View allAll Photos Tagged breadboarding
Using a pair of XBees to send packets back and forth between my laptop and an ARM microcontroller while a logic analyzer keeps tabs on the process.
This is a version of Stackduino.
Wobbly screen test. I hate this breadboard, nothing fits properly and it seems to be designed to work on a part-time basis. Can't turn the encoder properly without it coming off. Sort of goes against the idea of a breadboard, but I might glue it down...
On the plus side menu selection seems to work ok.
Battery voltage reading as 0.00v is down to the issue with the the ltc4412 which I still need to solve. There are no batteries actually connected here, but the ltc4412 is telling the controller there are, hence the battery symbol and the 0 reading.
The stack is run with many optional settings switched off, except bracketing. Here the camera takes two images per focus slice.
Towards the end the stack should really have been cancelled on the first push of the button. Looks like I'm not polling regularly enough for that change at the moment.
When you're building circuits on a breadboard there is nothing more annoying than having to measure, snip, and then strip both ends of each and every piece of wire.
Well perhaps there are greater annoyances but that does not mean that this problem should go un-addressed. Addressed it has become, and if you too have a few stepper motors, a hand-held wire stripper and a bunch of nuts and bolts your life, too, can become easier.
For all of you crying overkill, we do have a small ulterior motive, at oomlout.com we manufacture a number of kits that come with pre-stripped wires hence the need for semi automation. This version is the much improved brethren of version one.
If you'd like to build your own full details can be found here:
A video of it in action;
www.youtube.com/watch?v=fftZq_deIls
A second video (a little shaky but better at showing the different components)
This is something we're quite excited about this is the very early stage of our quest to make a sub $10 Arduino Compatible product. It's getting close.
(something to let people get into experimenting with the Arduino for peanuts, before upgrading to more robust products)
We've created an easy to assemble Breadboard Based Arduino Compatible (BBAC) Micro-controller product,
For all the details visit our blog:
oomlout.com/blog/2009/04/breadboard_based_arduino_compa_1...
A DIY audio electronics development platform. Very easy to plug things in and out of the breadboards and Arduino (duemilanove). Seeed Studio oscilloscope has proven to be a worthy tool. Now cooking: an arduino synthesizer, based on some simple waveform tables, homemade 8-bit DAC and bitwise modulation. Basically same as this but now much neater. Audio and video demos coming up, soon maybe... Here's an old demo, this one sounds roughly the same.
Finally I finished the enclosure and the breadboard for my own HIVIZ Multi-trigger.
I changed the enclosure a little bit by making 3 sectors for the functionality.
For the Dutch panel lay-out, I used an aluminum offset plate (for printing).
If you want to make yours, find all info on www.hiviz.com.
Look here for a setup and see this trigger "at work"
This is an advent calendar for electronic nerds.
HowTo:
www.instructables.com/id/Advent-Calendar-for-Geeks/
www.expli.de/anleitung/adventskalender-fuer-elektronik-ne...
Check out this Ford- and Lincoln-inspired holiday tree, decorated by the team at the Breadboard and HiL Systems Integration Lab! Submitted by Rachael Forbes.
This allows me to use an old floppy drive cable to break out the Pi's GPIO pins to a breadboard. It's made of a bit of stripboard and pin headers, the outer of which I pushed the pins through so they stick out of the bottom of the board far enough to connect to the breadboard.
See the next photo.
“Saturn V Breadboard, S-IV-B and instrument unit 500ST Stages.”
Awarded the contract September 1964, operated by the Boeing Company, the Saturn V Development Facility, aka the "Saturn V breadboard" at MSFC, would electrically simulate the operation of the Saturn V and its ground and electrical support equipment. Each step at the launch site, through liftoff and flight of each stage, could be computer-simulated at the facility.
Above at:
history.nasa.gov/MHR-5/part-9.htm
I believe "500ST" and/or "500S/T" refer to the simulator/test articles. The complete(?) S-IVB version of such seen here I guess. To include its J-2 engine.
My parents ot me a giant breadboard for Christmas; now that my guitars are done it's time to start building pedals again. I have a few interestin gideas and the real estate here will let me really lay things out modularly and connect different stages different ways. Looking forward to making some noise!
A 3-board design. 2"x3.25" overall.
Main idea was the breadboard adapter for the MSP430-Launchpad. The other two were added to make use of the space I was paying for anyway.
The top is a simple power supply to fit my breadboards (single side rails).
The bottom is my implementation of a "Mini-Launchpad". It's an idea I had to use some SMD MSP430s I ordered samples of by mistake and some SMD switch/LED combo parts I had laying around. It lacks the programming/emulation side, and only uses the 2211s I have, but it has most of the other features.
This quick-and-dirty video shows the N900 controlling two servo motors via its accelerometers, a Perl script and a Bluetooth serial connection with an Arduino Duemilanove.
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Este vídeo mostra um celular N900 da Nokia controlando dois servo motores com acelerômetros, um script Perl e uma conexão serial Bluetooth com um Arduino Duemilanove.
Cameraman: Gino.