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www.us - tech.com


Nov/Dec, 2022


Automated Single Wafer Ashing of Compound Semi-conductors


Continued from page 55 As more semiconductor


device fabrication continues to ramp up globally to meet an insa- tiable demand for chips, the need for control, efficiency, and config- urable solutions for wafer ashing will continue as the chips them- selves increase in complexity and decrease in size. Automated, sin-


gle-wafer micro wave plasma sys- tems provide chip fabricators with targeted and configurable ashing that meets the needs of an increasing array of wafer types. Contact: PVA TePla


America, Inc., 251 Corporate Terrace, Corona, CA 92879 % 951-371-2500


Web: www.pvateplaamerica.com r


Strip Series B300


Powerful, Fast, and Intuitive Stripping Machine


The B300 opens up new possibilities for fast and reliable stripping of cables with cross- sections from 32 to 8 AWG. Repeat accuracy, mechanical precision and short working cycles ensure high productivity in common strip applications. And the new ergonomic machine design and revised user interface offers unrivaled ease of use.


    


 Compact modular design


High-resolution 5” color touch screen Fast and intuitive operation


LED lighting for clear view of work area


Highly sensitive trigger mechanism - ideal 


High process reliability due to permanent 


Wire Solutions for a Connected World


3D-MID Enables Today’s Continued from page 56


process steps under one roof, cus- tomers benefit from Swiss-made quality. With 3D-MID technology,


there are virtually no limitations for designers. This opens up a world of possibilities and poten- tially huge savings for manufac- turers and consumers alike. By combining mechanical and elec- trical hardware, the design and creation of electronic devices with very complex functions become easier and much more affordable. Because of its adaptability,


mechatronics can be used in an ever-expanding variety of med- ical applications, ranging from bed positioning systems to robot- ic surgical equipment.


schleuniger.com


Medical Devices In the last few years, 3D


printing has accelerated many advancements in the world of medicine, with millions of people


Miniaturized Medical Devices benefiting from components and devices created with ease. And now, 3D-MID is poised to change the face of medicine forever. This technology takes all


these advancements one giant step further by using mechatron- ics to create devices with an even wider range of electronic func- tions that fit in the smallest of spaces.


Mechatronics allow for the


extreme downsizing or miniatur- ization of medical applications, enabling examination, sensing, and monitoring from within the patient.


With such technology, med-


ical devices can be designed to be much less invasive, leading to a significant


improvement in


patient care. With its many years of experience — HARTING started its activities in this field in 2003 — the team is familiar with the requirements of the medical market. Numerous series production projects con- firm this. Taking large medical machines and devices and put- ting them into a more compact package is a big part of what 3D circuits bring to the table. It offers significant improvements to changing how medical devices are used today. One of the most important


benefits of this technology is that it makes these advances possible without sacrificing quality. You may think that shrinking a med- ical device down would make it less powerful or effective, but with 3D-MID, that isn’t the case at all. In fact, as 3D circuits contin-


ue to grow in popularity, it will only get better, opening up new options for even smaller and more effective medical devices, from hearing aids and implants to sur- gical and dental instruments.


Benefits of 3D-MID Miniaturization is one of the


most critical trends in healthcare that affects how mechatronics technology is used. The develop- ment of ever-smaller instru- ments, devices, and equipment enables less invasive treatment


Continued on page 60


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