Described here are embodiments of processes and systems for the continuous manufacturing of implantable continuous analyte sensors. In some embodiments, a method is provided for sequentially advancing an elongated conductive body through a plurality of stations, each configured to treat the elongated conductive body. In some of these embodiments, one or more of the stations is configured to coat the elongated conductive body using a meniscus coating process, whereby a solution formed of a polymer and a solvent is prepared, the solution is continuously circulated to provide a meniscus on a top portion of a vessel holding the solution, and the elongated conductive body is advanced through the meniscus. The method may also comprise the step of removing excess coating material from the elongated conductive body by advancing the elongated conductive body through a die orifice. For example, a provided elongated conductive body 510 is advanced through a pre-coating treatment station 520, through a coating station 530, through a thickness control station 540, through a drying or curing station 550, through a thickness measurement station 560, and through a post-coating treatment station 570.La présente invention concerne des capteurs d'analytes et leurs procédés de fabrication, comprenant des capteurs d'analytes possédant une souplesse dans plusieurs axes. Par exemple, l'invention concerne un système de capteurs à électrodes multiples (800) comprenant deux électrodes actives et au moins une électrode de référence/contre-électrode. Le système de capteurs (800) comprend des premier et second corps allongés (E1, E2) formés chacun d'une âme conductrice ou d'une âme sur laquelle une couche conductrice est déposée, une couche isolante (810) qui sépare la couche conductrice (820) du corps allongé, une couche membranaire déposée sur le sommet des corps allongés (E1, E2), et des électrodes actives (802', 802'') formées par le retrait de parties de la couche conductrice (820) et de
