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where ST Microelectronics is, absolutely gorgeous natural scenery as well as fantastic working environment.
His Excellency Shri K. P. Fabian, Indian Ambassador to Finland, visits the Microelectronics Laboratory in the University of Oulu. The Dean of the Faculty is seen and my colleague, Professor Leppävuori, has his back to the camera. I am on the extreme left and Fabian is on the extreme right.
Intel Capital China team with newly invested chinese portfolio co. - Eazytec and Grand Chip Microelectronics.
Pictures from the NFC Innovation Day and the NFC Innovation Award Celebration at the Barbican, London; June 26th 2018. nfc-forum.org/events/nfc-innovation-day-london/
Telectronics "Guts" that were sealed in an Arco can to give Arco a competitive lithium pacemaker around 1978.
(c) David Prutchi, Ph.D.
The circuit was assembled by Telectronics in Australia using an integrated circuit manufactured by AWA Microelectronics (AWM)
Governor Maura Healey, Lt. Governor Kim Driscoll and Secretary of Economic Development Yvonne Hao join Massachusetts Technology Collaborative Executive Director Carolyn Kirk and other officials to announce $9.2 million in new technology and workforce development grants aimed at spurring the microelectronics and semiconductor industry across the Northeast Region during a visit from officials and members from the U.S. Department of Defense at the NEXUS Center in Lincoln on Jan. 30, 2024. [Joshua Qualls/Governor’s Press Office]
Telectronics "Guts" that were sealed in an Arco can to give Arco a competitive lithium pacemaker around 1978.
(c) David Prutchi, Ph.D.
The circuit was assembled by Telectronics in Australia using an integrated circuit manufactured by AWA Microelectronics (AWM)
www.speedapcb.com/large-small-pcb.html
Nowadays, the reduction of the size of the basic printed circuit board will reach half or the quarter of the original size. The extremely thin wires that designers couldn't use before are now the mainstream, and the thinnest wire with 75 micrometers (3 mils) has gradually been reduced to 30 micrometers (1.2 mils) or even thinner.
Manufacturers of a sophisticated microcircuit can be divided into four groups. The first group is in the Asian area, which has developed the unique thin wire process for phones or iPods and can arrange wires of 40-50 micrometers. The second group consists of the research and development companies of limited numbers which produce small numbers of very professional circuits with thin wires of less than 40 micrometers.
The third group is expanding its business of large and medium-sized PCB with the highest speed. They provide a little output with wires of 75-40 micrometers in width, and they can produce several thousand within weeks. At last, the fourth group produce PCB normally with the wires of 125-75 micrometers and includes a large number of manufacturers and participants.
As the microelectronics business expands, more and more PCB companies find out the necessary technology in producing the very thin wires with a width of 40 micrometers, and even less than it, circuit designers need to be familiar with the new design rules and the merits and demerits of microelectronics manufacturing.
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All kinds of PCB design service including multilayer, rigid, flexible, and rigid-flexible PCB
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Advanced component packaging and library creation, including BGA, QFN packaging
High-speed PCB design, including differential pairs, length matching, etc.
High expertise in critical and sensitive signal routing in analog and digital circuits
PCB Reverse Engineering Service
Redesign services to correct defects or optimize existing PCB designs to reduce costs
PCB model making
PCB manufacturing
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Telectronics "Guts" that were sealed in an Arco can to give Arco a competitive lithium pacemaker around 1978.
(c) David Prutchi, Ph.D.
The circuit was assembled by Telectronics in Australia using an integrated circuit manufactured by AWA Microelectronics (AWM)
Gallium literally melts in your hand. It’s soft, glass-like, silvery, and has a melting point of 29.76 degrees Celsius—which is just above room temperature, so it will pool in your hand like liquid silver. As a solid, Gallium is brittle and an even poorer electrical conductor than lead. It’s mainly used in microelectronics, medical thermometers, in semiconductor production for laser diodes and solar panels, and it also makes brilliant mirrors—but elemental Gallium doesn’t exist in nature. It’s just a byproduct of aluminium and zinc, so don’t go out panning for it.