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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/
Huss had rigged up a Nintendo DS touch-screen (available as an inexpensive spare part) to an Arduino. The Arduino was running a simple program to read X,Y co-ordinates from the device, and send them to a host computer via USB.
Microchip Sets New Benchmark for Low-Power Microcontrollers (MCUs); Significantly Expands Enhanced 8-bit PIC® MCU Portfolio
The SBS-52A single-board computer featured in www.flickr.com/photos/toonfox42/8895027050/in/set-7215763... hooked up and working.
An Atmel ATtiny24 microcontroller drives an R/C servo wich in turn rotates a line LASER. The microcontroller runs a software real time clock and turns the servo and the line LASER to mimic the shadow cast from the style of a sundial as the time goes.
Details at http://www.5volt.eu.
Jacks for the HiViz trigger outputs to camera and flash, input from Photogate drop sensor, and power output to the solenoid valve (under control of the BS2 microcontroller).
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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.
Microchip Technology's MCP6051/2/4 (MCP605X), MCP6061/2/4 (MCP606X) and MCP6071/2/4 (MCP607X) op amps feature offset voltages of just 150 microvolts and are well suited for applications requiring low power consumption, low-voltage operation and high precision, such as those in the industrial, medical, consumer and other markets
Arduino controllers are very powerful, but it's easy to get started programming them-especially with our kits.
I just received these 2x16 LCDs (and one 2x40) white on blue with LED backlight. This is a setup for using it in 4bit mode with an I2C IO expander. (Excuse the bad pict, blue LCDs are a pain to shoot)
Webcam -> Processing -> Arduino -> Peggy. :)
15 FPS "Real-time" video on the Peggy 2.
This is my Arduino-like ATmega168 on its breakout board-- performing serial-TWI conversion.
Read more about this project here.
The chipKIT™ Pro MX7 is a microcontroller development board based on the Microchip® PIC32MX795F512L, a member of the 32-bit PIC32 microcontroller family. It is compatible with Digilent's line of peripheral modules (Pmod), and is suitable for use with the Microchip MPLAB IDE tools. The chipKIT Pro MX7 is also compatible for use with the chipKIT MPIDE development environment.
The chipKIT Pro MX7 provides 52 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. Its network and communications features also include a 10/100 Ethernet interface, Full Speed USB 2.0 OTG interface, and dual CAN network interfaces. Ten 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-pro-mx7-advanced-peripheral...
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.
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Kelas fast track to microcontroller yang diikuti oleh sejumlah siswi dari SMA Nurul Fikri Banten, November 2010.
Picaxe microcontroller project: thermostat. The serial 7 segment display(from Sparkfun.com) reads actual temp on left two digits in Celsius, setpoint on the right two digits. The microcontroller is the Picaxe 18X, temp sensor is the Dallas 18B20, just below the 7 segment display. Heater is controlled by an Omron 653-G3MB-202P4DC5 solid-state relay (black box above the 7 segment display).
"Electron Wrangling for Beginners" class at Machine Project gallery in Echo Park.--
More stuff by jbum:
chipKIT Pro MX4 : Embedded Systems Trainer Board
The chipKIT™ Pro MX4 is a microcontroller development board based on the Microchip® PIC32MX460F512L, 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 Pro MX4 is also compatible for use with the chipKIT MPIDE development environment.
The chipKIT Pro MX4 provides 74 I/O pins that support a number of peripheral functions, such as USB controller, UART, SPI, and I2C ports as well as five pulse-width modulated outputs and five external interrupt inputs. Fifteen 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-pro-mx4-embedded-systems-tr...
Cerebot 32MX4
store.digilentinc.com/cerebot-32mx4-limited-time/
Cerebot MX4cK
chipKIT Pro MX4 : Embedded Systems Trainer Board
The chipKIT™ Pro MX4 is a microcontroller development board based on the Microchip® PIC32MX460F512L, 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 Pro MX4 is also compatible for use with the chipKIT MPIDE development environment.
The chipKIT Pro MX4 provides 74 I/O pins that support a number of peripheral functions, such as USB controller, UART, SPI, and I2C ports as well as five pulse-width modulated outputs and five external interrupt inputs. Fifteen 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-pro-mx4-embedded-systems-tr...
Cerebot 32MX4
store.digilentinc.com/cerebot-32mx4-limited-time/
Cerebot MX4cK
LPC-P2138 by Olimex based on the LPC2138 microcontroller by NXP that is an ARM7TDMI architecture.
My new toy in the lab.
2Pcs MAX3232 RS232 Serial Port To TTL Converter Module DB9 Connector With Cable
2 PCS for EUR 2,61
100% Brand New
Size: Approx 3.3cm x 3.5cm x 1.7cm(LxWxH)
Cable: 21cm(including 2 ports)
Working Voltage: 3V-5V
Quantity: 2 Pcs
MAX3232 chip
Pin definition: GND, RXD, TXD, VCC, +5V
Package Content:
2 x MAX3232 RS232 Serial Port To TTL Converter Module DB9 Connectors with cable
The chipKIT™ Max32 is a prototyping platform that adds the performance of the Microchip® PIC32 microcontroller. The Max32 features a USB serial port interface for connection to the IDE and can be powered via USB or an external power supply.
The Max32 board takes advantage of the powerful PIC32MX795F512 microcontroller, which features a 32-bit MIPS processor core running at 80 MHz, 512K of flash program memory and 128K of SRAM data memory. In addition, the processor provides a USB 2 OTG controller, 10/100 Ethernet MAC and dual CAN controllers that can be accessed via add-on I/O shields.
store.digilentinc.com/chipkit-max32-microcontroller-board...
On the right is an Arduino Uno microcontroller, with the Ethernet shield add-on. The whole is connected to my network with a static IP. The other cable is USB, connected to my desktop. At the moment, the USB connection is only needed for power, and so I can upload new code remotely if I need to. The arduino can function entirely on its own, as long as it is powered.
On the left, the IC is an AD595 Type-K Cold Junction Thermocouple Amplifier. It takes the input of the type K thermocouple, which is the coiled wire below the breadboard, and conveniently outputs 10mv/degree C, making it easy to calculate the temperature. This particular thermocouple is accurate to +/- 3 degrees C. I know the output on the page implies accuracy to two decimal places, but that is an artifact of using a float variable type. I'm going to fix that.
The chipKIT™ WF32 is a prototyping platform that adds the performance of the Microchip® PIC32 microcontroller. The WF32 is the first board from Digilent to have a WiFi MRF24 and SD card on the board both with dedicated signals. The WF32 board takes advantage of the powerful PIC32MX695F512L microcontroller, which features a 32-bit MIPS processor core running at 80 MHz, 512K of flash program memory, and 128K of SRAM data memory. The WF32 can be programmed using the Multi-Platform Integrated Development Environment (MPIDE). It contains everything needed to start developing embedded applications. The WF32 features a USB serial port interface for connection to the MPIDE and can be powered via USB or by an external power supply. In addition, the WF32 is fully compatible with the advanced Microchip MPLAB® IDE and works with all MPLAB compatible in-system programmer/debuggers, such as the Microchip PICkit™3 or the Digilent chipKIT PGM.
store.digilentinc.com/chipkit-wf32-wifi-enabled-microntro...
The chipKIT™ Pro MX7 is a microcontroller development board based on the Microchip® PIC32MX795F512L, a member of the 32-bit PIC32 microcontroller family. It is compatible with Digilent's line of peripheral modules (Pmod), and is suitable for use with the Microchip MPLAB IDE tools. The chipKIT Pro MX7 is also compatible for use with the chipKIT MPIDE development environment.
The chipKIT Pro MX7 provides 52 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. Its network and communications features also include a 10/100 Ethernet interface, Full Speed USB 2.0 OTG interface, and dual CAN network interfaces. Ten 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-pro-mx7-advanced-peripheral...