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Testing out an ADXL335 accelerometer, and interfacing it to an AVR microcontroller. Read more here

The Digilent Servo Robot Kit (SRK) provides the perfect starting point for those new to robotics, but has the power to be used for advanced designs and applications as well. The SRK pairs our powerful chipKIT™ MX3 microcontroller development board with a rugged steel platform and all the motors, wheels, and other parts needed to build a complete robot. Using your SRK's powerful chipKIT MX3 microcontroller, you'll be able to add all sorts of functionality to your robot. Add some of our extensive line of peripheral modules (Pmods™) and you can design almost anything!

 

store.digilentinc.com/srk-basic-servo-robot-parts-kit-inc...

The Digilent Servo Robot Kit (SRK) provides the perfect starting point for those new to robotics, but has the power to be used for advanced designs and applications as well. The SRK pairs our powerful chipKIT™ MX3 microcontroller development board with a rugged steel platform and all the motors, wheels, and other parts needed to build a complete robot. Using your SRK's powerful chipKIT MX3 microcontroller, you'll be able to add all sorts of functionality to your robot. Add some of our extensive line of peripheral modules (Pmods™) and you can design almost anything!

 

store.digilentinc.com/srk-basic-servo-robot-parts-kit-inc...

The MPLAB® ICD 3 is a cost-effective, high-speed in-circuit programmer and debugger for Microchip’s Flash-based 8-bit PIC® microcontrollers (MCUs), and its entire line of 16- and 32-bit MCUs and 16-bit dsPIC® Digital Signal Controllers (DSCs). Please visit www.microchip.com/ICD3 for more information.

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Building a microcontroller from scratch.

The "Box Monster" is an easily built robotics kit that is ideal for people just starting out in electronics. Designed for the K-12 audience, the Box Monster can be brought home as a fun electronics project that students create themselves, and it can also act as a spring-board into more advanced topics like microprocessor coding and electronic design.

 

The chipKIT™ uC32 microcontroller drives the R/C servo motor to open and close the mouth, but can also be programmed to do anything else you want with the free MPIDE programming environment.

 

store.digilentinc.com/robotic-box-monster-aka-boximus-ter...

Good tutorial book from Parallax that gives a basic introduction to microcontrollers.

The pre-cut veroboard and the complete set of discrete components needed to make the Atmel ATtiny2313/26 microcontroller carrier. (See decarchive.org/~prd/2009/10/breadboard-compatible-carrier... for more details.)

Test shot with the Canon 100mm f/2.0 and a 25mm extension tube. ATtiny45 microcontroller and six-pin in-system programming connector.

Advertisement in the Winter 2009 issue of Make Magazine, for the Arduino

Building a microcontroller from scratch.

The Arduino microcontroller board is wired up to a Nokia 1202 LCD via a CD4050 buffer chip. The bit-maps of the cells in the game take up nearly all the RAM on the AVR microcontroller chip. New generations are displayed at a rate of about ten per second. Screen resolution is 96x68 pixels.

Atmel chips, the ATtiny15L, AT89C2051 and the ATMega8

A development board which uses the Atmel AT90S2313 microcontroller.

Microcontrolador Pic 16f877a.

 

PIC 16F877A Microcontroller.

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.

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)

  

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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...

Diagram for the DIP switch circuit showing how the switches are wired as "active high", such that when a switch is on, the corresponding BS2 pin will see 5 volts or a logic level of 1. Stamp pins 0, 1, and 2 are used to input the binary values for setting the delay between drops, while pin 3 inputs the number of drops (off =1, on=2). The four pins 8-11connected to the second DIP switch set are used for the 4 bits (nibble) to input the drop size setting. Each DIP switch has a 4-wire cable (salvaged from a PC's old CD audio to sound card cable cut in half) with a 4-pin connector at the end that plugs onto 4 I/O pins of the BS2 microcontroller. The numbers represented in the DIP switch settings are used in a simple formula to calculate the times in milliseconds to keep the valve open or closed.

Close-up of the receiver. The main chip is the Nordic RF chip that also contains a microcontroller. The chip near the bind button is an EEPROM that holds bind information persistently.

 

On the right of the two ICs are two voltage regulators. The upper one is a 3.3V regulator that drives most of the logic, the lower one generates 2.5V needed for the Nordic chip.

 

Just below the servo connectors are four tiny protection resistors. We will de-solder the left most one to free up the signal pin on the battery connector. Stock this pin contains some form of test signal that is unfortunately not PPM but a sum of the three servo pulses.

 

Side note: The receiver consumes about 25mA at 5V. If the 3.3V regulator is able to accept 10V input voltage then one could power up this receiver directly from a speed controller that does not have a BEC, like most older Tamiya ones.

Alternatively one could replace the voltage regulator to ensure it can handle at least 10V.

 

chipKIT™ Pi™ (designed for Raspberry Pi®) is the latest chipKIT platform from Microchip® and Element14. It features a 32-bit PIC32 microcontroller in a prototyping-friendly, low pin count SPDIP package. The PIC32's performance, memory, and integrated peripherals allow users to create applications including touch sensing, audio processing, and advanced control. The board is supported by the free chipKIT MPIDE that can be hosted on the Raspberry Pi.

 

store.digilentinc.com/chipkit-pi-add-on-board-for-raspber...

Atmel ATmega 0-series microcontroller in 40-pin DIP package. Date code 1917 for 2019 week 17.

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"Electron Wrangling for Beginners" class at Machine Project gallery in Echo Park.

 

AC appliances being controlled by hand via photo-resistor.--

More stuff by jbum:

Sudoku Puzzles by Krazydad

Wheel of Lunch

Whitney Music Box

The Joy of Processing

 

CharmingBurka. D-2007. Performance with Afghan burka, microcontroller, bluetooth transmitter.

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...

Nicole took this photo.

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