Silver-ink tracks features deposited through piezoelectric Drop-on-Demand printing, thanks to an innovative state-of-art printer, are described. Precise printing-trajectories are implemented to limit track-width and to increase thickness with the purpose of manufacturing high-conductivity spirals in order to create inductors for Very High Frequency power transfer applications. More layers are deposited onto polyimide without provoking noticeable track-width variations. The described printing methodology enabled a rapid and effective thickness increase, essential to manufacture high quality components characterized by low values of sheet resistance together with high values of quality factor.
Manufacturing of silver-ink micrometer inductors through multilayer DOD printing for VHF Power Transfer
Barbalace, G;Natali, D;
2022-01-01
Abstract
Silver-ink tracks features deposited through piezoelectric Drop-on-Demand printing, thanks to an innovative state-of-art printer, are described. Precise printing-trajectories are implemented to limit track-width and to increase thickness with the purpose of manufacturing high-conductivity spirals in order to create inductors for Very High Frequency power transfer applications. More layers are deposited onto polyimide without provoking noticeable track-width variations. The described printing methodology enabled a rapid and effective thickness increase, essential to manufacture high quality components characterized by low values of sheet resistance together with high values of quality factor.| File | Dimensione | Formato | |
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Manufacturing_of_silver-ink_micrometer_inductors_through_multilayer_D.O.D._printing_for_VHF_Power_Transfer.pdf
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