Course­ Manual BS

Simulation of Illumination Systems


PDF Course Catalog Deutsche Version: BS

Version: 2 | Last Change: 30.09.2019 22:52 | Draft: 0 | Status: vom verantwortlichen Dozent freigegeben

Long name Simulation of Illumination Systems
Approving CModule CSO_MaET
Responsible
Prof. Dr. Holger Weigand
Professor Fakultät IME
Valid from winter semester 2020/21
Level Master
Semester in the year winter semester
Duration Semester
Hours in self-study 60
ECTS 5
Professors
Prof. Dr. Holger Weigand
Professor Fakultät IME
Requirements Geometric optics and wave optics
Radiation physics and photometry
Optical design
Technical English
Language German and English
Separate final exam Yes
Literature
W. T. Welford, R. Winston: High Collection Nonimaging Optics, Academic Press, 1989
G. Kloos: Entwurf und Auslegung optischer Reflektoren, Expert, 2007
Deutsche und US-Amerikanische Patentschriften
Datenblätter optischer und opto-elektronischer Komponenten
Final exam
Details The proof of achievement is based on a software project. The corresponding project work is started and supervised during the attendance. In addition, there is a supervision of the project work outside the attendance, similar to supervising theses.

Prerequisite for admission to the examination is the preparation of a support request in English. The support request may be, for example, an error report or a feature request and must have at least one system file of the simulation software for explanation.
Minimum standard For the successful realization of the software project, basic knowledge of the used simulation software is required. Furthermore, the modelling of real optical systems in the context of the software used must be understood.
Exam Type EN andere summarische Prüfungsform

Learning goals
Goal type Description
Knowledge Modelling of non-imaging optics
Connection of imaging and non-imaging optics
Modelling luminous flux-specific evaluation parameters
Basic concepts of luminous flux simulation
Basics of non-sequential raytrace simulation
Skills Non-sequential construction of illumination systems
Analysis of illumination systems
Tolerancing of illumination systems
Optimization of illumination systems
Expenditure classroom teaching
Type Attendance (h/Wk.)
Lecture 1
Exercises (whole course) 1
Exercises (shared course) 1
Tutorial (voluntary) 0
Special requirements
Basic knowledge of mathematical modeling in physics
Accompanying material Lecture slides (as PDF)
Exercise examples (simulation scripts, system files)
Raytrace-Simulationssoftware
Software for numerical and graphic evaluations
Software for scripting
Software Documentation
Separate exam No

Learning goals
Goal type Description
Skills Independent development / programming of simulation scripts with the help of English-language software documentation
Skills Successful use of raytrace simulation software to design non-imaging optics based on real specifications
Expenditure classroom teaching
Type Attendance (h/Wk.)
Practical training 2
Tutorial (voluntary) 0
Special requirements
see special requirements for lecture / exercise
Accompanying material see accompanying material to lecture / exercise
Separate exam Yes
Separate exam
Exam Type EN andere studienbegleitende Prüfungsform
Details Required is the preparation of a support request in English. The support request may be, for example, an error report or a feature request and must have at least one system file of the simulation software for explanation.

The support request provides the prerequisite for admission to the examination.
Minimum standard The support request requires a basic knowledge of English communication.

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