Used MUSASHI ENGINEERING FAD 2200 #131637 for sale
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MUSASHI ENGINEERING FAD 2200 is a PC board assembly and manufacturing equipment designed to meet the highest industrial standards. This fully automated system employs the latest in machine vision technologies to accurately inspect boards and determine defects, as well as programmable logic controllers (PLCs) to provide highly efficient and accurate assembly operations. The unit utilizes servo-driven robotics to move printed circuit boards (PCB) through the highly integrated workflow. The included vision machine scans and verifies the connection of components, detect shorts and open circuits, and inspects surface mount defects through full-color cameras. Error metrics captured by the tool are saved and can be used to further refine board assembly and manufacturing processes. The asset consists of two parts, the board loader and the board handler. The board loader, with it's patented PCB extraction mechanism, can handle PCBs in sizes up to 350mm. The included vision model employs 3D profiling and light measurement to inspect the centering of components along the PCB edge and ensures that components are placed at the correct angle. The board handler uses vision to pre-program the board's dimensions and then reliably place components onto the PCB. A micro fine vision equipment works in conjunction with the handler's nozzle to ensure accurate tip alignment and placement. A special safety mechanism is employed to ensure that the tooltips remain out of the line of fire during operation. The system is also able to produce simultaneous images in real time with the camera being able to retrieve still images as well as video. This is invaluable for machine vision applications such as validation during machine loading stages. FAD 2200 unit offers some of the most advanced automated assembly and manufacturing solutions available, designed to meet the highest industry standards. With industry leading precision, the machine bestows reliable, accurate, and efficient assembly with minimal operator involvement.
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