View allAll Photos Tagged electronics.
spaRK set up a new
Versus Electronics night at districte diagonal (with new light effects too).
This time with the great music from crankshaft and experimental atmospheres from bauri.
Versus Electronics, Barcelona, Catalonia, Spain
# 23 october 2005
My Talk Electronics Storm amp blew up. Taking the cover off revealed exactly why I was getting distortion on one channel!
Intellipower converter, Xpower 1500 watt inverter, and a nice fuse panel should handle our needs nicely. I plan to add a solar panel later.
Some vintage electronics for you: an Octagon Systems SBC-1000 single-board computer.
This computer use to live on a desk in my dad's workroom when I was a kid, and I use to write programs for it that did math and just experimented. It was my first experience with an embedded system. It was a mysterious and expensive object. Well, my dad found it in a pile of stuff last month and gave it to me! Soon I will get it hooked up again. Wonder if my programs are still on it.
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.
Mobile Upgrades: bluetooth, iPod adapters, in dash gps, video, computers, HD Radio and accident avoidance.
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.
These are prints of capacitors, transistors, diodes, and chips! All are hand carved rubber stamps made by John of Jackbear Stamps
Visit our Booth #350 at Trade show, and get chance to be part of Drawing for Apple TV and IPOD NANO 8G!
Tuesday, February 8-11th · 10.00- 5.00PM
Location Anaheim Convention Center
800 W. Katella Avenue
Various electronics that make up the electronic tattoo include an antenna, LED, strain guage, temperature sensor, EEG/EMG sensor, wireless power coil, RF coil and RF diode.
Small Towed Target incorporating Mini Miss Distance Radar (MDR). This was developed to train air defence weapons operators. The MDR allowed the operator to see how close their missile was to their target.
The dummy load in my handy vise. Why the ridiculously thin depth of field? I have no idea what I was thinking at the time.
Yes, the bottom is a 200 disc CD jukebox, and the top is a 400 disc DVD/CD one. The bottom one is full, has been for a while. The top one is not (yet).
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.
Zeta Reticuli 01a01 Arduino MIDI controlled 10-band EQ and multiple external effect interface
Build details including code: redbinary.com/zeta-reticuli-midi-controlled-10-band-eq-an...
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.
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.
Product Description
Brand New in the box!
Free Wifi!
No contract needed!
Ships From U.S.A!
Designed based on advance micro “Windows on Chip” technology, with a weight of less than 1.6 Lbs.
It is ideal for business people on the go, students, children and home users. You can surf the net, send emails, instant messaging, study, compose documents, manage accounts and spreadsheets, view PowerPoint presentations and lots of other work. You can watch movies and listen to music on the SD card or the Flash Drive. Perfect in college to take notes and do online assignments. It easily fits in a bookbag or purse and it is the lightest netbook available. Websites with a lot of photos and detailed content take a little bit of time to load up all the way, but any website that is mainly text, loads in a matter of seconds. You can use this netbook to check email. You can pull it out anywhere there is a wifi hotspot and check your messages, send an email or just browse the web.
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.
I decided to try my hand at taking pictures of various pieces of electronics lying around my office... It turns out it's not as easy as it seems. I managed to get a few OK shots, but man was that a lot of work, both pre and post shoot.
Mixing electronics theory and knowledge of correct usage of electronic components, with their creative application
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.