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The ZeroG Wi-Fi PICtail/PICtail Plus Daughter Board (part # AC164136-2) is available today for $59.99, and consists of the ZeroG ZG2100M FCC and Wi-Fi certified module. This daughter board allows designers to quickly create a direct connection to the Internet by seamlessly connecting to standard wireless access points. In managing the connection, the ZeroG ZG2100M module controls the MAC and baseband layers, and is connected to the host MCU or DSC via an SPI port. The 8/16/32-bit PIC MCU or dsPIC DSC that resides on the Microchip development board controls the free Microchip TCP/IP networking stack and runs the system application. Additional key features of the daughter board include:
•FCC, IC and ETSI Certified, providing considerable cost savings and quick time to market
•Wi-Fi Certified and IEEE 802.11b Compliant wireless solution
•ZG2100M small-footprint module with integrated antenna, MAC, baseband, RF and power amplifier
•Microchip’s free TCP/IP stack supports standard suite of Internet Protocols
•Supports WEP, WPA and WPA2 security protocols
The LPC2119 is one of the larger of the NXP ARM microcontroller chips. It has 16k bytes of internal RAM and 128k bytes of internal Flash program memory. As for I/O, it has 46 digital pins, four channels of 10-bit ADC, two UARTs and the usual I2C and SPI interfaces.
A pwb course exercise. I had to lay out a circuit in Orcad, I wanted to try a certain clock generator and I've been thinking of putting some of the 8515's on a board. So I threw something together. Two sided board, plated vias, milled with some machine. Kind of tricky to solder. Larger pads and holes would have been welcome in hindsight.
Microchip's Utility-Band Power-Line Modem (PLM) PICtail™ Plus Daughter Board Development Kit (part # AC164145)
These are three of my electronic projects. The top one has been going for over two years recording the weather and my motion lights and gate. The bottom unit records the data on a SD flash chip in comma-separated format.
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
Introducing Microchip's new facility, the India Development Centre, Bangalore. The fully fledged development center, which works on integrated-circuit development and marketing, microcontroller development tools and corporate information systems, was officially inaugurated by Mrs R. Rajalakshmi, Director, Software Technology Parks of India, Bangalore and Microchip's Executive Vice President, Ganesh Moorthy
Introducing Microchip's new facility, the India Development Centre, Bangalore. The fully fledged development center, which works on integrated-circuit development and marketing, microcontroller development tools and corporate information systems, was officially inaugurated by Mrs R. Rajalakshmi, Director, Software Technology Parks of India, Bangalore and Microchip's Executive Vice President, Ganesh Moorthy.
Introducing Microchip's new facility, the India Development Centre, Bangalore. The fully fledged development center, which works on integrated-circuit development and marketing, microcontroller development tools and corporate information systems, was officially inaugurated by Mrs R. Rajalakshmi, Director, Software Technology Parks of India, Bangalore and Microchip's Executive Vice President, Ganesh Moorthy.
Microchip announced an expansion of its 8-bit PIC® microcontroller (MCU) portfolio with the PIC12(L)F157X family, which features multiple 16-bit PWMs with an assortment of analog peripherals and serial communications in an 8-pin package. These MCUs deliver three full-featured 16-bit PWMs with independent timers, for applications where high resolution is needed, such as LED lighting, stepper motors, battery charging and other general-purpose applications. For more info, visit: www.microchip.com/get/G6RB
Microchip Technology's PIC16(L)F1826 and PIC16(L)F1827 [PIC16(L)F1826/7] general-purpose 8-bit microcontrollers (MCUs) provide an advanced peripheral set that includes an mTouch™ capacitive touch-sensing module and dual I2C™/SPI interfaces, along with “LF” versions featuring industry-leading low power consumption via Microchip’s nanoWatt XLP eXtreme Low-Power technology. For further information, contact any Microchip sales representative or authorized worldwide distributor, or visit Microchip’s Web site at www.microchip.com/get/400846900115741.
8 Bit PIC® Microcontroller Development SchmartModule A
This PIC® Microcrontroller Development board supports 116 different PIC® Microcontrollers. This board is fully populated except for the PIC. You hand solder the PIC using our "EZ" technology, configure the jumpers for you PIC part number and start programming. At a suggested retail of only $15, no other PIC® development board can come close to giving you the flexibility and low cost as this product. This one board supports almost all of the 8 Bit PICs available in an SOIC package type.(see list of supported devices)
Dorkbot Bristol, December 2008: The camera and flash are triggered by an Arduino at just the right moment to capture the splash.
An Atmel ATtiny24 microcontroller drives an R/C servo wich in turn rotates a line LASER taken from a LASER level.
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.
The seven segment display is one of the most popular numeric displays used in many microcontroller applications because it’s cheap, robust and reliable. The seven segment actually consists of 8 LED (Light Emitting Diode) and it’s come with various sizes suitable for various numeric display application such as digital clock, counter, thermometer, humidity, etc. For more information please visit www.ermicro.com/blog/?p=844
Im developing hardware and software for PIC micro controllers. The PC is running Microchip MPLAB IDE and PicKit 2 software. On the bread board im using a PIC 16F877 microcontroller linked to a 24LC256 EEPROM and a DS1307 real time clock via the I2C bus. I have also a LM35 tempreture sensor. In this photo im testing the PIC's 10 bit ADC. The input potentiometer is hidden from view but the 10 bit digital output is being displayed on the LED's to the right. This will form the basis for many new projects.
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
Light bulb RGB mood light : Screen shot of the oscilloscope showing phase control of green lamp output (lower trace). For more info :
The PIC 16F690 is one of Microchip midrange 8-bit microcontroller that has a build in 10-bit resolution of Analog to Digital Converter (ADC) peripheral. The ADC is one of the important features that enable us to digitize our analog world. Usually we use the electronic sensor to convert the analog value to the voltage level value. For more information please visit www.ermicro.com/blog/?p=660
A small present for my girlfriend.
More infos at blog.gut-man.de/2009/11/08/kleine-aufmerksamkeit-fur-die-...
My Arduino on a slate baseplate, plus some more slate pieces and another Arduino on a polycarbonate base.
Microchip Technology's PIC18F47J53 8-bit USB microcontroller (MCU) features XLP technology for eXtreme Low Power Consumption, up to 128 KB Flash program memory and 4 KB RAM, offering plenty of code space for Microchip’s free USB stack, and for application code.
Connections on top side of board. Total - 8 wire jumpers.
7 wire jumpers are marked yellow.
Place of jumper #8 is determined by value of voltage, that should be applied to fans.
For 5V fans, green jumper (W1 on schematic) should be soldered,
for 12V fans - red (W2).
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
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
ATtiny2313 power supply connections:
Pin 10: Ground, Pin 20: +Vcc (3 V)
Part of the high-tech holiday decorations project.
MC68HCP11A1CFN3 Freescale Semiconductor IC 8-BIT, MROM, 3 MHz, MICROCONTROLLER, PQCC52, PLASTIC, LCC-52, Microcontroller
High school students study arduino microcontrollers during the Design It. Build It. Summer Engineering Workshop at Dartmouth.
Photo by Alex Arcone.
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