Young talents
Students and pupils have always played an important role with us.
Young talents
Students and pupils have always played an important role with us.
Young talents
Students and pupils have always played an important role with us.
Young talents
Students and pupils have always played an important role with us.
Young talents
Students and pupils have always played an important role with us.
Young talents
Students and pupils have always played an important role with us.
Young talents
Students and pupils have always played an important role with us.
Young talents
Students and pupils have always played an important role with us.
Young talents
Students and pupils have always played an important role with us.
Students and pupils have always played an important role with us.
Young talents
Students and pupils have always played an important role with us.
Young talents
Students and pupils have always played an important role with us.
practical semester
Web interfaces for microcontroller-based measuring devices
Our measurement devices are to be operated directly in the browser via web interfaces in the future, instead of through installed software tools. Initial projects in this area have been successful and received positively by customers. However, the manual creation of the web pages is time-consuming. The goal is therefore to find a suitable web framework that makes development more efficient – considering the limited resources of our microcontrollers and lack of internet connection.
As part of a practical semester, a systematic pre-selection of suitable web frameworks will be made that are suitable for use on resource-constrained microcontrollers. The particular challenges lie in:
the limited processing power and storage capacity of the hardware
the often missing access to an internet connection
the necessity to provide the web interfaces locally and performantly
Subsequently, prototypical web interfaces will be developed with two to three selected frameworks and tested on our existing microcontroller hardware. The aim is to evaluate the advantages and disadvantages of the respective frameworks in terms of performance, memory requirements, development effort, and user-friendliness.
Our measurement devices are to be operated directly in the browser via web interfaces in the future, instead of through installed software tools. Initial projects in this area have been successful and received positively by customers. However, the manual creation of the web pages is time-consuming. The goal is therefore to find a suitable web framework that makes development more efficient – considering the limited resources of our microcontrollers and lack of internet connection.
As part of a practical semester, a systematic pre-selection of suitable web frameworks will be made that are suitable for use on resource-constrained microcontrollers. The particular challenges lie in:
the limited processing power and storage capacity of the hardware
the often missing access to an internet connection
the necessity to provide the web interfaces locally and performantly
Subsequently, prototypical web interfaces will be developed with two to three selected frameworks and tested on our existing microcontroller hardware. The aim is to evaluate the advantages and disadvantages of the respective frameworks in terms of performance, memory requirements, development effort, and user-friendliness.
Thesis (Master's thesis)
Development of GaN power electronics
As part of this master's thesis, a power electronics system based on GaN will be developed, which can be used for testing 48V systems.
What can you expect?
You will analyze and define the requirements for this system.
You will deal with the selection and sizing of suitable semiconductors.
The goal is to create a functional first prototype, from the layout to the functional test.
You will verify your results through measurements on the prototype and compare them with your calculations.
What do you bring with you?
Studies in electrical engineering, mechatronics, physics, or a comparable degree.
Solid knowledge in power electronics.
Analytical thinking skills and a structured approach to work.
Ability to work in teams and take initiative.
Passion for innovative technologies.
As part of this master's thesis, a power electronics system based on GaN will be developed, which can be used for testing 48V systems.
What can you expect?
You will analyze and define the requirements for this system.
You will deal with the selection and sizing of suitable semiconductors.
The goal is to create a functional first prototype, from the layout to the functional test.
You will verify your results through measurements on the prototype and compare them with your calculations.
What do you bring with you?
Studies in electrical engineering, mechatronics, physics, or a comparable degree.
Solid knowledge in power electronics.
Analytical thinking skills and a structured approach to work.
Ability to work in teams and take initiative.
Passion for innovative technologies.
Do you want to apply for an internship, a thesis or a student job?
then send us your application at jobstart@irs.systems
Do you want to apply for an internship, a thesis or a student job?
then send us your application at jobstart@irs.systems
Do you want to apply for an internship, a thesis or a student job?
then send us your application at jobstart@irs.systems
Are you looking to apply for an internship, a thesis, or a student job?
Then send us your application at jobstart@irs.systems