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A new generation of cheap lightweight plastic electronic technology that does not require silicon, but which is optically transparent and can be coated onto everyday objects would transform our world.
"Working collaboratively with industry is not only satisfying in that I see aspects of my work translate into real engineered products, but it provides inspiration for new avenues of research too. Roadmapping then allows me to critically assess how I should be developing my research portfolio and engaging with industry to maximise the likelihood of productive collaboration."
—Dr Andrew Flewitt
Imagine electronically updated food labels, computers embedded in our armchairs, even contact lenses linking us directly to the Internet to bring us into the age of plastic electronics. In this video podcast Dr Andrew Flewitt and Dr Robert Phaal both from the Department of Engineering and Scott White serial entrepreneur and CEO of Pragmatic Printing talk about the creative partnership forged between different parts of the Department of Engineering and outside companies that enable the technology and research in this area to be exploited successfully.
Techmaster Electronics focuses on customer satisfaction for every level of our electronic test equipment service and maintenance process. Techmaster’s combined staff of over 50 technicians worldwide has the technical expertise and experience in electronic test and measurement equipment service to handle a vast array of calibration and repair services. Our technical staff maintains the highest level of training in current electronic test equipment calibration, repair and metrological and quality systems. Our full-service labs provide in-house and on-site maintenance for a full range of automated calibration and repair support electronic test equipment including RF & Microwave equipment such as Spectrum Analyzers, Signal Generators, Network Analyzers, Power Sensors, and nearly every other type of electronic test equipment.
See more at this link: www.techmastertest.com/techmaster/global-company/about-ou...
A new generation of cheap lightweight plastic electronic technology that does not require silicon, but which is optically transparent and can be coated onto everyday objects would transform our world.
"Working collaboratively with industry is not only satisfying in that I see aspects of my work translate into real engineered products, but it provides inspiration for new avenues of research too. Roadmapping then allows me to critically assess how I should be developing my research portfolio and engaging with industry to maximise the likelihood of productive collaboration."
—Dr Andrew Flewitt
Imagine electronically updated food labels, computers embedded in our armchairs, even contact lenses linking us directly to the Internet to bring us into the age of plastic electronics. In this video podcast Dr Andrew Flewitt and Dr Robert Phaal both from the Department of Engineering and Scott White serial entrepreneur and CEO of Pragmatic Printing talk about the creative partnership forged between different parts of the Department of Engineering and outside companies that enable the technology and research in this area to be exploited successfully.
On the left is the Canon XXX D compatible cable with the 2.5mm Jack.
On the right is the Canon X D compatible cable with the N3 plug.
In both of them there are 3 wires. Shutter/Focus/common pin.
Short focus and common to focus the camera, and short the Shutter pin to the common for triggering the camera. Pretty simple!
A new generation of cheap lightweight plastic electronic technology that does not require silicon, but which is optically transparent and can be coated onto everyday objects would transform our world.
"Working collaboratively with industry is not only satisfying in that I see aspects of my work translate into real engineered products, but it provides inspiration for new avenues of research too. Roadmapping then allows me to critically assess how I should be developing my research portfolio and engaging with industry to maximise the likelihood of productive collaboration."
—Dr Andrew Flewitt
Imagine electronically updated food labels, computers embedded in our armchairs, even contact lenses linking us directly to the Internet to bring us into the age of plastic electronics. In this video podcast Dr Andrew Flewitt and Dr Robert Phaal both from the Department of Engineering and Scott White serial entrepreneur and CEO of Pragmatic Printing talk about the creative partnership forged between different parts of the Department of Engineering and outside companies that enable the technology and research in this area to be exploited successfully.
A new generation of cheap lightweight plastic electronic technology that does not require silicon, but which is optically transparent and can be coated onto everyday objects would transform our world.
"Working collaboratively with industry is not only satisfying in that I see aspects of my work translate into real engineered products, but it provides inspiration for new avenues of research too. Roadmapping then allows me to critically assess how I should be developing my research portfolio and engaging with industry to maximise the likelihood of productive collaboration."
—Dr Andrew Flewitt
Imagine electronically updated food labels, computers embedded in our armchairs, even contact lenses linking us directly to the Internet to bring us into the age of plastic electronics. In this video podcast Dr Andrew Flewitt and Dr Robert Phaal both from the Department of Engineering and Scott White serial entrepreneur and CEO of Pragmatic Printing talk about the creative partnership forged between different parts of the Department of Engineering and outside companies that enable the technology and research in this area to be exploited successfully.
Hookup wire can be connected directly between the Arduino's female headers and the solderless breadboard -- shown here is one of R. Stern's Arduinos connected to a rather messy RGB LED array prototype.
A new generation of cheap lightweight plastic electronic technology that does not require silicon, but which is optically transparent and can be coated onto everyday objects would transform our world.
"Working collaboratively with industry is not only satisfying in that I see aspects of my work translate into real engineered products, but it provides inspiration for new avenues of research too. Roadmapping then allows me to critically assess how I should be developing my research portfolio and engaging with industry to maximise the likelihood of productive collaboration."
—Dr Andrew Flewitt
Imagine electronically updated food labels, computers embedded in our armchairs, even contact lenses linking us directly to the Internet to bring us into the age of plastic electronics. In this video podcast Dr Andrew Flewitt and Dr Robert Phaal both from the Department of Engineering and Scott White serial entrepreneur and CEO of Pragmatic Printing talk about the creative partnership forged between different parts of the Department of Engineering and outside companies that enable the technology and research in this area to be exploited successfully.
Rear view of the power supply. I used rubber washers on the fan grill, which completely eliminated the buzzing between the fan, case, and grill. Those computer power/switch/fuse units (left) are great!
Project info: www.n6na.org/home/UserN3JIMpowerSupply1
Martin Technical provides complete information regarding arc flash, arc flash safety and arc flash analysis. Our experienced electrical engineers provide arc flash safety training. www.martechnical.com/electrical-safety-services/electrica...
Malayalam electronics..on line electronics magazine. For subscription send a mail to electronicskeralam@yahoo.com
Surface mount soldering. Basically the chip is held in place by a pair of pliers, then tacked down at each of the corners. Then we apply a big strip of solder across all the pins, before finally using a solder wick to clean up the excess. Worked nicely.
When asked about this, some folks at TI said they'd never seen anything like it.
This info comes from Micah Mabelitini of Decadecounter.com:
"That's a standard SN-type 10-pin flat pack, same as the SN514 pictured
here...
www.decadecounter.com/vta/articleview.php?item=741
The red plastic frame is called a MechPak carrier, and is removed before
installation. The chip is a TID24 8-diode array with common anode,
manufactured the 20th week of 1969. The 10-pin gold flat pack is the
military/aerospace variant. The TID24 was also available in a standard
14-pin plastic DIP."
EGL's Jeremy promoting EGL Energy's hybrid street lighting solution at the Hong Kong Electronics Fair (Autumn Edition), 13 - 16 October 2007 at the Hong Kong Convention and Exhibition Centre.
A new generation of cheap lightweight plastic electronic technology that does not require silicon, but which is optically transparent and can be coated onto everyday objects would transform our world.
"Working collaboratively with industry is not only satisfying in that I see aspects of my work translate into real engineered products, but it provides inspiration for new avenues of research too. Roadmapping then allows me to critically assess how I should be developing my research portfolio and engaging with industry to maximise the likelihood of productive collaboration."
—Dr Andrew Flewitt
Imagine electronically updated food labels, computers embedded in our armchairs, even contact lenses linking us directly to the Internet to bring us into the age of plastic electronics. In this video podcast Dr Andrew Flewitt and Dr Robert Phaal both from the Department of Engineering and Scott White serial entrepreneur and CEO of Pragmatic Printing talk about the creative partnership forged between different parts of the Department of Engineering and outside companies that enable the technology and research in this area to be exploited successfully.
A new generation of cheap lightweight plastic electronic technology that does not require silicon, but which is optically transparent and can be coated onto everyday objects would transform our world.
"Working collaboratively with industry is not only satisfying in that I see aspects of my work translate into real engineered products, but it provides inspiration for new avenues of research too. Roadmapping then allows me to critically assess how I should be developing my research portfolio and engaging with industry to maximise the likelihood of productive collaboration."
—Dr Andrew Flewitt
Imagine electronically updated food labels, computers embedded in our armchairs, even contact lenses linking us directly to the Internet to bring us into the age of plastic electronics. In this video podcast Dr Andrew Flewitt and Dr Robert Phaal both from the Department of Engineering and Scott White serial entrepreneur and CEO of Pragmatic Printing talk about the creative partnership forged between different parts of the Department of Engineering and outside companies that enable the technology and research in this area to be exploited successfully.
My 14 yr old son loves to experiment with electronics.
He created this "School-o-meter" to show whether he has a delay /cancellation due to snow.
The School-o-meter" communicates with the school's website and when a delay or cancellation is posted, the paperclip pointer moves to the 1hr delay, 2hr delay, or no school position.
Now, he doesn't have to get out of bed to find out if school is canceled!
He explains it on his blog:
blog.4ndr3w.me/2010/02/checking-for-school-delays/
Please visit and leave a comment!! : )
Olympia Electronics makes its first steps to the Australian market!
Our Export Director, Mr. Pantelis Antar, had fruitful meetings in Melbourne and Sydney, participating in the Business Mission to Australia.