hlt.media.mit.edu/?p=1596

Blue LED fun with a Parallax BASIC Stamp microcontroller

Build Your Own Microcontroller Based PID Control Line Follower Robot (LFR) – Second Part

I'm getting a Lily Pad wearable open source arduino microcontroller in the mail soon and i can't wait to get going with it!

Picaxe microcontroller project: thermostat. Bottom view with SOIC Picaxe 18X, programming jack to the left of it, and various 0612 size resistors, two for the programming circuit, one a pull up resistor for the temp sensor, one to the reset pin on the 18X, another current limiting for the LED.

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).

Arduino UNO was one of the first ever circuit portraits, way back in 2013. This is a new edition with an extra layer and a bit more finesse.

Listed on Etsy here: www.etsy.com/uk/shop/uptomuch?section_id=10073316

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.

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

Left LED pair: X axis

Middle LED pair: Y axis

Right LED pair: Z axis

Testing out an ADXL330 accelerometer, and interfacing it to an AVR microcontroller. Read more here

Microchip Technology's PIC12F617 8-bit microcontroller features 3.5 kB self-programmable Flash program memory and enables higher-performing designs in a variety of markets. The MCU is available in 8-pin PDIP, SOIC, MSOP and 3 mm x 3 mm DFN packages, for $0.56 each, in 10,000-unit quantities. Samples can be ordered today, at www.microchip.com/get/26LF. The MCUcan be purchased today at microchipDIRECT (http://www.microchip.com/get/563P). For further information, contact any Microchip sales representative or authorized worldwide distributor, or visit Microchip’s Web site at www.microchip.com/get/9X5D.

running with their own network protocol, with source, destination, route and payload in ONE STRING because at MIT we like to reinvent the wheel

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

Have you ever thought that most of our perception about the robot is based on the Hollywood movie! The well-known 3CPO and R2D2 from Star Wars until the little cute garbage compacting robot named WALL-E; all of these machines are example of our dreams or should I say our quest to what we all think about the robot should be. Although the robot that we are going to build here is still far away from the technologies shown on those movies but at least it will give you an introductory to the robotics world. for more information please visit www.ermicro.com/blog/?p=983

This is a full size mockup I put together to test some concepts for my LED array project. There are 16 RGB LEDs spaced about 2.25 inches apart, with scored and folded cardboard light separators. The final array will have 24 of these rows, with the same minimal spacing between all pixels (no 3/4 inch border). The LEDs are PWM controlled to any of 4096 brightness levels per color.

Microchip Technology's PIC18F87K90 8-bit microcontrollers (MCUs) feature nanoWatt XLP Technology, 1.8 - 5.5V Operation and CTMU Module for Capacitive Touch Sensing. The MCUs can also drive LCDs up to 192 Pixels.

8-Bit microcontroller with EEPROM

This is the CC2530, an 8051 microcontroller with integrated 2.4GHz radio from Texas Instruments. As usual, this had to be rather cruelly compressed to fit on Flickr, even with a Pro account. Email me if you'd find the original to be handy.

I created an 0s & Xs game for LilyPad Arduino using conductive velcro.

Two Nikon SB800 flash units controlled by an Arduino microcontroller. Triggered by a piezo sensor on the air gun.

Thx for assistance and location to Jürgen Stemper // Bloemche

For more details have a look at the project Website.

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

Teardown of Pocket Wizard Plus III transceiver. The main microcontroller is a Atmel AT90USB646.

My Arduino, on a bamboo base-plate, connected to an Allegro A3982 stepper motor driver chip. The chip is surface-mounted on the other side of the PCB.

The 8 pins PIC12F683 microcontroller is one of the smallest members of the Microchip 8-bit microcontroller families but equipped with powerful peripherals such as ADC and PWM capabilities. This make this tiny microcontroller is suitable for controlling the DC motor speed. In order to demonstrate the PIC12F683 capabilities and to make this tutorial more attractive, I decided to use the PIC12F683 microcontroller to generate simple and yet fascinating laser light show from a cheap keychain laser pointer. For more information please visit www.ermicro.com/blog/?p=1622

The new PIC32 Ethernet Starter Kit (part # DM320004, $72) was designed to enable easy Ethernet-based development with Microchip's three new PIC32MX5/6/7 families of 32-bit microcontrollers. For more info visit www.microchip.com/PIC32.

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

Just the SMT transistors to add on the back. Hand soldering the TQFP AVR microcontroller was interesting.

PCB through the excellent DorkbotPDX batch PCB service (nice colour)!

Optical mouse sensor with Arduino microcontroller. You can find the code here.

Microchip's MRF24WB0MA/MB are next-generation, agency-certified embedded Wi-Fi® transceiver modules. The IEEE 802.11 module firmware has an easy-to-use API driver interface to Microchip’s free TCP/IP Protocol stack and 8-, 16- or 32-bit PIC® microcontrollers. For additional information, please visit Microchip’s online Wireless Design Center at www.microchip.com/get/A96T.

Microchip's new 28-pin MCUs offer a combination of advanced digital and analog peripherals, along with XLP for the extended battery life that many applications require. These features make the general-purpose PIC16F1512/13 MCUs ideal for a broad range of applications in the appliance, medical, consumer and automotive markets, among many others. For more information, www.microchip.com/wwwproducts/Devices.aspx?dDocName=en555440.

Teardown of Pocket Wizard Plus III transceiver. The main microcontroller is a Atmel AT90USB646.

This is the solder side of my 'magic wand clock' you can read about at www.instructables.com/id/E50R4QXZAOEWP86MXK/

This is a persistence of vision gadget.

Two Nikon SB800 flash units controlled by an Arduino microcontroller. Triggered by a piezo sensor on the air gun.

Thx for assistance and location to Jürgen Stemper // Bloemche

Arduino UNO was one of the first ever circuit portraits, way back in 2013. This is a new edition with an extra layer and a bit more finesse.

Listed on Etsy here: www.etsy.com/uk/shop/uptomuch?section_id=10073316

This is the replacement hardware. The core is a PIC18f4550 controlling everything with a 20Mhz oscillator to supply the PLL for the 48Mhz required to run USB should i ever get round to implementing that. The CPU runs at 8Mhz from the internal osc. There is a MAX232 to drive the serial port and some transistors to switch relays for the spindle and that is about it. the 9 pin plug floating there is just to allow me to debug the board when it is not in the machine. The screw terminals will be for the motor and the spindle encoder but the encoder is not implemented in code yet so I haven't connected it. Some fly back diodes for the relays, caps for the MAX232 charge pumps, transistor base resistors, LEDs for debugging, ICSP plug and some wire make up what is left. Not really all that much there. I will probably add another transistor and 2 resistors and a cap to this to amplify the PWM signal since the PIC gives out 5Vpk-pk and the PWM in the control box needs 0-10V in. (I know its a bit silly generating an analogue voltage from a PWM output only to use it to control another PWM drive but this way it is a direct board swap.)

Left to right, on a half-inch grid: MAX32625PICO, Teensy 4.0, Longan Nano, Raspberry Pi Pico

Block Diagram, Microchip Technology's PIC18F46K22 8-bit Microcontroller

How to make an AVR isp cable for programming a microcontroller in a solderless breadboard

...with just 3 resistors!

2 drop collision into a water/xanthan gum mix. Colours come from a few drops of ink into both the glass and the drop reservoir and a light blue gel on the flash which is behind a piece of 5mm frosted glass.

Taken using the Canon 100mm f2.8 macro lens.

Settings:

Shutter: 1/200

ISO: 200

Aperture: f/16

Speedlite: 1/16

Timings: D1-50, P1-120, D2-10, P2-8, D3-12, CD-200

Teardown of Pocket Wizard Plus III transceiver. The main microcontroller is a Atmel AT90USB646.

Simple prototyping boards for AVR microcontrollers. This one is designed for the Atmel ATtiny2313, and you can read more about it here. It's a complement to our earlier ATmegaxx8 board.

A small present for my girlfriend.

More infos at blog.gut-man.de/2009/11/08/kleine-aufmerksamkeit-fur-die-...

Building a bulbdial clock. Read more about this project here.

A litter of baby timelapse controllers in a rare moment when the mother is not guarding the nest.

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 mTouch™ capacitive touch-sensing keys and sliders, and high-resolution touch-screen designs. Up to two each of EUSART, I2C™, 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.

Microchip Technology's Fanie Duvenhage (Director of Marketing, Applications & Architecture) accepts VDC Research’s annual "Embeddy" award for best in show, hardware category at the Embedded Systems Conference (ESC) in Boston on Sept. 28, 2011. Microchip won the award for the Sept. 26 announcement of its new 8-bit PIC10F(LF)32X and PIC1XF(LF)150X microcontrollers, which feature integrated configurable logic in 6- to 20-pin packages—enabling functionality that was not possible before with low pincount MCUs.