Implications of MPG (Medizinproduktegesetz) on circuit design
Electronics for medical diagnostics and therapy
Circuit design of standard medical equipment ECG, EEG, EMG, SpO2
Circuit technology for vital sensors
Circuit technology for impedance spectroscopy
Circuit technology for impedance tomography
Circuit technology for microwave/mm-wave spectroscopic sensors
Electronic Systems for AAL (Ambient Assisted Living)
Electronic Systems including MEMS (Micro ElectroMechanical Systems) components
Circuit technology around MEMS "Lab-on-chip”
Circuit technology for implants
Electronic circuits around „Smart Textiles"
Body near energy harvesting
Substantial knowledge on principles for the circuit design of medical electronic devices
Ability to analyze circuit diagrams of medical electronic devices
Ability to separate medical electronic devices into its subfunctions
Ability to analyze energy budget of medical sensors and circuits with body near electronics
Basic ability to design electronic circuits to comply with obligations by MPG
Substantial knowledge on circuit design for standard medical devices e.g., ECG, EEG
Substantial knowledge on circuit technology for impedance spectroscopy and tomography (EIT)
Substantial knowledge on circuit design rules for micro/mmwave medical sensors
Substantial knowledge on circuits including microelectromechanical systems (MEMS) components