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Sanguino is an open source Arduino-compatible microcontroller board that is base
Sanguino is an open source Arduino-compatible microcontroller board that is based on the Arduino, and inspired by the Boarduino form-factor. It uses the atmega644P chip which has 4x the memory, ram and 12 more GPIO pins than the Arduino's atmega168.
More info: make.sanguino.cc/1.0
Sanguino is an open source Arduino-compatible microcontroller board that is based on the Arduino, and inspired by the Boarduino form-factor. It uses the atmega644P chip which has 4x the memory, ram and 12 more GPIO pins than the Arduino's atmega168.
More info: make.sanguino.cc/1.0
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Sanguino is an open source Arduino-compatible microcontroller board that is based on the Arduino, and inspired by the Boarduino form-factor. It uses the atmega644P chip which has 4x the memory, ram and 12 more GPIO pins than the Arduino's atmega168.
More info: make.sanguino.cc/1.0
chipKIT uC32: Basic Microcontroller Board with Uno R3 Headers
The uC32 features a USB serial port interface for connection to the IDE and can be powered via USB or an external power supply. The board takes advantage of the powerful PIC32MX340F512 microcontroller, which features a 32-bit MIPS processor core running at 80 MHz, 512K of Flash program memory, and 32K of SRAM data memory.
The uC32 is easy to use and suitable for both beginners and advanced users experimenting with electronics and embedded control systems. It provides 42 I/O pins that support a number of peripheral functions, such as UART, SPI, I2C ports, and pulse-width modulated outputs. Twelve of the I/O pins can be used as analog inputs or as digital inputs and outputs.
store.digilentinc.com/chipkit-uc32-basic-microcontroller-...
chipKIT WiFi Shield: Add-on Board
The chipKIT WiFi Shield provides chipKIT microcontroller boards the ability to connect to and communicate with IEEE 802.11 compatible wireless networks. The WiFi Shield also provides a microSD card connector for use with microSD flash memory cards. The chipKIT MPIDE SD library can be used to read/write files stored on the microSD card.
Just a quick shot so I don't forget how to use my camera.
This little dingbat connects to a breadboarded microcontroller through its nifty colorful wires. The pins are for connecting a cable from the AVR Dragon programmer/debugger. I designed the color code and built this my own self!
To the unaided eye, this little artifact looks fairly tidy. Under the x-treme closeup, grungy. That's what cameras do when they can't meaningfully add 10 pounds!
Updated: Now with scale penny!
About the acronyms: AVR is a line of chips made by Atmel. They're all coy about what AVR stands for, claiming it isn't an acronym and even that it doesn't mean anything at all. MCU is MicroController Unit and ISP is In-System Programming (I've also seen it meaning In-circuit Serial Programming). Just so's you know.
Product image of components from the Jennic range - www.sequoia.co.uk/components/manufacturer_list.php?m=12&a...
Jennic is a market leader in ZigBee, 6LoWPAN, IEEE802.15.4 wireless microcontrollers, modules and evaluation kits.
100% uncropped and unedited.
2:1 using Canon 7D and 100mm f/2.8L macro with 68mm of extension tubes (full kenko set).
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.
I built a robot from a Tamiya gearbox and tractor chassis, with an Arduino microcontroller and an h-bridge to control the motors. There's a PING ultrasonic distance sensor on the top.
The software is simple -- turn until you find some open space and then go forward until you get within 6 inches of an object. Lather, rinse, repeat. The robot finds its way all over the house with this simple code.
The cat is obsessed with it and will follow it for hours. Sometimes it will get stuck in a corner for a long time and the cat just sits there and watches.
I'll put up a build log at www.atomsandelectrons.com
A red LED connected to Port D, bit 0 just to test that everything is OK. Power connector plugged in at the bottom.
5 watt LED light over kitchen sink, with motion sensor for auto activation. Uses ATtiny84 and a MOSFET. Blog entry here: macetech.com/blog/node/109
built from a portion of Mr. Ray Wilson's schematic
opamps are go!
pots are too, and i guess wires as well - caps, resistors, yadda yadda
this add-on may be a bit overkill:
- 5 CV outs, 4 with portamento
- gain and offset controls
- offset seems weird, might have to do with my r2r values
- requires +&-, dual power supply, which isn't very convenient
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.
chipKIT uC32: Basic Microcontroller Board with Uno R3 Headers
The uC32 features a USB serial port interface for connection to the IDE and can be powered via USB or an external power supply. The board takes advantage of the powerful PIC32MX340F512 microcontroller, which features a 32-bit MIPS processor core running at 80 MHz, 512K of Flash program memory, and 32K of SRAM data memory.
The uC32 is easy to use and suitable for both beginners and advanced users experimenting with electronics and embedded control systems. It provides 42 I/O pins that support a number of peripheral functions, such as UART, SPI, I2C ports, and pulse-width modulated outputs. Twelve of the I/O pins can be used as analog inputs or as digital inputs and outputs.
store.digilentinc.com/chipkit-uc32-basic-microcontroller-...
chipKIT WiFi Shield: Add-on Board
The chipKIT WiFi Shield provides chipKIT microcontroller boards the ability to connect to and communicate with IEEE 802.11 compatible wireless networks. The WiFi Shield also provides a microSD card connector for use with microSD flash memory cards. The chipKIT MPIDE SD library can be used to read/write files stored on the microSD card.
The chipKIT™ Uno32 is a prototyping platform that adds the performance of the Microchip® PIC32 microcontroller. It features a USB serial port interface for connection to the IDE and can be powered via USB or an external power supply. To download the IDE, please visit www.chipkit.net/started
The Uno32 board takes advantage of the powerful PIC32MX320F128 microcontroller. This microcontroller features a 32-bit MIPS processor core running at 80 MHz, 128K of flash program memory, and 16K of SRAM data memory.
The Uno32 can be programmed using the Multi-Platform Development Environment (MPIDE). In addition, the Uno32 is fully compatible with the advanced Microchip MPLAB® IDE and the PICKit3 in-system programmer/debugger.
store.digilentinc.com/chipkit-uno32-basic-microcontroller...
5 watt LED light over kitchen sink, with motion sensor for auto activation. Uses ATtiny84 and a MOSFET. Blog entry here: macetech.com/blog/node/109
2005-2010
Found plastic flowers, foam, light sensors, mp3 players, microcontroller, speakers, birdsong
An ersatz version of nature; beautiful, yet a little bit deadly when one considers the natural resources required to create such impeccable imitations of vegetation. Is it also a reflection of human hubris... what else motivates the manufacturing of fake flowers? Why replace the ephemeral with plastic permanence? What joy is there in a whiff of a petroleum-based bouquet rather than the delicate scent of a rose? Secret Garden offers an opportunity to contemplate these questions at the same time it tries to seduce you with extravagant color and joyous birdsong performed just for you.
Ann Resnick, Tom McGuire, John Harrison
$15,000
All the parts I need for the initial test are now soldered on. There's a power connector at the very bottom, a programming connector at the top, and the crystal and the AVR chip are in their sockets.
This little project uses 5 RGB LEDs along with a Microcontroller and 3.7 volt power source. The programmed (with Arduino IDE) ATmega85 MicroComputer Chip is the brains. The chip could also have been affixed to the Bottom of the CAN, connected with nearly invisible steel thread; to completely hide the battery and controller. That will be the next model. When looking at the Can, some angles work better than others. I also plan to hide the lights (smaller LED's hidden under the rim) and program interactivity with sensors.
In a three-day camp, teens learn to program and build interactive electronics using Arduino microcontrollers.
David Stewart's Arduino-based light-painting wand. We got it working, with wireless re-programming, in May. See the photos from the May 17th Hackspace meeting for the results. David's own photos are on Flickr, here: www.flickr.com/photos/cancelmonday/
My continously variable, programable, 16x8 bank midi knob box. Originally built and designed in 2002, Somehow, I never gotten around to posting pictures until now. This was my first foray into building custom hardware.
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.
Rather thrown-together interface between the three DACs on the AVR board and the TV's SCART connector.
Expanding on Microchip’s existing 8-bit PIC® microcontroller-based mTouch development tools for capacitive touch, the PICDEM Touch Sense 2 Demo Board enables designers to implement this leading-edge user interface with Microchip’s wide portfolio of 16-bit PIC24F MCUs. Equipped with capacitive touch-sensing keys and sliders, the board allows designers to evaluate this interface in their applications using the Windows-based mTouch Diagnostic Tool, an easy-to-use Graphical User Interface (GUI) that is included in the mTouch Sensing Solution SDK. The software libraries, source code and other support materials that come with the board further shorten development time and reduce design costs.
. Expanding on Microchip’s existing 8-bit PIC® microcontroller-based mTouch development tools for capacitive touch, the PICDEM Touch Sense 2 Demo Board enables designers to implement this leading-edge user interface with Microchip’s wide portfolio of 16-bit PIC24F MCUs. Equipped with capacitive touch-sensing keys and sliders, the board allows designers to evaluate this interface in their applications using the Windows-based mTouch Diagnostic Tool, an easy-to-use Graphical User Interface (GUI) that is included in the mTouch Sensing Solution SDK. The software libraries, source code and other support materials that come with the board further shorten development time and reduce design costs.
. Expanding on Microchip’s existing 8-bit PIC® microcontroller-based mTouch development tools for capacitive touch, the PICDEM Touch Sense 2 Demo Board enables designers to implement this leading-edge user interface with Microchip’s wide portfolio of 16-bit PIC24F MCUs. Equipped with capacitive touch-sensing keys and sliders, the board allows designers to evaluate this interface in their applications using the Windows-based mTouch Diagnostic Tool, an easy-to-use Graphical User Interface (GUI) that is included in the mTouch Sensing Solution SDK. The software libraries, source code and other support materials that come with the board further shorten development time and reduce design costs.
. Expanding on Microchip’s existing 8-bit PIC® microcontroller-based mTouch development tools for capacitive touch, the PICDEM Touch Sense 2 Demo Board enables designers to implement this leading-edge user interface with Microchip’s wide portfolio of 16-bit PIC24F MCUs. Equipped with capacitive touch-sensing keys and sliders, the board allows designers to evaluate this interface in their applications using the Windows-based mTouch Diagnostic Tool, an easy-to-use Graphical User Interface (GUI) that is included in the mTouch Sensing Solution SDK. The software libraries, source code and other support materials that come with the board further shorten development time and reduce design costs.
Expanding on Microchip’s existing 8-bit PIC® microcontroller-based mTouch development tools for capacitive touch, the PICDEM Touch Sense 2 Demo Board enables designers to implement this leading-edge user interface with Microchip’s wide portfolio of 16-bit PIC24F MCUs. Equipped with capacitive touch-sensing keys and sliders, the board allows designers to evaluate this interface in their applications using the Windows-based mTouch Diagnostic Tool, an easy-to-use Graphical User Interface (GUI) that is included in the mTouch Sensing Solution SDK. The software libraries, source code and other support materials that come with the board further shorten development time and reduce design costs.
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.