We asked our industry experts and ECN readers to weigh in on our distributors question: What improvements would you like to see from distributors in the next 12 months? Here is what they had to say about the current state of the industry and hot it needs to be improved...
With Google's self-driving car hitting the road and all sorts of driver-assistance features hitting the showroom, it's a crazy time for drivers and designers alike. Cars are practically overflowing with (good and bad) attempts to integrate outside technology (smartphones, weather apps, virtual assistants) into vehicles interfaces.
How do you deal with distributors? Distribution is a key aspect of the engineering process, and it's important to choose the right distributor. You need dependibility, reliability and transperency to make the relationship between distributor and manufacturer work.
We asked our industry experts to weigh in on our Smart Grid question: What home energy technology do you expect to see as a breakthrough in the next 12 months?
Our energy and Smart technology experts weigh in to answer our smart grid question for this month: What home energy technology do you expect to see as a breakthrough in the next 12 months?
Reader's Response: What energy management technology will generate the most buzz over the next 12 months?March 22, 2013 12:31 pm | by Kasey Panetta, Associate Editor | Articles | Comments
We wanted the lowdown on Smart Grid and the future of the engineering, so we asked our readers to answer a question: What energy management technology will generate the most buzz over the next 12 months?
How would you stop counterfeiting? One of the hottest topics in electronic components--and basically every other industry-- is how to deal with the issue of counterfeiting. So we put it to the readers to come up with the best solutions for the counterfeiting crisis.
Q: What role will sensors and controls play in emerging solid state lighting applications? Solid-state lighting technology is a natural fit in our digital, wireless world. Adaptive control and wireless sensor networks are the key to ever more sophisticated LED lighting schemes including dimming,
Q: What role will sensors and controls play in emerging solid state lighting applications? Where will the Internet of Things make its big commercial debut? Probably a few feet above your head. Intelligent sensing systems — installed and configured in overhead lighting systems and combining motion, temperature and light sensors with microprocessors, imagers and LEDs
We know ECN readers have varied and valuable opinions – now here’s a great opportunity to showcase them. Send us an answer to the question below and if we think yours is the best, we’ll feature your response in the April print issue. Plus, you’ll get a $15 Starbucks gift card simply for sharing your thoughts.
The question of, "What technology do you expect to take the consumer space by storm in 2013?" continues in part II of the February Brainstorm series as experts take on the question of what will be popular in consumer electronics and the consumer technology space in the next 12 months.
We here at ECN love to hear what you have to say, so for our March issue we’re opening up the Brainstorm discussion to our faithful readers. We want to hear your thoughts about lighting and the future of technology.Typically, the Brainstorm is an editorial section consisting of short commentary by five or six experts in a particular vertical market. Check out the Brainstorm archive, here.
We here at ECN love to hear what you have to say, so for our February issue we’re opening up the Brainstorm discussion to our faithful readers. We want to hear your thoughts about consumer electronics and the future of technology. Typically, the Brainstorm is an editorial section consisting of short commentary....
With miniaturization often comes the challenge to produce the same amount of work as in large design, thus creating more power in a smaller envelope. Engineers should look at the different impact of dimension on motor performance criteria (efficiency, power, thermal dissipation, inertia, etc.).
Device miniaturization is integral to the design and development of a wide range of medical devices, including analytical test equipment, ventilators, and infusion pumps. Making devices smaller and lighter helps conserve valuable real estate in patient rooms, enabling equipment to be placed closer to the patient as well as allowing more space for medical professionals to work.
As the requirements for medical devices become more demanding, accessing new technologies and materials to miniaturize components is essential. Miniaturization of medical devices is dependent upon the reliability of their assembled components, which is crucial for proper functioning devices.
Traditional embedded development tools assist engineers as they implement their applications. Innovative tools assist engineers as they implement their ideas, without imposing a predetermined solution or outcome. Such solutions abstract the implementation and accelerate the “idea to product” process.
Although LED lighting is still in the early adoption phase, high brightness lighting class LED devices are currently used in a wide variety of different applications due to the many advantages they offer over traditional light sources such as incandescent light bulbs and fluorescent tubes. The development of ever more efficient LED devices is ongoing as device technology continues to be improved.
There are two advances (among many) that will lower healthcare costs in the future. The growing ubiquity of high speed connectivity will allow for remote telemetry and monitoring of patients. Advanced sensors will allow doctors to keep track of patients well being without them venturing to the doctor's office. If they do need to come in all the basic tests will be completed, reducing time to treatment.
Power sources in the future will be used and developed based upon economic, political, environmental and technological considerations. Changes will be dramatic but evolving over decades; the changes will be both in the sources of power and perhaps more so in the consequences of creating and using that power.
Medical device companies deploy technologies to address unmet clinical needs, and of course, to make a profit in so doing. In some cases, the cost of new generations of medical devices increases, sometimes substantially, but that’s actually not what’s important. We have to evaluate the total cost of healthcare. In some instances, a substantially more expensive medical device can actually reduce the overall cost of healthcare.
Advanced vehicle and aircraft systems contain a significant amount of embedded software supporting virtually every operation, from entertainment and engine control to critical safety functions. A recent IEEE Spectrum article noted that a premium-class automobile” probably contains close to 100 million lines of software code.
Testing in the ultracapacitor industry is challenging because manufacturers are not required to adhere to compliance standards. The lack of specifications means that tests vary from company to company, making it extremely difficult for customers to compare products.
What is the most challenging part of the testing process?