Today’s high-performance equipment calls for innovative components designed specifically to meet their market demands. The developments in linear-position sensors have proven to be an effective means for increasing productivity, quality assurance, and profitability in many industrial applications.
JTAG, also known as IEEE 1149.1, is one of the most successful electronic standards of all time. Invented over 20 years ago to uncover printed circuit board manufacturing, JTAG is now used in nearly 100% of printed circuit boards and has become a critical part of many integrated circuits.
There are many industries that depend on the proven design concepts that require high voltages to operate. Radar, X-ray machines, traveling wave tubes, down-hole logging, particle accelerators, aerospace ignition systems, partial discharge detection, power utilities and welding equipment are some examples.
Multi-core and embedded virtualization offer embedded device and equipment manufacturers the chance to consolidate and innovate. They can consolidate multiple individual processors into a single processor, whether single core or multi-core, and innovate by improving the capabilities of their devices beyond what was previously achievable.
With increasing pressure to lower test costs, many RF test engineers face the challenge of reducing measurement time. As you might expect, wireless LAN (WLAN) device testing is no exception. Whether you are creating an automated test system for design validation or final production test, it has become increasingly important to optimize a test system for measurement speed.
Multi-core has become a hot topic in recent years. We have now reached a point where multi-core adoption is starting to follow common use cases. The following provides a framework for understanding how multi-core can apply to your project.
As the capabilities of end products continue to multiply, many embedded system developers are forced to steer away from working with single core processors and move towards multicore processors. Only multicore processors can deliver on today’s demands of increased processing power, robust power performance and lower costs.
4G, LTE, WiMAX, IPTV, etc. – you name it and these advanced IP-based services are upon us, and more are coming. The IP communications layer for multimedia and data-centric Next Generation Networks needs tremendous performance and sophisticated improvements in order to connect billions of devices...
A continuing trend among OEM’s and design engineers has been increased reliance upon mechanical impact testing of product prototypes and packaging, as a means of simulating the ruggedness, durability and performance of materials and structures within their intended usage environment.
The ability to monitor product inventory has always been a primary concern for companies. When the product is not a fixed, physical unit of measure, but a volume of liquid; the challenge increases. The evolvement of wireless technology presents an exciting opportunity for remote monitoring.
Wireless Local Area Networks (WLAN) have proliferated within the enterprise. While the cost of deploying a WLAN solution has dropped over the last several years, the operational expense of maintaining and managing a WLAN continues to rise.
Wi-Fi is a standards-based technology, and most designers assume that their finished products will work out of the box on any Wi-Fi infrastructure with which they’re used. By and large they’re right. However, there is a world of difference between simply working and working optimally.
The 2010 Sensors Expo & Conference was held June 7-9 in Rosemont, IL. Rain put a damper on things outside the Donald Stevens Convention Center on Tuesday. But inside, the sun, wind, and all manner of alternative energy sources were on the minds of attendees as products based on energy harvesting continued to play a prominent role at the show.
Floating gate Flash memory has been scaling at a tremendous pace in recent years to arrive at a startling density of 32 gigabit (4 gigabyte) on a single die today, using 30nm technology and below.
At the 2010 Electronic Entertainment Expo (E3), Nintendo officially unveiled the 3DS. And from the media’s reaction, you’d think Nintendo reinvented the electron. The 3DS uses autostereoscopy to produce 3D images without the need for special glasses—or so claim their marketing gurus. Does it live up to the hype? Read on for my first-hand impressions.