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A good power supply is an essential subject to the microcontroller's base project; it's like a heart that gives a life to our microcontroller. Sometimes we take it for granted the important of having an adequate power supply to our microcontroller project and this can lead to the unexpected result or behavior from the circuit. For more information please visit www.ermicro.com/blog/?p=820
The Arduino Duemilanove on a 6mm polycarbonate slab with four non-slip feet. The PCB is supported on M3 threaded spacers, and held down with Allen bolts (which I salvaged from a Video 2000 VCR).
Microchip Technology Inc., a leading provider of microcontroller, analog and Flash-IP solutions, today announced its expanded MiWi™ Development Environment (DE), which is a complete ecosystem for designing star and mesh wireless networking products. The MiWi DE is comprised of Microchip’s free, proprietary MiWi P2P, MiWi and MiWi PRO star and mesh networking protocol stacks; the 8-bit Wireless Development Kit (WDK) and ZENA™ Wireless Adapters (2.4 GHz, 868 MHz and 915 MHz); and the multi-purpose Wireless Development Studio (WDS) with cross-platform support for the Linux, Mac OS® and Windows® operating systems.
Building a simple and easy microcontroller based robot is always a fascinating topic to be discussed, especially for the robotics newbie enthusiast. On this tutorial I will show you how to build your own microcontroller based robot which known as a photovore or you could call it as the light chaser robot using the simplest possible circuit for the microcontroller based robot brain, locomotion motor and the sensor. For more information visit www.ermicro.com/blog/?p=1549
A few more steps towards a usable system!
* Programmed FPGA to blink LEDs (the most important thing in any project)
* Wrote initial firmware for microcontroller, and it's now able to read/write the onboard flash chip, as well as program the FPGA all by itself :)
Next: some more work on the FPGA and probably initial motor control pretty soon. Well, that or smoke.
Talks and performances by people doing strange things with electricity
Fri 23 March 2012, 6.30-10pm with interval at the Showroom Cinema, Sheffield.
Dorkbot is a meeting of people interested in electric/electronic art in the broadest sense; robotics, kinetic art, microcontrollers, interactive art, algorithmic music, net.art... The only real conditions are that it is a bit strange and involves electricity in some way. It is really defined by whoever turns up, be it engineers who want to be artists, artists who want to be engineers, or the otherwise confused.
This MEGADORK event features a cabaret of talks and performances from among the UK's dorkiest, to entertain and amaze:
Paul Granjon - A strange performance from the world renowned self-styled robot artist.
Patrick Tresset - Talks about his drawing robot Paul (on show as part of the Alan Turing: Intuition and Ingenuity exhibition).
Daniel Jones and James Bulley - talking about generating live music from patterns of weather.
www.variable4.org.uk/about/intro
Sarah and Jenny Angliss - playing robot music from past futures.
spacedog.biz
Sergi Jorda - talks about the Reactable tangible tabletop music playground (which you'll be able to try out at the Central Library Saturday 24 March)
Dan Stowell - Demonstrates his use of the Risset illusion in techno music.
Silicone Bake - Live coded pop songs about love, death and counterfeit watches, where all lyrics are taken from spam emails.
Megadork is curated by Alex McLean.
Dorkbot started in New York, spread to London, and now dozens of cities around the world, including several active UK chapters; Sheffield, Bristol, Anglia, Newcastle, Cardiff and Alba (Scotland). Find out more at: www.dorkbot.org
Lovebytes 2012 - Digital Spring
A Festival of Art, Science and Technology
22-24 March
Sheffield UK
The Serial Peripheral Interface (SPI) is one of the popular embedded serial communications widely supported by many of today’s chip manufacture and it considered as one of the fastest serial data transfer interface for the embedded system. Because of its special in/out register configuration, the SPI master device could transfer its data and at the same time it receive a data from the SPI slave device with the clock speed as high as 10 MHz. Beside its superior data transfer speed; SPI also use a very simple data transfer protocol compared to the other serial data transfer methods. For more information please visit www.ermicro.com/blog/?p=1846
This is the link to the schematic of the model R/C tank I am designing on a gearbox + Tracks & wheels from Tamiya. Full details with schematic at www.5volt.eu
Most of the holes are drilled to 0.8mm, but some are 1.0mm. In particular, the programming header, the I/O port connectors and the reset switch need the larger hole sizes.
Microchip Technology's MCP4706/16/26 non-volatile Digital-to Analog Converters feature buffered 8-,10- and 12-bit voltage output options and integrated EEPROM, and are offered in a miniature 2 mm x 2 mm DFN package, as well as a 6-pin SOT-23 package. The DACs are ideal for applications in the consumer and industrial markets, such as wireless microphones and mp3-player accessories; and applications such as motor control, flow measurement, temperature control and light control.
To give you an idea of the scale of these little blighters, the texture you see them "standing" on is not anything fancy, it's just standard copier paper. I was surprised how much texture you could see on a close up view like this
Strobist info:
SB600 on 1/64 from the right
Cactus V4 Trigger
Learn how to make a GPS tracking unit for your vehicle.
#arduino #gps #programming #microcontroller #project #coding #SIM900
As the electronics hobbyist one of knowledge that we have to be familiar with is how to make our own printed circuit board (PCB). Making our own simple single side PCB actually is not require a sophisticated technique and technology as you might think, instead most of the required materials is already available at your home. For more information please visit www.ermicro.com/blog/?p=1526
Version 1.1 of our open-source ATmegaXX8 AVR development target board. Read more about this project and download the design files here.
Microchip's low-cost ENC624J600 standalone, IEEE 802.3™ compliant, 100 Mbps Ethernet interface controllers. These Ethernet controllers combine a 10/100Base-TX physical interface (PHY) and a Media Access Controller (MAC) with a hardware cryptographic security engine, and can connect to any PIC® microcontroller via an industry-standard Serial Peripheral Interface (SPI) or a flexible parallel interface. Additionally, each device has a unique, factory-preprogrammed MAC address and 24 Kbytes of configurable SRAM for packet transmit/receive buffering and data storage. This combination of speed, flexibility and features enables designers to create fast, secure network- and Internet-connected embedded applications with minimized board space, cost and complexity. All of Microchip’s Ethernet products, tools, documentation and other design resources can be found on the Company’s online Ethernet Design Center, located at: www.microchip.com/Ethernet
EMSL Atmega target board populated with some SIP machine pin sockets to turn it into a breadboard of sorts.
G Code Viewer - JViewer more Information & Download under: www.jtronics.de/forum/viewtopic.php?f=17&t=281
Microcontroller unit that senses atmospheric pressure and displays changes as different colors on a string of ShiftBrite-driven RGB LED strips. More information and images at rotormind.com/projects/portfolio/Ambarometer/
Dit een gestripte versie van mijn DIY ArnoSync camera trigger. Deze versie is eveneens opgebouwd rond een PIC 12F675 microcontroller. Het is een versie met een lichtsterkere lens met een brandpunt afstand van 100 mm. Het apparaatje kan hierdoor een object in focus detecteren tot op 1 meter afstand van de camera.
Het is de bedoeling deze versie te gebruiken voor vogelfotografie. De gebruikte lasermodule is een IR (Infra Rood) versie welke ik nog beschikbaar had.
Alle onderdelen passen nog net op een mini breadboardje.
Het geheel is opgebouwd met een minimum aan onderdelen.
De aansluiting naar de Sony A6000 camera remote shutter input gebeurt nu via een robustere 3.5 mm chassis stereoplug. Voor de aansluiting naar de Sony A6000 synchro kabel is dus een extra 3.5mm naar 2.5 mm stereoadapter plugje nodig.
De voeding van het geheel gebeurt door een externe 5 Volt Mini Powerbank van 2600 mAh met schakelaar. Deze combinatie heeft een autonomie van ca. 100 uren. Door het gebruik van de on-off schakelaar enkel wanneer een detectie verwacht wordt kan er meerdere weken op een volgeladen Powerbank gewerkt worden.
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This is a striped-down version of my classic DIY ArnoSync camera trigger device.
This version is still build around a PIC 12F675 device. The mini system uses a better lens (100 mm focus) before the SFH309 phototransistor. The working distance to the object is now about 3 feet.
The used Lasermodule is an IR (Infra Red) type which I found in my junk-box.
All the electronics are mounted on a mini prototype breadboard. The connection to the Sony A6000 camera is done via a 3.5 mm stereo chassis plug. A 3.5 mm to 2.5 mm adapter is needed to mate the Sony A6000 external shutter release cable.
The used power supply is a small 2600 mAh Powerbank of 5 Volt with an ON/OFF push button switch. This allows power for more as 100 hours in continuous operation or several weeks when only switched on when an object is expected in the detection zone.
The LPC2119 board is mounted on a solderless breadboard, which is in turn mounted on some thin MDF. The chip is programmed via an RS-232 interface (cable on the left) from a PC running Linux. There's a bootloader on the chip that accepts new firmware according to a simple protocol over the serial link.
My home-made double layer PCB for spirograph controller. It's made using well proven heat toner transfer method.
www.apdigitallight.com/2009/12/simple-technique-to-make-p...
Microchip announced a new addition to its PIC12/16LF155X 8-bit microcontroller (MCU) family with the PIC16LF1554 and PIC16LF1559 (PIC16LF1554/9) devices. The PIC16LF1554/9 includes two independent 10-bit 100K samples per second Analog-to-Digital Converters (ADC) with hardware Capacitive Voltage Divider (CVD) support for capacitive-touch sensing. This unique ADC configuration enables more efficient sensor acquisition and assists with advanced touch-sensing techniques for extremely noisy environments, low-power applications, matrix keypads and water-resistant designs. For more info, visit: www.microchip.com/get/08KC
This is a breakout board for the Nordic Semiconductor nRF24LU1+ 2.4GHz transciever with 8051 USB microcontroller core. More information at my blog: www.qwertyboydesign.wordpress.com
In a three-day camp, teens learn to program and build interactive electronics using Arduino microcontrollers.
Captured using a microcontroller that I programmed to read the flashes from Nikon's wireless commander mode.
The MC13224 from Freescale is a ZigBee System-On-Package device. The three dies pictured are the microcontroller, radio, and flash memory.
Microchip's eight-member PIC24FJ256DA microcontroller family integrates three graphics acceleration units and a display controller, along with 96 Kbytes of RAM. This integration reduces system costs and makes it practical to add advanced graphics displays for a wide range of embedded applications, by eliminating the need for external RAM and a display controller. Additional savings are achieved through the integrated peripherals for USB and capacitive touch sensing. To enable quick time to market, Microchip’s Graphics Display Design Center provides a host of resources for application designers, such as the free and easy-to-use Graphics Library and Visual Design Tool, see: www.microchip.com/get/89VU
Microchip Technology's 8-bit, low-cost, Enhanced Mid-range Core PIC16F1516/7/8/9 and PIC16F1526/7 (PIC16F15XX) microcontrollers (MCUs) feature eXtreme Low Power (XLP) technology for sleep currents down to 20 nA, which lowers overall power consumption and extends battery life. An on-chip 10-bit Analog-to-Digital Converter (ADC) with up to 30 channels enables mTouchâ„¢ capacitive touch-sensing keys and sliders, and high-resolution touch-screen designs. Up to two each of EUSART, I2Câ„¢, and SPI ports enable communication with on-board peripherals. They are ideal for cost-sensitive applications in the consumer (e.g. DVD players, cell phones, MP3 players); automotive (e.g. dashboards, gauges, on-board sensors), home appliance (e.g. washing machines, refrigerators, TV remote controls), and other markets.
First draft of a circuit for connecting a CD-ROM motor to an Arduino so that it acts as a rotary sensor. I want to make it into a spinner control, rather like those which are used to control video playback. Normally, the Hall-effect sensors are connected to the motor driver chip and control the commutation. I've wired them to a comparator chip (TLC3704) and then to the Arduino.