Using over 30 batteries, 80 LEDs, 4 microcontrollers and one embedded computer, volunteers and staff in the Jocelyn H. Lee Innovation Lab prepared an attention-grabbing presentation for the 2016 Texas Library Association Poster Session. The poster presented various ways to use LEDs in maker projects, had embedded QR codes for viewers to access additional information on each topic, and was even interactive - participants could change LED colors by sending appropriate Tweets,

Thank you everyone who helped make this presentation a success.

Final Year Projects, IEEE Projects, IEEE Projects Chennai, IEEE Projects 2011, IEEE Projects 2010, Embedded Projects, Embedded System Projects, Projects at Chennai, Projects in Chennai, Engineering College Projects, BE Projects, BTech Projects, ME Projects, MTech Projects, IEEE Projects, Projects in IEEE, Projects in INDIA, Final Year Projects in Tamil Nadu, Microcontroller Projects, VLSI Projects, MATLAB Projects, ATMEL Projects, DSP Projects, IEEE VLSI Projects, IEEE DSP Projects, IEEE Matlab Projects, IEEE Microcontroller Projects, IEEE Microcontrollers Projects, IEEE Embedded System Projects, IEEE 2011 2010 2009 Projects, IEEE on Embedded System, College Projects, Engineering Student Projects, Projects Chennai, Projects Tamil Nadu, Projects Coimbatore, Projects Madurai, Good Final Year Projects, Low Cost Final year Projects, Diploma Projects, Final Year Diploma Projects, Final Year Polytechnic Projects, ME Engineering Projects, MTech Projects, Real Time Projects, Embedded Microcontroller Kit Projects, Model Projects, IEEE Project Domains, Robotics Projects, MEMS Projects, Telecommunication Projects, Biomedical Projects, GPS Projects, GSM Projects, VLSI Projects, CPLD Projects, FPGA Projects, Blackfin DSP Projects, ADSP Projects, Power Electronics Projects, Power System Projects, Zigbee Projects, Electrical Projects, Communication Projects, RFID Projects, VOICE HM2007 Projects, RF Projects, Wireless Projects, Wireless Communication Projects, Finger Print Projects, IEEE Power Electronics Projects, JAVA Projects, DOTNET Projects, ASP.NET Projects, VB.NET Projects, C# Projects, J2EE Projects, J2ME Projects, PHP Projects,

Networking Projects, Network Security Project, IEEE JAVA Projects, IEEE DOTNET Projects, IEEE ASP.NET Projects, IEEE VB.NET Projects, IEEE C# Projects, IEEE J2EE Projects, IEEE J2ME Projects, IEEE PHP Projects, IEEE Networking Projects, IEEE Network Security Project, 2010 IEEE JAVA Projects, 2010 IEEE DOTNET Projects, 2010 IEEE ASP.NET Projects, 2010 IEEE VB.NET Projects, 2010 IEEE C# Projects, 2010 IEEE J2EE Projects, 2010 IEEE J2ME Projects, 2010 IEEE PHP Projects, 2010 IEEE Networking Projects, 2010 IEEE Network Security Project, IEEE 2010 JAVA Projects, IEEE 2010 DOTNET Projects, IEEE 2010 ASP.NET Projects, IEEE 2010 VB.NET Projects, IEEE 2010 C# Projects, IEEE 2010 J2EE Projects, IEEE 2010 J2ME Projects, IEEE 2010 PHP Projects, IEEE 2010 Networking Projects, IEEE 2010 Network Security Projects, Mobile Computing Projects, Distributed Computing Projects, Secure Computing Projects, Wireless Communication Projects, Dependable Computing Projects, Knowledge & Data Engineering Projects, Parallel and Distributed Systems Projects, Learning Technologies Projects, Cloud Computing Projects, Web Services Projects, Wireless Sensor Network Projects, Internet Computing Projects, Image Processing Projects, Software Engineering Projects, Pattern Analysis & Machine Intelligence Projects, Fuzzy systems Projects, Neural Networks Projects, IEEE Mobile Computing Projects, IEEE Distributed Computing Projects, IEEE Secure Computing Projects, IEEE Wireless Communication Projects, IEEE Dependable Computing Projects, IEEE Knowledge & Data Engineering Projects, IEEE Parallel and Distributed Systems Projects, IEEE Learning Technologies Projects, IEEE Cloud Computing Projects, IEEE Web Services Projects, IEEE Wireless Sensor Network Projects, IEEE Internet Computing Projects, IEEE Image Processing Projects, IEEE Software Engineering Projects, IEEE Pattern Analysis & Machine Intelligence Projects, IEEE Fuzzy systems Projects, IEEE Neural Networks Projects, IEEE 2010 Mobile Computing Projects, IEEE 2010 Distributed Computing Projects, IEEE 2010 Secure Computing Projects, IEEE 2010 Wireless Communication Projects, IEEE 2010 Dependable Computing Projects, IEEE 2010 Knowledge & Data Engineering Projects, IEEE 2010 Parallel and Distributed Systems Projects, IEEE 2010Learning Technologies Projects, IEEE 2010 Cloud Computing Projects, IEEE 2010 Web Services Projects, IEEE 2010 Wireless Sensor Network Projects, IEEE 2010 Internet Computing Projects, IEEE 2010 Image Processing Projects, IEEE 2010 Software Engineering Projects, IEEE 2010 Pattern Analysis & Machine Intelligence Projects, IEEE 2010 Fuzzy systems Projects, IEEE 2010 Neural Networks Projects

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.

Inside the box, with the ESD foam removed.

Lots of interest in the ARM-based Mbed microcontroller board.

Microchip Speeds Human Interface Design with Complete Multimedia Development System for 32-bit Microcontrollers

Doing some basic experiments with LEDs and a microcontroller.

The cornerstone of our manufacturing is this pick and place. Our pick and place machine places components on circuit boards. This machine can build products faster than we can package and test it!

I built this for my Embedded Systems Design class at the University of Arkansas. The idea is to process GPS data and spit it back out as an APRS packet.

This shot shows the entire development board.

For more details have a look at the project Website.

alan-parekh.com/projects/gear-clock/

This robot is avoiding obstacles through infrared, consists of two stepper motors and a microcontroller.

With Martin even debugging sessions are fun :)

Intel programmable microcontroller with 2048 bytes of ROM.

CDIP-40 package. 1987. Malaysia.

I've put together a little Shrimp microcontroller circuit (similar to Arduino Uno) to hook up the LED matrix and Bluetooth dongle. Attention data levels are visualised as red LEDs and meditation data levels as green LEDs.

Texas Instruments booth at FIE Conference in South Dakota

From the collection of George Weistroffer.

A small persistence of vision toy I built.

THermometer with microcontroller PIC16F84A and sensor DS18B20.The schematic and other stuf to make this thermometer is on my bolg:http://macoprojects.blogspot.com/

via Instagram ift.tt/12jmhi5

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.

Using this small 0.300" ZIF socket (now cheaply available from sparkfun and EMSL) to program a bunch of PIC24FJ64GA002-I/SP chips with the Bus Pirate firmware and loader.

Being able to bulk-program chips in their target circuit is excellent from a testing stand-point.

(The blue programmer is a Microchip ICD2LE.)

salvaged out a touchscreen element and a controller, from a 12in lcd that was scrapped. made small program to read in the touch location, and interpret as 3 rows for 3 colors, and set the led brightness for each color. using: elo resistive touch element (below the calculator), elo serial touch controller (not into new usb stuff yet); max233 level converter (1 cap only); 68hc11 on microstamp11 from technologicalarts.com; maxim max6957 spi i/o / led driver; and a tricolor smt led on a surfboard. also using a usb-ser (ttl) converter for programming the micro from pc. converter is a nice tool, chip by ftdi, in dlp-usb232m module, from mouser.

Great micro controller from HiBot (hibot.co.jp/en/home). Get yours today.

Battery got a bit burnt :)

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.

For more details have a look at the project Website.

alan-parekh.com/projects/gear-clock/

A PIC18 microcontroller, with a 4Mhz ceramic resonator

Sequencing lights activated by push button.

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.

Anyone know which Atmel this is? Nothing popped up when I entered into Digikey's site.

Dorkboard assembly - Add the 16MHz 3-pin ceramic oscillator. The orientation is not important.

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.

For more details have a look at the project Website.

alan-parekh.com/projects/gear-clock/

ChickTech: High School 2013 PSU

This is how the camera is mounted and oriented in flight. The foam skid protects the lens during landings and helps keep the camera in place. A piece of clear packing tape holds the other side of the camera in place.

Available at Adafruit!

Mount the board to the case.

Arduino sawtooth filter light sensor test