Watch it in action!!!

www.metacafe.com/watch/1112821/pic_based_laser_spirograph/

An ATmega328P microcontroller with a built in 64x48 Pixel OLED display. Hooked up to a 5V FDTI cable.

www.kickstarter.com/projects/1516846343/microview-chip-si...

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...

A friend dropped by to show off his servo controller on our AVR prototyping board.

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.

Available at Adafruit!

almost 20 years old UV erasable microcontroller

(33 MHz, 16 k program memory)

m42 Pentacon 50mm f1.8 + macro extension tube + m42/Nikon adapter

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.

The new educational microcontroller that is sweeping the UK!

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

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...

LPC-P2138 by Olimex based on the LPC2138 microcontroller by NXP that is an ARM7TDMI architecture.

My new toy in the lab.

Shrimp low cost microcontroller kit I got from Cefn Hoile at OSHcamp :-) shrimping.it/blog/

Netmax Technologies provides industrial training to BTech/MCA/BCA/Diploma students in fields like embedded systems, networking technologies ,JAVA development

Embedded Systems: ARM microcontroller family with embedded C

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mail :training@netmaxtech.com , embedded@netmaxtech.com

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Netmax technologies

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Building a microcontroller from scratch.

Yea

4x4 matrix keypad.

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 power supply wiring on the back of the plywood board that carries the amplifier, batteries and Arduino. There's a terminal block that feeds power from the batteries to the Arduino and he amplifier. Also shown is the sensor board, with three reflective opto-sensors.

Microchip Technology's 64-pin PIC18F66K80 Plug-In Module (part # MA180032, $25).

Fiddling about with a Basic Stamp2 microcontroller talking via serial cable and Keyspan serial-to-USB to MacBS2, a Mac OS X app for writing PBasic programs and talking to the BS.

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.

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.

DSP microcontroller hand-soldered to the NUE-PSK circuit board. The chip is a 64-lead TQFP (thin quad flatpack), 10mm square. The lead pitch is 0.5mm, and each lead is 0.22mm wide.

Building a microcontroller from scratch.

For more details have a look at the project Website.

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

Now I got an AVR Butterfly as well.. It's an evalution kit for the ATMEGA169 microcontroller.

Question is now, what am I going to do with it? :D

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.

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.

Soldering the pin strips to the LoL shield so it is usable with an Arduino Duemilanove.

UNIVERSAL PERIPHERAL INTERFACE

8-BIT SLAVE MICROCONTROLLER

My OOPic R Board

Programming 100 microcontrollers for TV-B-Gone kits!

at the makerspace at Moonshot

Beijing

March-2019

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

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.

Atmel Studio 7 is the integrated development platform (IDP) for developing and debugging Atmel® SMART ARM®-based and Atmel AVR® microcontroller (MCU) applications. Studio 7 supports all AVR and Atmel SMART MCUs. The Atmel Studio 7 IDP gives you a seamless and easy-to-use environment to write, build and debug your applications written in C/C++ or assembly code. It also connects seamlessly to Atmel debuggers and development kits.

Additionally, Atmel Studio includes Atmel Gallery, an online apps store that allows you to extend your development environment with plug-ins developed by Atmel as well as by third-party tool and embedded software vendors. Atmel Studio 7 can also able seamlessly import your Arduino sketches as C++ projects, providing a simple transition path from Makerspace to Marketplace.Atmega-8 based Development BoardAtmega-32 Development Board for EmbeddedMicro-controllers-Basic Introduction TutorialsFlowcode Programming and Simulation TutorialPrior to installation of AVR Studio you have to install the compiler WinAVR. This will allow AVR Studio to detect the compiler.

Step 1: Download the setup file from Atmel site.There are two option for download A. Atmel Studio 7.0 (build 790) web installer B. Atmel Studio 7.0 (build 790) offline installerUser should select as per their convinience.

Step 2: After selection you will be prompted to fill a form.Complete the form and download link will appear.Click download then wait for download to complete.Step 3: Double click the Installer/Setup file and installation will start automatically.

CONTINUE READING »

via IngenuityDias www.ingenuitydias.com/2016/03/avr-studio-7-tutorial-insta...

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.

Building a microcontroller from scratch.