Used QUINTEL Q4000 #9375020 for sale

QUINTEL Q4000 is a highly advanced mask aligner equipment used for a variety of advanced photolithographic processes. It is designed to support multiple steps in the MEMS fabrication process, including photoresist baking, photomask creation, wafer preparation, etching, and post-process cleaning. QUINTEL Q 4000 is designed to enable users to achieve extremely precise and repeatable alignment and alignment accuracy, as well as superior throughput and accuracy in the fabrication of MEMS on various substrates. Q-4000's easy-to-use software allows for the design of intricate photomasks for complex MEMS structures, such as waveguides, integrated circuits, and molds. Moreover, the software is designed to optimise throughput of complex MEMS structures and simplify the production process. The precision of QUINTEL Q-4000's positioning is enabled by its highly advanced positioning system with 0.5 um alignment accuracy, with sub-micron precision achievable with modifications. It has a large field of view, with an X-Y travel range up to 40 mm by 40 mm and a Z travel range of up to 8 mm. Furthermore, it is equipped with an advanced auto focus unit that includes a 0.2 mm focus accuracy. For rapid throughput, Q4000 utilises a three-zone design with two 6 inch zones in the centre, and two 3.5 inch zones that can be adjusted for increased resolution. The different zones can be used to create multiple masks per wafer, allowing for superior throughput and cost savings for large-scale production. It is also equipped with a rapid alignment machine, for quick scan, set-up, and alignment. Finally, Q 4000 is designed to be expandable and upgradeable, with optional software modules that add functionality to the tool. It is compatible with several CAD platforms, allowing for rapid integration into any production environment. QUINTEL Q4000 is also designed to be cost-effective with high operational efficiency and low downtime. It is a great choice for manufacturers who require precision and reliability in the manufacturing of MEMS components.