Use LEFT and RIGHT arrow keys to navigate between flashcards;
Use UP and DOWN arrow keys to flip the card;
H to show hint;
A reads text to speech;
86 Cards in this Set
- Front
- Back
- 3rd side (hint)
Arduino Leonardo Microcontroller (Headers)
|
Arduino Leonardo with headers Microcontroller: ATmega32u4 Can be powered via the micro USB connection Eliminating the need for a secondary processor Keyboard and mouse emulation The Arduino Leonardo Microcontroller (Headers) can be powered via the micro USB connection or with an external power supply. The power source is selected automatically. This microcontroller board based on the ATmega32u4. It has 20 digital input/output pins (of which 7 can be used as PWM outputs and 12 as analog inputs), a 16 MHz crystal oscillator, a micro USB connection, a power jack, an ICSP header, and a reset button. It contains everything needed to support the microcontroller. Simply connect it to a computer with a USB cable or power it with a AC-to-DC adapter or battery to get started. External (non-USB) power can come either from an AC-to-DC adapter (wall-wart) or battery. The adapter can be connected by plugging a 2.1mm center-positive plug into the board's power jack. Leads from a battery can be inserted in the Gnd and Vin pin headers of the POWER connector. Features Serial re-enumeration on reset Separation of USB and serial communication Differences in pin capabilities Supplier code : A000057
|
arduino-leonardo-microcontroller-headers.jpg
|
|
Arduino Leonardo (No Headers)
|
Arduino Leonardo with no headers Microcontroller: ATmega32u4 Operating Voltage: 5V Can be powered via the micro USB connection Eliminating the need for a secondary processor Keyboard and mouse emulation The Arduino Leonardo Microcontroller (No Headers) can be powered via the micro USB connection or with an external power supply. The power source is selected automatically. This microcontroller board based on the ATmega32u4. It has 20 digital input/output pins (of which 7 can be used as PWM outputs and 12 as analog inputs), a 16 MHz crystal oscillator, a micro USB connection, a power jack, an ICSP header, and a reset button. It contains everything needed to support the microcontroller. Simply connect it to a computer with a USB cable or power it with a AC-to-DC adapter or battery to get started. External (non-USB) power can come either from an AC-to-DC adapter (wall-wart) or battery. The adapter can be connected by plugging a 2.1mm center-positive plug into the board's power jack. Leads from a battery can be inserted in the Gnd and Vin pin headers of the POWER connector. Features: Serial re-enumeration on reset Separation of USB and serial communication Differences in pin capabilities Supplier code : A000052
|
arduino-leonardo-no-headers.jpg
|
|
Arduino Uno USB Microcontroller Rev 3
|
Arduino microcontroller module with USB connection Wide variety of accessory "Shields" available Intended for roboticists, artists, designers and hobbyists Variety of I/O pins including analog, digital, PWM and more Based on the ATmega328 (removable DIP IC) Revision 3 The Arduino Uno is a microcontroller board based on the ATmega328 microchip. It has 14 digital input/output pins (of which 6 can be used as PWM outputs), 6 analog inputs, a 16 MHz crystal oscillator, a USB connection, a power jack, an ICSP header, and a reset button. It contains everything needed to support the microcontroller; simply connect it to a computer with a USB cable or power it with an AC-to-DC adapter or battery to get started. The Uno differs from all preceding boards in that it does not use the FTDI USB-to-serial driver chip. Instead, it features the Atmega16U2 programmed as a USB-to-serial converter. "Uno" means one in Italian and is named to mark the upcoming release of Arduino 1.0. The Uno and version 1.0 will be the reference versions of Arduno, moving forward. The Uno is the latest in a series of USB Arduino boards, and the reference model for the Arduino platform. The Arduino Uno can be powered via the USB connection or with an external power supply. The power source is selected automatically. External (non-USB) power can come either from an AC-to-DC adapter (wall-wart) or battery. The adapter can be connected by plugging a 2.1mm center-positive plug into the board's power jack. Leads from a battery can be inserted in the Gnd and Vin pin headers of the POWER connector. The board can operate on an external supply of 6 to 20 volts. The Arduino Uno can be programmed with the Arduino software. Select "Arduino Uno from the Tools > Board menu (according to the microcontroller on your board). For details, see the reference and tutorials. The ATmega328 on the Arduino Uno comes preburned with a bootloader that allows you to upload new code to it without the use of an external hardware programmer. Supplier code : A000066
|
arduino-uno-usb-microcontroller-rev-3.jpg
|
|
Arduino Duemilanove USB Microcontroller Module
|
Replaced by the new Arduino Uno (RB-Ard-34)! Supplier code : A000001
|
arduino-usb-microcontroller-board-3.jpg
|
|
Arduino Ethernet Microcontroller (No PoE)
|
ATMEGA328 Uno microcontroller with the ETH shield Supplied without the PoE module USB2SERIAL converter sold separately Can also be programmed using FTDI cable Arduino introduces the Arduino Ethernet Microcontroller (No PoE). A single board that integrates the ATMEGA328 Uno microcontroller with the ETH shield. To program the board you can use a FTDI cable or the USB2SERIAL converter (A000059). You can buy it separately or in the bundle pack with it included - Arduino Ethernet Microcontroller (No PoE) + USB2SERIAL Kit (A000060). It is supplied without the PoE module. The Arduino PoE Module can be bought separately or you can choose the Arduino Ethernet board with PoE. Supplier code : A000068
|
arduino-ethernet-microcontroller-no-poe.jpg
|
|
Arduino Ethernet Microcontroller With PoE
|
ATmega328 Uno microcontroller with the ETH shield Supplied with the PoE module USB2SERIAL converter not included 14 Digital I/O pins Operating voltage: 5V Arduino introduces the Arduino Ethernet Microcontroller With PoE. A single board that integrates the ATMEGA328 Uno microcontroller with the ETH shield. To program the board you can use a FTDI cable or the USB2SERIAL converter (A000050). You can buy it separately or in the bundle pack with it included - Arduino Ethernet Microcontroller (No PoE) + USB2SERIAL Kit (A000060). The Arduino Ethernet is a microcontroller board based on the ATmega328. It has 14 digital input/output pins, 6 analog inputs, a 16 MHz crystal oscillator, a RJ45 connection, a power jack, an ICSP header, and a reset button. An onboard microSD card reader, which can be used to store files for serving over the network, is accessible through the SD Library. A six pin header can be connected to an FTDI cable or USB Serial board to provide USB power and communication to the board. Power The board can also be powered via an external power supply, included Power over Ethernet (PoE) module, or by using a FTDI cable/USB Serial connector. External power can come either from an AC-to-DC adapter (wall-wart) or battery. The adapter can be connected by plugging a 2.1mm center-positive plug into the board's power jack. Input and Output Each of the 14 digital pins on the Ethernet board can be used as an input or output. Each pin can provide/receive a maximum of 40 mA and has an internal pull-up resistor (disconnected by default) of 20-50 kOhms. Communication The Arduino Ethernet has a number of facilities for communicating with a computer, another Arduino, or other microcontrollers. A SoftwareSerial library allows for serial communication on any of the Uno's digital pins. The ATmega328 also supports TWI and SPI communication. Supplier code : A000051
|
arduino-ethernet-microcontroller-poe.jpg
|
|
Arduino Ethernet Microcontroller With PoE + USB2SERIAL Kit
|
ATMEGA328 Uno microcontroller with the ETH shield Supplied with the PoE module USB2SERIAL converter included Arduino introduces the Arduino Ethernet Microcontroller With PoE + USB2SERIAL Kit. A single board that integrates the ATMEGA328 Uno microcontroller with the ETH shield. To program the board you can use the included USB2SERIAL converter. It is supplied with the PoE module. You may also be intersted in Arduino Ethernet Microcontroller (No PoE). Supplier code : A000061
|
arduino-ethernet-microcontroller-poe-usb2serial-kit.jpg
|
|
Arduino Ethernet Microcontroller (No PoE) + USB2SERIAL Kit
|
ATmega328 Uno microcontroller with the ETH shield Supplied without the PoE module USB2SERIAL converter included 14 Digital I/O pins Operating voltage: 5V Arduino introduces the Arduino Ethernet Microcontroller (No PoE) + USB2SERIAL Kit. A single board that integrates the ATMEGA328 Uno microcontroller with the ETH shield. To program the board you can use the included USB2SERIAL converter. The module can be bought separately - Arduino PoE Module (X000002) or you can choose the Arduino Ethernet board with PoE (A000051). The Arduino Ethernet is a microcontroller board based on the ATmega328. It has 14 digital input/output pins, 6 analog inputs, a 16 MHz crystal oscillator, a RJ45 connection, a power jack, an ICSP header, and a reset button. An optional Power over Ethernet module can be added to the board as well. An onboard microSD card reader, which can be used to store files for serving over the network, is accessible through the SD Library. A six pin header can be connected to an FTDI cable or USB Serial board to provide USB power and communication to the board. Power The board can also be powered via an external power supply, an optional Power over Ethernet (PoE) module, or by using a FTDI cable/USB Serial connector. External power can come either from an AC-to-DC adapter (wall-wart) or battery. The adapter can be connected by plugging a 2.1mm center-positive plug into the board's power jack. Input and Output Each of the 14 digital pins on the Ethernet board can be used as an input or output. Each pin can provide/receive a maximum of 40 mA and has an internal pull-up resistor (disconnected by default) of 20-50 kOhms. Communication The Arduino Ethernet has a number of facilities for communicating with a computer, another Arduino, or other microcontrollers. A SoftwareSerial library allows for serial communication on any of the Uno's digital pins. The ATmega328 also supports TWI and SPI communication. Supplier code : A000060
|
arduino-ethernet-microcontroller-no-poe-usb2serial-kit.jpg
|
|
Freeduino SB Microcontroller Kit
|
Microcontroller kit with Mini-B USB connection Specialized Library functions for robotics It is intended for roboticists, artists, designers and hobbyists Includes Atmega328 Soldering required The Solarbotics Freeduino SB is a kit version of the Arduino programmable microcontroller. Main differences between the two include: Soldering required (surface-mount components pre-soldered) Includes a Mini-B jack (a regular USB-B jack can be used but is not included). Added a power switch Added a location for an ARef trimpot (not included) Arduino is a trademark of the Arduino Team. The Freeduino SB is based off reference designs by the Arduino Team, and is licensed under the Creative Commons A-SA 2.5 license Supplier code : 28920
|
solarbotics-hvwtech-freeduino-usb-microcontroller.jpg
|
|
Seeedstudio Freeduino USB Arduino Compatible Microcontroller Kit
|
AutoReset New bootloader with 1 second delay USB over current protection Easy to solder board This is the Seeedstudio Freeduino USB Arduino Compatible Microcontroller Kit. Arduino is an open-source physical computing platform based on a simple I/O board and a development environment that implements the Processing/Wiring language. Arduino can be used to develop stand-alone interactive objects or can be connected to software on your computer. The open-source IDE can be downloaded for free (currently for Mac OS X, Windows and Linux). Arduino received an Honory Mention in the Digital Communities section of the 2006 Ars Electronica Prix. Some new features available in Arduino diecimila, implemented in this Seeedstudio Freeduino USB Arduino Compatible Microcontroller Kit: AutoReset: It is possible to upload compiled sketch to the MCU without pressing the board reset button USB over current protection: A resettable polyfuse protects the USB port from over current and shortcut situations New bootloader with 1 second delay Easy to solder board The FT232RL chip is pre-soldered, eliminating the most difficult component to solder. The rest of the components are easy to solder through-hole. From metal film 1% resistors to standard resistors for easier value reading are also switched for novice users. You only need a soldering iron, some solder and a multimeter and soldering skills. Supplier code : ARD107B1P
|
seeedstudio-freeduino-usb-ard-compatible-microcontrol-kit.jpg
|
|
rDuino LEDHead Arduino Compatible Microcontroller
|
MCU: Atmel ATmega644P (pico-power) 1 Amp 7805 voltage regulator 16 MHz crystal oscillator Total flash memory: 65536 bytes The rDuino LEDHead Arduino Compatible Microcontroller is the first in a series of special market wiring/arduino compatible, Atmel microcontroller boards from Rogue Robotics. It is an Atmel ATmega644P based board which provides full shield support while adding more I/0 and 8 dedicated LEDs. Running at 16 MHz, and with an on-board TWI controlled Real Time Clock (RTC), the unit is designed to provide control for data storage and audio solutions with the rMP3 Playback module. Features: Available flash memory: 63488 bytes SRAM: 4096 bytes EEPROM: 2048 bytes 2 Hardware serial ports 8 User LEDs on-board Note: An external USB board is required to communicate with the LEDHead. Supplier code : BB-RLH
|
rduino-ledhead.jpg
|
|
Digilent chipKIT Uno32 Arduino Compatible Microcontroller
|
Microchip PIC32 32-bit MIPS processor (PIC32MX320F128) Compatible with existing Arduino code examples, reference materials and other resources Arduino 'Uno' form factor Compatible with Arduino shields 42 available I/O The Digilent chipKIT Uno32 Arduino Compatible Microcontroller combines compatibility with the popular Arduino open source hardware prototyping platform with the performance of the Microchip PIC32 microcontroller. The Uno32 is the same form factor as the Arduino Uno board and is compatible with Arduino shields. It features a USB serial port interface for connection to the IDE and can be powered via USB or an external power supply. Features: Can be programmed using an environment based on the original Arduino IDE modified to support PIC32 Can also be programmed using Microchip's MPLAB (along with a PICkit 3 or 6-pin header) 80 Mhz 32-bit MIPS, 128K Flash, 16K SRAM User LED Supplier code : 410-209
|
digilent-chipkit-uno32-arduino-compatible-microcontroller.jpg
|
|
Arduino Bluetooth Microcontroller Board
|
This product has been discontinued. Microcontroller module with Bluetooth connection Specialized Library functions for robotics It is intended for roboticists, artists, designers and hobbyists Based on the Atmega168 The Arduino Bluetooth Microcontroller Board is the very popular Arduino platform with a Bluetooth serial connection in place of the USB connection. Now you can have Arduino without wires! Features: The use of a DC-DC converter, allowing the board to be powered with a minimum of 1.2 V, but with a maximum of 5.5 V. Higher voltages or reversed polarity in the power supply will kill the board. A surface-mounted ATmega168 (as with the Arduino Mini). This doubles the amount of space available for your sketches and adds three more PWM pins and two more analog inputs. Pin 7 is connected to the reset pin of the Bluetooth module. Only use serial communication at 115200 baud; this is the speed that the module has been configured to use. Supplier code : A000002
|
arduino-bluetooth-microcontroller-module.jpg
|
|
LeafLabs Maple 32-bit Arduino Compatible Microcontroller (r5)
|
Based on the STM32F103RB microprocessor Operating Voltage: 3.3V 39 digital input/output pins 16 analog inputs Integrated SPI/I2C support The LeafLabs Maple 32-bit Arduino Compatible Microcontroller is a great way to get started with an advanced 32 bit-processor that, until now, has principally lived in the commercial domain. Take your projects to the next level with Maple's fast clock, sophisticated interrupt architecture, and loads of built-in peripherals. The LeafLabs Maple 32-bit Arduino Compatible Microcontroller is a microcontroller board based on the STM32F103RB microprocessor. The Maple runs at a maximum of 72 MHz, has 39 digital input/output pins, 16 analog inputs, native full speed USB, 3 USARTs (hardware serial ports), integrated SPI/I2C support, a power jack, and a reset button. Maple is programmable over USB via provided DFU bootloader, no extra hardware required. Users can also program the onboard program flash via external JTAG interface. Maple offers security support for read/write protected addresses, as well as User and Handler processor modes. It has a real-time sysTick, useful for a real time OS or any timing senstitive applications. 6 advanced interrupt timers will help you here as well. Maple can be powered via USB, a wall adapter, or it can run off of a rechargeable lipo battery. The Maple is compatible with shields designed for the Arduino Duemilanove or Diecimila. The Maple can be programmed using an Arduino-style, sketch-based programming environment, which is open-source and can be downloaded from the useful links tab. Supplier code : M30
|
leaflabs-maple-32-bit-arduino-compatible-microcontroller.jpg
|
|
Arduino Mega 2560 Microcontroller
|
• Replaced with Arduino Mega 2560 Microcontroller Rev3
• User friendly USB programmable Arduino Microcontroller • Open Source design based on the larger ATmega2560 • 54 digital I/O Pins and 16 analog I/O Pins • 256 KB of Flash Memory, 8 KB of SRAM, and 4kB of EEPROM • Clock Speed: 16 MHz |
arduino-mega-2560-microcontroller-3.jpg
|
|
Arduino Mega 2560 Microcontroller Rev3
|
User friendly USB programmable Arduino Microcontroller Open Source design based on the larger ATmega2560 54 digital I/O Pins and 16 analog I/O Pins 256 KB of Flash Memory, 8 KB of SRAM, and 4kB of EEPROM Clock Speed: 16 MHz The Arduino Mega 2560 Microcontroller Rev3 is a microcontroller board based on the ATmega2560. It has 54 digital input/output pins (of which 14 can be used as PWM outputs), 16 analog inputs, 4 UARTs (hardware serial ports), a 16 MHz crystal oscillator, a USB connection, a power jack, an ICSP header, and a reset button. It contains everything needed to support the microcontroller; simply connect it to a computer with a USB cable or power it with a AC-to-DC adapter or battery to get started. The Mega is compatible with most shields designed for the Arduino Uno, Duemilanove, or Diecimila. The Arduino Mega can be powered via the USB Connection or with an external power supply. The Mega2560 differs from all preceding boards in that it does not use the FTDI USB-to-serial driver chip. Instead, it features the Atmega8U2 programmed as a USB-to-serial converter. Each of the 54 digital pins on the Mega can be used as an input or output, using pinMode(), digitalWrite(), and digitalRead() functions. It also has 16 analog inputs, each of which provide 10 bits of resolution (i.e. 1024 different values). The Arduino Mega2560 has a number of facilities for communicating with a computer, another Arduino, or other microcontrollers. The ATmega2560 provides four hardware UARTs for TTL (5V) serial communication. An ATmega8U2 on the board channels one of these over USB and provides a virtual com port to software on the computer. Furthermore, it supports I2C (TWI) and SPI communication. The Arduino software includes a Wire library to simplify use of the I2C bus; see the documentation on the Wiring website for details. For SPI communication, use the SPI library. The Arduino Mega2560 can be programmed with the free and open source Arduino IDE hrough a USB connection without needing any extra hardware thanks to its preburnt bootloader. You can also bypass the bootloader and program the microcontroller through the ICSP header. The Arduino Mega2560 is designed to be compatible with most shields designed for the Uno, Diecimila or Duemilanove. Supplier code : A000067
|
arduino-mega-2560-microcontroller-rev3.jpg
|
|
Arduino Mega 2560 ADK Microcontroller R3
|
Microcontroller: ATmega2560 Operating voltage: 5V Input Voltage (recommended): 7V to 12V Digital I/O pins: 54 (of which 14 provide PWM output) Revision 3 of the MEGA ADK Clock speed of 16 MHz The Arduino Mega 2560 ADK Microcontroller is based on the ATmega2560. It has a USB host interface to connect with Android based phones, based on the MAX3421e IC and has number of facilities for communicating with a computer, another Arduino, or other microcontrollers. It is designed in a way that allows it to be reset by software running on a connected computer. Each of the 50 digital pins on the ADK can be used as an input or output. Supplier code : A000069
|
arduino-mega-2560-adk-microcontroller.jpg
|
|
DFRduino MEGA 2560 ADK Microcontroller
|
Microcontroller board based on the ATmega2560 Fully compatible with Google's ADK Arduino Compatible ICSP header The DFRduino MEGA 2560 ADK Microcontroller is a microcontroller board based on the ATmega2560, which is fully compatible with Google's ADK and it includes all the basics you need to start building your own Android accessories. It has 16 analog inputs, 4 UARTs (hardware serial ports), a 16 MHz crystal oscillator, a USB connection, a power jack, an ICSP header, and a reset button etc. It features an Atmega8U2 programmed as a USB-to-serial converter. Supplier code : DFR0156
|
dfrduino-mega-2560-adk-microcontroller.jpg
|
|
Mega Pro Arduino Compatible Microcontroller
|
ATmega2560 running at 16MHz external resonator USB connection off board Over current protected RoHS compliant The Mega Pro Arduino Compatible Microcontroller is powerful, portable and Pro. This is a 5V microcontroller running a version of the stk500v2 bootloader at 16MHz. Just like the other Pro-series boards this board is built with all SMD components and comes with no headers populated in order to minimize the cost and the board profile. Of course this board has the same pin-configuration as the Arduino Mega, so it is dimensionally shield compatible. Note: It's identical, but does not say '3.3V'. Features: 5V regulator, 200mA continuous (500mA peak) Reverse polarity protected DC input 5V up to 12V Resettable fuse prevents damage to board in case of short Power select switch acts as on/off switch Supplier code : DEV-11007
|
mega-pro-arduino-compatible-microcontroller.jpg
|
|
Arduino Mega Pro 3.3V Microcontroller
|
DC input: 3.3V-12V Arduino microcontroller with USB connection ATmega2560 running at 8MHz external resonator ROHS Compliant The Arduino Mega Pro 3.3V Microcontroller is powerful, portable and pro. Manufacturer continuing the Pro series of Arduino-compatible microcontrollers with the addition of the Mega Pro. This is a 3.3V microcontroller running a version of the stk500v2 bootloader at 8MHz. Just like the other Pro series boards this board is built with all SMD components and comes with no headers populated in order to minimize the cost and the board profile. This board has the same pin configuration as the Arduino Mega so it is dimensionally shield compatible. The Pro series is meant for users that understand the limitations of system voltage (3.3V), lack of connectors, and USB off board. This board connects directly to the FTDI Basic Breakout board and supports auto reset and the DC power jack footprint is available, but not populated. Supplier code : DEV-10744
|
arduino-mega-pro-microcontroller.jpg
|
|
Digilent chipKIT Max32 Arduino Compatible Microcontroller
|
Microchip PIC32 32-bit MIPS processor (PIC32MX795F512) Provides additional memory and advanced communications peripherals Compatible with existing Arduino code examples, reference materials and other resources Arduino 'Mega' form factor Compatible with Arduino shields 83 available I/O The Digilent chipKIT Max32 Arduino Compatible Microcontroller combines compatibility with the popular Arduino open source hardware prototyping platform with the performance of the Microchip PIC32 microcontroller. The Max32 is the same form factor as the Arduino Mega board and is compatible with standard Arduino shields as well as larger shields for use with the Mega boards. Not directly compatible with Labview. Features: 80 Mhz 32-bit MIPS 512K Flash, 128K RAM USB 2.0 OTG controller 10/100 Ethernet MAC Dual CAN controllers Can also be programmed using Microchip's MPLAB (along with a PICkit 3 or 6-pin header) User LED Supplier code : 410-202
|
digilent-chipkit-max32-arduino-compatible-microcontroller.jpg
|
|
Seeedstudio Seeeduino Mega Microcontroller
|
Compatible with most Arduino Duemilanove and Diecimila Shields Small form factor, 30 smaller than Arduino Mega 4 Hardware serial ports (UART) ATmega 2560 @ 16MHz The Seeedstudio Seeeduino Mega Microcontroller is for small form factor, flexibility and functionality comes Seeeduino Mega derived from Arduino Mega it harnesses the power of ATmega2560 to spice up your project building experience. Supplier code : ARD121D2P
|
seeedstudio-seeeduino-mega-microcontroller.jpg
|
|
DiamondBack Arduino Compatible WiFi Microcontroller
|
802.11b 1 and 2 mbps wireless connectivity Compatible with the Processing/Wiring IDE Atmel Mega 328P microprocessor Lower profile USB 5-pin mini-B connector On-board PCB antenna LinkSprite introduces the DiamondBack Arduino Compatible WiFi Microcontroller. It is an Arduino Duemilanove compatible clone that has 802.11b wireless connectivity baked directly onto the board. The components are switched out for surface mount equivalents, to free space for wireless module. It is fully compatible with the Processing/Wiring IDE. It will give your Arduino projects added wireless connectivity without the need for additional bulky shields. It features auto-switchable power between USB and external DC power & its 2-pin JST connector allows for more varied external power options (JST to DC barrel jack, Lithium-ion battery pack, etc.). It has support for WEP, WPA, and WPA2 security. It is also fully compatible with Asynclab BlackWidow. Supplier code : DIAMONDBACK
|
diamondback-arduino-wifi-microcontroller.jpg
|
|
DFRobot Romeo All-in-one Microcontroller (ATMega 328)
|
Romeo All-in-one Microcontroller with USB connection Specialized library functions for robots Based on the ATmega328 14 digital I/O, 8 analog I/O Multiple power options The DFRobot Romeo All-in-one Microcontroller (ATMega 328) is based on the ATMega328 chip and designed as an extension of the basic Arduino board. The DFRobot Romeo All-in-one Microcontroller (ATMega 328) includes both female pin headers for each pin and standard 3-pin connections, allow you to easily connect sensors and other 3-wire devices. The board also includes an L298 Motor driver, allows you to drive two DC motors between 7-12V and <1A each. Features: Based on Atmega328-20AU 6 push buttons 14 Digital I/O (pins 0 to 13) 8 Analog I/O (pins 0 to 7) PWM pins: 3, 5, 6, 9, 10, 11 3.3V, 5V, AREF and GND pins USB interface ISP headers 3 Different power options Romeo supply voltage: 7-12V Screw terminals for motor and motor supply Supplier code : DFR0004
|
dfrobot-romeo-all-in-one-microcontroller-atmega-328.jpg
|
|
Arduino Pro 328 - 3.3V / 8MHz
|
ATmega328 running at 8MHz external resonator USB connection off board 3.3V Arduino running the 8MHz bootloader RoHS compliant Introducing the Arduino Pro 328 - 3.3V / 8MHz. This is a 3.3V Arduino running the 8MHz bootloader. Because the system voltage for this board is lower than other Arduino development boards, it may not be compatible with many Arduino shields which were designed to run at 5V. The Arduino Pro 3.3V still works great with the prototyping shield so you can create your own 3.3V shields. The lower system voltage also has its advantages, like ease of use with many common 3.3V sensors. This board connects directly to the FTDI Basic Breakout board and supports auto-reset. The Arduino Pro also works with the FTDI cable but the FTDI cable does not bring out the DTR pin so the auto-reset feature will not work. Supplier code : DEV-10914
|
arduino-pro-328-3-3v-8mhz.jpg
|
|
Arduino Pro Microcontroller 328 - 5V / 16MHz
|
ATmega328 running at 16MHz external resonator USB connection off board 5V regulator RoHS Compliant The Arduino Pro Microcontroller 328 - 5V / 16MHz is a 5V Arduino running the 16MHz bootloader in a super-sleek form factor that will fit easily into your next small project. Supplier code : DEV-10915
|
arduino-pro-microcontroller-328-5v-16mhz.jpg
|
|
Arduino Lilypad Microcontroller Simple Board
|
Washable Controlled by an ATmega328 Built-in power supply socket RoHS compliant The Arduino Lilypad Microcontroller Simple Board is controlled by an ATmega328 with the Arduino bootloader. It has fewer pins than the LilyPad Arduino Main Board, a built in power supply socket, and an on/off switch. LiPo batteries can be plugged right into the socket. The Simple board is designed to streamline your next sewable project by keeping things simple and giving you more room to work and eliminating the need to sew a power supply. This revision does away with the ISP header and adds a charging circuit based on the MCP73831 IC. It creatively designed to have large connecting pads to allow them to be sewn into clothing. Supplier code : DEV-10274
|
arduino-lilypad-microcontroller-simple-board.jpg
|
|
Arduino LilyPad Microcontroller Module (ATmega328)
|
Arduino LilyPad microcontroller is designed to be sewn to your clothes Newest version includes pre-soldered pin header It is intended for roboticists, artists, designers and hobbyists Based on the ATmega328 ROHS Compliant The Arduino LilyPad Microcontroller Module (ATmega328) is main board consisting of an ATmega328 with the Arduino bootloader and a minimum number of external components to keep it as small (and as simple) as possible. Board will run from 2V to 5V. The latest version of the LilyPad supports automatic reset for even easier programming. The back side of the LilyPad is now completely flat! We now use a surface mount programming connector to keep the header from poking through. This version of the LilyPad now uses the new ATmega328 at 8MHz. Arduino 0016 supports the Arduino Pro Mini 328/8MHz. Use this setting when using this new LilyPad 328. LilyPad is a wearable e-textile technology developed by Leah Buechley and cooperatively designed by Leah and SparkFun. Each LilyPad was creatively designed to have large connecting pads to allow them to be sewn into clothing. Various input, output, power, and sensor boards are available. They're even washable! Supplier code : DEV-09266
|
arduino-lilypad-microcontroller-module-atmega328.jpg
|
|
DFRobot Rainbow LED Ring (Arduino Compatible)
|
Supply voltage: 5V Comes with pre-burned bootloader which has several built in led scripts Can be programmed using standard Arduino IDE by FTDI breakout board Interface: Serial/I2C/Digital pins The DFRobot Rainbow LED Ring (Arduino Compatible) is probably the most beautiful LED ring ever. Each led on the ring can be controlled seperatly on its brightness and colors (RGB). It comes with pre-burned bootloader which has several built in led scripts. It allows I2C/Serial communication from any MCU and can be serially linked to make a beautiful art piece via I2C. It can be programmed using standard Arduino IDE by FTDI breakout board. Supplier code : DFR0141
|
dfrobot-rainbow-led-ring.jpg
|
|
DFRduino Pro Mini 5V Microcontroller
|
It is a 5V DFduino running the 16MHz bootloader USB connection off board Microcontroller board based on the ATmega328 Advance version of offical Arduino Pro Mini Supplier code : DFR0159
|
dfrduino-pro-mini-v1-2-3-3v.jpg
|
|
Pro Micro 3.3V / 8MHz Arduino Compatible Microcontroller
|
ATMega 32U4 running at 3.3V/8MHz On-Board micro-USB connector for programming Rx and Tx Hardware Serial Connections RoHS Compliant The Pro Micro 3.3V / 8MHz Arduino Compatible Microcontroller comes with an ATmega32U4 on board. The USB transceiver inside the 32U4 allows us to add USB connectivity on-board and do away with bulky external USB interface. This tiny little board does all of the neat-o Arduino tricks that you're familiar with: 4 channels of 10-bit ADC, 5 PWM pins, 12 DIOs as well as hardware serial connections Rx and Tx. Running at 8MHz and 3.3V, ease of use with many common 3.3V sensors, this board will remind you a lot of your other favorite Arduino-compatible boards but this little guy can go just about anywhere. Features: 4 x 10-bit ADC pins 12 x Digital I/Os (5 are PWM capable) Advanced RISC Architecture Non-volatile Program and Data Memories Supplier code : DEV-10999
|
pro-micro-33v-8mhz-arduino-compatible-microcontroller.jpg
|
|
Pro Micro 5V / 16MHz Arduino Compatible Microcontroller
|
ATMega 32U4 running at 5V/16MHz On-Board micro-USB connector for programming 12 x Digital I/Os (5 are PWM capable) RoHS compliant The Pro Micro 5V/16MHz Arduino Compatible Microcontroller is similar to the Pro Mini except with an ATmega32U4 on board. The USB transceiver inside the 32U4 allows to add USB connectivity on-board and do away with bulky external USB interface. This tiny little board does all of the neat-o Arduino tricks that you're familiar with: 4 channels of 10-bit ADC, 5 PWM pins, 12 DIOs as well as hardware serial connections Rx and Tx. Running at 16MHz and 5V, this board will remind you a lot of your other favorite Arduino-compatible boards but this little guy can go just about anywhere. Features: Supported under Arduino IDE v1.0 (un-comment "leonardo" lines in boards.txt) 4 x 10-bit ADC pins Supplier code : DEV-11098
|
pro-micro-arduino-compatible-microcontroller.jpg
|
|
Pro Mini 3.3V / 8MHz Arduino Compatible Microcontroller
|
ATmega328 running at 8MHz with external resonator (0.5% tolerance) Over current protected On board Power and Status LEDs DC input 3.3V up to 12V RoHS Compliant Features: USB connection off board Weighs less than 2 grams! Supports auto-reset Reverse polarity protected Analog Pins: 8 Digital I/Os: 14 Supplier code : DEV-11114
|
pro-mini-33v-8mhz-arduino-compatible-microcontroller.jpg
|
|
Arduino Nano USB Microcontroller v3
|
Microcontroller module with USB connection 30 pin module, breadboard mountable Specialized library functions for robotics It is intended for roboticists, artists, designers and hobbyists Based on ATmega328 The Arduino Nano USB Microcontroller is a breadboard ready version of the Arduino mini with integrated USB. The Nano has more analog input pins as compared to most Arduino boards and an onboard +5V AREF jumper. The Nano automatically senses and switches to the higher power power supply, so there is no need for a power select jumper. The nano's pin layout works well with the Mini or the Basic Stamp (TX, RX, ATN, GND on one top, power and ground on the other). The Arduino Nano Microcontroller can be powered via the mini-B USB connection, 6-20V unregulated external power supply (pin 30), or 5V regulated external power supply (pin 27). The power source is automatically selected to the highest voltage source. The package contains only the microcontroller. Features: Automatic reset during program download Power OK blue LED on the bottom Green (TX), red (RX) and orange (L) LED +5V to AREF jumper Auto sensing/switching power input Small mini-B USB for programming and serial monitor (cable not included) ICSP header for direct program download Power OK blue LED on the bottom Standard 0.1 spacing DIP (breadboard friendly) Manual reset switch Supplier code : Arduino Nano
|
arduino-nan-v-3.jpg
|
|
DFRobot DFRduino Nano USB Microcontroller V3 (ATMega 328)
|
Microcontroller module with USB connection 30 pin module, breadboard mountable Specialized library functions for robotics It is intended for roboticists, artists, designers and hobbyists Based on ATmega328 The DFRobot DFRduino Nano USB Microcontroller V3 (ATMega 328) is a breadboard ready version of the Arduino mini with integrated USB. The Nano has everything that the Diecimila has (electronically) with more analog input pins and an on-board +5V AREF jumper. The Nano automatically senses and switches to the higher power supply, so there is no need for a power select jumper. The nano's pin layout works well with the Mini or the Basic Stamp (TX, RX, ATN, GND on one top, power and ground on the other). The DFRobot DFRduino Nano USB Microcontroller V3 (ATMega 328) can be powered via the mini-B USB connection, 6-20V unregulated external power supply (pin 30), or 5V regulated external power supply (pin 27). The power source is automatically selected to the highest voltage source. Features: Automatic reset during program download Power OK blue LED on the bottom Green (TX), red (RX) and orange (L) LED +5V to AREF jumper Auto sensing/switching power input Small mini-B USB for programming and serial monitor (cable not included) ICSP header for direct program downloads Power OK blue LED on the bottom Standard 0.1 spacing DIP (breadboard friendly) Manual reset switch Supplier code : DFR0010
|
dfrobot-dfrduino-nano-usb-microcontroller-v3-atmega-328.jpg
|
|
Arduino Nano USB Microcontroller v3 (No Headers)
|
Microcontroller module with USB connection 30 pin module, breadboard mountable Specialized library functions for robotics It is intended for roboticists, artists, designers and hobbyists Based on ATmega328 No pin headers The Arduino Nano USB Microcontroller v3 (No Headers) is a breadboard ready version of the Arduino mini with integrated USB. The Nano has everything that the Diecimila has (electronically) with more analog input pins and an onboard +5V AREF jumper. The Nano automatically senses and switches to the higher power supply, so there is no need for a power select jumper. The nano's pin layout works well with the Mini or the Basic Stamp (TX, RX, ATN, GND on one top, power and ground on the other). The Arduino Nano USB Microcontroller v3 (No Headers) can be powered via the mini-B USB connection, 6-20V unregulated external power supply (pin 30), or 5V regulated external power supply (pin 27). The power source is automatically selected to the highest voltage source. The package contains only the microcontroller. Features: Automatic reset during program download Power OK blue LED on the bottom Green (TX), red (RX) and orange (L) LED +5V to AREF jumper Auto sensing/switching power input Small mini-B USB for programming and serial monitor (cable not included) ICSP header for direct program download Power OK blue LED on the bottom Standard 0.1 spacing DIP (breadboard friendly) Manual reset switch Supplier code : ARD-NANO30NP
|
arduino-nano-usb-microcontroller-v3-no-headers.jpg
|
|
ArduPilot - Arduino Compatible UAV Controller w / ATMega328
|
SFE ArduPilot Can be used for an autonomous aircraft, car or boat Multiple 3D waypoints (limited only by memory) It comes with a 6-pin GPS connector for the 1hz EM406 GPS module Based on a 16MhZ Atmega328 processor. Total onboard processing power aprox 24 MIPS. LEDs for power, failsafe (on/off), status and GPS (satellite lock) Soldering required The SFE ArduPilot - Arduino Compatible UAV Controller with ATMega328 is a Arduino-compatible autopilot board designed by Chris Anderson and Jordi Muñoz of DIY Drones using the new ATMega328. This board was used to win the annual autonomous vehicle competition. ArduPilot is a fully programmable autopilot that requires a GPS module and an infrared XY sensor such as the FMA module to create a functioning Unmanned Aerial Vehicle (UAV). The autopilot handles both stabilization and navigation, eliminating the need for a separate stabilization system. It also supports a "fly-by-wire" mode that can stabilize an aircraft when flying manually under RC control, making it easier and safer to fly. The hardware and software are all open source. The board comes with all the surface-mount parts already soldered, but requires the user to solder on connectors. Firmware is already loaded, but the autopilot software must be downloaded and loaded onto the board by the user. It can be programmed with the Arduino IDE. All details and instructions can be found at the project's home page. We highly recommend the following items to accompany this product: An EM406 GPS module A FTDI board and USB cable for programming A strip of breakaway connectors to solder on as servo connectors A strip of male and female machine pin headers to attach the sensors An extended EM406 GPS cable An Expansion Board ("shield") with airspeed sensor Other necessary elements, including aircraft recommendations, can be found at the project's home page. Note: The original build of boards (shipped before January 26th) had incorrect firmware loaded onto the ATtiny. This firmware made the ATtiny unable to put the ATmega into reset. If you happen to have received one of these older boards, and you are experiencing problems, you can re-flash the firmware on the ATtiny with an AVR programmer like the one in the related items below. The newest firmware can always be found here. SFE ArduPilot Features: Controller designed to be used with autonomous aircraft, car or boat. Infrared sensor required only for aircraft. Based on a 16MHz Atmega328 processor. Total onboard processing power aprox 24 MIPS. Built-in hardware failsafe that uses a separate circuit (multiplexer chip and ATTiny processor) to transfer control from the RC system to the autopilot and back again. Includes ability to reboot the main processor in mid-flight. Multiple 3D waypoints (limited only by memory) Comes with a 6-pin GPS connector for the 1Hz EM406 GPS module. Has six spare analog inputs (with ADC on each) and six spare digital input/outputs to add additional sensors Supports addition of wireless downlink module for telemetry Can be powered by either the RC receiver or a separate battery Hardware-driven servo control, which means less processor overhead, tighter response and no jitters. Four RC-in channels (plus the autopilot on/off channel) can be processed by the autopilot. LEDs for power, failsafe status, autopilot status and GPS lock Supplier code : GPS-08785
|
sfe-ardupilot-arduino-compatible-uav-controller-atmega328.jpg
|
|
ArduPilot Mega - Arduino Mega compatible UAV Controller
|
Designed to be used with autonomous aircraft, car or boat Based on a 16MHz Atmega1280 processor Dual-processor design with 32 MIPS of onboard power Can be powered by either the RC receiver or a separate battery RoHS compliant The SFE ArduPilot Mega - Arduino Mega compatible UAV Controller is the newest version of autopilot board designed by Chris Anderson and Jordi Muñoz of DIY Drones using the ATmega1280. The ArduPilot Mega is a fully programmable autopilot that requires a GPS module and sensors (IMU sensor shield coming soon) to create a functioning Unmanned Aerial Vehicle (UAV). The autopilot handles both stabilization and navigation, eliminating the need for a separate stabilization system. It also supports a "fly-by-wire" mode that can stabilize an aircraft when flying manually under RC control, making it easier and safer to fly. The hardware and software are all open source. The board comes with all the surface-mount parts already soldered, but requires the user to solder on connectors. RC processing firmware is already loaded, but the autopilot software must be downloaded and loaded onto the board by the user. It can be programmed with the Arduino IDE. Features: Controller designed to be used with autonomous aircraft, car or boat Based on a 16MHz Atmega1280 processor Built-in hardware failsafe that uses a separate circuit (multiplexer chip and ATMega328 processor) to transfer control from the RC system to the autopilot and back again. Includes ability to reboot the main processor in mid-flight Dual-processor design with 32 MIPS of onboard power Supports of 3D waypoints and mission commands (limited only by memory) Comes with a 6-pin GPS connector (EM406 style) Has 16 spare analog inputs (with ADC on each) and 40 spare digital input/outputs to add additional sensors Four dedicated serial ports for two-way telemetry (using optional XBee modules) and expansion Can be powered by either the RC receiver or a separate battery Hardware-driven servo control, which means less processor overhead, tighter response and no jitters Eight RC channels (including the autopilot on/off channel) can be processed by the autopilot LEDs for power, failsafe status, autopilot status and GPS lock Full autopilot software, including IMU and groundstation/mission planning code, are available at DIY Drones. Code supports autonomous takeoff and landing Supplier code : GPS-09710
|
sfe-ardupilot-mega-arduino-mega-compatible-uav-controller.jpg
|
|
Arduino Fio V3
|
ATmega32U4 running at 8MHz Arduino-Compatible Bootloader Lithium Polymer Battery Compatible RoHS Complaint The Arduino Fio V3 is a new spin on the Arduino Fio hardware powered by the ATmega32U4. It's very capable XBee-ready development board. The JST-connector and 3.3v system voltage make this a great development tool for portable devices, simply plug in a Li-Poly battery and you're ready to go. Wireless sensor networks and communication are made easy by the on-board XBee socket. The ATmega32U4, running at 8MHz, makes it possible for you to use the on-board USB jack not only to charge a connected Li-Poly battery but to actually program the device! Because this board uses a similar bootloader to the one on the Pro Micro. Features: JST-connector and 3.3v system voltage XBee Socket Wireless sensor networks and communication On-board USB jack MCP73831T LiPo Charger Reset button On/Off Switch Status/Charge/RSSI LEDs Supplier code : DEV-11520
|
arduino-fio-v3.jpg
|
|
Arduino Fio
|
ATmega328V running at 8MHz Lithium Polymer battery compatible Includes a charge circuit over USB An XBee socket is available on the bottom of the board RoHS compliant The SFE Arduino Fio is a board designed by Shigeru Kobayashi, based on the original design from LilyPad. The SFE Arduino Fio is a toolkit to sketch your idea physically, and consists of software libraries and hardware. By using this, the user can interface to sensors and/or actuators with various programming languages such as ActionScript 3, Processing, and Ruby. The Arduino Fio is compatible with Funnel. It has connections for a Lithium Polymer battery and includes a charge circuit over USB. An XBee socket is available on the bottom of the board. The FIO has been designed to be wirelessly reprogrammable. Features: ATmega328V running at 8MHz Arduino Bootloader XBee socket Lithium Polymer battery compatible MAX1555 LiPo Charger Reset button On/Off Switch Status/Charge/RSSI LEDs Supplier code : DEV-10116
|
sfe-arduino-fio.jpg
|
|
Funnel IO Microcontroller with ATmega168
|
Funnel I/O (FIO) microcontroller with ATmega168 User can interface to sensors or actuators Connections for a Lithium Polymer battery An XBee socket is available The Funnel IO Microcontroller with ATmega168 is an Arduino compatible board designed by Shigeru Kobayashi and based on the original design from LilyPad. The Funnel is a toolkit to sketch your idea physically and consists of software libraries and hardware. By using Funnel, the user can interface to sensors or actuators with various programming languages such as Action Script 3, Processing, and Ruby. The FIO is compatible with Funnel. It has connections for a Lithium Polymer battery and includes a charge circuit over USB. An XBee socket is available on the bottom of the board. The FIO has been designed to be wirelessly reprogrammable. Checkout our tutorial on wireless boot loading! Supplier code : DEV-08957
|
funnel-io-microcontroller-atmega168.jpg
|
|
USB-Boarduino Kit (ATmega328)
|
Just like an Arduino, but specifically for a breadboard All 'standard' pins are brought out ATMega328 runs at 16.00 MHz USB Mini "B" and 6-pin standard ICSP header Soldering required The Adafruit USB-Boarduino Kit (ATmega328) is designed to plug into a breadboard for easy prototyping. It acts just like an Arduino and works with the latest Arduino software. It can even be preferable for many projects. The assembly is straightforward and well documented. This version of the Boarduino does not have a DC jack. That means you can't use a 9V adapter or battery holder with it unless you build a 5V power supply. However it has USB built in and you can power your project or USB or by using a Mintyboost kit which takes 2 AA batteries. The difficult-to-solder USB chip is already soldered and tested, so the kit is easy to make. Features: Designed to plug into a breadboard for easy prototyping Petite size, only 2.75" x 0.8" (75mm x 20mm) Chip comes preprogrammed with a "no-wait" Arduino bootl oader 4 LEDs, green power and red "pin 13" just like the Arduino Diecimila Reset button ATmega328P, running at 16.00 MHz, just like the latest Arduino, the Duemilanove USB miniB jack 500mA fuse protects your computer's USB port from over current 6-pin standard ICSP header Auto-reset capability (can be easily disabled by removing or not installing a capacitor) Supplier code : 91
|
adafruit-usb-boarduino-kit-atmega328.jpg
|
|
DC Boarduino Kit (ATmega328)
|
Acts just like an Arduino All 'standard' pins are brought out Runs at 16.00 MHz Upload baud rate is 57600 The Adafruit DC Boarduino Kit (ATmega328) is designed to plug into a breadboard for easy prototyping. It acts just like an Arduino and works with the latest Arduino software. It can even be preferable for many projects. The assembly is straightforward and well documented. All 'standard' pins are brought out - Digital 0 through 13, Analog 0 through 5, ARef, 5V, Ground, Vin and Reset. It has two LEDs, green power and red "pin 13" just like an Arduino. Since this design doesn't include a USB chip, you'll want an FTDI USB 232-TTL cable. As the cable plugs right into the Boarduino, you can use one cable for multiple Boarduinos. Atmega328 chip has much storage, runs at 16.00 MHz, just like the latest Arduino. Upload baud rate is 57600, use Arduino IDE v13+. Features: Petite size, only 3" x 0.8" (75mm x 20mm) Chip comes preprogrammed with my "no-wait" Arduino boot loader 2 LEDs, green power and red "pin 13" just like an Arduino Available as a low cost kit with standard parts, so it's never out of stock All through-hole parts are easy to solder Reset button 6-pin standard ICSP header Standard 2.1 mm DC jack (just like the original) with 5V regulator to run on 7V-17V power 1N4001 diode protects against using incorrect wall adapter 6-pin header at the end for a USB-TTL cable Auto-reset capability when used with a USB-TTL cable Note: The product photo above hasn't been updated Supplier code : 72
|
adafruit-dc-boarduino-kit-atmega328.jpg
|
|
"Wild Thumper" Dual 15A Motor Robot Controller
|
Controlled by on-board ATMega168 IC with Arduino bootloader Capable of charging SLA, NiCd and NiMh batteries On-board current and voltage monitoring Made up of dual 15A FET H-bridges with fuse protection The ''Wild Thumper'' Dual 15A Motor Robot Controller is built by Dagu specifically for their robot platforms. It essentially combines an Arduino development board with a dual H-bridge motor driver all bolted down to an aluminum heatsink. The heart of the board is an ATMega168 AVR microcontroller which comes loaded with the Arduino bootloader and some simple control code. Code can be easily accessed and changed in the Arduino IDE using the on-board FTDI chip and mini-USB connector. All of the headers on board are accompanied by ground and voltage lines to allow for easy servo connection. Features Controlled by on-board ATMega168 IC with Arduino bootloader Capable of charging SLA, NiCd and NiMh batteries On-board current and voltage monitoring Supplier code : ROB-11057
|
wild-thumper-dual-15a-motor-robot-controller.jpg
|
|
ArduIMU+ V3 Arduino Compatible
|
Tri-Axis accelerometer with a programmable full scale range of ±2g, ±4g, ±8g and ±16g Full Chip Idle Mode Supply Current: 5µA I2C port with 3.3V translation Features the new MPU-6000 that includes 3 axis gyros & accells built-in The ArduIMU+ V3 Arduino Compatible is not an Autopilot. It's just an orientation solution (the heart of an Autopilot) and can be used on anything where you want to know its orientation in respect to the ground-boats, cars, rockets or even your dog. ArduIMU V3 features the new MPU-6000 that includes 3 axis gyros & accells built-in, the latest 3 axis I2C magnetometer HMC-5883L and the classic but very robust Arduino Atmega328 running at 16Mhz. Supplier code : KT-ArduIMU-30
|
arduimu-v3-arduino-compatible.jpg
|
|
Arduino Due 32bit ARM Microcontroller
|
Contains everything needed to support the microcontroller Power it with a AC-to-DC adapter or battery to get started Compatible with all Arduino shields that work at 3.3V Arduino board based on a 32-bit ARM core microcontroller The Arduino Due 32bit ARM Microcontroller is a microcontroller board based on the Atmel SAM3X8E ARM Cortex-M3 CPU. It has 54 digital input/output pins. Supplier code : A000062
|
arduino-due-32bit-arm-microcontroller.jpg
|
|
Arduino Esplora
|
Microcontroller: ATmega32u4 Provides ready-to-use set of onboard sensors for interaction Designed to get up and running with Arduino without learning electronics Includes onboard sound and light outputs, input sensors etc. The Arduino Esplora is a microcontroller board derived from the Arduino Leonardo. The Esplora differs from all preceding Arduino boards in that it provides a number of built-in, ready-to-use set of onboard sensors for interaction. It's designed for people who want to get up and running with Arduino without having to learn about the electronics first. The Esplora has onboard sound and light outputs, and several input sensors, including a joystick, a slider, a temperature sensor, an accelerometer, a microphone, and a light sensor. It also has the potential to expand its capabilities with two Tinkerkit input and output connectors, and a socket for a color TFT LCD screen. Supplier code : A000095
|
arduino-esplora.jpg
|
|
Arduino LilyPad USB ATmega32U4 Microcontroller
|
Creatively designed to have large connecting pads to allow them to be sewn into clothing Officially supported in the Arduino IDE as of version 1.0.2 Various input, output, power, and sensor boards are available RoHS Compliant The Arduino LilyPad USB ATmega32U4 Microcontroller features a JST socket so you can directly connect a Li-Po battery for power and an on-board power switch so you can turn it off when you're not feeling particularly blinky. These boards were designed to streamline your next sewable project by keeping things simple and giving you more room to work while eliminating the need to sew a power supply. The LiPo battery is even rechargeable through the board, no more special external LiPo chargers required. The LilyPad Simple just got a whole lot... simpler. Manufacturer updated the simple board to create the LilyPad USB by replacing the classic ATMega328 with the new ATMega32U4. Supplier code : DEV-11190
|
arduino-lilypad-usb-atmega32u4-microcontroller.jpg
|
|
Arduino Mini 05 Microcontroller Module
|
Small microcontroller board originally based on the ATmega168 Operating Voltage: 5V Can be programmed with the USB Serial adapter 8 analog inputs, and a 16 MHz crystal oscillator Supplier code : A000087
|
arduino-mini-05-microcontroller-module.jpg
|
|
Arduino Pro Mini 328 - 5V / 16MHz
|
ATmega328 running at 16MHz with external resonator USB connection off board DC input 5V up to 12V RoHS Compliant The Arduino Pro Mini 328 - 5V/16MHz is a 5V Arduino running the 16MHz bootloader. Arduino Pro Mini does not come with connectors populated so that you can solder in any connector or wire with any orientation you need. Supplier code : DEV-11113
|
arduino-pro-mini-328-5v-16mhz.jpg
|
|
ArduMega 2.5 Auto Pilot System for UAV (Side Entry)
|
Onboard 4 MegaByte dataflash chip for automatic datalogging Arduino Compatible Allows the user to turn any fixed, rotary wing or multirotor vehicle Includes 3-axis gyro, accelerometer and magnetometer, along with a high-performance barometer The ArduMega 2.5 Auto Pilot System for UAV (Side Entry) is a complete open source autopilot system and the bestselling technology that won the prestigious 2012 Outback Challenge UAV competition. It allows the user to turn any fixed, rotary wing or multirotor vehicle (even cars and boats) into a fully autonomous vehicle; capable of performing programmed GPS missions with way points. Available with top or side connectors. Supplier code : BR-APMPWRKT2
|
ardumega-25-auto-pilot-system-uav-side-entry.jpg
|
|
ArduMega 2.5 Auto Pilot System for UAV (Top Entry)
|
Onboard 4 MegaByte Dataflash chip for automatic datalogging Allows the user to turn any fixed, rotary wing or multirotor vehicle Includes 3-axis gyro, accelerometer and magnetometer, along with a high-performance barometer Arduino Compatible The ArduMega 2.5 Auto Pilot System for UAV (Top Entry) is a complete open source autopilot system and the bestselling technology that won the prestigious 2012 Outback Challenge UAV competition. It allows the user to turn any fixed, rotary wing or multirotor vehicle (even cars and boats) into a fully autonomous vehicle; capable of performing programmed GPS missions with way points. Available with top or side connectors. Features Arduino Compatible Can be ordered with top entry pins for attaching connectors vertically, or as side entry pins to slide your connectors in to either end horizontally Includes 3-axis gyro, accelerometer and magnetometer, along with a high-performance barometer Onboard 4 MegaByte Dataflash chip for automatic datalogging Digital compass powered by Honeywell's HMC5883L-TR chip, now included on the main board Optional off-board GPS, Mediatek MT3329 or uBlox LEA-6H module. Mediatek module included in base price; choose other options at right One of the first open source autopilot systems to use Invensense's 6 DoF Accelerometer/Gyro MPU-6000 Barometric pressure sensor upgraded to MS5611-01BA03, from Measurement Specialties Atmel's ATMEGA2560 and ATMEGA32U-2 chips for processing and usb functions respectively Supplier code : ArduMega 2.5 Auto Pilot System
|
ardumega-25-auto-pilot-system-uav-top-entry.jpg
|
|
ArduPilot Mega 2560 - Arduino Compatible UAV Controller
|
Controller designed to be used with autonomous aircraft, car or boat Dual-processor design with 32 MIPS of onboard power Supports of 3D waypoints and mission commands RoHS Compliant The ArduPilot Mega 2560 - Arduino Compatible UAV Controller is the newest version of autopilot board. This latest revision uses the ATmega2560 in place of the ATmega1280. ArduPilot Mega is a fully programmable autopilot that requires a GPS module and sensors to create a functioning Unmanned Aerial Vehicle (UAV). The autopilot handles both stabilization and navigation, eliminating the need for a separate stabilization system. It also supports a ''fly-by-wire'' mode that can stabilize an aircraft when flying manually under RC control, making it easier and safer to fly. Features: Based on a 16MHz Atmega2560 processor Built-in hardware failsafe that uses a separate circuit Comes with a 6-pin GPS connector (EM406 style) Can be powered by either the RC receiver or a separate battery Supplier code : GPS-10294
|
ardupilot-mega-2560-arduino-compatible-uav-controller.jpg
|
|
ATmega328 with Arduino Bootloader
|
Pre-loaded with the Arduino (16MHz) Bootloader Operating Voltage: 1.8V to 5V Runs up to 20MHz with external crystal 32K of program space. 23 I/O lines, 6 of which are channels for the 10-bit ADC The ATmega328 with Arduino Bootloader allows you to use Arduino code in your custom embedded project without having to use an actual Arduino board. Supplier code : DFR0081
|
atmega328-arduino-bootloader.jpg
|
|
ATmega328 with Arduino Uno Optiboot Bootloader
|
Pre-loaded with the Arduino Optiboot (Uno 16MHz) Bootloader ATMega328 8-Bit Processor in 28 pin DIP package Operating voltage: 1.8v to 5v RoHS compliant The ATmega328 with Arduino Uno Optiboot Bootloader contains the bootloader used on the Arduino Uno, with small modifications. Supplier code : DEV-10524
|
atmega328-arduino-uno-optiboot-bootloader.jpg
|
|
BBFuino ATMega328 Arduino-Compatible Microcontroller for Breadboard
|
Comes with the ATMega328 controller, loaded with Optiboot Compatible with Arduino IDE and sample code Design to fit breadboard for prototyping and learning All pins are labeled as original arduino board and it reserved the LED and reset button Supplier code : BBFUINO
|
bbfuino-atmega328-arduino-compatible-breadboard.jpg
|
|
Cheapduino Microcontroller (5pk)
|
Most affordable Arduino compatible processor in the world Working Voltage: 3 - 5 Volts Microcontroller: Atmel AVR ATmega8 Integrate 3 PWM pins, I2C Interface and UART Interface Supplier code : DFR0236
|
cheapduino-microcontroller-5pk.jpg
|
|
Dagu ''Magician'' Dual 0.8A Robot Controller
|
Processor: ATmega8 USB interface and ISP socket for easy programming Dual motor controller rated at 800mA for each motor 8x 3 pin servo compatible outputs The Dagu ''Magician'' Dual 0.8A Robot Controller is a low cost, Arduino compatible controller that uses the ATmega8 processor and comes preloaded with the Arduino boot loader. The USB interface allows the controller to be easily programmed with the Arduino IDE and a USB cable. It is designed to work with battery voltages from 6V to 9V. Voltages over 9V will prevent the motor control circuit from functioning correctly. Voltages less than 5.5V can cause the 5V regulator to become unreliable. A reverse polarity protection diode will protect your controller if the power is accidentally reversed. Analog pins A0 - A5 can also be selected as digital pins D14 - D19 allowing them to be used as digital I/O pins. Supplier code : RS015
|
dagu-magician-dual-robot-controller.jpg
|
|
Dagu Micro "Magician" Robot Controller
|
Supply voltage from 4.5V to 9V Perfect choice for small / low voltage robot projects 3.3V regulator and reverse polarity protection Small size of just 60mm x 30mm The Dagu Micro "Magician" Robot Controller is the perfect choice for small / low voltage robot projects. This low cost Arduino compatible controller is packed full of features: ATmega168 or ATmega328 MCU at 8MHz Dual 1A FET ''H'' bridge with electronic braking, current limiting and overload detect 3 axis accelerometer with 0G detection and either 1.5G or 6G full range sensitivity 38KHz IR receiver with signal detection LED Up to 8 servos can plug directly into the controller when V+ is set to battery 3.3V and GND outputs available for powering sensors All I/O pins (except D4) have both male and female header pins Status LEDs for Power, RX, TX, IR signal and D13 Original Magician Controller: Supplier code : RS019
|
dagu-micro-magician-robot-controller.jpg
|
|
DaVinci Micontroller Arduino Compatible
|
Arduino compatible microcontroller with USB connection Shield compatible Intended for roboticists, artists, designers and hobbyists Variety of I/O pins including analog, digital, PWM and more Based on the ATmega328 (removable DIP IC) Includes screw terminals for power option The DaVinci Micontroller Arduino Compatible is an Arduino compatible board made for use in robotics. It includes a 2 pin screw terminal for use with batteries as the primary power source. It also includes a jumper to set RTS or DTR as the reset signal. In addition it includes a low profile USB connector. This prevents the USB connector from interfering with over-sized shields. The DaVinci also incorporates dual mount patterns for mounting to robotics or an existing project. Supplier code : R0408
|
davinci-micontroller-arduino-compatible.jpg
|
|
DFrduino FIO (Arduino Compatible)
|
ATmega328V running at 8MHz Lithium Polymer battery compatible It is 100% compatible with original Arduino FIO XBee Socket The DFrduino FIO (Arduino Compatible) is a board based on the original design of Arduino FIO. It is 100% compatible with original Arduino FIO. Funnel is a toolkit to sketch your idea physically, and consists of software libraries and hardware. By using Funnel, the user can interface to sensors and/or actuators with various programming languages such as Action Script 3, Processing, and Ruby. Arduino Fio is compatible with Funnel. It has connections for a Lithium Polymer battery and includes a charge circuit over USB. An XBee socket is available on the bottom of the board. The Fio has been designed to be wirelessly reprogrammable. Supplier code : DFR0069
|
dfrduino-fio-arduino-compatible.jpg
|
|
DFRduino Pro Mini 3.3V Microcontroller
|
USB Connection Off Board It is a 3.3V DFRduino running the 8MHz bootloader ATmega328 running at 8MHz with external resonator On board Power and Status LEDs Supplier code : DFR0132
|
dfrduino-pro-mini-33v-microcontroller.jpg
|
|
DFRduino Uno USB Microcontroller V2.0
|
DFRduino Uno USB Microcontroller Based on the ATmega328 Open-source physical computing platform RoHS Compliant The DFRduino Uno USB Microcontroller V2.0 board is based on the ATmega328. It has 14 digital input/output pins (of which 6 can be used as PWM outputs), 6 analog inputs, a 16 MHz crystal oscillator, a USB connection, a power jack, an ICSP header, and a reset button. It contains everything needed to support the microcontroller. simply connect it to a computer with a USB cable or power it with a AC-to-DC adapter or battery to get started. Supplier code : DFR0216
|
dfrduino-uno-usb-microcontroller.jpg
|
|
DFRobot Arduino Compatible XBoard-A Bridge V2
|
MCU:Atmega328P low voltage version (16Mhz) Compatible with most sensors and I2C protocol Arduino Uno bootloader Supply voltage: 5 - 12v RoHS Compliant Introducing the DFRobot Arduino Compatible XBoard-A Bridge V2. This is Version 2.0 of the Xboard. The main improvement is that it now operates at 5V, making it compatible with most sensors and I2C protocol with out the need of a voltage level converter. The XBoard is a unique Arduino board which features a WIZnet ethernet port, an XBee socket, and an ATMega328. This board will add wireless XBee control as well as internet connectivity to your projects. Its great for anything from home automation to robot control. The possibilities are endless. Supplier code : DFR0162
|
dfrobot-arduino-compatible-xboard.jpg
|
|
DFRobot Flyduino-A 12 Servo Controller (Arduino Compatible)
|
Working voltage:3.3V Speically designed for controlling servos Arduino Compatible Features a 12 standard servo control capbility with an Xbee socket Important Note: This unit sends position commands at 3.3V whereas most servos require the signal to be sent at 5V. This product cannot be used to control "standard" servos. Supplier code : DFR0136
|
dfrobot-flyduino-a-12-servo-controller-arduino-compatible.jpg
|
|
DFRobot Leonardo Microcontroller with Xbee socket
|
Arduino Leonardo Variant Processor Latest addition to the Arduino family Operating Voltage: 5V Allows the Leonardo to be cheaper and simpler to use The DFRobot Leonardo Microcontroller with Xbee socket is based on the ATmega32u4 chip. It is the latest addition to the Arduino family. Based on the official Arduino Leonardo processor, this one from DFRobot equips an xbee socket and 3 sensor extension pins for your applications. Supplier code : DFR0221
|
dfrobot-leonardo-microcontroller-w-xbee-socket.jpg
|
|
Digispark USB Development Board
|
Micro-sized, affordable, arduino enabled, usb development board On-board 500ma 5V regulator Fully assembled except for the two included and easy to solder headers Attiny85 based The Digispark USB Development Board is an Attiny85 based microcontroller development board similar to the Arduino line, only cheaper, smaller, and a bit less powerful. With a whole host of shields to extend its functionality and the ability to use the familiar Arduino IDE the Digispark is a great way to jump into electronics, or perfect for when an Arduino is too big or too much. Supplier code : DSU-00001
|
digispark-usb-development-board.jpg
|
|
Dreamer Nano V4.0 Microcontroller (Arduino Leonardo Compatible)
|
It has everything that Arduino Leonardo has (electrically) Operating Voltage:5V Surface mount breadboard embedded version of the ATMEGA 32U4 with integrated Micro USB Suitable for projects that require a compact size controller system The Dreamer Nano V4.0 Microcontroller (Arduino Leonardo Compatible) is a surface mount breadboard embedded version of the ATMEGA 32U4 with integrated Micro USB. It has everything that Arduino Leonardo has (electrically). Physically, it is just missing a power jack to save space. The Dreamer Nano v4.0 is compatible with most Nano shield in the market. It's suitable for projects that require a compact size controller system. Supplier code : DFR0213
|
dreamer-nano-v4-0-microcontroller.jpg
|
|
DuinoBot All-in-one Controller Arduino Compatible Kit
|
Includes a Multiplo Battery Holder Features Multiplos easy to use connectors Generates 12V to work with the powerful Multiplo DC gearmotors Specially useful when working in schools The DuinoBotKit.v1.2.HID includes a Multiplo battery holder (it uses just three AA batteries, not included). Just with 3 AA batteries (or other 3.6V battery cells, such as LiPo cells) the controller generates 12V to work with the powerful Multiplo DC gearmotors, and 5V to supply the sensors, and the Arduino-compatible microcontroller on the robot brain itself. This is specially useful when working in schools, since it reduce the operative costs, using less batteries. Need more power? You can always add more batteries in parallel, with adaptor. In addition, along with the DuinoBot brain, you will receive a Multiplo Battery holder (batteries are not included). The DuinoBot brain is Multiplo and Arduino-compatible, so while it features Multiplos easy to use connectors, you still can expand it with standard Arduino shields. Supplier code : DuinoBotKit.v1.2.HID
|
duinobot-controller-arduino-compatible-kit.jpg
|
|
Flymaple Quadcopter Controller Board w / 10 DOF IMU
|
Quadcopter controller board, based on the Maple Project Running at 72Mhz with 32bit Arduino sytle ARM processor (Cortex-M3) Integrates a 3-Axis accelerometer, 3-Axis gyroscope and 3-Axis compass Compatible with most of Arduino shields The Flymaple Quadcopter Controller Board w/ 10 DOF IMU is a Quadcopter controller board, based on the Maple Project. It integrates a 3-Axis accelerometer, a 3-Axis gyroscope, a 3-Axis compass and a barometric pressure sensor. By using the 10 degrees of freedom IMUs and powerful 72MHz high-performance microcontroller, flymaple is powerful enough to handle a complex algorithm and manage a robot motion system at the same time. Supplier code : DFR0188
|
flymaple-quadcopter-controller-board-10-dof-imu.jpg
|
|
Hackvision Arduino-Based Video Game System
|
Connects directly to your TV with standard RCA connections Integrated button controller right on the PCB ATmega328 microcontroller with Arduino bootloader The Hackvision Arduino-Based Video Game System is a simple, retro gaming platform based on Arduino technology that you can assemble and connect to your TV. You can write your own games and make your own controllers. Features: Pre-loaded with 2 games: Space Invaders and Pong (requires paddle controllers). UPDATE: now available with Asteroids Additional accessories available in the nootropic design store including 9V adapters, RCA cables, Wii nunchuk breakout boards, paddle controller kits, USB-serial adapters, etc. Software libraries for game development and controller support Non-conductive adhesive foam pad protects the bottom of the board from your fingers Supplier code : HACKVISION
|
hackvision-arduino-based-video-game-system.jpg
|
|
LilyPad SimpleSnap Main Board
|
New, easy way to create e-textiles projects with LilyPad Built-in rechargeable Lithium Polymer battery and female snap connectors Thin 0.8mm PCB RoHS Complaint The LilyPad SimpleSnap Main Board is a new, easy way to create e-textiles projects with LilyPad that are modular and can be disassembled or broken down, it's also a great way to prototype. The SimpleSnap board is similar to the LilyPad Simple board, and has the same functionality except for two major differences: A built-in rechargeable Lithium Polymer battery and female snap connectors. The on-board Lithium Polymer battery can be charged simply by attaching an FTDI breakout (the same board used for programming) and just like the Simple, the SimpleSnap can be programmed in Arduino. Each LilyPad was creatively designed to have large connecting pads to allow them to be sewn into clothing. Supplier code : DEV-10941
|
lilypad-simplesnap-main-board.jpg
|
|
Lynxmotion BotBoarduino Shield-Compatible Robot Controller
|
User Interface Plug and Play Perfect for controlling your small robotic projects Up to 18 servos can be plugged in directly The Lynxmotion BotBoarduino Shield-Compatible Robot Controller is mix of BotBoard II and Arduino Duemilanove for your Lynxmotion robot creation. It's perfect for controlling your small robotic projects. It has an onboard speaker, three buttons and LED's, a reset button, logic and servo power inputs, an I/O bus with 20 pins and power and ground, and a 5vdc 1.5amp regulator. Up to 18 servos can be plugged in directly. Features: The Botboarduino has 20 IO pins than may be used for digital in/out: 6 pins can be used for analog in 6 pins can be used for PWM output 2 pins are reserved for UART/USB Pin 13 has an LED connected to it Supplier code : BBU-01
|
lynxmotion-botboarduino-shield-compatible-robot-controller.jpg
|
|
Makey Makey Standard Kit
|
Six inputs on the front of the board Make anything into a key Uses high resistance switching to detect Arduino Compatible Controller The Makey Makey Standard is an invention kit that tricks your computer into thinking that almost anything is a keyboard. This allows you to hook up all kinds of fun things as an input. For example, play Mario with a Play-Doh keyboard, or piano with fruit. The MaKey MaKey uses high resistance switching to detect when you've made a connection even through materials that aren't very conductive. The on-board ATMega32u4 communicates with your computer using the Human Interface Device (HID) protocol which means that it can act like a keyboard or mouse. Supplier code : WIG-11511
|
makey-makey-standard-kit.jpg
|
|
Mega Pro Mini - 3.3V Arduino Compatible
|
ATmega2560 running at 8MHz external resonator USB connection off board 3.3V regulator RoHS compliant The Mega Pro Mini - 3.3V Arduino Compatible is the Pro series of Arduino-compatible microcontrollers with the addition of the Mega Pro Mini. This is a 3.3V microcontroller running a version of the stk500v2 bootloader at 8MHz. In order to shrink the Mega Pro down to its minimum footprint, manufacturer condensed the board layout, removed the barrel jack footprint and replaced the traditional Arduino-style headers with compact vertical JST connectors. The Pro series is meant for users that understand the limitations of system voltage (3.3V), lack of connectors, and USB off board. Features: Low-voltage board needs no interfacing circuitry to popular 3.3V devices and modules (GPS, Accelerometers, sensors, etc) Over current protected Reverse polarity protected Resettable fuse prevents damage to board in case of short Supplier code : DEV-10743
|
mega-pro-mini-arduino-compatible.jpg
|
|
pcDuino MiniPC Arduino Compatible
|
Onboard Storage: 2GB Flash, SD card slot for up to 32GB Video Output: HDMI CPU: 1GHz ARM Cortex A8 Extension Interface: 2.54 mm Headers compatible with Arduino The pcDuino MiniPC Arduino Compatible is an mini PC platform that runs a PC like OS such as Ubuntu and Android ICS. It outputs screen to HDMI. Moreover, it has hardware headers interface compatible with Arduino. Supplier code : PCDUINO_N1
|
pcduino-minipc-arduino-compatible.jpg
|
|
Portable Ground Station ArduStation for UAV
|
Portable Open-Source Ground Station for UAV Arduino and Xbee Based Comes with ArduStation LCD Screen, ArduStation Board and Ardustation Hardware Kit Some assembly required The Portable Ground Station ArduStation for UAV is a new portable open-source ground station (Arduino and Xbee Based). Supplier code : DE-0001-01
|
portable-ground-station-ardustation-for-uav.jpg
|
|
ProtoSnap - LilyPad Development Board
|
New way to prototype your project without a breadboard Everything is wired together on a single board Designed to get you started in the world of e-textiles RoHS Compliant The ProtoSnap - LilyPad Development Board is a new way to prototype your project without a breadboard. Everything is wired together on a single board, which makes it easy to explore the possibilities of the components before snapping them apart and building them into your project. It is designed to get you started in the world of e-textiles. Supplier code : DEV-11262
|
protosnap-development-board.jpg
|
|
pyXY - Synapse SM700 Development Board
|
Freescale MC13224V 32-bit ARM7 Processor Arduino Shield Compatible Up to 100mW Output Power RoHS Compliant The pyXY - Synapse SM700 Development Board is a full blown shield-compatible development board. The heart of the pyXY is the Synapse SM700 wireless network module, a mesh network power house that packs a 32-bit ARM7 processor with plenty of on-board memory. What's more, the SM700 can be programmed in SNAPpy, a Python derivative that makes building interactive networks a snap. The shield-compatible form factor and pin assignment make this the perfect platform to develop a wireless sensor device, but if you want to add it to your existing Arduino-powered application, no worries. The pyXY has jumpers to swap the TX and RX lines, effectively taking it from development board to Arduino shield. Features 96k RAM 12-bit ADC, 2 UARTS, I2C and SPI SNAPpy Interpreter (Python-like language) Over the Air Programmable with Another Synapse Module Can be used as a Synapse shield for Arduino Supplier code : WRL-11176
|
pyxy-synapse-sm700-development-board.jpg
|
|
RedBack Arduino Compatible WiFi Microcontroller
|
Compatible with Asynclab Yellowjacket Smallest size possible with wireless capability Atmel Mega 328P microprocessor 802.11b 1 and 2 mbps wireless connectivity On-board PCB antenna LinkSprite introduces the RedBack Arduino Compatible WiFi Microcontroller. It is an Arduino compatible device based on the Arduino mini. It is as small as it can get with the wireless module. The YellowJacket is a two side surface mount device, so you'll need to plan accordingly for components on both sides of the board in your wireless project. Similar to the Arduino mini and to conserve space, the YellowJacket will require a USB breakout board to program it. It supports infrastructure mode (BSS) and adhoc (IBSS) network modes & also has the support for WEP, WPA, and WPA2 security. A LED is attached to digital pin 9 used to indicate a successful wireless connection. Supplier code : REDBACK
|
redback-arduino-wifi-microcontroller.jpg
|
|
Romeo V2 All-in-one Microcontroller (ATMega32U4)
|
Microcontroller especially designed for robotics applications Can easily be expanded with Arduino Shields Compatible with the Arduino R3 pin mapping Built-in Xbee socket The Romeo V2 All-in-one Microcontroller (ATMega32U4) is an all in one Arduino compatible microcontroller especially designed for robotics applications. The Romeo benefits from the Arduino open source platform, it is supported by thousands of open source codes, and can easily be expanded with Arduino Shields. The integrated two way DC motor driver and Xbee socket allows you to start your project immediately without the need for an additional motor driver or wireless shield. Supplier code : DFR0225
|
romeo-v2-microcontroller-atmega32u4.jpg
|
|
RS485 Sensor Node Arduino Compatible
|
Input Voltage: 12V Baud Rate: 9600 6 Channel Analog Sensor Interface Temperature: -40 to 128.8°C (±0.5°C) The RS485 Sensor Node Arduino Compatible can be used in various applications such as intelligent agriculture, environment monitoring, home automation etc. It is a Internet of things device. This RS-486 Sensor node provides 6 channel analog input and 1 SHT1x Humidity & Temperature digital input. Its being used effectively over long distances and in electrically noisy environments. Applications Intelligent Agriculture Public Safety Environment Monitoring Individual Health Home Automation Supplier code : DFR0233
|
rs485-sensor-node-arduino-compatible.jpg
|
|
Seeedstudio Rainbowduino LED Driver Platform (Atmega 328)
|
Built in USB to UART chip (FT232RL) Can be driven directly via USB cable Arduino compatible controller board with professional multiplexed LED driver Constant current (20.8mA) LEDs driver The Seeedstudio Rainbowduino LED Driver Platform (Atmega 328) is an arduino compatible controller board with professional multiplexed LED driver. It can drive a 8 x 8 RGB Led Matrix or a 4 x 4 x 4 RGB LED Cube in common Anode mode. Rainbowduino v3.0 uses two MY9221 chips which is a 12-channels (R/G/B x 4) constant current Adaptive Pulse Density Modulation(APDM). Rainbowduino v3.0 has provisions for cascading more such boards with I2C interface. Rainbowduino v3.0 is flashed with Arduino boot-loader and this makes it easy to program sketches using Arduino IDE. Unlike other LED drivers, this comes with a USB to UART (FT232RL) inbuilt for programming the sketches. Features: Can drive 4 x 4 x 4 RGB LED Cube or 8x8 RGB LED Matrix (i.e 192 LED) Built in 5V / 1 Ampere voltage regulator Supplier code : ARD127D2P
|
seeedstudio-rainbowduino-led-driver-platform-atmega-328.jpg
|
|
SeeedStudio Seeeduino Film Flexible Arduino Compatible Microcontroller
|
Arduino compatible development platform Full functional Atmega168 Built-in LiPo charger included UartSB programming compatible This is the SeeedStudio Seeeduino Film Flexible Arduino Compatible Microcontroller. It is an Arduino compatible development platform for space-sensitive projects. It's flexible, super slim, with built-in LiPo charger, suitable to build wearable applications. Film and other extension frames could be simply connected via the 20p universal bus like a chain, native 2.54mm pitch pins also enables quick prototyping. Features: Arduino compatible Flexible Ultra small/slim form factor Transform by cutting and chaining Full functional Atmega168 0.1 pitch pad breakout 20pin daisy-chain flex bus UartSB programming compatible Built-in charger circuit Reinforced to increase endurance Supplier code : ARD129D2P
|
seeedstudio-seeeduino-film.jpg
|
|
SeeedStudio Stalker (Atmega 328)
|
Arduino compatible, based on Seeeduino Easy stackable I2C pin header Dual voltage (5V/3.3V) I2C hub Serial interface with DTR for auto reset during programming The SeeedStudio Stalker (Atmega 328) is an extensive Wireless Sensor Network node, with native data logging features and considered modular structure. Supplier code : ARD126D1P
|
seeedstudio-stalker-atmega-328.jpg
|
|
SeeedStudio Stalker - Sensor Network Node (Atmega 328)
|
Arduino compatible, based on Seeeduino Operation temperature: -40ºC to +85ºC I2C Digital Temperature Sensor Power input reverse polarity protection diode The SeeedStudio Stalker - Sensor Network Node (Atmega 328) is an extensive wireless sensor network node, with native data logging features and considered modular structure. It could be conveniently used as sensor hub or integrated data collector for monitoring, tracking and etc. Features: Full on board Real Time Clock (RTC) functionality RX8025 with internal crystal oscillator Micro SD card socket Self isolating I2C when powered off Bee series socket (2*10 pin 2.0mm pitch, same as Xbee) ISP socket Input voltage range: 4.6V-6V User defined button and LED Serial interface with DTR for auto reset during programming Supplier code : ARD104D2P
|
seeedstudio-stalker-sensor-network-node.jpg
|