Used TEL / TOKYO ELECTRON MARK II #9128576 for sale

TEL / TOKYO ELECTRON MARK II is a photoresist equipment that uses a combination of visible light lithography and positive photoresist to create microstructures in a wide range of materials. The system includes a scanner, an optical alignment unit, and a mono-block exposure module. The optics on the optical alignment machine can rotate freely around the object, allowing complex patterns to be written with a range of different angles and exposure times. The optical scanner moves the object within a slit in the scanner, allowing for a controlled position relative to the optical alignment tool. The beam profile of the laser is adjustable, allowing for easy adjustment of laser power, focus, and direction. The exposure module consists of a UV lamp and a quartz window, which is porous and allows UV radiation to pass through. The UV lamp produces very precise radiation, which is used to accurately expose the photoresist material to create the desired microstructures. The quartz window helps reduce the effect of environmental factors on the exposure process. The asset uses a dedicated line of photoresists for the preparation of microstructures. The photoresists can be applied to a range of substrates, including glass, silicon, and other materials. This makes them ideal for a wide range of applications. TEL MARK II model is used in a variety of industries to create intricate and precise microstructures. It is used to create items such as electrodes, filters, microchips, circuit boards, and other components. It is also used to create prostheses and other medical devices. By exposing photosensitive material with a very precise light source, the equipment enables complex structures to be created. Overall, TOKYO ELECTRON MARK II photoresist system is an advanced tool used to create precise microstructures. It consists of an optical scanner, an alignment unit, and an exposure module. The machine is used to create items such as electrodes, filters, microchips, circuit boards, and prostheses. It is essential to many industries for its ability to produce high-quality microstructures.