Today’s medical staffs increasingly rely upon wireless networks and devices to conduct critical-care applications, access electronic medical records and test results, and to share information throughout facilities. At the same time, Wi-Fi networks in healthcare facilities are being pushed to the limits by the Bring Your Own Device (BYOD) trend among patients and guests.
Perhaps you haven’t heard the term “Intelligent Systems” yet? Nevertheless I can guarantee that you use at least one Intelligent System device on a regular basis. Any technological device that is able to autonomously communicate to another device as well as access the Internet is an Intelligent System.
Two industry megatrends are reshaping the way we design and deploy networks and compute (i.e. datacenter servers). The first is Network Functions Virtualization with the goal of moving functions such as content distribution, firewalls and base station controllers from proprietary hardware to standard, low cost servers.
Glenn Smith celebrates his 40th anniversary with global distributor Mouser Electronics as the company’s president and chief executive officer. Smith recently took a moment to discuss disruptive technologies, the electronics industry’s inevitable slowing, and how some companies still inconceivably refuse to embrace the internet.
As processing speeds in electronics continue to rise and packaging continues to shrink, sensitive internal components are located closer and closer together. Higher clock speeds coupled with increased density of components leads to increasing amounts of electromagnetic interference (EMI) and Radio Frequency Interference (RFI) noise.
Cloud computing – outsourcing computational tasks over the Internet – could give home-computer users unprecedented processing power and let small companies launch sophisticated Web services without building massive server farms.But it also raises privacy concerns.
The Society of Women Engineers, along with the American Society of Mechanical Engineers recently honored Noha S. El-Ghobashy with the Kenneth Andrew Roe Award. El-Ghobashy is an inspiring humanitarian working tirelessly to bring opportunities and advancement to underdeveloped nations.
An ongoing collaboration between physicists from the University of Wisconsin-Milwaukee (UWM) and the University of York, UK, is focused on probing, tailoring and tuning the electronic behaviors of TIs at nanoscale. In bulk these materials do, in fact, insulate. But on the surface, TIs are conductors.
If you look around the average home there are typically a few cell phones, maybe a tablet, and other electronic devices, like a DVD player or a smart TV, and these devices often have the capability to connect to each other. Designed to simplify this connectivity, Near Field Communications (NFC) technology makes the process easier and more convenient for consumers.
An all-in-one evaluation kit, a CAD program that interprets your hand gestures, and a web-connected device for energy monitoring in this week’s top 5 design tools of the week.
Mobile penetration has reached a high level in developed markets and is increasing in other areas around the world. According to information from the GSMA, leading European nations now have over 90% subscriber penetration. Developing markets are set to rise from an average penetration level of 39% in 2012 to 47% in 2017, and will be the largest factor spurring the global growth of mobile over the next five years.
Convergence is a hot topic again. But this time its impact on people’s everyday lives will dwarf the computer-communications-consumer (3C) version of the 1990s. Today, the design community is being challenged to find ways to link any device that potentially can draw electric current with the rest of cyberspace. Watches, toasters, weight scales, and thermostats; bicycles, blood pressure monitors...
The first Machine-to-Machine (M2M) applications can be traced back to World War II, and the ability to have machines “talk” to each other (via data communication networks) is essential for monitoring and controlling assets within homes, businesses, and even critical national infrastructure projects of today.
Any device or system that requires a clock or timing device to function will improve its performance as the quality of the timing device improves. Parameters that define the quality of a timing device include: phase noise, jitter, temperature stability, aging, PSRR, power dissipation, G-sensitivity, as well as other parameters that are sensitive to a particular application.
Embedded wireless networks are one of the fastest growing applications, outpacing the overall semiconductor industry, due to the rapid uptake of embedded wireless communication in the form of smartphones and portable medical devices. Embedded wireless networks are also found in automobiles, enabling smarter safety features, better engine performance management, and as networked infotainment devices