iSmithers Rapra Publishing has announced the release of Polymer Electronics – A Flexible Technology.
The newest EMI absorbers from 3M are for applications requiring EMI control and signal integrity improvement in the 50MHz to 10GHz range. Common uses include reduction of noise and crosstalk inside mobile electronics, re...
Building on its established reputation for market leading etch hardware, the team at Oxford Instruments Plasma Technology (OIPT) has developed an evolution of its System 133 RIE-ICP380 tool.
3M has built on its history of innovation in OEM tapes to create the new 3M Multifunctional EMI/RFI Absorber and Shielding Tape AB6005 series. Combining EMI absorbing and shielding in a single tape makes this series of t...
Plastic that conducts electricity holds promise for cheaper, thinner and more flexible electronics. This technology is already available in some gadgets - the new Sony walkman that was introduced earlier this summer and the Microsoft Zune HD music player released last week both incorporate organic light-emitting electronic displays.
t already achieves an optical output of 50 mW and emits light in true green with a wavelength of 515 nm. Compared with semiconductor lasers based on current technology that operate with frequency doubling, direct emitting green lasers are more compact, offer greater temperature stability, are easier to control and have higher modulation capability.
These products are used primarily as motor start or motor run capacitors, particularly in the single-phase asynchronous motors of household appliances, air-conditioning systems, compressors, pumps, and other drives.
Today, scientists at IBM Research (NYSE:IBM) and the California Institute of Technology announced a scientific advancement that could be a major breakthrough in enabling the semiconductor industry to pack more power and speed into tiny computer chips, while making them more energy efficient and less expensive to manufacture.
Theorists in the field of molecular electronics hope to get around the problem of Newtonian Physics by designing components out of a single molecule. Pandey's group has done just that—theoretically—by modeling a single-molecule field-effect transistor on a computer.
Tunable lasers rely on the performance of a micropositioning or nanopositioning actuator to position a diffraction grating with extreme precision and repeatability. Noliac provides low voltage actuators, high flexibility...
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