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This hands-on design module course introduce students to microcontroller platforms like Arduino. Students meet weekly to learn the basics behind programming the microcontroller development board, use of external programs to support development of controlled systems and build circuits using the platform in the design of simple control systems. Instructor: Dr. Jennifer Choi, UC Davis Department of Biomedical Engineering.
Sierra Radio HamStack microcontroller project platform. Looks like an Arduino-style board, plus a set of "shield" modules that are targeted at ham radio applications. It does not appear to be Arduino-compatible, though. I don't know why they made their own board instead of just building shields for the Arduino.
Feeling renewed confidence, I decided I'd tack down the microcontroller for the Flavonoid. I'm using an ATMega32L, a low-power ATMega32 in the Thin Quad Flat Package. I decided to try the "solder wick" soldering technique. I don't know why I decided to try something new on something I'm so heavily invested in. I lucked out. It worked like a charm. One more technique in the quiver. If nothing else happens, at least I'm learning a hellzalot.
Foto von Jan Kraus
An unserem Code&Play Stand konnte an drei Tagen ein buntes Workshop-Angebot wahrgenommen werden. Mit dabei waren:
senseBox, Junge Tüftler, NaWiTex-Schülerlabor, Technologiestiftung Berlin, Open Knowledge Foundation, Infosphere Aachen, Coder Dojos, Creative Gaming und das Game Science Center!
Pixel VGA, version 1 (Floor Cluster) - Garnet Hertz
Two dozen old computer monitors occupy the center of a gallery floor in a cluster facing the wall. Each screen is controlled with custom electronics to create pulsating and strobing patterns, casting a colored wash across the darkened gallery.
Dimensions: Variable (approx 3m x 3m). VGA monitors, custom electronics. 2011.
More project information: conceptlab.com/pixel/
Arduino is een opensource-computerplatform dat is opgebouwd rond de ATmega168-microcontroller van Atmel en het softwareontwikkelplatform Processing. Dit platform is bedoeld voor hobbyisten, artiesten, kunstenaars en iedereen die geïnteresseerd is in het maken en ontwerpen van slimme en creatieve objecten die kunnen reageren op hun omgeving.
Met Arduino is het mogelijk apparaten en objecten te creëren die reageren op hun omgeving door middel van digitale en analoge inputsignalen. Op basis van deze input kan een Arduinoschakeling autonome actie initiëren door het afgeven van digitale en analoge outputsignalen. Input kan bijvoorbeeld worden gegenereerd door schakelaars, lichtsensoren, bewegingsmeters, afstandsmeters, temperatuursensoren, of op basis van commando's afkomstig van internet, een radiomodule of een ander apparaat met een seriële interface. Outputsignalen kunnen bijvoorbeeld motoren, lampjes, pompjes en beeldschermen aansturen, maar ook input genereren voor een andere Arduinomodule.
Daarnaast bestaan ook zogenaamde "shields". Deze integreren vaak verschillende sensoren en modules in één printplaat. Deze kan dan gemakkelijk op de Arduino aangesloten worden door hem te plaatsen op de input-/outputpinnen van de Arduino. Vele van deze shields worden verkocht als kit en dienen dus zelf nog gesoldeerd te worden. Veelvoorkomend zijn de wifi- en gps-kits. Naast deze kits kan ook een ProtoShield gekocht worden die dienstdoet als breadboard om op te experimenteren.
Today in this session we will learn Everything about PIC Microcontroller in a detail. The PIC microcontroller contains a processor, memory, and input/output ports, and the program is stored in flash ROM memory in numbered locations. So without wasting time lets dive into the topic.
PIC Micro ControllerIntroduction to PIC MicrocontrollerEvolution of PIC MicrocontrollerFeatures of PIC MicrocontrollerRegisters on PIC MicrocontrollerProgram memory:Data memory:Special Function RegistersGeneral Purpose RegistersWorking Register:Status Register:File selection register:EEPROM:Wrapping up
Introduction to PIC Microcontroller
There are three main components of a computer or digital controller: input and output devices, to communicates with the outside world. Processor, to calculate and handle Data operations; And memory to store, programs, and data. The range of available PIC Microcontrollers is expanding rapidly.
The first widely used, the Intel 8051, was developed with an early Intel PC processor, such as the 8086. This tool dominated the area for a while; Others appear only slowly, especially as complex processors for applications such as engine management systems.
These devices were relatively expensive, so they were only reasonably priced Products. The potential for microcontrollers seems to be slowly being realized.
Evolution of PIC Microcontroller
The development of the Flash ROM helped open the market and was one of the microchips to Take advantage of first. theiotprojects.com/everything-about-pic-microcontroller/
The Dust Collector sits outside of the Parallax Inc. facility, connected with pipes to the larger machines that emit dust and particles during production. It behaves as a giant vacuum, keeping the work environment safe from pollution and the products tidy and clean.
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Jean-Pierre Gauthier, The Sound of Things - Semaphores and Brooms, 2003, detail, Kinetic and Sound Installation: miscellaneous materials, micorphones, motors, microcontrollers, automated mixing console, amplifiers and headphones, 458 x 850 x 700 cm, Collection of the aritst, courtesy of Jack Shainman Gallery.
This is an SX professional development board from Parallax. The SX is, or rather was, a microcontroller which could be programmed to do a variety of tasks. I say ‘was’ as having dug it out and dusted it off I have discovered that since I last played with it the product has been declared end of life. That rather kills off my hopes of finding new interface software as in the interim I have also swapped from Windows to Apple Mac meaning the original development software is no longer suitable. The new Propeller chip from Parallax looks quite interesting, the first time I have seen a multi-core microcontroller, so I think it might be time to upgrade. At least most of the peripherals on the development board will still be of use with a new chip.
My interest in microcontrollers goes back to my university days when we were required to use them for various control system and robotics projects. I haven’t played properly with one for a while but I reckon I can feel a new project coming on. All I have to do is find some time…
Three lights were used for this shot. The first is suspended overhead using the boom I acquired yesterday, although this time fitted with a 90cm shoot-through umbrella rather than the softbox as control of spill was less of an issue. A second light was set at 90 degrees to camera left and low down to provide some directional side lighting. The third is to the right of the frame, pointed at the wall behind the image and is generating the specular highlights on the flat surfaces. You can see a shot of the lighting setup here if you are interested.
CodeMeter µEmbedded, the security system for field programmable gate arrays and microcontrollers, is shortlisted for the i-NOVO Tech Award.
The jury of the i-NOVO Tech award will select the best innovative application or technological innovation presented at the SPS IPC Drives 2015.
For more information about the award, you can check their official website: inovo.directindustry.com/.
Foto von Jan Kraus
An unserem Code&Play Stand konnte an drei Tagen ein buntes Workshop-Angebot wahrgenommen werden. Mit dabei waren:
senseBox, Junge Tüftler, NaWiTex-Schülerlabor, Technologiestiftung Berlin, Open Knowledge Foundation, Infosphere Aachen, Coder Dojos, Creative Gaming und das Game Science Center!