LED Christmas Tree and Star: The LED Christmas Tree and Star project designed by The Spectacular Seven, a team of students from Oak Canyon Junior High in Lindon, Utah, won first place in the EE Times/IGEN Community Pride LED Contest. It features a small tree made from PVC piping, festooned with flashing LEDs on the branches and a star on the top, with a 7-segment display counting down to the New Year. The project uses not one but two microcontrollers, one each for the tree and the star.
Student notes: When we started this project as a group of friends, we had no idea how challenging it would be. We didn’t even know what 'LED' stood for. Now we know all about light-emitting diodes, resistors, the difference between NPN and PNP transistors, and much more. We learned how to measure voltage, program lights, solder, and how to use quality control. No one in our group really could have pulled this off on their own. It took a lot of "boring" videos, whiteboard diagrams, and lots of notes to scratch the surface of understanding the LEDs.
We wanted to control all of the LEDs individually from the microcontroller so that we could do some fun light patterns. After counting the LEDs (32 of them) we found that we did not have enough control lines from the microcontroller. We discussed ideas and learned about a way to multiplex. Each of the eight branch levels would be tied to eight transistors on one side and each of the four sides of the tree would be tied to four more transistors. We also learned about persistence of vision that helped us to have more than one LED appear to be on at a time.
The programming of the lights was the most challenging part of the project. Only a little part of the programming system is tangible. From going from our heads to the lights on the tree, there are many steps to take. First, identify every light. In order to know which light is which, every one needs a name. Second, create a sequence. A sequence is a binary code that turns certain lights on (1) or off (0). Third, type the sequence patterns into the computer.
I was lucky - and honoured - to be a judge on the last IGEN LED challenge which was organised by Naomi Price (she's in the video). Some of the projects I judged are here, some are not familiar so are maybe from other years, but the level of commitment and innovations shown by some of these kids was outstanding. It was VERY difficult to pick a winner, only made slightly easier by the fact that there were several categories to award in.
I have a hand-drawn schematic of a small project I have been working on in front of me now (it's been waiting for me to do a nice one and design a PCB for weeks now) and it is not much different from some of the ones shown. Ya gotta start somewhere with everything.....
But a search on IGEN does not uncover much on this site, apart from the above video. Has it been canned, along with the people who ran it? There are lots of articles about STEM education and teaching on the site, surely EETimes should be at the forefront of encouraging kids to take up engineering in this way? If it gets going again I'd be happy to give some of my non-existent spare time to helping with it.
The fact that these were done by teams does make them vey impressive indeed. And the Edison Engineers keeping a good lab notebook, and realizing what collaboration really consists of, is a very big lesson indeed. So this was an excellent learning project for all of the teams. Better than the university team that did a project for my company a few years back. And I don't think the materials were that very expensive, so it is something that can be done again and again.
And hopefully the exposure to actual engineering, and building a project that works, will encourage some to persue an engineering career.
If anyone is interested in the build instructions for any of these projects, we have most of the detail - reply to me here and let me know which project(s) you are interested in. They would be fun projects for the Fall season leading up to the holidays.
I actually enjoyed every slide and video shown here! Each demo comes with an initial sensation and pride: "Look, what we've done!" I loved the Les Paul guitar thing (image 4). But of course now that I live in Wisconsin, obviously, Lambeau Field demo gets my vote.
I once had an intership at the California State Fair media relations office. I can say for sure there was no electronics section then. Not sure about now, but I kind of doubt it. But I agree with your sentiment. The fact that they did something to represent their area is fair-esque.
David Patterson, known for his pioneering research that led to RAID, clusters and more, is part of a team at UC Berkeley that recently made its RISC-V processor architecture an open source hardware offering. We talk with Patterson and one of his colleagues behind the effort about the opportunities they see, what new kinds of designs they hope to enable and what it means for today’s commercial processor giants such as Intel, ARM and Imagination Technologies.