1
Yes
None
1
1000000
Name...
/hardware-library/
Thumbnail
STM32F303 Nucleo Boards
STM32F303 Nucleo Boards Image

The STM32 Nucleo board provides an affordable and flexible way for users to try out new concepts and build prototypes with the STM32 microcontroller, choosing from the various combinations of performance, power consumption and features. For the compatible boards, the SMPS significantly reduces power consumption in Run mode.

The Arduino™ Uno V3 connectivity support and the ST morpho headers allow the easy expansion of the functionality of the STM32 Nucleo open development platform with a wide choice of specialized shields.

The STM32 Nucleo board does not require any separate probe as it integrates the ST-LINK/V2-1 debugger and programmer.

The STM32 Nucleo board comes with the STM32 comprehensive software HAL library together with various packaged software examples, as well as direct access to the Arm® Mbed online resources at http://mbed.org.

Key Features

  • STM32 microcontroller in LQFP64 package
  • External SMPS to generate Vcore logic supply (only available on ‘-P’ suffixed boards)
  • 1 user LED shared with Arduino™
  • 1 user and 1 reset push-buttons
  • 32.768 kHz LSE crystal oscillator
  • Board expansion connectors:
    • Arduino Uno V3
    • ST morpho extension pin headers for full access to all STM32 I/Os
    • External SMPS experimentation dedicated connector (only available on ‘-P’ suffixed boards)
  • Flexible power-supply options: ST-LINK USB VBUS or external sources
  • On-board ST-LINK/V2-1 debugger/programmer with USB re-enumeration capability. Three different interfaces supported on USB: mass storage, virtual COM port and debug port
  • Comprehensive free software libraries and examples available with the STM32Cube MCU Package
  • Support of a wide choice of Integrated Development Environments (IDEs) including IAR , Keil® , GCC-based IDEs, Arm® Mbed
  • Arm® Mbed Enabled compliant (only for some Nucleo part numbers)

CC3200 LaunchPad development kit
CC3200 LaunchPad development kit Image
Description

The SimpleLink™ Wi-Fi® CC3200 LaunchPad™ development kit (with QFN-packaged device) is an evaluation development platform for the CC3200 wireless microcontroller (MCU), the industry’s first single-chip programmable MCU with built-in Wi-Fi connectivity. The board features on-board emulation using FTDI and includes sensors for a full out-of-the-box experience. This board can be directly connected to a PC for use with development tools such as Code Composer Studio™ Cloud integrated development environment (IDE) and IAR Embedded Workbench. Visit dev.ti.com and get started with your SimpleLink Wi-Fi CC3200 LaunchPad kit today.

This LaunchPad has driver support and a software development kit (SDK) with 40+ applications for Wi-Fi protocols, Internet applications and MCU peripheral examples. Download the latest SDK and firmware here.

CC3200 is supported in v7.20 of IAR. There is a free (limited time license) evaluation version available here.

For additional information about CC3200, visit http://www.ti.com/simplelinkwifi.

Features
  • CC3200 Wi-Fi wireless microcontroller (MCU) in QFN package
  • Industry’s first devices to be Wi-Fi CERTIFIED™ at the chip level by the Wi-Fi Alliance™
  • USB interface to PC for CCS/IAR using FTDI USB drivers
  • Flash update over the USB using SimpleLink Programmer
  • 2 20-pin connectors enables compatibility with BoosterPacks with added functions (BoosterPack headers)
  • Standalone development platform featuring sensors, LEDs and push-buttons
  • Power from USB for the LaunchPad as well as external BoosterPack
  • Operates from 2 AA alkaline batteries
  • On-board antenna and U.FL connector selectable using a capacitor re-work
  • Supports 4 wire JTAG and 2 Wire SWD
  • GNU Debugger (GDB) support over Open On chip debugger (OpenOCD)

 

Alphabot2 Robot Building Kit For Arduino
Alphabot2 Robot Building Kit For Arduino Image

AlphaBot2 robot kit is designed to use with an Arduino compatible controller (not included). It features rich common robot functions including line tracking, obstacle avoiding, ultrasonic ranging, infrared remote control, Bluetooth communication, etc.

AlphaBot2 Features:

AlphaBot2 employs a 2-layer structure to provide excellent stability and compatibility.

AlphaBot2-Base, the lower base chassis:

  • 5 channel infrared sensor, analog output, combined with PID algorithm, stable line tracking
  • Onboard modules like line tracking, obstacle avoiding, needs no messy wiring
  • TB6612FNG dual H-bridge motor driver, compared with L298P, it’s more efficient, more compact, and less heating
  • N20 micro gear motor, with metal gears, low noise, high accuracy
  • Onboard RGB LEDs, true color lighting, pretty cool

AlphaBot2-Ar, the upper adapter board for controller:

  • Onboard Arduino interface, into which Arduino controller can be directly plugged
  • 0.96inch 128×64 yellow/blue dual color OLED
  • TLC1543 AD acquisition chip
  • PC8574 I/O expander, avoid I/O shortage
  • Xbee connector, for connecting dual-mode Bluetooth module
STM32F4DISCOVERY Development Board
STM32F4DISCOVERY Development Board Image

The STM32F4DISCOVERY kit leverages the capabilities of the STM32F407 high performance microcontrollers, to allow users to easily develop applications featuring audio.

It includes an ST-LINK embedded debug tool, one ST-MEMS digital accelerometer, a digital microphone, one audio DAC with integrated class D speaker driver, LEDs, push-buttons and an USB OTG micro-AB connector.

To expand the functionality of the STM32F4DISCOVERY kit with ethernet connectivity, LCD display and more, visit the www.st.com/stm32f4dis-expansion webpage.

With the latest board enhancement, the new order code STM32F407G-DISC1 has replaced the old reference STM32F4DISCOVERY.

Key Features

  • STM32F407VGT6 microcontroller featuring 32-bit ARM® Cortex® -M4 with FPU core, 1-Mbyte Flash memory, 192-Kbyte RAM in an LQFP100 package
  • On-board ST-LINK/V2 on STM32F4DISCOVERY (old reference) or ST-LINK/V2-A on STM32F407G-DISC1 (new order code)
  • USB ST-LINK with re-enumeration capability and three different interfaces:
    • Debug port
    • Virtual Com port (with new order code only)
    • Mass storage (with new order code only)
  • Board power supply: through USB bus or from an external 5 V supply voltage
  • External application power supply: 3 V and 5 V
  • LIS302DL or LIS3DSH ST MEMS 3-axis accelerometer
  • MP45DT02 ST-MEMS audio sensor omni-directional digital microphone
  • CS43L22 audio DAC with integrated class D speaker driver
  • Eight LEDs:
    • LD1 (red/green) for USB communication
    • LD2 (red) for 3.3 V power on
    • Four user LEDs, LD3 (orange), LD4 (green), LD5 (red) and LD6 (blue)
    • 2 USB OTG LEDs LD7 (green) VBUS and LD8 (red) over-current
  • Two push-buttons (user and reset)
  • USB OTG FS with micro-AB connector
  • Extension header for all LQFP100 I/Os for quick connection to prototyping board and easy probing
  • Comprehensive free software including a variety of examples, part of STM32CubeF4 package or STSW-STM32068 to use legacy standard libraries.
DE0-Nano Development and Education Board FPGA
DE0-Nano Development and Education Board FPGA Image

The DE0-Nano board introduces a compact-sized FPGA development platform suited for prototyping circuit designs such as robots and “portable” projects. The board is designed to be used in the simplest possible implementation targeting the Cyclone IV device up to 22,320 LEs.

The DE0-Nano has a collection of interfaces including two external GPIO headers to extend designs beyond the DE0-Nano board, on-board memory devices including SDRAM and EEPROM for larger data storage and frame buffering, as well as general user peripheral with LEDs and push-buttons.

The advantages of the DE0-Nano board include its size and weight, as well as its ability to be reconfigured without carrying superfluous hardware, setting itself apart from other general purpose development boards. In addition, for mobile designs where portable power is crucial, the DE0-Nano provides designers with three power scheme options including a USB mini-AB port, 2-pin external power header and two DC 5V pins.

STM32 BluePill
STM32 BluePill Image

The F103C8 ST microcontroller is declared to have 64 KB of flash, but virtually all the C8 microcontrollers tested have 128 KB of flash instead.

At least one exception was reported in the forum, so it is not guaranteed.

The STM32duino core have two uploading board settings, one for 64 KB and one for 128 KB. Also the integrated serial bootloader communicates at startup that are present 128 KB of flash.

Features:

  • ARM Cortex M3
  • 72 MHz
  • 64 KB/128 KB Flash
  • 20 KB RAM
  • Reset button
  • LED on PIN PC13
  • 32 kHz Real time clock crystal
  • Jump links on Boot0 and Boot1
  • Micro USB connector for power and data
  • ST-Link header on the top of the board.
STM32F429IDISCOVERY Development Board
STM32F429IDISCOVERY Development Board Image

The 32F429IDISCOVERY kit leverages the capabilities of the STM32F429 high-performance microcontrollers, to allow users to easily develop rich applications with advanced Graphic User interfaces.

With the latest board enhancement, the new STM32F429I-DISC1 order code has replaced the old STM32F429I-DISCO order code.

Key Features

  • STM32F429ZIT6 microcontroller featuring 2 Mbytes of Flash memory, 256 Kbytes of RAM in an LQFP144 package
  • On-board ST-LINK/V2 on STM32F429I-DISCO (old order code) or ST-LINK/V2-B on STM32F429I-DISC1 (new order code)
  • mbed -enabled (see http://mbed.org) with the new order code only
  • USB functions:
    • Debug port
    • Virtual COM port (with new order code only)
    • Mass storage (with new order code only)
  • Board power supply: through the USB bus or from an external 3 V or 5 V supply voltage
  • 2.4″ QVGA TFT LCD
  • 64-Mbit SDRAM
  • L3GD20, ST-MEMS motion sensor 3-axis digital output gyroscope
  • Six LEDs:
    • LD1 (red/green) for USB communication
    • LD2 (red) for 3.3 V power-on
    • Two user LEDs: LD3 (green), LD4 (red)
    • Two USB OTG LEDs: LD5 (green) VBUS and LD6 (red) OC (over-current)
  • Two push-buttons (user and reset)
  • USB OTG with micro-AB connector
  • Extension header for LQFP144 I/Os for a quick connection to the prototyping board and an easy probing
  • Comprehensive free software including a variety of examples, part of STM32CubeF4 package or STSW-STM32138, for using legacy standard libraries
NRF52-DK Nordic-Semiconductor
NRF52-DK Nordic-Semiconductor Image

A single kit solution for Bluetooth® Smart, ANT and 2.4GHz proprietary applications, NRF52-DK is a  32 bit ARM Cortex M4F based multiprotocol single board solution from Nordic semiconductor ASA giving room for many ULP wireless application.

NRF52 is equipped with best in class radio transceiver along with 512kB flash and 64kB RAM which provides key support for the development of the nRF52832 SoC and supporting  3rd – part shield compatibility for the Arduino UNO Rev 3 boards. To facilitate the development solution, the kit uses Keil, IAR and GCC as a Nordic tool chain and Standard tool chain (Program/Debug) by the Segger J-Link OB.

The board has fully programmable access to all 32 GPIOs, digital I/O, interfaces and connector with on-board 4 LEDs and Buttons. Along with an integrated PCB antenna, a special connectors & pins are provided for external NFC antenna, RF measurement and on-board unit’s power consumption measurement.The NRF52-DK board is an ideal for development of applications related to IoT, wireless interactive applications.

See Also: Related Info, Datasheet

Frequency 2.4GHz
Microcontroller 32 bit ARM Cortex
Flash Memory 512kb
RAM 64 kb
On-air data rate 1 or 2 Mbps
PPI 20 channels
GPIO 32
Digital I/O 3xHardwareSPI master, 3xHardwareSPI slave,2×2-wire master,
2×2-wireslave,UART,Quadrature demodulator
Peripherals 12-bit/200KSPS ADC, RNG, Temperature sensor
Hardware Security 128-bit AES ECB/CCM/AAR co-processor
Package options RoHS compliant 48-pin 6×6 QFN /3.0×3.2 Ultra-compact Wafer Level Chip Scale Package(WLCSP)
Applications IoT –Home automation, Sensor networks, Building automation.
Personal Area Networks-Health/fitness sensor and monitor devices, medical devices, Key-fobs+ wrist watches.
Interactive entertainment devices – Remote control, Gaming controller, Beacons, A4WP wireless chargers and devices.
Remote  control toys, Computer peripherals and I/O devices- Mouse -Keyboard-Multi-touch trackpad.
RedBearLab BLE Nano Kit v2 - nRF52832
RedBearLab BLE Nano Kit v2 - nRF52832 Image

BLE Nano v2 from RedBearLab is the smallest Bluetooth 4.2/5.0 Low Energy (BLE) development board on the market. With the included DAPLink USB in this kit, will able to deploy firmware to BLE Nano v2 even easier. At each BLE Nano’s core is a NordicnRF52832, an ARM Cortex-M4F System on Chip (SoC), plus BLE capable of running at 64MHz with ultra low power consumption. The RedBearLab BLE Nano also supports numerous different wireless devices running iOS 7/8, Android 4.3 or higher, and Windows Phone 8.1.The DAPLink board functions as a USB dongle, accepting 5V from the USB port and regulating it to 3.3V via the onboard LDO, which can be used to power RedBearLab BLE Nano v2. When plugged into the computer, the USB board will appear as both a serial port and a removable mass storage disk.

Developing a Bluetooth Smart-enabled ‘appcessory’ (accessory device + companion application) is easier than ever. This can be used to produce prototypes and demos targeted for Internet of Things (IoT) and other interesting projects. The RedBearLab BLE Nano v2 can operate under 1.8V to 3.6V, making it able to work in conjunction with a wide variety of electronic components. Since the RedBearLab BLE Nano v2 can work as low as 1.8V, the DAPLink USB board has been designed to run at 1.8V as well.

Features of RedBearLab BLE Nano Kit v2 – nRF52832

  • Smallest BLE development board, only 18.5mm x 21.0mm
  • Nordic nRF52832 ARM Cortex-M4F SoC (32-bit, @64MHz)
  • 2.4 GHz transceiver
  • Ultra low power consumption
  • Bluetooth BLE 4.2 Certified & 5.0 Ready
  • 64kb SRAM
  • 512kb Flash
  • Easy firmware deployment with the DAPLink USB board

Package includes:

  • 1x RedBearLab BLE Nano v2
  • 1x DAPLink USB Board

Development Resources:

Pluto Drone
Pluto Drone Image

Pluto is the easy-to-build DIY Nano-Drone – so robust that it survives insane crashes. It is extremely easy to fly and control using Pluto Controller App on your phone / tablet that newbies can fly it like pros in a matter of minutes. A couple of Pluto flights is the perfect start to get you hooked on to drones.

Pluto is DIY with durable body and available spares – and can hence be customized or modified easily. Pluto comes with flight controller Primus-V3R a Software Development Kit (SDK) that lets you program them easily and implement your ideas.

PocketBeagle
PocketBeagle Image

PocketBeagle board specifications:

  • SiP (System-in-Package) – Octavo Systems OSD3358-SM with
    • TI Sitara AM3358 ARM Cortex-A8 processor @ up to 1 GHz,  PowerVR SGX530 GPU, 2x PRU, ARM Cortex-M3 for power and security management functions
    • 512MB DDR3 800 MHz
    • 4kB I2C EEPROM
    • TPS65217 PMIC + LDO with integrated 1-cell LiPo battery support
  • Storage – micro SD slot
  • USB – 1x micro USB 2.0 OTG port
  • Expansion – 2x 36-pin headers (unpopulated) with USB 2.0 OTG, 8x analog inputs, 44x digital GPIOs, 3x UARTs, 2x I2C, 2x SPI, 4x PWM, 2x quadrature encoder inputs, 2x CAN bus, 23x programmable PRU I/O pins, 3x voltage inputs for battery, USB, power line, 2x voltage output (3.3V LDO + 1x voltage input)
  • Misc – Power button
  • Power Supply – 5V via micro USB port; via expansion headers for LiPo battery, VIN, or USB-VIN
  • Dimensions – 56mm x 35mm x 5mm
Raspberry Pi 3 Model B
Raspberry Pi 3 Model B Image

Single-board computer with wireless LAN and Bluetooth connectivity.

The Raspberry Pi 3 is the third-generation Raspberry Pi. It replaced the Raspberry Pi 2 Model B in February 2016.

  • Quad Core 1.2GHz Broadcom BCM2837 64bit CPU
  • 1GB RAM
  • BCM43438 wireless LAN and Bluetooth Low Energy (BLE) on board
  • 40-pin extended GPIO
  • 4 USB 2 ports
  • 4 Pole stereo output and composite video port
  • Full size HDMI
  • CSI camera port for connecting a Raspberry Pi camera
  • DSI display port for connecting a Raspberry Pi touchscreen display
  • Micro SD port for loading your operating system and storing data
  • Upgraded switched Micro USB power source up to 2.5A
SimpleLink MSP432P401R LaunchPad Development Kit
SimpleLink MSP432P401R LaunchPad Development Kit Image
Description

The SimpleLink™ MSP432P401R LaunchPad™ development kit enables you to develop high-performance applications that benefit from low-power operation. It features the MSP432P401R – which includes a 48MHz ARM® Cortex®-M4F, 80uA/MHz active power and 660nA RTC operation, SAR Precision ADC with 16-bit performance and AES256 accelerator.

All pins of the MSP-EXP432P401R device are fanned out for easy access. These pins make it easy to plug in 20-pin and 40-pin BoosterPack™ modules that add additional functionality including Bluetooth® low energy, Wi-Fi® wireless connectivity, and more.

The out-of-box provided with the MSP-EXP432P401R LaunchPad kit features a graphical user-interface that enables the user to type in the desired beats per minute of an RGB LED, and select from over 16 million color options. See how simple it is to get started, with the MSP432 Quick Start Guide.

You can browse all documentation online with TI Resource Explorer and start development with SimpleLink MSP432 software development kit (SDK) and related SDK plugins, which make it easy to add Bluetooth low energy or Wi-Fi when adding a SimpleLink wireless BoosterPack. Other professional development environments are also available, such as TI’s online CCS Cloud IDE, Eclipse-based Code Composer Studio, IAR Embedded Workbench, and Keil uVision.

This LaunchPad kit includes an on-board emulator with EnergyTrace+ Technology, which means you can program and debug your projects without the need for additional tools, while also measuring total system energy consumption.

More information about the LaunchPad, as well as supported BoosterPacks, can be found at the TI LaunchPad website.

Features
  • Low-power, high performance MSP432P401R MCU
    • 48MHz 32-bit ARM Cortex M4F with Floating Point Unit and DSP acceleration
    • Power consumption: 80uA/MHz active and 660nA RTC standby operation
    • Digital: Advanced Encryption Standard (AES256) Accelerator, CRC, DMA, HW MPY32
    • Memory: 256KB Flash, 64KB RAM
    • Timers: 4 x16-bit, and 2 x 32-bit
    • Communication: Up to 4 I2C, 8 SPI, 4 UART
  • 40 pin BoosterPack Connector, and support for 20 pin BoosterPacks
  • Onboard XDS-110ET emulator featuring EnergyTrace+ Technology
  • 2 buttons and 2 LEDs for User Interaction
  • Back-channel UART via USB to PC
MSP430F5529 USB LaunchPad Evaluation Kit
MSP430F5529 USB LaunchPad Evaluation Kit Image

Develop low power, PC-connected applications with integrated Full-speed USB 2.0 (HID/MSC/CDC).  The MSP-EXP430F5529LP LaunchPad is an inexpensive, simple microcontroller development kit for the MSP430F5529 USB microcontroller. It’s an easy way to start developing on the MSP430 MCU, with an on-board emulation for programming and debugging, as well as buttons and LEDs for simple user interface.

Rapid prototyping is a snap, thanks to 40-pin BoosterPack expansion headers, as well as a wide range of available BoosterPack plug-in development board modules. You can quickly add features like wireless, displays, sensors, and much more. You can either design your own BoosterPack, or choose among many already available from TI and elsewhere. The 40-pin interface is compatible with any 20-pin BoosterPack that is compliant with the standard.

The MSP-EXP430F5529LP LaunchPad includes the MSP430F5529 16-bit MCU with 128KB Flash, 8KB RAM, up to 25MHz CPU speed, integrated USB 2.0 PHY, 12-bit analog-to-digital converter (ADC), timers, serial communication (UART, I2C, SPI) and more!

You can browse all documentation online with TI Resource Explorer and start development with the online CCS Cloud IDE. Other professional development environments are also available, such as TI’s Eclipse-based Code Composer Studio and IAR Embedded Workbench.

More information about the LaunchPad, as well as supported BoosterPacks, can be found at the TI LaunchPad website.

Features
  • USB 2.0-enabled MSP430F5529 16-bit MCU
  • Up to 25 MHz
  • 128KB Flash and 8KB RAM
  • 12 Bit SAR ADC
  • Various USB device class examples and embedded software libraries available (CDC, HID, MSC)
  • eZ-FET lite: Open source onboard debugger with application UART
  • One USB connection for emulator and target via the use of an onboard USB hub
  • USB as power source: 5V and 3.3V through a high efficiency DC/DC converter
  • 40 pin LaunchPad standard leveraging the BoosterPack ecosystem
Nodemcu32 Esp32 Wireless Module
Nodemcu32 Esp32 Wireless Module Image

ESP32 is a highly-integrated solution for Wi-Fi and Bluetooth IoT application. It is a Xtensa 32-bit LX6 microprocessor(s) upto 240 MHZ clock frequency.It implements TCP/IP and full 802.11 b/g/n WLAN MAC protocol.It integrates a Bluetooth link controller and Bluetooth baseband, which carry out the baseband protocols and other low-level link routines,such as modulation/demodulation, packets processing, bit stream processing,frequency hopping, etc.

Features of Nodemcu32 Esp32 Wireless Module

  • Compliant with Bluetooth v4.2 BR/EDR and BLE specification
  • Class-1, class-2 and class-3 transmitter without external power amplifier
  • Frequncy range: 2.4 GHZ ~ 2.5 GHZ
  • 520 kB (8 kB RTC FAST Memory included) of on-chip SRAM for data and instructions.
  • Integrated 802.11 b/g/n WIFI transceiver
  • 2.2 to 3.6V operating range
  • OPerating current : 80mA
  • Operating temperature range: -40°C ~ +80°C
Pi Zero W
Pi Zero W Image

This is the slimmest, most pared down Raspberry Pi to date. It’s kind of like the little cousin to the Pi 3 – with just a micro SD card slot, a mini HDMI port, two micro USB ports (one for power, one for USB), and 512MB of RAM. It has a single-core 1 GHz processor chip, similar to the Pi A+ and B+.

The best part about all this is that the Pi Zero W keeps the same shape, connectors, and mounting holes as the Pi Zero v1.3. 99% of cases and accessories will still be fully compatible with both the Pi Zero W and v1.3 – though if you have a case with a metal top there might be some WiFi chip difficulties.

STM32F303 Nucleo Boards Image
STM32F303 Nucleo Boards
The STM32 Nucleo board provides an affordable and flexible way for users to try out new concepts and build prototypes with the STM32 microcontroller, choosing from the various combinations of perfor... Read More
CC3200 LaunchPad development kit Image
CC3200 LaunchPad development kit
Description The SimpleLink™ Wi-Fi® CC3200 LaunchPad™ development kit (with QFN-packaged device) is an evaluation development platform for the ... Read More
Alphabot2 Robot Building Kit For Arduino Image
Alphabot2 Robot Building Kit For Arduino
AlphaBot2 robot kit is designed to use with an Arduino compatible controller (not included). It features rich common robot functions including line tracking, obstacle avoiding, ultrasonic ranging, infrare... Read More
STM32F4DISCOVERY Development Board Image
STM32F4DISCOVERY Development Board
The STM32F4DISCOVERY kit leverages the capabilities of the STM32F407 high performance microcontrollers, to allow users to easily develop applications featuring audio. It includes an ST-LINK e... Read More
DE0-Nano Development and Education Board FPGA Image
DE0-Nano Development and Education Board FPGA
The DE0-Nano board introduces a compact-sized FPGA development platform suited for prototyping circuit designs such as robots and “portable” projects. The board is designed to be used in the simplest possible implementation t... Read More
STM32 BluePill Image
STM32 BluePill
The F103C8 ST microcontroller is declared to have 64 KB of flash, but virtually all the C8 microcontrollers tested have 128 KB of flash instead. At least one exception was reported in the forum, so it is not guaranteed. T... Read More
STM32F429IDISCOVERY Development Board Image
STM32F429IDISCOVERY Development Board
The 32F429IDISCOVERY kit leverages the capabilities of the STM32F429 high-performance microcontrollers, to allow users to easily develop rich applications with advanced Graphic User interfaces. ... Read More
NRF52-DK Nordic-Semiconductor Image
NRF52-DK Nordic-Semiconductor
A single kit solution for Bluetooth® Smart, ANT and 2.4GHz proprietary applications, NRF52-DK is a  32 bit ARM Cortex M4F based multiprotocol single board solution from Nordic semiconductor ASA giving room for many ULP wireless applica... Read More
RedBearLab BLE Nano Kit v2 - nRF52832 Image
RedBearLab BLE Nano Kit v2 - nRF52832
BLE Nano v2 from RedBearLab is the smallest Bluetooth 4.2/5.0 Low Energy (BLE) development board on the market. With the included DAPLink USB in this kit, will able to deploy firmware to BLE Nano v2 even ... Read More
Pluto Drone Image
Pluto Drone
Pluto is the easy-to-build DIY Nano-Drone – so robust that it survives insane crashes. It is extremely easy to fly and control... Read More
PocketBeagle Image
PocketBeagle
PocketBeagle board specifications: SiP (System-in-Package) – Octavo Systems OSD3358-SM with TI Sitara AM3358 ARM Cortex-A8 processor @ up to 1 GHz,  PowerVR SGX530 GPU, 2x... Read More
Raspberry Pi 3 Model B Image
Raspberry Pi 3 Model B
Single-board computer with wireless LAN and Bluetooth connectivity. ... Read More
SimpleLink MSP432P401R LaunchPad Development Kit Image
SimpleLink MSP432P401R LaunchPad Development Kit
Description The SimpleLink™ MSP432P401R LaunchPad™ development kit enables you to develop high-performance applications that benefit from low-power operation. It feature... Read More
MSP430F5529 USB LaunchPad Evaluation Kit Image
MSP430F5529 USB LaunchPad Evaluation Kit
Develop low power, PC-connected applications with integrated Full-speed USB 2.0 (HID/MSC/CDC).  The MSP-EXP430F5529LP LaunchPad is an inexpensive, simple microcontroller development kit for the MSP430F5529 USB mic... Read More
Nodemcu32 Esp32 Wireless Module Image
Nodemcu32 Esp32 Wireless Module
ESP32 is a highly-integrated solution for Wi-Fi and Bluetooth IoT application. It is a Xtensa 32-bit LX6 microprocessor(s) upto 240 MHZ clock frequency.It implements TCP/IP and full 802.11 b/g/n WLAN MAC protocol.It integ... Read More
Pi Zero W Image
Pi Zero W
This is the slimmest, most pared down Raspberry Pi to date. It’s kind of like the little cousin to the Pi 3 – with just a micro SD card slot, a mini HDMI port, two micro USB ports (one for power, one for USB), and 512MB of RA... Read More