At a glance
- System modelling: You will support the simulation of an inverter system using PLECS and MATLAB
- System Verification: You will perform Testbench Measurements and understand the impact of different modulation schemes and conduct an Efficiency study on different control algorithms and switching frequencies
- Simulation environment: You will support the system simulation activities within the system application teams
- Be creative: You create communication material, process concepts, and prepare data visualizations
- Teamwork is dreamwork: You support the team with your profound analysis and results which will trigger further system design activities
|
At a glance
- Design of analog & mixed signal building blocks to meet the requirements
- Verification of analog circuits by building test benches and running simulations using state-of-the-art simulation tools
- Follow-up of the layout phase until mask release
- Automate analog verification using dedicate tools as part of your learning experience
- Support other functions: circuit layout, concept engineering, post silicon test development, verification and product qualification
|
In your career, let’s prove what’s possible.
- Literature search and market screening of project-relevant wet processes
- On-wafer process performance data collection
- Application of analytical techniques for wafer surface characterization
- Development of a model/script to predict how process tuning knobs impact on-wafer performance
|
At a glance
- Align the required measurements with the project team
- Plan and prepare measurement hardware environment and program automated measurement procedures
- Execute the verification measurements to reach full test coverage oft he products functionalities
- Illustrate the results and documentation of the measurement setup
- Report the measurement results to the project team
- Work with a very nice and experienced team
- Mainly work in a laboratory environment
|
Ihre zukünftigen Aufgaben bei uns:
- Technologische Entwicklung der Stromnetze im Hinblick auf die Herausforderungen der Energie- und Verkehrswende
- Analyse, Auswertung und Prüfung planungsrelevanter Netzdaten
- Netzberechnungen im Hoch- und Mittelspannungsnetz
- Weiterentwicklung der Netzberechnungstools in Matlab
- Mitarbeit in Projektgruppen
|
Vollzeit | Teilzeit | Praktikum
Deine zukünftigen Aufgaben bei uns:
-
Anpassung und Weiterentwicklung eines bestehenden Netzmodells im Hinblick auf die Anforderungen der Systemführung 2.0 -
Evaluierung von bestehenden und zukünftigen Möglichkeiten hinsichtlich Flexibilitätsmanagement -
Analyse von Einspeise- und Lastverhalten in relevanten Netzabschnitten
|
At a glance
- Assist engineers in system board design and verification of high power density and innovative solutions in DCDC power conversion
- Build evaluation kits and perform system function verification and testing
- Prepare design documentation, application notes and getting started guides for various solutions developed
- Acquire knowledge and methodology in system design, trouble shooting and analysis
- Analyze test results and document the outcomes
- Collaborate and contribute to development projects
|
At a glance
- Get experience with Mixed-Signal High Speed, RF and mmWave and Integrated Circuits.
- Get experience with measurements related to High-Speed PLLs and Data Communication: Jitter, Eye Diagram, BERT.
- Get experience with high-end RF/mmWave measurement equipment.
- Get hand-on experience in Validation and Debugging.
- Design of PCBs for the measurement of products
- Prototype and evaluate new tools and methodologies.
- Familiarize yourself with Validation flow: definition of appropriate measurement setup, automation, data post-processing and analysis.
|
At a glance
- Perform top-level verification of mixed-signal IP modules or subsystems
- Focus on converter, clocking, high speed interfaces and power management
- Participate to innovation projects in the field of AI/Machine Learning with focus on automation of the mixed-signal verification working flow
- Work close with design and concept in order to achieve very high quality deliveries
- Constantly align with digital and post silicon counterparts to achieve highest synergies in targets, implementation and methods
|
At a glance
- Design of analog & mixed signal building blocks to meet the requirements
- Verification of analog circuits by building test benches and running simulations using state-of-the-art simulation tools
- Follow-up of the layout phase until mask release
- Automate analog verification using dedicate tools as part of your learning experience
- Support other functions: circuit layout, concept engineering, post silicon test development, verification and product qualification
|
In your career, let’s prove what’s possible.
- Accountable for development, verification and documentation of fluid delivery systems to meet the systems specifications
- Provides concepts and technical designs for chemical fluid systems based on modeling & calculation data
- Accountable that system meets all engineering requirements regarding Compliance and Safety Standards
- Clarification of fluid delivery requirements
- Owns execution of BOM and documentation release plan
- Technical response to meet all interface requirements with other modules and environment
- Prepare all required deliverables based on product development plan (e.g. FMEA, technical specifications, risk analyses)
- Close relationship to our suppliers an internal departments to ensure that we receive high quality-, well tested and cost saving solutions for our technical needs
- Performs engineering data analysis of mechanical and electrical aspects of the system by using of appropriate methods and tools (e.g. MATLAB, LabVIEW …)
|
At a glance
- Conduction of literature reviews on quantum sensing and SiC color-center-defect technologies
- Development and implementation of simulation models to predict sensor performance
- Investigation of novel quantum centers for quantum sensing, device simulation, implementation, characterization, system architecture, and fabrication
- Analysis of data to identify key parameters influencing sensor performance.
- Collaboration with researchers and engineers to refine sensor designs
- Documentation and presentation of findings to both technical and non-technical audiences
|
