This PhD position on a highly accurate, high bandwidth piezo driver for lithography and metrology is part of a larger multi-disciplinary project named:
'Advanced piezo-electric wafer stage for next generation lithography and metrology applications'.In this project, in collaboration with the industrial partner ASML, in total four PhD candidates are aiming to demonstrate the feasibility of an advanced moving stage for holding silicon wafers in which light-weight and compact piezo-electric actuators are used. To enable the required high accuracy and speed, a new highly accurate piezo driver is required which shall provide an unprecedented positioning bandwidth.
The PhD candidate will investigate piezo crystals and develop the required power electronics as part of a positioning demonstrator system. The target is to make a sub-nanometer accurate positioning system featuring ppm level noise isolation from its environment. To do so, the deflection of the piezo crystal shall be linearized and the position loop bandwidth needs to be maximized. The candidate shall be able to tackle the physics of the piezo crystal, design self-sensing control, minimize piezo hysteresis, and implement the crystal-sensor-amplifier system in hardware to verify the design by measurement.
The PhD candidate will be based in the Electromechanics and Power Electronics (
EPE) group in the Electronical Engineering department and will collaborate intensively with the other three PhD candidates in the project at the Electrical Engineering (optical and control systems) and Mechanical (system engineering) Departments as well as researchers of the industry.
The project, in collaboration with the industrial partner ASML, is also supported by the Eindhoven Engine, innovator accelerator in the Brainport region.
https://eindhovenengine.nl/ongoing-projects/advanced-piezo-electric-wafer-stage/Electromechanics and Power Electronics group The EPE-group research activities span all facets of Electromechanics and Power Electronics,
in particular advanced mechatronics systems with magnetically levitated linear and planar actuators, multi-level power converters and high-precision power amplifiers. The EPE group
has a state-of-the-art 650m2 laboratory with multiphysical measurements (electrical, magnetic, and thermal):
It is a world leading group in the field of multiscale modeling and design techniques for high-precision electromagnetic motion systems with extreme dynamic performance indexes (accelerations, velocities, accuracy). The group carries out both fundamental and applied research and has many research collaborations with industrial partners. The group consists of
50 people of which 20 PhD students, 5 PostDocs, and 4 PDEng students.