Used AST / JETEC Fanjet H956 #293619514 for sale

AST / JETEC Fanjet H956
ID: 293619514
Vintage: 2012
System 2012 vintage.
AST / JETEC Fanjet H956 is an advanced other wafer processing equipment developed to provide highest quality, reliable and cost-effective production of non-semiconductor wafers for the optoelectronics, MEMS, and biomedical industries. The H956 Fanjet is a fully-automated, lithography-based, multi-process tool designed to facilitate the manufacturing of or a wide range of next-generation wafer products, including advanced devices such as polyimide, silicon-on-glass (SOG), and organic light emitting diodes (OLEDs). The system consists of two main components - the main process unit and the control unit. The main unit of the machine contains an effective 5-axis servo unit that allows the wafer to be precisely manipulated during the process. The machine features an automated chucking arm, which means that the user can easily switch out the main chuck to accommodate different types of wafers with minimal downtime. It also has an optimized jet-surface cleaning tool, which ensure that the wafers are accurately processed with minimum contamination. The H956 is controlled by a fully integrated PC based control asset offering easy access from a standard PC. Video monitoring and data logging are also available. The control model includes a complete set of graphic displays, sensors, and calibrations, helping to ensure the user's process parameters stay within their design specification. The equipment also comes with advanced diagnostics, reporting and management software to quickly analyze and troubleshoot system problems. The software also provides detailed reports for data analysis and quality assurance purposes. The H956 Fanjet is well-suited for a wide range of semiconductor and non-semiconductor applications including circuit defects, MEMS device development and optical devices. Its high precision and accuracy, combined with its automated operation, make it an ideal choice for large-scale projects requiring low waste and high repeatability.
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