:
Prof. Dr. Bernd-Christian Renner, Peter Oppermann, Johannes Göpfert, Fabian Steinmetz
Beschreibung:
Embedded systems are present everywhere in our daily lives and are integral parts of modern engineering. They start with smart lightbulbs or electric door openers and continue with control units for automotive applications or industrial machines. Furthermore, safety-critical systems, such as airbags or ventilators, are controlled with an embedded system.

Course Objectives

In this course, the students learn to develop software for embedded systems. At first, the students learn the concepts of embedded systems, including hardware structures and software design. Afterwards, they are introduced to microcontrollers and their functionalities, such as input and output registers, timers, interrupts, and bus systems. At the end of this course, the students know how to develop, implement, and test software for embedded systems.

Prerequisites

Students taking this course must be familiar with the C programming language and its concepts, for example, pointers and procedural programming. Furthermore, basic knowledge of software design and electrical engineering is helpful for this course.

Lab

A lab accompanies the lecture, where the students learn to program a microcontroller and apply the lecture’s content. Using an ATmega32U4, the students develop a hardware-oriented and low-level software library to address digital input and output pins, read analog to digital (ADC) converters for analog sensors, use hardware timers and interrupts, and control an actuator. At the end of the lab, the students combine all functionalities and implement software for different applications.
Leistungsnachweis:
Written Exam
ECTS-Kreditpunkte:
6
Weitere Informationen aus Stud.IP zu dieser Veranstaltung
Heimatinstitut: E-24 Autonome Cyber-Physische Systeme
In Stud.IP angemeldete Teilnehmer: 153
Anzahl der Postings im Stud.IP-Forum: 10
Anzahl der Dokumente im Stud.IP-Downloadbereich: 35

Lehrveranstaltungen

Informationen zu den Lehrveranstaltungen und Modulen entnehmen Sie bitte dem aktuellen Vorlesungsverzeichnis und dem Modulhandbuch Ihres Studienganges.

Lehrveranstaltung Modul Zeitraum  
lv2706 Smart-Grid-Technologien (VL) Smart-Grid-Technologien WiSe  
lv2707 Smart-Grid-Technologien (PBL)      
lv1670 Elektrische Energiesysteme I: Einführung in elektrische Energiesysteme (VL) Elektrische Energiesysteme I: Einführung in elektrische Energiesysteme WiSe  
lv1671 Elektrische Energiesysteme I: Einführung in elektrische Energiesysteme (GÜ)      
lv1696 Elektrische Energiesysteme II: Betrieb und Informationssysteme elektrischer Energienetze (VL) Elektrische Energiesysteme II: Betrieb und Informationssysteme elektrischer Energienetze WiSe  
lv1697 Elektrische Energiesysteme II: Betrieb und Informationssysteme elektrischer Energienetze (HÜ)      
lv1683 Elektrische Energiesysteme III: Dynamik und Stabilität elektrischer Energiesysteme (VL) Elektrische Energiesysteme III: Dynamik und Stabilität elektrischer Energiesysteme SoSe  
lv1684 Elektrische Energiesysteme III: Dynamik und Stabilität elektrischer Energiesysteme (HÜ)      
lv178 Elektrotechnik II: Wechselstromnetzwerke und grundlegende Bauelemente (VL) Elektrotechnik II: Wechselstromnetzwerke und grundlegende Bauelemente SoSe  
lv179 Elektrotechnik II: Wechselstromnetzwerke und grundlegende Bauelemente (GÜ)      
lv747 Elektrotechnik II (EN) (VL) Elektrotechnik II (EN) SoSe  
lv748 Elektrotechnik II (EN) (GÜ)      
lv1077 Prozessmesstechnik (VL) Prozessmesstechnik SoSe  
lv1083 Prozessmesstechnik (HÜ)      
lv640 Elektrotechnisches Projektpraktikum (PBL) Elektrotechnisches Projektpraktikum SoSe  
lv3008 Machine Learning Applications in Electric Power Systems (VL) Maschinelles Lernen in der Elektro- und Informationstechnik SoSe  

 

SoSe: Sommersemester
WiSe: Wintersemester
VL: Vorlesung
GÜ: Gruppenübung
HÜ: Hörsaalübung
PBL: Projekt-/problembasierte Lehrveranstaltung

EN: Lehrsprache Englisch