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www.us-tech.com
June, 2018 MIRTEC Displays
3D AOI and Quality Management Software
Oxford, CT —MIRTEC Europe is dis- playing its lineup of 3D AOI systems, the MV-6 OMNI and MV-3 OMNI, as well as its total quality management system software, INTELLISYS, at SMT Hybrid Packaging. The MV-6E OMNI and the MV-
3 OMNI are configured with the com- pany’s exclusive OMNI-VISION® 3D inspection technology, which com-
grated new blue LED moiré system enables an accurate measurement of components with reflecting surfaces. With the compact design of both sys- tems the customer saves valuable space in the production line. In order to fulfill the require-
ments of Industry 4.0, customers must have software tools to track and control their manufacturing
MV-3 OMNI 3D AOI system.
bines its 15 MP ISIS vision system with a digital multi-frequency eight- projection 3D system to provide pre- cision inspection. The 15 MP top camera and four
18 MP side cameras guarantee a spa- tial check of complicated components and a secure testing of lifted leads and J-leaded components, as well as text recognition on leaded devices. The eight-phase color light enables a clear recognition of lifted leads and solder joint inspection. Beyond that, all MIRTEC AOI systems are equipped with a telecentric lens for a distortion-free image magnification. CoaXPress data transfer tech-
nology increases the inspection speed by about 40 percent compared with the camera link technology. The inte-
processes. MIRTEC’s total quality management system software, INTELLISYS, promotes continuous process improvement by allowing manufacturers to track and elimi- nate defects on inspected assemblies. As simplified AOI programming
of new PCBs becomes more and more important in the electronics indus- try, MIRTEC customers can benefit from the new auto teaching tool (ATT), which provides programming of new PCBs with a single click. Contact: Mirtec Corp., 3 Morse
Road, Oxford, CT 06478 % 203-881-5559 fax: 203-881-3322 E-mail:
bkdamico@sbcglobal.net Web:
www.mirtecusa.com
See at SMT Hybrid Packaging, Booth 4A-140
Building Fiber Optic Strain Sensors into Metal Components
Continued from page 66
For example, sensor use is made eas- ier by building fiber terminations/ connectors into the part directly. Metal-coated fibers are also of inter- est, due to their high operating tem- peratures. Lastly, other metal matrix alloys and applications are being evaluated in conjunction with EWI additive manufacturing group.
This project was supported by
NASA’s SBIR office, NNX16CL33C, NASA’s Convergent Aeronautics Solutions (CAS) Program Digital Twin Project, and by Sheridan Solutions. Contact: Fabrisonic, LLC, 1250
Arthur E Adams Drive, Columbus, OH 43221 % 614-688-5197 E-mail:
info@fabrisonic.com Web:
www.fabrisonic.com r
References: 1. N. Saheb and S. Mekid, “Fiber-Embedded Metallic Materials: From
Sensing towards Nervous Behavior,” Materials, vol. 8, no. 11, pp. 7938-7961, 2015.
2. A. Hehr, M. Norfolk, J. Wenning, J. Sheridan, P. Leser, L. Patrick, and
J. A. Newman, “Integrating Fiber Optic Strain Sensors into Metal Using Ultrasonic Additive Manufacturing,” JOM, 2017.
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