Share a Kit
I decided to share these boards’ code development informations, databases for your usage. If you want to try your own codes on an embedded board, you should investigate, decide which board, fill this HW/SW Development Kit Request Form and send an e-mail to kursat.gol@oeee.web.tr to get data regarding board. This “open platform” is open all university students and enthusiasts all over the world. I will share all relevant documents and my experiments on dedicated board with related development kit. Please do not forget; some decisions give you new horizons, new scopes. Nice to meet you in the name of all explorers…
In summary, we hope from you to share the information, documents, pictures, drawings and videos of the works you have done with us. We (OEEE) aimed to transform this platform into a large Embedded Electronic Information Library. In this way; also we aimed to be a great universe that learns together, grows as we learn, enlarges as it grows and targets to teach as it evolves. Again we hope from you to be an “information brick” for the Embedded Electronic Education Institute, we (OEEE) believed to realize in the future.
ZODIAC FX
* 4 10/100 port network development board
* OpenFlow protocol 1.0-1.1-1.2-1.3 enabled
* ATSAM4E8C microcontroller based
* MICREL KSZ8795CLXCC ethernet switch chip
* Debug with Atmel-ICE Basic
* You can connect with all SDN controller (HPE-VAN-SDN, Opendaylight, Floodlight)
* CLI feature over serial-port
PARALLELLA
* Zynq-7000 Series Dual-core ARM A9 CPU (on my board Z-7010 or Z-7020)
* 16 (on my board) or 64-core Epiphany Multicore Accelerator
* 1GB RAM
* MicroSD Card
* 2x USB 2.0
* 4 general purpose expansion connectors
* 10/100/1000 Ethernet
NetFPGA-1G-CML Board
* Xilinx Kintex-7 325T
* 326,080 logic cells
* 16,020 Kbit block RAM
* up to 4,000 Kbit distributed RAM
* Fully programmable by the user
* Four 10/100/1000 Ethernet PHYs with RGMII
* Wire-speed processing on all ports at all time using FPGA logic
NetFPGA-1G First Version
* Xilinx Virtex-II Pro 50
* 53,136 logic cells
* 4,176 Kbit block RAM
* up to 738 Kbit distributed RAM
* Fully programmable by the user
* 2 x PowerPC cores
* Wire-speed processing on all ports at all time using FPGA logic
XILINX Spartan-6 FPGA SP605 Evaluation Kit with SFP
* Cables: 2USB, 1 Ethernet, 1 DVI-VGA adapter
* Spartan-6 XC6SLX45T-3FGG484 FPGA
* 128 MB DDR3 Component Memory
* SPI x4 Flash
* Linear BPI Flash
* System ACE CF and CompactFlash Connector
* USB JTAG
TPLINK WR-1043-ND WITH OPENWRT
* OpenWRT kernel with openflow protocol
* Very flexible for SDN applications
* 4 10/100/1000Mbps LAN Ports
* 1 10/100/1000Mbps WAN Port
* 1 USB 2.0 Port
* WPS/Reset Button
* 12VDC / 1.5A
ZEDBOARD
* Zynq-7000 AP SoC XC7Z020-CLG484
* Dual-core ARM Cortex A9
* Memory:512 MB DDR3, 256 Mb Quad-SPI Flash, 4 GB SD card
* Onboard USB-JTAG Programming
* 10/100/1000 Ethernet
* USB OTG 2.0 and USB-UART
* Multiple displays (1080p HDMI, 8-bit VGA, 128 x 32 OLED)
SP6-LX9 MICROBOARD with Peta-linux
* MicroBlaze Processor
* 32 KB of BRAM
* 64 MB of LPDDR SDRAM
* 128 Mb of SPI Flash
* Timer
* Interrupt controller
* USB-UART with virtual COM port
XUP USB-JTAG Programming Cable
* Compatible with Xilinx Platform Cable USB
* Supports 5V, 3.3V, 2.5V, 1.8V and 1.5V systems
* Compatible with Full-Speed and Hi-Speed USB ports
* Works with ChipScope, EDK, and System Generator
* Indirectly programs SPI and Parallel FLASH memory devices
* Ships with the XUP Fly Wire Assembly
* Suitable for directly accessing from ISE, Chipscope, EDK, and other Xilinx CAD tools.
SPARTAN-3A Evaluation Kit
* Xilinx XC3S400A-4FTG256C Spartan-3A FPGA
* Four LEDs
* Four CapSense switches
* I2C temperature sensor
* Two 6-pin expansion headers
* 32 Mb Spansion MirrorBit NOR GL Parallel Flash
* 128 Mb Spansion MirrorBit SPI FL Serial Flash
Well Known Xilinx CoolRunner-II X-BOARD
* A 256 macrocell CoolRunner-II CPLD in a TQ-144 package
* An on-board USB2 port for JTAG programming and user-data transfers
* An on-board 16-bit A/D converter to measure real-time CPLD current during board operation
* An user-settable silicon oscillator(1000/100/10 KHz), plus pads for a second crystal oscillator
* 12 LEDs and two pushbuttons for on-board I/O
* 8 pieces 6-pin peripheral module connectors
* Unique board shape
TMS320VC5505 eZ-DSP USB STICK
* TI’s TMS320VC5505 Digital Signal Processor
* Texas Instruments TLV320AIC3204 Stereo Codec
* 512K-bit SPI EEPROM
* User controlled LED
* Embedded USB XDS100 JTAG emulator
* Expansion connector
* User accessible test points
XILINX Spartan-3E Sample Pack
* Xilinx Spartan-3E XC3S100E FPGA
* Two Digital Clock Managers (DCMs)
* 32Mbit Intel StrataFlash
* 40-pin access to the Spartan-3E FPGA
* 7 Light Emitting Diodes (LEDs)
* 50MHz Crystal Oscillator Clock Source
* Power Regulators
US-ROBOTICS 9108 WITHOUT OPENWRT
* OpenWRT kernel without openflow protocol
* Not supporting SDN applications
* 4 10/100/1000Mbps LAN Ports
* 1 10/100/1000Mbps WAN Port
* 1 USB 2.0 Port
* On/Off Switch
* 12VDC / 1.5A
XMOS startKIT
* xCORE-Analog 8-core device with integrated debugger
* micro-USB connection to host debugger
* PCIe connector for sliceCARD add-on boards
* 0.1″ header compatible with Raspberry PI
* Two 4-zone cap sense sliders
* 3×3 LED matrix
* 2 additional LEDs
RASPBERRY PI MODEL-B
* 700MHz ARM11
* OpenGL ES 2.0
* 1080p30 H.264 high-profile decode
* SD/MMC/SDIO memory card slot
* General-purpose I/O
* Optional integrated 2-port USB hub and 10/100 Ethernet controller
* Open software (Ubuntu, Iceweasel, KOffice, Python)
PI-FACE DIGITAL
* 2 Changeover Relays
* 4 Tactile Switches
* 8 Digital Inputs
* 8 Open-Collector Outputs
* Graphical Emulator
* Easy to program in Python 3 and 2, Scratch and C
* Support for interrupts
GERTBOARD
* Plugs directly onto Raspberry Pi GPIO socket
* Motor controller, capable controlling a motor bidirectionally, delivering 18V and 2A maximum
* Dual channel D/A converter, 8bit
* Dual channel A/D converter, 10bit
* Onboard Atmel ATmega328ATmega328 MCU for running off board programmes
* 6 x open collector outputs
* 10 x strap cables and 18 x jumpers included
OLIMEX LPC2378-STK
* LPC2378 16/32 bit ARM7TDMI-S™t with 512K Bytes Program Flash
* Standard JTAG connector with ARM 2×10 pin layout for programming/debugging with ARM-JTAG
* Optional – TRACE connector
* 128×128 pixel 12 bit color TFT LCD with backlight
* Ethernet 100MBit
* MMA7620 3 axis accelerometer
* Two RS232 port
OLIMEX LPC-P2378
* LPC2378 16/32 bit ARM7TDMI-S™t with 512K Bytes Program Flash
* Standard JTAG connector with ARM 2×10 pin layout for programming/debugging with ARM-JTAG
* Optional – TRACE connector
* Ethernet 100MBit
* RS232 port
* CAN driver and connector
* SD/MMC card connector
OLIMEX LPC-P1227
* LPC1227 Cortex-M0, up to 45Mhz, 128 kB Flash
* RS232
* Buzzer
* NOKIA 3310 LCD
* 12 MHz crystal resonator
* Power supply circuit
* Power-on led
IAR J-LINK DEBUGGER
* USB 2.0 interface
* Any ARM7/ARM9 core supported, including thumb mode
* Automatic core recognition
* Maximum JTAG speed 12 MHz
* Download speed up to 600 Kbytes/second
* DCC speed up to 800 Kbytes/second
* Seamless integration into the IAR Embedded Workbench® IDE
OLIMEX ARM-USB-TINY
* Debugs all ARM microcontrollers with JTAG interface supported by OpenOCD
* Uses ARM’s standard JTAG connector (2 rows × 10 pins at 0.1” step)
* Supports ARM targets working in voltage range 2.0 – 5.0 V DC
* Supported by the open-source community and OpenOCD debugger software
* Works with IAR EW for ARM via GDB server
* Works with Rowley Crossworks IDE
* Works with CooCox IDE
TI EZ430 CHRONOS
* 2 spare screws
* CC1111 USB RF access point
* Mini Phillips screwdriver
* eZ430 USB programming and debugging interface
* eZ430-Chronos wireless watch
* 96-Segment LCD display driven directly by CC430
* Includes IAR Kickstart and Code Composer Studio C-compiler
WIZNET WIZ550io
* Built-in MAC Address (48bit Global Unique ID)
* Auto-Network configuration with default IP address
* No MCU programming for PING check
* Provide binary to edit default IP address
* Support 8 independent hardware sockets
* Support high speed SPI interface
* Support interface board for Arduino, TI’s MSP 430 LaunchPad & Renesas’s GR-Kurumi boards
TI USB TO GPIO
* Supports master mode I²C, SMBus or PMBus as well as GPIO.
* Supports USB1.1 full speed at 12 Mbit/s.
* Therefore, the USB interface adapter can be treated as a USB plug-and-play device.
* Selects different clock speeds (either 100 kHz or 400 kHz) for I²C, PMBus, or SMBus communications.
* Configures different pullup resistors for clock, data and ALERT signals (including open-drain).
* Supports flexible I²C read or write transactions (specify raw data, instead of device address, command, etc.) .
* Includes .NET DLL for supporting Windows .NET GUIs using the adapter.
chipKIT WF32 (Digilent’s gift to me)
* PIC32MX6xx
* 512KB Flash
* 128KB RAM
* 80 MHz operating speed
* Four SPI and five I2C connectors
* 16 channel 10-bit ADC, five compare/PWM outputs
* 43 available I/O pins