TY - UNPB

T1 - Novel Concept for Micro-Assembly of Optical Devices Using a Planar Motor System

AU - Terei, Niklas

AU - Binnemann, Lars

AU - Raatz, Annika

PY - 2024

Y1 - 2024

N2 - Research and Development in recent years has led to first commercially available, magnetically levitated planar motor systems. Considering the advantages of such systems, they perfectly fit as a substitute for multi-axis fine positioning stages in high-volume productions. To address the need for solutions for high-volume packaging of optical devices, we present a novel concept for a micro-assembly station using a planar motor. To qualify a novel, vacuum-operatable planar motor system for our design, we conducted experiments regarding positioning repeatability, positioning noise, and dynamics on a pre-series system.

AB - Research and Development in recent years has led to first commercially available, magnetically levitated planar motor systems. Considering the advantages of such systems, they perfectly fit as a substitute for multi-axis fine positioning stages in high-volume productions. To address the need for solutions for high-volume packaging of optical devices, we present a novel concept for a micro-assembly station using a planar motor. To qualify a novel, vacuum-operatable planar motor system for our design, we conducted experiments regarding positioning repeatability, positioning noise, and dynamics on a pre-series system.

U2 - 10.15488/16411

DO - 10.15488/16411

M3 - Preprint

BT - Novel Concept for Micro-Assembly of Optical Devices Using a Planar Motor System

ER -