Industrial Management

Automation 2 (Instrumentation and Control Engineering)

Integrated course, 4.00 ECTS


Course content

• Introduction to instrumentation engineering
• Basic principles of control engineering
• Programming languages of IEC61131
• Basic principles of regulator engineering
• Time behaviour, cycle times, process image
• PID regulator
• IT systems in automation
• Process management system
• Case studies and industrial applications

Learning outcomes

Students are able to
• explain basic terms effects and solutions in automation
• analyse technical problems concerning automation
• interpret the use automation in industry
• model the structure and key components of a sensor (from a sensor element to the intersection).
• explain in detail the most important sensors (temperature, pressure, proximity switch, etc.)
• explain disturbance variables and their influence on sensors
• explain key actuators in detail.
• understand the application fields and interconnections of actuators and sensor
• apply the basic principles of sensors and actuators in case studies and projects

Recommended or required reading and other learning resources / tools

• Hesse: Sensoren für die Prozess- und Fabrikautomation
• Gevatter: Automatisierungstechnik 1
• Hering: Sensoren in Wissenschaft und Technik
• Gerke: Elektrische Maschinen und Aktoren – Eine anwendungsorientierte
• Watter: Hydraulik und Pneumatik – Grundlagen und Übungen – Anwendungen und
• Favre-Bulle: Automatisierung komplexer Industrieprozesse,
• Früh et al: Handbuch der Prozessautomatisierung
• Ahrens et al.: Informationsorientierte Leittechnik
• Zeichen/Fürst: Automatisierte Industrieprozesse

The lecturer agrees to pass on an updated list of recommended literature to the students in accordance with the syllabus.

Mode of delivery

Integrated lecture

Prerequisites and co-requisites

Electrical Engineering, Mathematics, Science-Tech

Assessment methods and criteria

Exam and continuous assessment