Executive snapshot
- Experience: über 4,5 Jahre
- Seniority: Professional
- Work mode: nach Absprache
- Availability: nach Absprache
- Region: Deutschland / EU
- Focus: Automotive, Leistungselektronik, Embedded Systems, Electronics
At a glance
Profile ID
DP-00398
Role
Hardware Development, Power Electronics, Embedded Systems
Seniority
Professional
Experience
über 4,5 Jahre
Work mode
nach Absprache
Availability
nach Absprache
Region
Deutschland / EU
Languages
Deutsch (B1), English (Fließend)
Engagement models
Festanstellung, Projektarbeit
Indicative rate
nach Absprache
Short profile
Experienced Hardware Development Engineer with over 4.5 years of expertise in power electronics, particularly in the development of DC-DC converters and the modeling of magnetic components. Specialized in multilayer PCB layout using Altium Designer and digital control of Buck, Boost, and SEPIC topologies. Proven track record in developing precise loss models and automating hardware test environments with Python and MATLAB. Possesses in-depth knowledge of the automotive sector.
Focus (domains)
AutomotiveLeistungselektronikEmbedded SystemsElectronicsEmbedded
Core skills
DC-DC-Wandler-EntwicklungModellierung magnetischer BauteileMultilayer-PCB-LayoutDigitale RegelungVerlustmodellierungHardware-TestautomatisierungFrequenzganganalyseRegelkreisstabilitätSPICE-SimulationenEmbeddedFirmwareHardwareMATLABPythonSimulinkE-Mobility / Automotive / Industrial ElectronicsEmbedded Systems
Tools & technologies
Altium DesignerMATLABSimulinkPLECSLTspiceCadence SpectreAnsys Q3DFEMMCC++PythonVerilog-ATI C2000STM32 ARMAVROszilloskopMultimeterLötstationLabornetzteilElektronische LastPCB-FräseMessgeräte für LeistungselektronikWerkzeuge zur Komponentenprüfung und Fehlersuche
Track record & project highlights
Analytical modeling of a 12V-1.8V DC-DC Buck converter with over 98% agreement to SPICE simulations, including extraction of PCB and package parasitics with Ansys Q3D and validation in Cadence Spectre. Development, construction, and validation of Buck, Boost, and SEPIC converters with analog compensation, as well as analysis of control loop stability using frequency response analysis. Multilayer PCB design for battery chargers (CC/CV), LLC, and Boost converters in an automotive environment. Automation of hardware test environments to increase efficiency and improve measurement accuracy.
