Gonultas, Burak MertAygun, SacidKhayatzadeh, RaminCivitci, FehmiGokdel, Yigit DaghanYelten, Mustafa BerkeFerhanoglu, Onur2024-07-182024-07-182017978-1-5386-1813-4https://hdl.handle.net/11411/8675IEEE 22nd International Mixed-Signals Testing Workshop (IMSTW) -- JUL 03-05, 2017 -- Thessaloniki, GREECE3D-printed dynamic structures have arisen as a lower cost and easier to fabricate alternative to miniaturized sensor and actuator technologies. Here, we investigate the reliability of a selected 3D-printed laser scanner, which was initially designed for miniaturized confocal imaging, having 1 x 1 cm' footprint. The scan-line, 1 resonant frequency and quality factor of 3 devices were monitored for 100,000,000 (hundred million) cycles, and an average deviation of <6% was observed for all three parameters under investigation, for the devices under test. We conclude that 3D printed dynamic structures are promising candidates for a variety of applications, including optomedical imaging applications that demand disposable and low-cost scanning technologies.eninfo:eu-repo/semantics/closedAccess3d-Printed ScannerPerformance EvaluationUsabilityMicroscannerCircuitsConference Object2-s2.0-85028570009N/AN/AWOS:000463822100005