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My new USB Arduino board! It's a microcontroller board with a strong support community and a pretty neat IDE. Open Source Hardware, baby! If you're not controlling motors, it runs off of USB bus power.
The shield snaps right on to the ardiuno and makes playing with small circuits much easier and more portable than dragging around a full sized breadboard and jumpering wires across from one to the other. The LEDs are red, green, and blue, though it's hard to tell since they're overexposed.
Our fall Arduino 101 class at Tam Makers is off to a great start. I taught this evening course with my associates Donald Day and Edward Janne on September 14, 2016, at the woodshop in Tam High School in Mill Valley.
We welcomed a wonderful group of seven students, including adults with diverse backgrounds, as well as a high school student. We started by giving our students an overview of the popular Arduino board. We then learned how to light up an LED, add a button to turn it on and off, and play a sound with a piezzo buzzer.
Students accomplished all these steps successfully, and seemed to really enjoy this class and told us they learned a lot from it. We’re really happy that this course is going so well and we look forward to teaching next week’s class.
View more photos of this Arduino course:
www.flickr.com/photos/fabola/albums/72157659914570948
Learn more about this Arduino 101 class:
www.tammakers.org/arduino-101/
Read our Arduino 101 Guide:
bit.ly/arduino-101-guide-fall-2016
Check out our course slides:
bit.ly/arduino-101-slides-fall-2016
Learn more about Tam Makers:
A robot arm that shoots ping pong balls at a miniature basketball hoop. The arm rotates to aim based on the closing price of the stock market for the 104 weeks of 2008-9. If the market price rose, the arm rotates proportionally clockwise, if the price fell, it rotates counterclockwise.
Evento em agosto de 2014 no Olabi, Rio de Janeiro. Mais informações: www.olabi.co
Crédito: +5521 Fotografia www.facebook.com/mais5521?fref=ts
Here's the present state of the pinball project: a power supply, Arduino I/O board, PinMame-HW driver board, flipper assembly, and a switch. Hitting the switch makes the flipper coil fire. This is special (to me) because the switch closure is interpreted by the microcontroller (using a parallel to serial chip), which turns the solenoid on for a short period of time. Hooray!
Our fall Arduino 101 class at Tam Makers is off to a great start. I taught this evening course with my associates Donald Day and Edward Janne on September 14, 2016, at the woodshop in Tam High School in Mill Valley.
We welcomed a wonderful group of seven students, including adults with diverse backgrounds, as well as a high school student. We started by giving our students an overview of the popular Arduino board. We then learned how to light up an LED, add a button to turn it on and off, and play a sound with a piezzo buzzer.
Students accomplished all these steps successfully, and seemed to really enjoy this class and told us they learned a lot from it. We’re really happy that this course is going so well and we look forward to teaching next week’s class.
View more photos of this Arduino course:
www.flickr.com/photos/fabola/albums/72157659914570948
Learn more about this Arduino 101 class:
www.tammakers.org/arduino-101/
Read our Arduino 101 Guide:
bit.ly/arduino-101-guide-fall-2016
Check out our course slides:
bit.ly/arduino-101-slides-fall-2016
Learn more about Tam Makers:
What should I call my boards?
If you're making your own board, come up with your own name! This will allow people identify you with your products and help you to build a brand. Be creative: try to suggest what people might use the board for, or emphasize the form factor, or just pick a random word that sounds cool. "Arduino" is a trademark of Arduino team and should not be used for unofficial variants. If you're interested in having your design included in the official Arduino product line, please see the So you want to make an Arduino document and contact the Arduino team.
While unofficial products should not have "Arduino" in their name, it's okay to describe your product in relation to the Arduino project and platform. Here are a few guidelines that explain which uses we consider reasonable. Not okay:
Arduino Xxxxxx
Xxxxxx Arduino
Arduino Compatible Xxxxxx - use "Xxxxxx (Arduino-Compatible)" instead
Okay:
Xxxxxx for Arduino - products that work with official Arduino boards (e.g. shields or kits)
Xxxxxx (Arduino-Compatible) - variations and clones which are software and hardware compatible
Note that while we don't attempt to restrict uses of the "duino" suffix, its use causes the Italians on the team to cringe (apparently it sounds terrible); you might want to avoid it. (It's also trademarked by a Hungarian company.)
Can I build a commercial product based on Arduino?
Yes, with the following conditions:
Physically embedding an Arduino board inside a commercial product does not require you to disclose or open-source any information about its design.
Deriving the design of a commercial product from the Eagle files for an Arduino board requires you to release the modified files under the same Creative Commons Attribution Share-Alike license. You may manufacture and sell the resulting product.
Using the Arduino core and libraries for the firmware of a commercial product does not require you to release the source code for the firmware. The LGPL does, however, require you to make available object files that allow for the relinking of the firmware against updated versions of the Arduino core and libraries. Any modifications to the core and libraries must be released under the LGPL.
The source code for the Arduino environment is covered by the GPL, which requires any modifications to be open-sourced under the same license. It does not prevent the sale of derivative software or its inclusion in commercial products.
In all cases, the exact requirements are determined by the applicable license. Additionally, see the previous question for information about the use of the name “Arduinoâ€.
Almost a year ago I bought this little camera from SparkFun. Since that time it has sat nestled in a little box. Recently I made a serious attempt to get the @#%^@ thing working (with an Arduino).
Today I succeeded. More about this soon. Much thanks to Sean Voisen for the how-to and the library. I had to adapt the example to use I2C/2Wire flash and to use a jumper to control taking versus dumping the photo. Also, I added a base64 encoder to avoid binary over serial issues.
Without getting further in to it I now understand why there aren't a lot more camera+Arduino projects out there.
This is my first Arduino project on a breadboard. The LED has a delay of 50 miliseconds, which means the red light is blinking very fast.
Well I mean on a breadboard at the moment but it will be in a box running the Scalextric Lap Counter code.
For prototyping/testing I have used 5v LED's but will us 2.5v LED's in the working model. I have also used a 24mhz Crystal because I haven't got to Maplins yet, so timing is out but works fine for this test.
Next I need to add reset switch..
Evento em agosto de 2014 no Olabi, Rio de Janeiro. Mais informações: www.olabi.co
Crédito: +5521 Fotografia www.facebook.com/mais5521?fref=ts
Evento em agosto de 2014 no Olabi, Rio de Janeiro. Mais informações: www.olabi.co
Crédito: +5521 Fotografia www.facebook.com/mais5521?fref=ts
Playing with code & various LEDs - mixing breadboard & Digital Arduino board with Lilypad Arduino tri-colour LED & crocodile clips.
Arduino Workshop at iLab
Interaktive Werkstatt
School of Design Mainz, 2009
Workshop with Andreas Muxel
Photographs by Sandy Pfaff
Prática elabora para as Olimpíadas Arduíno ocorridas em 25/04/2013 no IFRN - Câmpus Zona Norte de Natal.
Arduino を使ったインターバルタイマで10秒間隔で4時間撮影.秒24コマにして合成.
右下は枇杷の木
撮影地:鹿児島県肝属郡錦江町(旧大根占)
高解像度版Up > www.flickr.com/photos/matoken/3766192328/?likes_hd=1