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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 Masters 2018.
Corporate Photography by Mark Skalny .
1-888-658-3686 .
www.markskalnyphotography.com.
.
#MSP1207
Microchip Technology achieved certification for its ZigBee® RF4CE Compliant Platform, which enables the next generation of RF remote controls and consumer electronics. The platform consists of Microchip’s nanoWatt XLP eXtreme Low Power PIC® microcontrollers, the MRF24J40 IEEE 802.15.4 transceivers and FCC-certified modules, and the industry’s smallest memory footprint ZigBee RF4CE certified protocol stack. For more information visit: www.microchip.com/RF4CE
The devices feature a high PSRR of 80 dB at 1 kHz (typical), and a maximum output current of 150 mA at +125 degrees Celsius junction temperature.
PA_459 (30 points)
On one of the pillars of métro station Chevaleret (métro line 6) is this space invader located with a microchip. Click to see the location here.
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Pet iguanas and tegus are microchipped at the University of Florida College of Veterinary Medicine on June 12, 2021. FWC photo by Karen Parker
The PICDEM 2 Plus is a simple board that demonstrates the capabilities of the 18-, 28- and 40-pin PIC16XXXX and PIC18XXXX devices. It can be used stand-alone with a programmed part, with an in-circuit emulator (e.g., MPLAB. ICE) or with an in-circuit debugger (e.g., MPLAB ICD 2
Microchip Technology's Pure Sine Wave Uninterruptible Power Supply (UPS) Reference Design is based on their dsPIC33F “GS” series of digital-power Digital Signal Controllers (DSCs). This reference design demonstrates how digital-power techniques—when applied to UPS applications—enable easy modifications through software, the use of smaller magnetics, intelligent battery charging, higher efficiency, compact designs, lower audible and electrical noise via a purer sine-wave output, USB communication and a lower overall bill-of-materials cost. Though not available for purchase, all of the documentation, software and Gerber files needed to build this reference design can be obtained for free from Microchip’s Web site at: www.microchip.com/offlineups. Additionally, demonstration units are available from the Company’s field sales force.
Microchip created the PIC24FJ256DA210 Development Kit to enable out-of-the-box graphics development. This kit is available today for $399.99 (part # DV164039), and includes:
•PIC24FJ256DA210 Development Board, with capacitive-touch pads, USB Host and Device connectors, extra Flash and RAM to store more objects and fonts, an expansion slot for PICtail™ Plus daughter boards, and a display connector
•Microchip’s 3.2” QVGA and Prototype Graphics Display Boards
•MPLAB ICD 3 for programming and debugging.
The PIC24FJ256DA210 Development Board can also be purchased separately for $89.99 (part # DM240312). For more information, visit www.microchip.com/get/89VU.
Microchip Technology's MCP651 Evaluation Board (Part # MCP651EV-VOS) provides a simple means for measuring the MCP651 op amp’s input offset voltage under a variety of conditions. The board is priced at $30, and is available today at www.microchipdirect.com.
MicroChip Masters 2018.
Corporate Photography by Mark Skalny .
1-888-658-3686 .
www.markskalnyphotography.com.
.
#MSP1207
Two PICAXE 28X1 boards interacting via I2C. The board to the right counts and transmits - the left one receives and displays. Pressing the reset button re-starts things at the master side. See www.flickr.com/photos/56083335@N00/3645749321/ for a photo with notes.
Programming is explained in the PICAXE Manual (part 2, hi2csetup section and example) - www.rev-ed.co.uk/docs/picaxe_manual2.pdf
El microchip de diagnóstico desarrollado por José Luis García Corder, investigador del Cinvestac Unidad Monterrey, se trata de un dispositivo transparente desarrollado con las mismas técnicas con las que se producen los semiconductores eléctricos, sólo que en lugar de silicio se emplea acrílicos y silicones (similares a los utilizados en la fabricación de lentes de contacto), y en vez de cargas eléctricas lo que pasa por ellos son muestras de suero de sangre del recién nacido.
Foto: Cinvestav
Microchip Technology Inc., a leading provider of microcontroller, analog and Flash-IP solutions, today expanded its Serial Quad I/O™ (SQI™) Flash memory family, with the new SST26VF032 3V, 32-Mbit SQI Flash memory device. Building on the success of the innovative SST26 Series family of products, this new 4-bit, multiplexed I/O serial interface Flash memory device features an enhanced serial-interface architecture that allows for low-power, high-performance operation and flexible data/code-protection schemes.
MicroChip Masters 2018.
Corporate Photography by Mark Skalny .
1-888-658-3686 .
www.markskalnyphotography.com.
.
#MSP1207
Pet iguanas and tegus are microchipped at the University of Florida College of Veterinary Medicine on June 12, 2021. FWC photo by Karen Parker
Microchip Technology's MCP9808 silicon temperature sensor serves a broad range of applications by guaranteeing high accuracy of 0.5 degrees from -20 to +100 degrees Celsius, along with high temperature resolution of 12 bits (0.0625 degrees Celsius/LSB). The MCP9808 comes in small MSOP and 2x3 mm DFN 8-pin packages, for space-constrained applications. Additional features include shutdown, an under/over-temperature monitor and a critical-temperature alert. For more information, visit: www.microchip.com/wwwproducts/Devices.aspx?dDocName=en556...
Uses the Microchip MCP3424 ADC. Various build options are possible, including single-ended and/or double-ended inputs to the ADC, separate analogue voltage supply (via DC-DC converter and linear regulator). Two open-drain outputs enable switching of fans, relays etc. There are connectors for the buffered I2C interface and a 1-wire interface.
I have several intended uses for these PCBs, including a Raspberry Pi magnetometer and a temperature sensor/fan controller board for an auroral camera.
For source files see github.com/stevemarple/RPi_ADC_hat
Microchip Technology's MCP14628 and MCP14700 Synchronous Buck MOSFET Drivers provide maximum efficiency in small packages. The devices drive two N-Channel MOSFETs arranged in a non-isolated, Synchronous Buck converter topology. They feature excellent latch-up immunity, enabling extremely robust applications in the consumer and computing markets, such as digital power conversion, DC-to-DC power supplies, three-phase BLDC motor control and telecom equipment.