Long name	High Voltage Technology
Approving CModule	HST_BaET
Responsible	Prof. Dr. Christof Humpert Professor Fakultät IME
Organisation and materials	ILU course for the High Voltage Technology course
Level	Bachelor
Semester in the year	winter semester
Duration	Semester
Hours in self-study	60
ECTS	5
Professors	Prof. Dr. Christof Humpert Professor Fakultät IME
Requirements	Atomic model and energy-band model Impedances in the AC circuit Complex AC calculation Three-phase system Alternating electric field Dielectric material properties
Language	German
Separate final exam	Yes

High voltage grids, types, requirements, function
Electrical stress due to operational and overvoltages, types of overvoltages
High voltage insulating materials
- Gaseous insulating materials: discharge development, air and SF6, Paschen law, spark and arc discharge
- Solid insulating materials: Discharge development, layered arrangements, partial discharges, aging, discharges along insulating surfaces
- Liquid insulating materials: discharge development, oil-paper insulation, liquid nitrogen
- Vacuum insulation: Discharge development, influence of contact materials
Equipment of high voltage technology
- Requirements for equipment, in particular for switchgear and switching devices
- Switchgear: air-insulated switchgear, outdoor switchgear, SF6-insulated switchgear
- Circuit breakers: principles of arc quenching, SF6 circuit breakers, vacuum circuit breakers
- Other equipment: cables, transformers

Analyze discharge processes in gases, liquids and solids
- Explain and apply dependence on boundary conditions (pressure, material, electrode distance)
- Give reasons for the dependence on degree of inhomogeneity
- Determine the influence of the voltage shape
- Calculate ignition and breakdown voltages
Dimension and design insulating arrangements
- Uniform, weakly non-uniform and strongly non-uniform insulation arrangements in gases
- Arrangements of solids, transverse and longitudinal lamination
- Paper-oil insulation arrangements
Select and dimension switchgear and switchgear
- Select switching principle depending on the required functions
- Select a suitable arc extinguishing principle depending on the voltage shape and height

Type	Attendance (h/Wk.)
Lecture	2
Exercises (whole course)	2

none

Safety in the high voltage laboratory
- Compliance with safety distances
- Behavior in the test field
- Safety devices and systems
Basics of generation and measurement of high voltages
Discharge development in different gases in different electrode arrangements

Plan high voltage tests and perform them safely
- Analyze, modify and verify experimental setups
- Apply security rules
Use the electric field calculation tool and judge the accuracy of the results
Measure high voltages
- Apply and compare different measurement methods
- Calculate voltage ratio of measuring equipment
Measure ignition and breakdown voltages
- Record and evaluate test results
- Explain results with discharge models
- Justify and explain deviations from the theory
Manage complex tasks in a team
Summarize, evaluate and interpret results in written form

Type	Attendance (h/Wk.)
Exercises (whole course)	1