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Increasing Automotive Safety Through Embedded Radar Technologies

In response to a need for active and predictive safety systems within the automotive sector, semiconductor suppliers are developing innovative radar-based embedded solutions. These next-generation technologies present unique capabilities for designers of Advanced Driver Assistance Systems (ADAS), enabling life-saving safety features as well as compliance with the latest regulatory standards.

Posted in: Semiconductors & ICs, White Papers

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Optimum Fastener Selection for Internal Pumping in Vacuum Systems

The use of fasteners inside of vacuum chambers, while necessary for obvious reasons, can present a number of problems resulting from trapped volumes. Trapped volumes of gas, typically air trapped during assembly, within vacuum chambers are not easily found and can be difficult to pump out, often appearing later as “virtual leaks”. Fasteners also, due to their helix design, have a large surface area relative to their size, creating an un-exposed water-retaining surface. Fortunately there are optimal fastener configurations that address these issues.

Posted in: Semiconductors & ICs, White Papers

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NASA Rocket Mission Will Predict Earth's Electrical Storms

A NASA-funded sounding rocket mission will launch from an atoll in the Pacific. The mission will help scientists better understand and predict the electrical storms in Earth's upper atmosphere. Storms interfere with satellite communication and global positioning signals.

Posted in: Semiconductors & ICs, Homepage

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Record Efficiency for Next-Generation Solar Cells

Researchers from the University of Toronto (U of T) and King Abdullah University of Science & Technology (KAUST) have made a breakthrough in the development of colloidal quantum dot (CQD) films. The researchers created a solar cell out of inexpensive materials that was certified at a world-record 7.0% efficiency.

Posted in: Solar Power, Energy Efficiency, Renewable Energy, Semiconductors & ICs, Nanotechnology, News

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Detecting Contaminants in Water

Many organic contaminants in the air and in drinking water need to be detected at very low-level concentrations. Research published by the laboratory of Prashant V. Kamat, the John A. Zahm Professor of Science at the University of Notre Dame, could be beneficial in detecting those contaminants.

Posted in: Environmental Monitoring, Metals, Sensors, Detectors, Semiconductors & ICs, News

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Verilog-A Device Models for Cryogenic Temperature Operation of Bulk Silicon CMOS Devices

These models can be used in cryogenic electronics applications such as cooled imagers and sensors, medical electronics, and remote sensing satellites. Verilog-A based cryogenic bulk CMOS (complementary metal oxide semiconductor) compact models are built for state-ofthe- art silicon CMOS processes. These models accurately predict device operation at cryogenic temperatures down to 4 K. The models are compatible with commercial circuit simulators. The models extend the standard BSIM4 [Berkeley Short-channel IGFET (insulated-gate field-effect transistor ) Model] type compact models by re-parameterizing existing equations, as well as adding new equations that capture the physics of device operation at cryogenic temperatures. These models will allow circuit designers to create optimized, reliable, and robust circuits operating at cryogenic temperatures.

Posted in: Information Sciences, Semiconductors & ICs, Briefs, TSP

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Thermally Resilient, Broadband Optical Absorber From UV to IR Derived From Carbon Nanostructures

This technology can be used in aerospace, semiconductors, antireflection coatings, optoelectronics, and communications. Optical absorber coatings have been developed from carbon-based paints, metal blacks, or glassy carbon. However, such materials are not truly black and have poor absorption characteristics at longer wavelengths. The blackness of such coatings is important to increase the accuracy of calibration targets used in radiometric imaging spectrometers since blackbody cavities are prohibitively large in size. Such coatings are also useful potentially for thermal detectors, where a broadband absorber is desired. Au-black has been a commonly used broadband optical absorber, but it is very fragile and can easily be damaged by heat and mechanical vibration. An optically efficient, thermally rugged absorber could also be beneficial for thermal solar cell applications for energy harnessing, particularly in the 350–2,500 nm spectral window.

Posted in: Materials, Semiconductors & ICs, Briefs, TSP

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