For members of the electronics supply chain, going “green” is not just a short-term marketing scheme rife with buzzwords but short on substance. Granted, the tech sector has jumped on its share of bandwagons, but this movement is different. It’s not just about pioneering technologies, building a positive public image, padding the bottom line or even “doing the right thing.” It’s all of the above. When state-of-the-art electronic products are energy efficient, environmentally sustainable, and cost effective, everyone wins.
What technology will have the biggest impact in 2009?
Wireless RF interference found in medical devices causes tainted results and misdiagnoses. Medical professionals and patients rely on these results to pursue the correct course of action for a given illness. There are several companies and collaborations looking into solutions of how to reduce and/or remove interference in the medical field. This month, we take a look at some of the causes of wireless interference and answers that are being worked on now in today’s medical devices, as well as future devices.
At 3:00 PM on a Friday afternoon you devise a new design for a low-noise amplifier you've worked on for months. You want to try the circuit right away, but a quick-turn printed-circuit board (PCB) house cannot deliver boards until next week. You know another engineering group uses a PCB router to produce prototype boards in about an hour, so you decide to try it.
Programmers now have many tools that help reduce or eliminate problems. Unfortunately, they might not know these tools exist. "In 1998, the UK's Motor Industry Software Reliability Association (MISRA) published their standard for the C language to promote 'safe C' in the UK automotive industry," explained Chris Tapp, a field-applications engineer at LDRA. "The software industry has seen MISRA-C as a way to encourage good programming practice, focus on coding rules, and ensure well designed and tested safe code."
Semiconductor packaging has evolved from the through-hole packages of the 1970’s, through surface mount leaded packaging in the 1990’s to leadless package technologies of today such as quad/dual flat no leads (QFN/DFN), ball grid arrays (BGA) and chip scale packaging (CSP). It can be argued that it is semiconductor package innovations such as these that have allowed the industry to exploit the successive IC process shrinks and achieve product performances that were previously unobtainable.
As Halloween blurs into the great amorphous mass that is the combined orgy of Thanksgiving eating and Christmas Holiday shopping, we take the time to look at some of the things we’d like to see in our holiday gift baskets. Beyond the obligatory wishes for world peace and international understanding, there are some nice toys out there, too.
If you’re not familiar with the modern oil industry, you might think that drilling for oil still resembles the scene in the movie “Giant”, where James Dean’s character hits a classic Texas gusher. The truth is that it’s much harder than that to get oil out of the ground these days. Most of the oil exists in a solid form, trapped in rock crevices or layers of sand. And oil drilling companies are using light to help get it out.
In embedded DC-DC converters in industrial applications like test and measurement equipment or embedded computing, the system architecture can be quite complex, with many different output voltage and current, ripple, EMI and power sequencing requirements. This article will explore the impact of the choice of the converter power stages in DC-DC applications.
As the holidays approach, what product or technology is on your wish list?
Compliance and compatibility are critical factors in the design of medical electronics equipment. The following are responses to questions posed by ECN regarding how vendors address certification issues and what types of testing are required.
Designers of portable medical devices face unique challenges. Their chosen field is known for regulatory scrutiny, protracted design and life cycles, and a need for unparalleled robustness in the finished product. In addition, design objectives that are common to all electronics can have special significance when it comes to medical devices. For example, low power consumption is always an objective for designers of portable electronics. Less power means a smaller and lighter battery, which enhances portability.
Software-defined instrumentation is the new face of automated test. Scientists and engineers performing leading-edge research and designing custom measurement and control systems have used software-defined instruments, also known as virtual instruments, for more than 20 years. Software-defined instruments were critical for these often one-of-a-kind applications due to their unique system requirements.
Somewhere in Africa, a traveling health worker arrives at a remote village and finds a patient who may have malaria. The nearest health clinic is hundreds of miles away, and it will take days to get there. Diagnosis requires a trained clinician to examine a blood sample under a microscope, but how can you make that happen? Your assignment, if you choose to accept it, is to create a digital microscope that will capture high magnification images, record additional medical information, and transmit the entire package of data wirelessly to the distant clinic.
If Mae West were to deliver one of her most famous lines today, she might ask if you’ve got a portable consumer electronic device in your pocket. (And for the record, the original inquiry was about a gun, not a pickle as is widely misquoted.) Between our mobile phones, MP3 players, PNDs (portable navigation devices), and other indispensible gadgets, it’s a wonder that we’re not seeing pinstripe suits with cargo pants.