Long name	High Voltage Transmission Technology
Approving CModule	HSUT_MaET
Responsible	Prof. Dr. Christof Humpert Professor Fakultät IME
Organisation and materials	ILU course for High Voltage Transmission Technology
Level	Master
Semester in the year	summer semester
Duration	Semester
Hours in self-study	60
ECTS	5
Professors	Prof. Dr. Christof Humpert Professor Fakultät IME
Requirements	Basics of electrical engineering and electronics Basic understanding of electric fields in dielectrics
Language	German
Separate final exam	No

Overvoltages and insulation coordination
- Generation and categories of overvoltages
- Propagation of overvoltages
- Traveling waves
- Reflections
- Limitation of overvoltages
- Types of surge arresters
- Properties, structure and selection

Systems of high voltage transmission
- High-voltage AC transmission (HVAC)
- Optimal transmission voltage
- Structure and different types of switchgears, their properties and applications
- High-voltage DC transmission (HVDC)
- Advantages and disadvantages in comparison to HVAC
- Structure and operation of converter stations
- Cost comparison to HVAC systems
- HVDC grids

Equipment of high voltage transmission
- Circuit breakers
- Principle of operation
- Different Types and their applications
- Circuit breakers for HVDC
- Superconducting equipment (cables, current limiters)
- Principle of operation and applications
- Cooling technology
- Losses and costs

Determine the stresses of transmission systems
- Calculate operating voltages and overvoltages for a given voltage level
- Plan limitation of overvoltages
- Analyze and calculate traveling wave processes (refraction, reflection)
- Derive current carrying capacity and maximum losses

Determine business aspects
- Carry out investment cost comparison
- Perform operating cost comparison

Type	Attendance (h/Wk.)
Lecture	2
Exercises (whole course)	1

Deepening a specific problem in electrical engineering using a calculation example

Solve project task in the team
Compile the basics of a calculation software
Perform numerical calculations
Compare numerical results with analytical
Discuss results related to practical application
Summarize results in a report

Type	Attendance (h/Wk.)
Project	0

Generation and measurement of AC, DC and impulse voltages
Propagation and limitation of overvoltages

Plan high voltage tests
Dimension high voltage test circuits
Determine test criteria for components of high voltage technology
Summarize results in a report

Type	Attendance (h/Wk.)
Practical training	1