Used DNS / DAINIPPON 80A #9235788 for sale

DNS / DAINIPPON 80A
Manufacturer
DNS / DAINIPPON
Model
80A
ID: 9235788
Wafer Size: 6"
Vintage: 1993
System, 6" 1993 vintage.
DNS / DAINIPPON 80A is a photoresist equipment developed by DNS Screen Manufacturing Co. Ltd., specifically designed to help users create high-precision patterns on substrates such as silicon, glass, and gallium arsenide. The system uses a "graft" or "amplitude" technique, where a light source is directed vertically through a thin metal layer to transfer layer data into the photoresist layer. DNS 80A unit combines two separate types of photolithographic imaging, single-etch and dual-etch, which allows users to produce high-precision patterns with excellent accuracy and reliability. Single-etch processing is ideal for patterning large areas, such as graphics or figures, while dual-etch processing produces finer structures, such as circuits or other small shapes. The photoresist is a special type of light-sensitive material that coats the surface of the substrate, and controls the amount of selective etching by blocking areas that should not be etched. The photoresist layer is then exposed to light from a photomask or drawing board, and will resist where light is blocked, while etching away any areas exposed to the light. The machine utilizes advanced optical and imaging technology to precisely etch the desired pattern, accurately forming intricate patterns at resolutions as small as 0.1 microns. The precision and accuracy of the tool are further improved through advanced software and computerized etching. The photoresist asset also produces consistent results between batches, making it a reliable and cost-effective method of creating small, intricate patterns and designs. This model is often used in the fields of photolithography, integrated circuit fabrication, and medical device engineering. In conclusion, DAINIPPON 80A photoresist equipment is a reliable, cost-effective solution for producing high-precision patterns on various substrates. The system is precise, accurate, and produces consistent results, making it ideal for small-scale fabrication of products such as integrated circuits, medical devices, and light-sensitive instruments.
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