Intel® Galileo
Intel Galileo board is the first product in a new family of Arduino Certifiedboards featuring Intel architecture. The platform is easy to use for beginners and for those looking to take designs to the next level.
Galileo is a microcontroller board based on the Intel® Quark SoC X1000 Application Processor, a 32-bit Intel Pentium-class system on a chip.single core, single-thread, 400MHz.standard I/O interface, ACPI, PCI Express, 10/100Mb Ethernet, SD, USB 2.0, EHCI/OHCI USB și RS-232 ports.
Overall, the Intel Galileo development board is a great tool for quickly prototyping simple interactive designs like LED light displays that respond to social media, or for tackling more complex projects from automating home appliances to building life-size robots that you control from your smartphone.
Brian Krzanich, CEO al Intel Corporation, a anunțat colaborarea cu Arduino LLC, o importantă platformă hardware open source pentru comunitatea educațională și a dezvoltatorilor. Krzanich a prezentat Intel Galileo, prima dintr-o gamă de plăci de dezvoltare Arduino, bazate pe arhitectura Intel.
Per total, placa de dezvoltare Intel Galileo este un instrument util pentru construirea unor designuri interactive simple, precum display-uri LED pentru a dezvolta proiecte complexe, de la aplicații pentru acasă la roboți controlați cu ajutorul smartphone-ului.
Arduino Tre
Arduino TRE, the first Arduino board manufactured in the U.S.
Thanks to the 1-GHz Sitara AM335x processor, Arduino developers get up to 100 times more performance with the Sitara-processor-based TRE than they do on the Arduino Leonardo or Uno. This performance opens the doors to more advanced Linux-powered applications. The Sitara-processor-based Linux Arduino can run high-performance desktop applications, processing-intensive algorithms or high-speed communications.
The Arduino TRE is two Arduinos in one: the Sitara-processor-based Linux Arduino plus a full AVR-based Arduino, while leveraging the simplicity of the Arduino software experience. The integration of the AVR Arduino enables the Arduino TRE to use the existing shield ecosystem so that innovators can expand the Arduino TRE to develop a wide range of high-performance applications such as 3D printers, gateways for building automation and lighting automation, telemetry hubs that collect data from nearby sensors wirelessly, and other connected applications that require host control plus real-time operations.
Nici nu ne-am revenit din stirea cu Intel/Arduino si mai aruncam o Bomba : Arduino Tre . soc maxim!Centrul de Creatie Tehnica pentru Tineret (inventeaza.ro)
Technical Specifications (preliminary)
| Microcontroller | Atmel ATmega32u4Clock |
| Speed | 16 MHzFlash |
| Memory | 32 KB (ATmega32u4) |
| SRAM | 2.5 KB (ATmega32u4) |
| EEPROM | 1 KB (ATmega32u4) |
| Digital I/O Pins (5V logic) | 14 |
| PWM Channels (5V logic) | 7 |
| Analog Input Channels | 6 (plus 6 multiplexed on 6 digital pins) |
| Processor | Texas Instrument Sitara AM3359AZCZ100 (ARM Cortex-A8) |
| Clock Speed | 1 GHz |
| SRAM | DDR3L 512 MB RAM |
| Networking | Ethernet 10/100 |
| USB port | 1 USB 2.0 device port, 4 USB 2.0 host ports |
| Video | HDMI (1920x1080) |
| Audio | HDMI, stereo analog audio input and output |
| Digital I/O Pins (3.3V logic) | 12 |
| PWM Channels (3.3V logic) | 4 |
| MicroSD card | |
| Support LCD expansion connector |
0 comments:
Post a Comment