View allAll Photos Tagged microcontroller
This is a 8-bit microcontroller from a garage door opener.
DataSheet:
ww1.microchip.com/downloads/aemDocuments/documents/MCU08/...
Together with the experience of the promoter in projects involving Government Sectors and Private Industrial Sectors,Techon Electro Controls now looks forward to participating in the International projects to carrying out Design, Manufacturing,Installation and commissioning of Small,Medium & Large Captive Power Plants as well as complete power utilization & distribution solutions.
The DDS-60 Daughter Card from Midnight Design Solutions contains an Analog Devices AD9851 DDS (Direct Digital Synthesis) chip, a clock oscillator, a 5th-order elliptic filter and an adjustable-level RF amplifier, and an onboard 5V regulator.
Together with the experience of the promoter in projects involving Government Sectors and Private Industrial Sectors,Techon Electro Controls now looks forward to participating in the International projects to carrying out Design, Manufacturing,Installation and commissioning of Small,Medium & Large Captive Power Plants as well as complete power utilization & distribution solutions.
For this mockup, the LEDs were simply pushed through the cardboard separators and soldered with 30 gauge wire. Three anode buses run the length of the array, for each color. The common cathodes run to the RGB controller.
The inside of the box. (The black stuff is ESD foam, which is sitting on top of the contents of the box: my AVR dragon programmer!)
In a three-day camp, teens learn to program and build interactive electronics using Arduino microcontrollers.
Three jumper wires are required to distribute 5V power around the board. It's only a single-sided PCB!
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
Ready to assemble. The heavy slate makes the breadboard less likely to slide about on the desk when I connect wires. The slate is resting on the packet of non-slip feet. Their adhesive had failed, though so I used super-glue (cyanoacrylate) instead.
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
I designed and built a passive infrared trigger for my Canon EOS 5D camera (will work with any camera with a remote shutter release socket) to take pictures when something (an animal) sets off the PIR sensor. This will allow me to set the camera up to automatically capture anythng that moves in front of the sensor. I used a microcontroller to control the camera wake up and shutter release relays. This gives me the ability to control the frequency and number of shots. For the prototype I trigger the wake up relay for 300ms then the shutter release relay for 300ms followed by a 300ms pause before checking the input again to see if there is still movement in front of the PIR sensor. I also put a long delay (1 second) after 5 continuous shots. Depending on results I may replace this long delay with a wait until the PIR is no longer being triggered to prevent too many pictures of one event if the animal stays in range of the PIR sensor for a while. The cool thing is that the camera can go into sleep mode allowing the battery to last for days as the circuit wakes the camera up when movement is detected.
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
chipKIT PGM Programmer/Debugger for use with Digilent chipKIT Platforms
The chipKIT PGM is designed to work with the MPLAB® and MPLAB X development environments available from Microchip. This allows the chipKIT boards, for example, to be used as a more traditional microcontroller development platform using the professional tools available from Microchip. While the PICkit™3 programmer can generate programming voltages needed to program all Microchip PIC devices, the chipKIT PGM can only program devices that are programmable with 3.3V programming voltage. Further, the PICkit3 can source a small amount of current to provide power to some boards being programmed. The chipKIT PGM does not provide power to the board being programmed.
store.digilentinc.com/chipkit-pgm-programmer-debugger-for...
PICkit 3 In-circuit Debugger
The MPLAB PICkit 3 allows debugging and programming of PIC and dsPIC Flash microcontrollers at a most affordable price point using the powerful graphical user interface of the MPLAB Integrated Development Environment (IDE). The MPLAB PICkit 3 is connected to the design engineer's PC using a full speed USB interface and can be connected to the target via an Microchip debug (RJ-11) connector (compatible with MPLAB ICD 2, MPLAB ICD 3 and MPLAB REAL ICE). The connector uses two device I/O pins and the reset line to implement in-circuit debugging and In-Circuit Serial Programming.
The monochrome greyscale test pattern, stretched onto a widescreen TV. One area to explore in the future is the Widescreen Signalling System.
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
LPC-P2138 by Olimex based on the LPC2138 microcontroller by NXP that is an ARM7TDMI architecture.
My new toy in the lab.
The chipKIT™ MX3 is a microcontroller development board based on the Microchip® PIC32MX320F128H, a member of the 32-bit PIC32 microcontroller family. It is compatible with Digilent’s line of Pmods, and is suitable for use with the Microchip MPLAB® IDE tools. The chipKIT MX3 is also compatible for use with the chipKIT MPIDE development environment.
The chipKIT MX3 provides 42 I/O pins that support a number of peripheral functions, such as UART, SPI, and I2C ports as well as five pulse-width modulated outputs and five external interrupt inputs. Eleven of the I/O pins can be used as analog inputs in addition to their use as digital inputs and outputs.
store.digilentinc.com/chipkit-mx3-microcontroller-board-w...
Durchsehen Exp.01 Daytime Installation view
www.daniel-franke.com/work/2010--durchsehen-exp-01/
D-2010. Concrete cube, PC, 2 projectors, webcam, servo motors, microcontrollers, C++ applications, tripods. 4 x 4 x 2 m.
Collaboration with Markus Kison
D-2010. Concrete cube, PC, 2 projectors, webcam, servo motors, microcontrollers, C++ applications, tripods. 4 x 4 x 2 m.
Collaboration with Markus Kison
A camera fixed on the concrete cube sculpture recognizes the presence of human faces within its scope. With a randomized choice it will focus on one of the bystanders and adjust its movement to his; tracking the eye movements of the viewer, a software computes the corresponding angle of view projecting onto the cube the very section of the space the sculpture is blocking from the viewers eye; thus making the cube appear transparent.
The video sculpture „Durchsehen, Exp. 01 (augmented perspective)“ overwrites the common notion of perspective and plays with the significance of perspective in an art historical perspective; the work of art evades the gaze of the viewer or rather: the two are equated. The gaze of the observer coincides with the object of observance in a piece that also draws a line to former strategies of dealing with vision and depiction: the renaissance praxis of “painting on glass”.
Through the real-time projection on the cube a 3dimensional depiction of 2dimensionality occurs; the catoptric turns dioptric. The framing plane of the conventional video image becomes fragmented as work and reality intertwine in an augmented perspective.
(Text translated by Mikala Hyldig Dal)
A camera fixed on the concrete cube sculpture recognizes the presence of human faces within its scope. With a randomized choice it will focus on one of the bystanders and adjust its movement to his; tracking the eye movements of the viewer, a software computes the corresponding angle of view projecting onto the cube the very section of the space the sculpture is blocking from the viewers eye; thus making the cube appear transparent.
The video sculpture „Durchsehen, Exp. 01 (augmented perspective)“ overwrites the common notion of perspective and plays with the significance of perspective in an art historical perspective; the work of art evades the gaze of the viewer or rather: the two are equated. The gaze of the observer coincides with the object of observance in a piece that also draws a line to former strategies of dealing with vision and depiction: the renaissance praxis of “painting on glass”.
Through the real-time projection on the cube a 3dimensional depiction of 2dimensionality occurs; the catoptric turns dioptric. The framing plane of the conventional video image becomes fragmented as work and reality intertwine in an augmented perspective.
(Text translated by Mikala Hyldig Dal)
Prototyping a GPS tracker with an Ardunio microcontroller board and a Navman Jupiter 21 GPS module. The Arduino is successfully reading in and parsing the GPS fix data, but I think the GPS unit is a bit crap as 90% of the time it won't get a valid position fix.
I have made a few changes to the board mostly around the the lower middle area. This should reduce EMI around the crystal oscillator of the ds1307 real time clock.
Building on the previous successes with the chipKIT WF32, the Wi-FIRE uses the same 43 available I/O pins, 12 analog inputs, 3.3 operating voltage, 4 user LEDs, potentiometer, buttons, uses MRF24 on-board wireless module, microSD Card, dedicated SPI Signals and high efficiency switching 3.3V switching power supply for low-power operation.
The Wi-FIRE is significantly faster than its WF32 counterpart, with 200 MHz operation speed, 2MB of Flash, 512kB RAM, High-Speed USB and a 50MHz SPI. The PIC32MZ core includes the MIPS M5150 CPU Core from Imagination Technologies. The M5150 is a highly efficient, compact core that is optimized for cloud-connected based projects, using Imagination Technologies' FlowCloud software.
store.digilentinc.com/chipkit-wi-fire-wifi-enabled-mz-mic...
The Arduino Uno is a microcontroller board based on the ATmega328
It has 14 digital input/output pins (of which 6 can be used as PWM outputs), 6 analog inputs, a 16 MHz crystal oscillator, a USB connection, a power jack, an ICSP header, and a reset button. It contains everything needed to support the microcontroller; simply connect it to a computer with a USB cable or power it with a AC-to-DC adapter or battery to get started.
arduino.cc/en/Main/arduinoBoardUno
Photo taken by Michael Kappel of my Embedded Electronics Experiment Kit
View the high resolution Image on my picture website
Pistol - Analogue telephones, metallized and thermo-lacquered mild steel, sound system, oscillators driven by microcontroller
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/