| Major Items in the Laboratory |
| Name of the Item |
Item Description |
Number |
| Raspberry Pi 3.0 |
Raspberry Pi is a low-cost, basic computer that was originally intended to help spur interest in computing. It consists of Quad Cortex A53 @1.5 GHz CPU,HDMI, USB 2.0, Composite video, Analog audio, SD Card |
4 |
| Arduino UNO |
Arduino Uno is a microcontroller board 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 ceramic resonator, a USB connection, a power jack, an ICSP header, and a reset button. |
2 |
| Node MCU |
NodeMCU is an open source IoT platform. It includes firmware which runs on the ESP8266 Wi-Fi SoC from Espressif Systems, and hardware which is based on the ESP-12 module. |
4 |
| ESP Module |
The ESP8266 is a low-cost Wi-Fi microchip |
1 |
| Sensors |
IR Sensor (4 Nos) - Electronic instrument used to sense certain characteristics of its surroundings by either emitting and/or detecting infrared radiation.
Ultrasonic Sensor (3 Nos) - Ultrasonic sensor is a device that can measure the distance to an object by using sound waves. It measures distance by sending out a sound wave at a specific frequency and listening for that sound wave to bounce back.
Gas Sensor (1 No) - A gas sensor is a device that detects the presence of gases in an area.
Temperature & Humidity sensor (4 Nos) - DHT22 is a basic, low-cost digital temperature and humidity sensor. It uses a capacitive humidity sensor and a thermistor to measure the surrounding air, and spits out a digital signal on the data pin.
|
12 |
| Miscellaneous |
Resistor Box-Contains resistors of different resistance values. Micro SD Card (16Gb) (4 Nos), LED (40 Nos), M/F Connectors (40) |
- |
| Udoo Neo Board |
Neo IoT Platform, Udoo Neo Full Board, UDOO NEO is an Arduino-powered Android / Linux single board computer enriched with 9-axis motion sensors, Bluetooth 4.0 and a Wi-Fi module. The unique feature of UDOO NEO is its heterogeneous processor, based on two cores embedded on the very same chip. It has a powerful 1GHz ARM® Cortex-A9 and an Arduino UNO-compatible platform that clocks at 200 MHz, based on a Cortex-M4 I/O real-time co-processor, all wrapped into an i.MX 6SoloX processor by NXP. UDOO NEO can be used in many ways. First of all as a low power computer attached to a screen, a mouse and a keyboard. In a second place it can be used as a ARM development board as well as a ATMEL development board. This is the context where the board shines the most, ensuring compatibility You can make the most out of it if you build a drone, a robot, a rover, a 3D printer, a home automation service, an autonomous system. Finally, it can be exploited as an embedded board, i.e. a board designed to work within an embedded context. Features of the board include: NXP™ i.MX 6SoloX applications processor with an embedded ARM Cortex-A9 core and a Cortex-M4 Core, Integrated 2d/3d graphics controller, RAM 1GB, Micro HDMI interface - LVDS interface + touch (I2C signals), Analog camera connection supporting NTSC and PAL - 8-bit parallel camera interface, MicroSD card slot onboard - 8-bit SDIO interface, HDMI audio transmitter - S/PIDF & I2S, 1x USB 2.0 Type A ports - 1x USB OTG (micro-AB connector), Fast ethernet RJ45 – 10/100Mbps - Wi-Fi 802.11 b/g/direct Mode SmartConfig and Bluetooth 4.0 Low Energy, 3x UART ports - 2x CAN Bus interfaces, 8x PWM signals - 3x I2C interface - 1x SPI interface - 6x multiplexable signals, Power Supply: 5 V DC Micro USB, 6-15 V DC Power Jack, RTC Battery Connector, Green Power Status LED - User Configurable LEDs (Red and Orange), Integrated Sensors: 3-Axis Accelerometer - 3-Axis Magnetometer - 3-Axis Digital Gyroscope - 1x Sensor Snap-In I2C connector, Arduino-Compatible through the standard Arduino Pins layout and compatible with Arduino shields, 32 extended GPIOs (A9 dedicated) - 22 Arduino GPIOs (M4 dedicated), 6 available Pins, Android Lollipop & Linux UDOObuntu2 (14.04 LTS) |
1 |
Libelium IoT Evaluator Kit
WEVA Kit |
The purpose of the kit is to compare different radio technologies and to create customized demos. The Kit includes various communication modules, sensor boards, sensors and accessories as given below: Communication: Waspmote 802.15.4 5 dBi 4 Numbers; Waspmote Gateway 802.15.4 5 dBi 1 Number; GPRS + GPS Module 1; 4G Module 1 Number; Bluetooth Module PRO 5 dBi 1 Number; Waspmote RFID/NFC 13.56 MHz 1 Number; 13.56 MHz / NFC stickers (5 pack) 1 Number; Wi-Fi module on-chip 1 Number; Meshlium 4G 802.15.4 AP. Sensor Boards: Gases Board 2 Numbers; Events Board 2 Numbers; Smart Cities PRO Board 1 Number; Agriculture PRO Board 1 Number; Prototyping Board 1 Number; Expansion Radio Board Module 2 Numbers. Sensors: Temperature, humidity and pressure sensor 4 Numbers; CO sensor 1 Number; CO2 sensor 1 Number; Air pollutants I sensor 1 Number; NO2 sensor 1 Number; Presence sensor (PIR) 1 Number; Luminosity (Luxes accuracy) sensor 1 Number; Ultrasound sensor (indoor) 1 Number; Soil / Water temperature sensor 1 Number; Soil moisture sensor 1 Number; Solar radiation sensor 1 Number; Weather Station WS-3000 (anemometer + wind vane + pluviometer) 1 Number. Accessories: Rigid Solar Panel 7V – 500mA 2 Numbers; 6600 mAh rechargeable battery 4 Numbers; MicroSD 2GB card pack (5 units) 1 Number. Basic Training Course and Technical Consultancy are included. |
1 |
Libelium
Communication Modules, Sensor Boards, Sensors, etc. |
Libelium Modules & Sensors
i. Communication: a) Meshlium 4G 802.15.4 AP EU (M4G-802-EU); b) Expansion Radio Board (2 Nos); c) GSM/GPRS Module – WGPRS; Waspmote ZigBee 5dBi WZBP-SMA5 (2 Nos); d) XBee 802.15.4.5 dBi EU – X802P-SMAS-EU; e) XBee ZigBee 5 dBi – XZBP-SMA5; f) Waspmote Gateway ZigBee 5dBi – WGZBP-SMA5;
ii. Sensor Boards: a) Gases Pro – WGASPRO; b) Smart Water - WWATER;
iii. Sensors: a) Liquified petroleum gases (h2, CH, ethanol & isobutane) – 9234; b) distance – 9267; c) water flow small – 9296; d) water flow medium – 9297; e) water flow large – 9298; f) Leaf Wetness – 9249; g) horizontal liquid level (water) – 9240; h) vertical liquid level (water) - 9242; i) hall effect – 9207;
iv. Power: a) international adapter – 10280 (4 Nos). |
1 |
Libelium
Waspmote Mote Runner |
Waspmote Mote Runner |
Waspmote Mote Runner is an IPv6 development platform for sensor networks and the Internet of Things (IoT) . The department has already procured Waspmote Weva Kit and other hardware from Libelium as described above, which can be extended further for 6LowPAN experimentation by the purchase of the Waspmote Mote Runner modules. |
6 |
| 6LoWPAN Radio Modules (2.4 GHz) - Chipset: AT86RF231 Frequency: 2.4GHz Link Protocol: IEEE 802.15.4 Usage: Worldwide Sensitivity: -101dBm Output Power: 3dBm Encryption: AES 128b |
8 |
| Waspmote Mote Runner Gateway |
2 |
| Ethernet Module (GW) - Chipset: W5100 Protocol: Ethernet IPv4 Physical: 100BASE-TX Services: TCP/IP, UDP/IP / ICMP Internal Buffer: 16KB |
2 |
| AVR Programmer Hardware |
1 |
Texas Instruments
Boards, Sub GHz Extension Board, Gateway to Wi-Fi Access Point and Sensor Board |
Nucleo-F401RE Boards - (Minimum 2 Required) @14$ STM32 Nucleo-64 development board with STM32F401RE MCU, supports Arduino and ST morpho connectivity |
As sub-gigahertz wireless protocols become ever more popular, and companies like Wi6Labs come up with products compatible with many of these standards, setting up a 6LoWPAN network is a great way to begin a project or prototype that aims to take advantage of this new trend.
A minimum of Two Nucleo-F401RE boards, which will serve as the base for the node and gateway, two X-Nucleo IDS01A5, which are sub-gigahertz expansion boards, then one X-Nucleo IDW01M1 board to connect the gateway to a Wi-Fi access point, and the X-Nucleo IKS01A2, which contains multiple sensors are required to setup a basic system. |
6 |
| X-Nucleo IDSO1AS - (Minimum 2 Required) @16$ Sub-1 GHz RF expansion board based on the SPSGRF-915 module for STM32 Nucleo |
6 |
| X-Nucleo IDW01M1 - (Minimum 1 Required) @24$ Wi-Fi expansion board based on SPWF01SA module for STM32 Nucleo |
2 |
| X-Nucleo IKSO1A2 - (Minimum 1 Required) @20$ Motion MEMS and environmental sensor expansion board for STM32 Nucleo |
2 |
Zolertia
The Zoul Modules |
RE-MOTE SUITE - (Minimum 5 @ 99,46 Euro) Lightweight and powerful Internet of Things hardware development platform to enable any idea to be connected to the Internet, providing a seamless connectivity for most indoor and outdoor applications, running forever on batteries. |
The Zoul is a core module developed by Zolertia to target most Internet of Things (IoT) applications and products, providing a flexible and affordable module solution to integrate to most existing products and solutions, or ease the prototyping and production of new products in a short time. The Zoul is based on TI's CC2538 system on chip (SoC), featuring an ARM Cortex‑M3 with 512KB flash, 32Kb RAM, double RF interface, and the following goodies:
ISM 2.4‑GHz IEEE 802.15.4 & Zigbee compliant.
ISM 868‑, 915‑, 920‑, 950‑MHz ISM/SRD Band.
AES‑128/256, SHA2 Hardware Encryption Engine.
ECC‑128/256, RSA Hardware Acceleration Engine for Secure Key Exchange.
Small form‑factor of 16.78 x 30.89 mm.
Prototype friendly, to fit on most prototyping boards (breadboard, etc.).
Self‑contained and EMI‑protected module under a shield.
The Zoul will be CE/FCC certified (2016) to allow a fast integration and short time to market for new products and solutions. |
10 |
| PROFESSIONAL SENSOR PACK - (Minimum 1 Pack @ 379,95 Euro) The Professional Sensor Pack includes: 3 x Temperature & Humidity Sensor, 3 x Light Analog Sensor, 3 x Barometric Sensor, 3 x Gas Sensor, 3 x PIR Sensor, 15 x sensor cable. |
2 |
ORION ROUTER - (Minimum 1 @199,95 Euro)
Zolertia border router for 2.4 GHz and 863-950 MHz IEEE 802.15.4, 6LoWPAN, and ZigBee applications. The Orion Router is a capable IPv4/IPv6 routing device, with an Ethernet interface and dual wireless radio, powered either via micro-USB or Power Over Ethernet (POE). The device integrates the ENC28J60 ethernet module, and an external POE module, supporting up to 48VDC. |
2 |
FIREFLY - (Minimum 5 @46,58 Euro)
The Firefly is a breakout board designed to inspire, build and develop from scratch any Internet of Things application. To work out of the box, the firefly includes a PCB antenna for the Sub-1GHz interface, ceramic antenna for 2.4Ghz and 1 x u.Fl connector for sub-1GHz external antenna. The firefly can be programmed and debugged over JTAG and USB. The board has a CP2104 USB to serial converter with a PIC, it allows to program the CC2538 without having to manually to put the device in bootloader mode. |
10 |
| Openmote B Gold Kit |
Openmote B Gold Kit - (Single @89,95 Euro each, Silver Kit (5nos) @444,95, Gold Kit (10nos) @ 844,95 for 10 motes -
OpenMote B brings the capabilities to prototype novel WiSUN networks, supporting all possible RF modulations of the IEEE802.15.4g standard. The OpenMote B is the reference open hardware for the IETF 6TiSCH Working Group. |
Openmote B shall support experimentation with 6LowPAN mesha and IP based IoT networks. It includes TI CC2538 SoC (512Kb Flash 32Kb RAM), Atmel AT86RF215 SubGhz Radio (868/915Mhz), Supports all IEEE802.15.4g modulations, Simultaneous dual radio operation, Programming over BSL JTAG and OCD compliant Temperature, relative humidity sensors, User & Reset Buttons, 4 x Leds, USB Interface, 2xAA Battery placeholder, 2.4Ghz SMA Antenna and SubGhz SMA Antenna |
1 |
Creator
Ci40 IoT Kit |
Ci40 IoT Kit - (@238 USD)
The Creator Ci40 IoT kit contains
1x Creator Ci40 development board
2x MikroElektronika 6LoWPAN Clicker boards
3x MikroElektronika Click boards (Relay Click, Motion Click, Thermo3 Click)
1x Micro USB cable |
A platform to allow developers to quickly build IoT projects. The backbone of the Ci40 IoT kit is IoT communication over the 802.15.4 6LoWPAN standard - a standard which offers a great balance between power to operate, range between devices, and a data rate well suited to IoT applications is a great basis for the majority of IoT products. All of the development boards in the kit implement MikroBus sockets to allow the use of Click plug in boards to allow quick and easy customization of the hardware to add the sensors, controllers, or bridge functionality.
OpenWrt - a highly extensible GNU/Linux distribution for embedded devices. OpenWrt provides a framework to build applications without having to create a complete firmware image & distribution around it. |
2 |
VOLANSYS: NXP Partner
Modular IoT Gateway
and
MicroElectronika Click Boards |
Modular IoT Gateway Kit VT-GTWY-6UL01/ULL01-M2-M4 @449 USD
Modular IoT Gateway is an advance, smart, customizable, multi-service reference platform to design N-node IoT solution with multiple RF connectivity, control options (mobile app, voice & wearable) and leading cloud integration. It also functions as Border Router for Thread and as Zigbee® coordinator. IoT Gateway provides flexibility to design customized IoT solutions for industries ranging from commercial lighting, building automation, smart industrial applications, smart cities, oil and gas, agriculture and more. This multi-protocol platform is combined with proven SDK features like cloud platform connectivity, wireless protocols, OTA, etc., that accelerates implementation of IoT use cases. Its build-to-order components allow to build a customized solution according to functionality at optimized cost. Modular IoT Gateway is available for re-branding (white-labeling) as per OEMs and manufacturers requirements. The Kit Contains:
i.MX6UL SO-DIMM SOM with 256MB DDR3 and 1GB NAND memory
MikroBUS™ compatible KW41Z RF module
MikroBUS™ compatible JN5179 RF module
PN7120 based NFC module
Standard USB cable to connect Modular Gateway with host PC
Duct antenna for Wi-Fi Interface
AC/DC power adapter
Modular Edge Node Platform (MENP)
MikroBUS™ compatible KW41Z RF module – to interface with MENP
MikroBUS™ compatible JN5179 RF module – to interface with MENP
MikroE RGB Click module
MikroE Relay Click module
NFC Flexi-tag |
Modular IoT Gateway is a powerful, secure, customizable, multi-service reference platform with an ultra-efficient ARM® Cortex®-A7 edge computing processor based i.MX6UL/6ULL SOM, to design N-node IoT solutions using multiple RF connectivity, multiple control options (mobile app, voice & wearable) and leading cloud IoT platform integration. It acts as BLE – Wi-Fi Gateway, Thread – Wi-Fi Gateway and Zigbee® – Wi-Fi Gateway, as per solution requirements using pluggable modules such as low power VOL KW41Z for Bluetooth (BLE 4.2)/Thread (IEEE 802.15.4), NFC controller, NXP JN5169/JN5179 for Zigbee®. Its build-to-order components allows OEMs and manufacturer to design tailored IoT solutions at reduced time-to-market and optimized cost. Modular IoT Gateway is available for re-branding as per requirements.
Modular Edge Node Platform (MENP) is an advanced, powerful and multi-module (Thread, Zigbee®, BLE) RF compatible end node, with mikroBUS™ standard compliant headers. It supports various hardware modules like VOLANSYS’ KW41Z Thread/BLE Module, NXP JN5169 Zigbee® module, NXP JN5179 Zigbee® module and mikroBUS™ standard modules through the mikroBUS™ header. It can also be integrated with all MikroElektronika click boards. This ready-to-use configurable development board helps OEMs build Thread/Zigbee®/BLE enabled end device prototypes at reduced time to market. IoT end devices built with Modular Edge Node Platform can be easily connected and controlled with VOLANSYS Modular IoT Gateway to implement multiple IoT solutions for various industries. The (MENP) can use any of the Click boards from Microelectronika for sensing the required parameter. There are currently hundreds of Click boards available from microlectronika.
Connectivity: Wi-Fi, Wi-Fi Direct, ZigBee & profiles, Zwave, Bluetooth & profiles, IR, NFC
Semiconductor: NXP, Marvell, Atmel, TI, Microchip & many more
Cloud Platforms: AWS, Windows Azure, Google, ThingWorx
Web Services: RestFul service, OAuth Authorization services, and SOAP services
Databases: Cassandra, MongoDB, Raven DB, MySQL, Oracle, MS-SQL
Mobile: Android, iOS, Windows 10
Standards: OPENIoT, HomeKit, Thread, Nest, Alljoyn, Brillo & Weave
Communication & Queuing Protocols: CoAP, MQTT, RabbitMQ, ZeroMQ, OS: Linux Yocto, OpenWRT |
1 |
| Air quality 2 click MIKROE-2529 |
1 |
| Air quality 3 click MIKROE-2953 |
1 |
| Alcohol Click MIKROE-1586 |
1 |
| Cap Extend 3 click MIKROE-2883 |
1 |
| CG/EMS/GSR cable MIKROE-2861 |
1 |
| CO click MIKROE-1626 |
1 |
| Color click MIKROE-1438 |
1 |
| Earthquake Click MIKROE-2561 |
1 |
| ECG 2 Click bundle MIKROE-2508 |
1 |
| ECG 2 Click MIKROE-2507 |
1 |
| ECG Click bundle MIKROE-2458 |
1 |
| ECG Click MIKROE-2455 |
1 |
| ECG Click MIKROE-2458 |
1 |
| ECG/EMG cable MIKROE-2457 |
1 |
| ECG/EMG sensors (30pcs) MIKROE-2456 |
1 |
| EMG Click bundle MIKROE-2623 |
1 |
| EMG Click MIKROE-2621 |
1 |
| Environment Click MIKROE-2467 |
1 |
| Fever click MIKROE-2554 |
1 |
| FLAME click MIKROE-1820 |
1 |
| FM Click MIKROE-1431 |
1 |
| Heart Rate 3 click MIKROE-2036 |
1 |
| Heart Rate 7 click MIKROE-2998 |
1 |
| Heart rate click MIKROE-2000 |
1 |
| HYDROGEN click MIKROE-1629 |
1 |
| Illuminance Click MIKROE-1688 |
1 |
| Light click MIKROE-1424 |
1 |
| LPG Click MIKROE-1587 |
1 |
| METHANE click MIKROE-1628 |
1 |
| Motion Click MIKROE-1589 |
1 |
| MP3 Click MIKROE-946 |
1 |
| Noise click MIKROE-2371 |
1 |
| Ozone 2 click MIKROE-2767 |
1 |
| Pollution click MIKROE-2516 |
1 |
| RadioStation click MIKROE-2822 |
1 |
| Shake2Wake Click MIKROE-1942 |
1 |
| Smoke Click MIKROE-2560 |
1 |
| TextToSpeech click MIKROE-2253 |
1 |
| Thunder Click MIKROE-1444 |
1 |
| Tilt Click MIKROE-1834 |
1 |
| TILTnSHAKE Click MIKROE-1853 |
1 |
| Water Detect Click MIKROE-2786 |
1 |
| Weather Click MIKROE-1978 |
1 |
| 1 No |
NXP
Microcontroller Freedom Development Platform
and
Microcontroller Development Board |
FRDM-KW24D512 @194 USD
Kinetics KW2x Series Microcontroller Freedom Development Platform (2 boards per box)
Cortex-M4 core with DSP, Up to 512 KB of flash and up to
64 KB of RAM, Secure Flash, Cryptography acceleration unit with Coprocessor supports a set of specialized operations to improve throughput of encryption/decryption operations as well as message digest functions, including DES, 3DES, AES, MDA and SHA algorithms, Supports a number of 802.15.4 protocol stacks, including Thread, ZigBee,
6LowPAN, WirelessHART and ISA 100.11a, Radio handles many 802.15.4 functions in hardware to reduce the software stack size and reduce power consumption by off loading functions from the CPU, Significantly reduces power consumption and extends battery life. Low Power Preamble Search (LPPS) receiver mode. |
The Kinetis KW2x MCU integrates a class-leading 2.4 GHz RF transceiver and a robust feature set for a reliable, secure and low-power IEEE® 802.15.4 wireless solution. These wireless MCUs offer up to 512 KB of flash, 64 KB of RAM and up to 64 KB of FlexMemory. Dual PAN support allows the system to simultaneously participate in two networks concurrently, eliminating the need for multiple radio transceivers. The Thread networking protocol stack and the ZigBee® stack are seamlessly integrated into the Kinetis software development kit for rapid creation of wireless embedded systems. Several protocol stacks, tools and IDE are compatible with the Kinetis broad microcontroller portfolio. |
2 |
USB-KW24D512 @ 89.99 USD
IEEE® 802.15.4 Packet Sniffer USB Dongle Form Factor. The NXP USB-KW24D512 board is an IEEE®802.15.4 packet sniffer in a convenient USB dongle form factor for MKW24D512V. |
2 |
Silicon Labs
Thunderboard Kits |
RD-0057-0201 - Bluetooth / 802.15.1 Development Tools Thunderboard BLE Motion Sense & Cloud @29 USD
Thunderboard™ React Kit for Sensor to Cloud Connectivity
Thunderboard React makes it easy to test and prototype an IoT application. It has leading set of sensors and connects using Bluetooth® Smart to the free mobile app. The mobile app seamlessly communicates between the Thunderboard and the cloud database to visualize sensor data collected or control the LED states on the Thunderboard React hardware. Individual components of the Thunderboard React can be easily integrated and modified in order to add BLE-to-cloud connectivity for a user’s particular application. |
With the low-cost Thunderboard hardware development platform we can add sensors and connectivity to anything, and can share and analyze data with the free app and cloud software. Every Thunderboard comes with a variety of sensors that you can use to prototype your idea. With the built-in sensors you can scale the complexity of your product. Use one, or all sensors to measure and collect motion, environmental and biometric data. Data points are only fun when you can analyze them, and with the free Thunderboard app you can stream and watch your sensors in action. We can watch orientation, acceleration, speed/distance, temperature/humidity, light UV index, air pressure, sound level, CO2, VOC levels and we can control lights and switches directly. The app is available for both Android and iOS devices, and the source code is available on GitHub. Now that our prototype has Thunderboard smartness built-in, we can analyze and share our data real-time with the free cloud analysis tool. Like the free app we will be able to see all data, and we can add alerts, alarms and process it more conveniently. |
14 |
SLTB004A - Bluetooth / 802.15.1 Development Tools Thunderboard Sense 2 @36USD
Thunderboard™ Sense 2 Sensor-to-Cloud Advanced IoT Development Kit
Thunderboard Sense 2 is a compact, featured-packed development platform. It provides the fastest path to develop and prototype IoT products such as battery-powered wireless sensor nodes. The development platform combines a broad range of sensors with the powerful multi-protocol EFR32 radio and a mobile app offering Bluetooth communication and cloud connectivity. Thunderboard Sense 2 also has an on-board J-Link debugger and is fully supported in Simplicity Studio. |
20 |
SLSDA001A - Simplicity Debug Adapter Board @9 USD
The Simplicity Debug Adapter Board plugs directly into the Debug Connector and the Simplicity Connector on a Wireless Starter Kit (WSTK) or a subset of Starter Kits (STK) and combines selected functionality from these two to a smaller footprint 10-pin connector which is more suitable for space constrained designs. The ARM® Cortex® 10-pin Debug Connector follows the standard Cortex pin-put defined by ARM and allows the WSTKs and STKs to be used to debug hardware designs that use this connector. |
10 |
Silicon Labs
Geeko Kits |
SLWSTK6000B @499USD
EFR32™ Mighty Gecko Wireless Starter Kit
Kit Contents: 3 x Wireless starter kit mainboard, 3 x EFR32MG12 2.4 GHz 19 dBm radio board, 3 x EFR32MG12 2.4 GHz 10 dBm radio board, AA Battery Board (supports running +19 from battery), Cables
EFR32MG Getting Started Card
Kit Features: Included devices: EFR32MG12P432F1024GL125, Modular design supports different radio boards, Expansion header allows easy expansion, Integrated debug, Packet Trace support on both Ethernet and USB connections, Coin cell support, Supports AEM (Advanced Energy Monitor) for battery measurement and Energy Profiler |
The Mighty Gecko Wireless Starter Kit includes Zigbee and Thread software stacks, sample code and integrated debug adapter. Multiple radio boards enable developers to create a mesh network and evaluate Mighty Gecko Modules and SoCs. |
2 |
SLSTK3402A @29 USD
EFM32™ Pearl Gecko PG12 Starter Kit
Pearl Gecko PG12 Starter Kit Contents:
EFM32PG12B500F1024GL125 Pearl Gecko MCU mainboard, USB Cable, EFM32 Getting Started CardPearl
Gecko PG12 Starter Kit Features: Integrated Segger J-Link USB debugger, Advanced Energy Monitoring system, Built-in USB serial port, Power from CR2032 coin cell battery or USB VBUS, Memory LCD, capacitive touch buttons, LEDs, pushbuttons, On-chip temperature sensor and additional Si7021 RH/temperature sensor on board, Breakout headers for easy MCU pin access, 20-pin EXP-header for additional add-on boards, Inductive LC sensor (SLSTK3402A only), Crystals for 32.768 kHz LFXO and 40 MHz HFXO |
The Pearl Gecko PG12 starter kit enables to jumpstart evaluation and development of both EFM32 Pearl Gecko PG12 and EFM32 Jade Gecko JG12 based products.
Pearl and Jade Gecko are perfect for modern IoT applications that require long battery life, enough code-space to deliver experiences and support future product updates, great peripherals, and security to keep your customers confident. |
8 |
SLWSTK6063B @ 276 USD
EFR32™ Flex Gecko 2.4 GHz and 434 MHz Proprietary Wireless Starter Kit
Kit Contents: (2) BRD4259A EFR32FG 2400/434 MHz 19 dBm Radio Boards, (2) BRD4001A Wireless Starter Kit Mainboard
(2) 434 MHz antennas with SMA connector, (2) AA Battery holders, (2) USB A to USB mini-B cables, (1) BRD8010A WSTK Debug Adapter, EFR32 Flex Gecko Get Started Card
Kit Features: Included device: EFR32FG14P233F256GM48, Modular design supports different radio boards, Expansion header allows easy expansion. Integrated debug and packet trace, Packet Trace supports both Ethernet and USB connections, Coin cell holder and AA battery holder, Supports AEM (Advanced Energy Monitor) for battery measurement and Energy Profiler |
The Flex Gecko Wireless SoC Starter Kit is enabled through the Silicon Labs Flex SDK which contains the Connect Stack and the Radio Abstraction Interface Layer (RAIL) to simplify proprietary wireless protocol development. Extensive documentation and sample applications, including the popular range test, as well as functionality for lab evaluation, wake-on-radio, bi-directional packet transmission and reception are also provided as source code within the Flex SDK sample applications. Using the Simplicity Studio suite of tools, developers can take advantage of graphical user interface to quickly generate wireless applications, perform energy profiling and various system optimizations. Connect Stack is an IEEE 802.15.4 based networking stack designed for creating easily customizable broad-based proprietary wireless applications and supports both sub-GHz and 2.4 GHz frequency bands.
Simplicity Studio Auto-detection for lab evaluation, software development and sample applications including range test Radio configurator GUI, Application Builder, Hardware Configurator, Network Analyzer, Energy Profiler. |
2 |
SLSTK3301A - EFM32™ Tiny Gecko 11 Starter Kit @89.99USD
Tiny Gecko 11 Starter Kit Features
Hardware Features: EFM32TG11B520F128GM80 MCU with 128 kB flash and 32 kB RAM, Advanced Energy Monitoring system for precise current tracking, Integrated Segger J-Link USB debugger/emulator with debug out functionality, 256 segment LCD, 2 user buttons, 2 user RGB LEDs and a touch slider, Relative humidity sensor, magnetic Hall Effect sensor, and inductive, capacitive metal sensor, 20 pin expansion header, Breakout pads for easy access to I/O pins, Power sources include USB and coin cell battery, 0.02 F super capacitor for backup power domain |
Silicon Labs' SLSTK3301A is an excellent starting point to get familiar with the EFM32™ Tiny Gecko 11 32-bit microcontrollers. The starter kit contains sensors and peripherals demonstrating some of the MCU's many capabilities and can serve as a starting point for application development. The Tiny Gecko 11 features an on-board SEGGER J-Link debugger and an Advanced Energy Monitoring system, allowing you to program, debug and perform real-time current profiling of your application without using external tools. |
4 |
SLSTK3701A - EFM32™ Giant Gecko GG11 Starter Kit @99USD
Giant Gecko Starter Kit Features
Hardware Features: EFM32GG11B820F2048GL192 MCU with 2 MB flash and 512 kB RAM, Advanced Energy Monitoring system for precise current tracking, Integrated Segger J-Link USB debugger/emulator with debug out functionality, 8-color RGB pixel memory LCD, 2 user buttons, 2 user RGB LEDs and a touch slider, Relative humidity sensor, magnetic, Hall Effect sensor, and inductive-capacitive metal sensor USB interface for Host/Device/OTG, 32 Mb Quad-SPI Flash memory, SD card slot, RJ-45 Ethernet Jack, Dual microphones, 20 pin expansion header, Breakout pads for easy access to I/O pins, Power sources include USB and coin cell battery, 0.02 F super capacitor for backup power domain |
Silicon Labs' SLSTK3701A is an excellent starting point to get familiar with the EFM32™ Giant Gecko Series 1 32-bit microcontrollers. The starter kit contains sensors and peripherals demonstrating some of the MCU's many capabilities and can serve as a starting point for application development. The Giant Gecko GG11 features an on-board SEGGER J-Link debugger and an Advanced Energy Monitoring system, allowing you to program, debug and perform real-time current profiling of your application without using external tools. |
4 |
Texas Instruments
SimpleLink DK/STK |
CC2650DK - CC2650 Smart RF06 Development Kit @299USD
Kit Contents: 2 x SmartRF06EB, 2 x CC2650EM-7ID, 2 x Micro USB cables, Documentation
Features: CC2650 ultra low power Wireless MCU, SmartRF06EB with integrated debugger, sensors and easy access to all IOs, Preprogrammed packet error rate test for range testing, Bluetooth low energy stack, ZigBee stack, TI-RTOS |
The SimpleLink™ CC2650 Development Kit includes all the hardware you need to start evaluating the SimpleLink Wireless MCU ultra-low power platform. The CC2650 device included in this kit is the superset device of the family, so it can also be used to evaluate the SimpleLink Bluetooth® Smart CC2640 wireless MCU and the ZigBee®/6LoWPAN CC2630 wireless MCU.
The kit includes two SmartRF06 evaluation boards, two CC2650 evaluation modules, two micro USB cables and a getting started guide. |
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CC2650STK- SimpleLink™ Bluetooth low energy/Multi-standard SensorTag @29USD
10 sensors including support for light, digital microphone, magnetic sensor, humidity, pressure, accelerometer, gyroscope, magnetometer, object temperature, and ambient temperature
SensorTag can be enabled with ZigBee®/6LoWPAN technology.
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The new SensorTag IoT kit invites you to realize your cloud-connected product idea. The new SensorTag now includes 10 low-power MEMS sensors in a tiny red package. And it is expandable with DevPacks to make it easy to add your own sensors or actuators. |
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CC-DEVPACK-DEBUG - SimpleLink SensorTag Debugger DevPack @15 USD
The Debugger DevPack is a small form-factor XDS110 debugger |
The Debugger DevPack adds debug capability to your SensorTag. Plug it into the SensorTag DevPack expansion header and debug your SensorTag with Code Composer Studio or IAR ARM development environments. The Debugger DevPack includes a FREE license of Code Composer Studio that is tied to the DevPack. |
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CC3200MODLAUNCHXL - SimpleLink Wi-Fi CC3200 module LaunchPad @30USD
Features: CC3200MOD Wi-Fi wireless microcontroller (MCU) module, CC3200 modules are Wi-Fi CERTIFIED® and FCC/IC/CE certified, which can be transferred to end products, CC3200MOD, SimpleLink Wi-Fi, internet-on-a-chip™ module solution with integrated MCU, 40-pin LaunchPad standard that leverages the BoosterPack ecosystem, FTDI-based JTAG emulation with serial port for Flash programming, Two buttons and three LEDs for user interaction, Backchannel universal asynchronous receiver/transmitter (UART) through USB to PC, On-board chip antenna with U.FL for conducted testing, On-board accelerometer and temperature sensor for out-of-box demo, Micro USB connector for power and debug connections
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The SimpleLink™ Wi-Fi® CC3200MOD LaunchPad (with certified module) 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 CCS and IAR. This LaunchPad has driver support and a software development kit (SDK) with 40+ applications for Wi-Fi protocols, internet applications, and MCU peripheral examples. |
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IMETER-BOOST: Compact, Low Power, Wireless Voltage/Current Monitor Reference Design for SimpleLink Wi-Fi @19.95USD
Features
Remote data acquisition
Cloud connectivity
Big data collection for use-case analysis
Power profile generation and comparison
Usage of standard presentation and charting tools (e.g. Plot.ly, excel) |
The IMETER-BOOST is a BoosterPack that can be added to LaunchPads to allow customers to evaluate their actual power consumption figures, which can help users debug and analyze their software. Utilizing the CC3200 HTTP Server abilities, the IMETER-BOOST when connected to a CC3200-LAUNCHXL Launchpad allows the user to graphically view current and voltage measurements, adjust sampling rate, send this data to the cloud, and also export it in csv format. This tool also supports the ability to be triggered and measure from up to 4 GPIOs. |
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LAUNCHXL-CC2650 - SimpleLink™ CC2650 wireless MCU LaunchPad™ Development Kit @29.99USD
The CC2650 LaunchPad kit supports evaluation of:
CC2640 Bluetooth® low energy wireless MCU
CC2630 ZigBee/6LoWPAN wireless MCU
CC2620 ZigBee RF4CE wireless MCU
CC2650 Multi-standard wireless MCU |
The CC2650 LaunchPad kit brings easy Bluetooth low energy connectivity to the LaunchPad kit ecosystem with the SimpleLink ultra-low power CC26xx family of devices. This LaunchPad kit also supports development for multi-protocol support for the SimpleLink multi-standard CC2650 wireless MCU and the rest of CC26xx family of products: CC2630 wireless MCU for ZigBee®/6LoWPAN and CC2640 wireless MCU for Bluetooth® low energy. |
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CC-ANTENNA-DK2: Sub-1 GHz and 2.4 GHz Antenna Kit for LaunchPad™ and SensorTag @ 50.69USD
16 Antennas for 169MHz, 315MHz, 433MHz, 868MHz, 915MHz, 2.4GHz
Compatible with LaunchPad and SensorTag
Includes everything needed for real-life testing of antennas |
This kit allows you to do real-life testing to find the optimal antenna for your application! The antenna kit includes 16 antennas for frequencies from 169MHz to 2.4GHz including PCB antennas, Helical antennas and Chip antennas as well as dual band antennas for 868/915MHz combined with 2.4GHz. |
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CC3220SF-LAUNCHXL - SimpleLink™ Wi-Fi® CC3220SF Wireless Microcontroller LaunchPad™ Development Kit @USD 50
Supports various IDE: CCS, IAR Embedded Workbench for ARM Cortex-M4, Standalone development platform featuring sensors, LEDs and push-buttons, On-board chip antenna with option for U.FL-based testing
2x20-pin stackable connectors (BoosterPack headers) to connect to TI LaunchPads and other BoosterPacks, Back-channel universal asynchronous receiver/transmitter (UART) through USB to PC, XDS110-based JTAG emulation with serial port for flash programming
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The SimpleLink™ Wi-Fi® CC3220SF LaunchPad™ development kit (CC3220SF-LAUNCHXL) highlights CC3220SF, a single-chip wireless microcontroller (MCU) with 1MB Flash, 256KB of RAM and enhanced security features. The CC3220SF-LAUNCHXL features on-board emulation and 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 the Code Composer Studio™ Cloud integrated development environment (IDE). The CC3220SF device brings IoT networking security to a new level, empowering developers to easily connect any application to the cloud, with multiple communication protocols. |
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| IMETER-BOOST: Compact, Low Power, Wireless Voltage/Current Monitor Reference Design for SimpleLink Wi-Fi @19.95USD |
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CC3200STK-WIFIMK - SimpleLink™ Wi-Fi® CC3200 SensorTag @ 39.99USD
Features
Connect sensors directly to the cloud with Wi-Fi Cloud connectivity lets you access and control your SensorTag from anywhere Get connected quickly, set up and connect in 3 minutes! Upgrade the SensorTag firmware over-the-air from the SensorTag smartphone app |
The SimpleLink™ Wi-Fi® CC3200 SensorTag development kit is one of the quickest and easiest ways to connect sensors directly to the cloud!
The new Wi-Fi SensorTag kit is based on the low-power SimpleLink Wi-Fi CC3200 wireless MCU, the industry’s first Wi-Fi CERTIFIED™ single-chip microcontroller unit (MCU) with built-in Wi-Fi connectivity. This allows the SensorTag kit to be battery powered from AAA batteries/
The Wi-Fi SensorTag kit includes 9 low-power MEMS sensors.
Connect directly to the cloud with Wi-Fi and get sensor data online in just a few minutes. The SensorTag kit configures the Wi-Fi connection out-of-the-box with the SensorTag iOS and Android™ app. No programming experience is required to get started. |
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| STMicroelectronics |
STEVAL-BCNKT01V1 BlueCoin Starter Kit @79.63 USD
BlueNRG-MS, LSM6DSM, LSM303AGR, LPS22HB, BALF-NRG-01D3, STBC03JR |
The STEVAL-BCNKT01V1 integrated development and prototyping platform for augmented acoustic and motion sensing for IoT applications builds on the listening and balancing capabilities of the human ear.
With the expanded capabilities of its starter kit, BlueCoin lets you explore advanced sensor fusion and signal processing functions for robotics and automation applications with a 4 digital MEMS microphone array, a high-performance 9-axis inertial and environmental sensor unit and time-of-flight ranging sensors.
A high-performance STM32F446 180 MHz MCU enables real-time implementation of the very advanced sensor fusion algorithms like adaptive beamforming and sound source localization, with ready-to-use, royalty-free building blocks.
The BlueCoin can connect via the on-board BLE link to any IoT and smart industry wireless sensor network. |
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| NXP |
SLN-RPK-NODE: NXP Rapid IoT Prototyping Kit @61.73 USD
FEATURES AND BENEFITS: Comprehensive, pre-engineered IoT node, Kinetis® K64F Arm® Cortex®-M4 MCU for application processing, KW41Z Wireless MCU: BLE, Thread, Zigbee allows connection to a gateway or cloud, Optimized for low-power and small form factor, Enhanced Security A1006 Secure Authentication & anticounterfeit IC NT3H2211 NFC Forum Type2 Tag |
Expected to be available by Q2 2018
Rapid IoT combines optimized hardware design including processing, connectivity and trusted security with proven software including drivers, middleware and GUI based programming enabling anyone to easily take their IoT idea to a proof of concept (POC). Rapid IoT accelerates the 3 phases of a typical POC development. Preprogrammed applications enable a user to get up and running quickly and ‘play’ or get familiar with its capabilities. Next, the Web IDE with GUI based programming means anyone can ‘tinker’ or modify the device’s behavior without having to program in C. Finally, production-proven MCUXpresso tools provide a path to validate code and ‘develop’ new applications. Web IDE with GUI based programming (no C needed), RTOS, drivers, middleware, iOS/ Android mobile apps & Cloud connect eases the transition |
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| Intel |
SKU 110060871: UP² Grove IoT Development Kit @ 249USD
Features
UP² (Squared): X86 Apollo lake platform, Wide-range I/O for sensors, Connectivity: Wi-Fi, 3G, LoRA, etc., Online Community for Q&A, Comprehensive tutorial & documentation, Complete eco-system at your disposal, Longevity 5-7 years, Industrial standard & certification, System level integration, Vertical market certification, if needed., Fully-customized solution, Grove: Variety of sensors for prototyping needs, Upgrade to industrial-grade sensors supports, Basic LEDs, buttons, and switches are supported for commercial IoT applications |
The UP² Grove IoT Development Kit enriches the power of UP². If UP² builds a bridge between your hobby and your future career, then Grove can be the best accessories and tools to make the bridge building even faster. Grove is a modular and ready-to-use tool set optimized for simplicity and rapid prototyping too. With Grove, there is no need for soldering or jumper wires. In this kit, there are six different kind of Grove modules including button, LED, light sensor, temperature sensor, rotary angle sensor, and LCD screen. By combine all the good features of UP² and Grove, this kit provides the best solution for projects in IOT, Gaming & entertainment, Industrial Automation, Digital Signage, Home automation and more.
Integrated Software, Preinstalled Ubuntu* 16.04 operating system
Over 400 sensor libraries Integration for major third-party cloud providers C++ IDE Support Develop more simply with Arduino Create* Optimize and profile code with Intel® System Studio |
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| ARM |
V2M-MPS2-0318C: Arm MPS2+ FPGA Prototyping Board @495 USD
CoreLink SSE-200 and CoreLink SSE-100 IoT Subsystem support
Support for DesignStart
Support for Arm Cortex-M0 DesignStart Eval
Support for Arm Cortex-M3 DesignStart Eval
Supports accessories: Adapter for Arduino, Adapter for Digilent Pmod, uSDCARD SPI Adapter
The MPS2+ FPGA Prototyping Board supports the implementation of CoreLink SSE-100 and Corelink SSE-200. These IoT subsystems combined with the peripherals on MPS2+ provide a software development platform to evaluate IoT subsystems with mbed for both Armv7-M and Armv8-M. They are composed of a subsystem and system IP, allowing you to get ahead in the development of secure custom SoCs for IoT or embedded applications! The CoreLink SSE-200 subsystem included in the CoreLink SDK-200 is a fantastic foundation to your Cortex-M design. This subsystem is based on the latest Cortex-M33, with Arm TrustZone support. Deep-rooting security at the foundation of your SoC. |
The Arm MPS2+ FPGA Prototyping Board, is an affordable development board. The platform offers a relatively large FPGA for prototyping Cortex-M based designs with a range of debug options. It also includes useful peripherals such as: PSRAM, Ethernet, touch screen, Audio, VGA, SPI and GPIO. The MPS2+ is supplied with fixed encrypted FPGA implementations of all the Cortex-M processors. The platforms supports online software development using mbed for the full Cortex-M family. It allows: Rapid FPGA prototyping for Cortex-M with example designs and software support and Low cost feature rich FPGA development platform supporting the entire Cortex-M processor range. The MPS2+ FPGA Prototyping Board has been created for the design, prototyping and evaluation of Cortex-M family of processors including the latest, the Cortex-M33 and both Cortex-M3 and Cortex-M0. The MPS2+ FPGA Prototyping Board supports FPGA implementations of the latest Armv7-M and Armv8-M processors.
TrustZone technology is key to all IoT and embedded applications.These systems can be extended to add connectivity with solutions such as Arm Cordio radios. Besides truct zone they support Arm Security IP includes the Arm CryptoIsland and Arm CryptoCell families supporting Roots of Trust (RoT), security services, lifecycle management, key management and cryptographic acceleration. Arm Cordio is Arm’s family of standards-based low-power wireless IP. It offers a complete solution for LPWAN (Low-Power Wide-Area Network) applications based on the NarrowBand IoT (NB-IoT) standard, and complete RF-to-Application coverage for WPAN (Wireless Personal Area Networks) radios based on the Bluetooth 5 and 802.15.4 standard. |
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| ARM |
DesignStart SoC Design Education Kit (Free for Research to Universities)
Arm IP for Advanced Research
Universities can conduct advanced research using the industry-leading Cortex-M0 and Cortex-M3 processors - backed by the world's No.1 ecosystem of tools, software and support. Available free-of-charge through Arm DesignStart. |
Conduct advanced research with proven IP. University academics and researchers can:
Register for DesignStart Pro Academic to get access to the full RTL for the Cortex-M0 and Cortex-M3 CPU's and their systems, with design and production rights for your research projects. All you need to do is click-through a simple EULA. Register for DesignStart Pro to access the full source RTL - just a simplified licensing agreement. Register to access thousands of industry-leading physical IP for faster SoC implementation |
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| Udoo Accessories for UDOO Neo Board |
Temperature Sensor Kit @8.9 USD |
The modules include various essential sensors, debug modules, battery holders, cables and display that shall be required to work with the existing UDOO Neo Board |
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| Case dor UDOO Neo @6.50 USD |
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| BARO/AlTIM/TEMP KIT @9.90 USD |
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| Micro SD with pre-loaded Linux OS for NEO @8.40 USD |
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| GESTURE SENSOR KIT @ 13 USD |
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| Light Sensor Kit @ 8.50 USD |
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| Humidity Sensor Kit @8.90USD |
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| USB Serial Debug Module for Neo @12.90 USD |
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| Usb Kit @3.90 USD |
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| Power Supply EU @8.90USD |
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| Micro HDMI to HDMI cable for Neo @7.90USd |
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| 2AA Battery Holder for RTC @3USD |
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| 7 Inch HDMI/USB Display Touch @59.90 USD |
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| LVDS Cable for 7" for NEO @8USD |
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| UDOO X86 Board and its Accessories |
UDOO X86 Advanced Plus
CPU Intel Celeron N3160 2.24 Ghz, 4 GB DDR3L Dual Channel, Intel HD Graphics 400 Up to 640 MHz 12 execution units, 1x HDMI 2x miniDP++ connectors, 2GB eMMC storage Standard SATA connector M.2 Key B SSD slot Micro SD card slot, Gigabit Ethernet connector M.2 Key E slot for optional Wireless modules,
Intel Quark SE core 32 MHz plus 32-bit ARC core 32 MHz, Bluetooth Low Energy, |
It is a x86 maker board ever and an Arduino™ 101-compatible platform, all embedded on the same board. On UDOO X86 you can run all the software available for the PC world, from gaming to video streaming, from graphical editors to professional development platforms, plus all the software or the Arduino™ 101 world, including all the sketches, libraries and the official Arduino™ 101 IDE. You won’t ever worry about lack of drivers or stuff like that. This is a true next-generation computer. It is based on Quad Core 64-bit new-generation x86 processors made by Intel®, designed for the PC domain. Prodigious processors concentrated in 14 nm, with an amount of energy consumption of 5 or 6 Watt. The board can be powered by a DC-jack with a standard 5.5mm/2.1mm barrel jack, internal positive, Voltage 12V ± 5%. This is not included. Alternatively, power can be provided though the VIN pin located on the header. UDOO X86 ADVANCED PLUS includes Screw/Spacers to mount the M.2 SSD and M.2 Wifi/BT. |
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| UDOO X86 METAL CASE @ 23.80USD |
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| 7inch HDMI/USB Display/Touch @59.60 USD |
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| Screws and spacers kit for M.2 accessories mounting @ 2.0 USD |
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| M.2 dual Ethernet Module Kit @49.80USD |
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| Power Supply EU @8.90USD |
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| e HDMI to HDMI @6.40USD |
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| CPU fan for UDOO X86 heatsink @7.50USD |
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| SATA data and power cables for UDOO X86 @3.00USD |
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| Cable MiniDP++ to DP @8.00USD |
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| Cable MiniDP++ to HDMI @9.0USD |
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| Kit M.2 Wifi/BT @16.90USD |
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| UDOO BLU SENSE @19.50 USD |
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| MicroElectronika Hexiwear Power User Pack |
MicroElectronika Hexiwear Power User Pack. The pack contains: Hexiwear MIKROE-2026, Hexiwear Docking station MIKROE-2094, Black Wristband, Black soft cover, Two additional front masks (yellow and green), USB cable |
The Power User Pack will let us use Hexiwear to its fullest potential. The Docking station will let you expand Hexiwear’s functionality with hundreds of additional sensors using click boards. It can be turned into a wearable in a second – either a smartwatch using the sporty wristband, or perhaps a keychain using the soft cover. A USB cable and top-glasses in two additional colors are also complete the package. Compact, wearable cool form factor Style and usability of a high-end consumer device in a dev kit. Efficiency and low power consumption. Powered by Kinetis K64 32-bit ARM® Cortex®-M4 MCU. Features several advanced NXP sensors. Equipped with Bluetooth Low Energy. Works with compatible iOS/Android apps. Connects to the cloud. |
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| MicroElectronika 6LoWPAN Clicker |
MicroElectronika 6LoWPAN Clicker MIKROE-1907. It carries Microchip’s PIC32MX470F512H - 120 MHz/150 DMIPS, MIPS32® M4K® core microcontroller. And CA-8210 2.4GHz ISM band transceiver, which allows to add wireless communication to projects. Architecture: PIC32 (32-bit), MCU: PIC32MX470F512H from Microchip 120 MHz, Memory: 512KB of Flash memory, 128KB of RAM. |
6LoWPAN clicker is a compact development board with a mikroBUS™ socket for click board connectivity. prototyping experience is convenient as possible, MSP432 clicker is preprogrammed with a UART bootloader. mikroBootloader application can be downloaded into it and it gets ready to upload custom firmware. On-board mikroProg for MSP432 connector enables programming through external programmer/debugger. 6LoWPAN clicker has a PICkit™ connector on the right side of the board, for Microchip’s Debugger/programmer. |
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Deysight Technologies
DSO |
DSOX2022A Oscilloscope: 200 MHz, 2 Analog Channels, Bandwidth: 200 MHz, 2 Channels, 1Mpts Memory Depth, 2GSa/s sample rate |
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Nvis Technologies
DSO |
Nvis NB105CT, Digital Storage Oscilloscope, 50MhZ, 500MSas |
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| Dell Server |
Dell Server 2U Rack R530 (Xeon E5 2640v3, 3X300GB) Xeon E5 2640v3/8 core 16GB 900GB Ram upgraded to 32 GB |
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| FRED Server |
Forensic Recovery of Evidence Device (FRED) FERD Server: Make: Digital Intelligence (USA), Model: FRED-Forensic 23 3/4" High, 8 3/8" Wide, 25 1/4" Deep - 80 lbs, Intel Core i7-5820K CPU (Hex Core Processor), 3.3 GHz, 10MB Intel Smart Cache, 5 GT/s DMI, 32 GB (4x8GB)PC3-17000 DDR4 2133 MHz Memory, 1 x 256 GB Solid State SATA III Drive - OS Drive, 1 x 128 GB Solid State SATA III Drive - Temp/Cache/DB Drive, 1 x 2.0 TB 7200 RPM SATA III Hard Drive - Data Drive installed in HotSwap Bay1, Nvidia GTX 750Ti 2GB 128 bit DDR5 PCI-Express Video Card with 1 VGA (D-Dub), 1 HDMI, and 2 DVI ports - supports up to 4 displays, 22" WideScreen LCD Monitor with Built-in Speakers, Windows 8.1 Professional (64 bit) Also includes: DOS (Win98 Standalone), SUSE Professional Linux (64 bit), Hardware Write Blocking:
Digital Intelligence UltraBay 3d Hardware Write-Blocker with touch screen display:, Integrated IDE Drive Write Blocker, Integrated SATA Drive Write Blocker, Integrated SAS Drive Write Blocker, Integrated USB 3.0/2.0 Write Blocker, Integrated FireWire IEEE 1394b Write Blocker, Digital Intelligence Integrated, Forensic Media Card Reader - Read-Only and Read/Write switchable. Tool Box Containing, CD Case: Containing system restore media, System Keys: For removeable hard drive bays and front case bezel, Adapters and Cables: Cables and adapters to image and process internal/external drives including SAS, SATA, IDE, microSATA, SATA LIF, MacBook Air Blade Type SSDs,
mini/micro SSD cards, 1.8 inch IDE (iPod) and 2.5 inch IDE (laptop), Digital Camera: Useful to document your suspects environment and hardware, Security Screwdriver Set: A varied assortment of popular security bits for opening, Computer enclosures that may have been locked down in a corporate environment. |
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| Access Data FTK |
Forensic Toolkit Software (FTK): Make: Access DATA (USA) Model: FTK-Forensic Toolkit Software version 6.0.1 updated to 6.0.3 |
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Paraben
DP2C and E3 Viewer |
Parabean Deployer P2C: (DP2C)! It allows to scan the investigated computer, acquire the detected data to a forensic container, and create images of disk drives. With Paraben’s DP2C, we can: Detect the most important data via Registry analysis, Search for data by file types, Search and acquire deleted data, Run directly from the flash drive without starting Windows, Acquire data to a secure encrypted forensic container, Create bit-stream images of logical and physical drives (including removable drives), etc. |
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| Computer Systems |
HP 280 G3 MT (3 Nos) - Intel ® Core (TM) i7- 7700 CPU @ 3.60GHz, 4 Cores, 8 Logical Pro, 8.00 GB, 64-Opearting System, x64-based processor, Windows 10 pro, 1 TB HDD, Intel® HD Graphics 630, Ethernet 802.3, Realtek PCIe GBE Family Controlled. 90D90010IN (1 No) - Intel ® Core (TM) i7- 6700 CPU @ 3.40GHz, 4 Cores, 8 Logical Pro, 8.00 GB, 64-Opearting System, x64-based processor, Windows 10 pro, 1TB HDD, Intel® HD Graphics 530, Ethernet 802.3, Realtek PCIe GBE Family Controller, Intel® Dual Band Wireless-AC 3165, Bluetooth device (RFCOMM Protocol TDI) |
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| Networking Accessories |
TP-Link (Model No. TL-WA5210G) High Power wireless outdoor CPE (1 No)
Standards: IEEE 802.11b, IEEE 802.11g, Interfaces:1*10/100Mbps Auto-Sensing RJ45 Port (Auto MDI/MDIX), Passive PoE supported, Frequency Range:2.4-2.4835GHz, Wireless Data Rates :Up to 54Mbps, Antenna Type: Dual-Polarized 12dBi antenna, external RP-SMA connector, Operating Mode: AP, AP Router/AP Client, WISP Client Router/Bridge/Repeater Mode, Security: WEP, WPA/WPA2, WPA-PSK/WPA2-PSK encryptions, MAC filtering
ZyXEL (Model No. NWA1121-NI) WLAN Access Point (1 No)
Standards: IEEE 802.11b, IEEE 802.11g, IEEE 802.11n, IEEE 802.1x, IEEE 802.3, IEEE 802.3ab, IEEE 802.3af, IEEE 802.3az, IEEE 802.3u, Wi-Fi CERTIFIED, Features: 2T2R MIMO technology, Auto Traffic Classifier (ATC), Transmit Beam-forming (TxBF) ready, VLAN support, Wi-Fi Multimedia (WMM) support, Cyclic Delay Diversity (CDD), DHCP client, IPv6 support, Low Density Parity Check (LDPC), MAC address filtering, Maximum Likelihood Demodulation (MLD), Multiple SSID support, RADIUS support, Frequency Range 2.4 GHz, Data Transfer Rate: 300 Mbps, Wireless Protocol: 802.11b/g/n, Remote Management Control: CLI, HTTP, SNMP, SNMP 3, Authentication Method: RADIUS, Extensible Authentication Protocol (EAP), EAP-FAST, Security: TLS, PEAP, TTLS, WPA, WPA2, WPA-PSK, WPA2-PSK, WPA-Enterprise, WPA2-Enterprise
i Ball Baton (Model No. iB-LDS324E) Desktop switch (1 No)
Standards: IEEE 802.3, IEEE 802.3u, Data Transfer Rate: Ethernet: 10Mbps (Half Duplex), 20Mbps (Full Duplex), No. of Ports: 24 x 10/100Mbps Auto-Negotiation ports, Network Media: 10Base-T : UTP category 3, 4, 5 cable (maximum 100m), EIA/TIA-568 STP cable (maximum 100m), 100Base-Tx : UTP category 5, 5e cable (maximum 100m), EIA/TIA-568 STP cable(maximum 100m), Switching Capacity: 4.8Gbps, Buffer Memory: 2.5MB, Security: WEP, WPA/WPA2, WPA-PSK/WPA2-PSK encryptions, MAC filtering |
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| ARM Starter Kit LPC 1768 |
The NXP LPC1768 is an ARM 32-bit Cortex-M3 Microcontroller with MPU, CPU clock up to 100MHz, 512kB on-chip Flash ROM with enhanced Flash Memory Accelerator, In-System Programming (ISP) and In-Application Programming (IAP), 64kB RAM, Nested Vectored Interrupt Controller, Eight channel General purpose DMA controller, AHB Matrix, APB, Ethernet 10/100 MAC with RMII interface and dedicated DMA, USB 2.0 full-speed Device controller and Host/OTG controller with DMA, CAN 2.0B with two channels, Four UARTs, one with full Modem interface, Three I2C serial interfaces, Three SPI/SSP serial interfaces, I2S interface, General purpose I/O pins, 12-bit ADC with 8 channels, 10-bit DAC, Four 32-bit Timers with capture/compare, Standard PWM Timer block, Motor control PWM for three-phase Motor control, Quadrature Encoder, Watchdog Timer, Real Time Clock with optional Battery backup, System Tick Timer, Repetitive Interrupt Timer, Brown-out detect circuit, Power-On Reset, Power Management Unit, Wakeup Interrupt Controller, Crystal oscillator, 4MHz internal RC oscillator, PLL, JTAG and Serial Wire Debug/Trace Port with ETM. |
10 |
| ARM Starter Kit LPC 1857 |
The NXP LPC1857 is an ARM Cortex-M3 processor, running at frequencies of up to 180 MHz and having::Memory Protection Unit (MPU), Nested Vectored Interrupt Controller (NVIC), Non-maskable Interrupt (NMI) input, JTAG and Serial Wire Debug, serial trace, ETM and ETB support, System tick timer, Four reduced power modes: Sleep, Deep-sleep, Power-down, Deep power-down, On-chip memory: Up to 1024 kB dual bank Flash, Up to 136 kB SRAM for code and data use, Two 32 kB SRAM blocks with separate bus access, 32 kB ROM containing boot code and on-chip software drivers, 32-bit One-Time Programmable (OTP) memory Clocks, Clock generation unit, Crystal oscillator (1 MHz to 25 MHz), 12 MHz internal RC osc., Ultra-low power RTC crystal osc, On-chip PLL allows CPU operation up to the max. CPU rate, Second, dedicated PLL may be used for the USB IF, Clock output Serial interfaces, Quad SPI Flash IF (SPIFI),10/100T Ethernet MAC (RMII and MII IF), HS USB 2.0 Host/Device/OTG IF (DMA support, on-chip PHY), HS USB 2.0 Host/Device IF (DMA support, on-chip full-speed PHY, ULPI IF), four 550 UARTs, C_CAN 2.0B controller with one channel, 2 SSP controllers, Digital peripherals, External Memory Controller (EMC) supporting external SRAM, ROM, NOR flash, SDRAM, LCD controller, SD/MMC card IF, 8-channel General-Purpose DMA (GPDMA) controller, Up to 80 General-Purpose Input/Output (GPIO) pins, 10-bit DAC - two 10-bit ADCs, Security: - Hardware-based AES security engine, and Two 128-bit secure OTP memories for AES key storage. |
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| EFM32GG-STK3700 Giant Gecko Platform HSN Code: 85423100 |
The EFM32GG-STK3700 is an excellent starting point to get familiar with the EFM32GG 32-bit microcontrollers. The starter kit contains sensors and peripherals demonstrating some of the MCU's many capabilities and can serve as a starting point for application development. The EFM32GG features an on-board SEGGER J-Link debugger and an Advanced Energy Monitoring system, allowing to program, debug, and perform real-time current profiling of applications without using external tools. |
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| FRDM-KL25Z Development Platform HSN Code: 85389000 |
The Freedom KL25Z is an ultra-low-cost development platform for Kinetis® L Series KL1x (KL14/15) and KL2x (KL24/25) MCUs built on Arm® Cortex®-M0+ processor. Features include easy access to MCU I/O, battery-ready, low-power operation, a standards-based form factor with expansion board options and a built-in debug interface for flash programming and run-control. The FRDM-KL25Z is supported by a range of NXP® and third-party development software. |
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| ULINK Pro Debug Adapter for USB-JTAG Adapter supporting ARM7/ARM9/Cortex Devices HSN Code: 85389000 |
The Keil ULINKpro USB-JTAG/SW Debug and Trace Unit connects the PC's USB port to the target system's connector via JTAG or Serial Wire, and allows users to download and test programs on target hardware, capture and analyze trace information, program the FLASH memory of many devices, use JTAG or Serial Wire signals, define unlimited breakpoints in RAM, and debug on multi-core devices based on Cortex-M microcontrollers. |
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| ULINK Plus Debug Adapter |
ULINKplus combines isolated debug connection, power measurement, and I/O for test automation. It gives users visibility to function, timing, and power consumption of your embedded application. ULINKplus is easy to use and connects to Arm Cortex-based devices. It supports all classic debug features such as simple and complex breakpoints, SWV trace, and even multi-core debugging. Together with Arm Keil MDK, users can use Event Recorder and Event Statistics to profile the applications for timing and energy consumption. The System Analyzer shows the correlation of software execution with power consumption and helps to optimize the energy profile of the embedded systems. |
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| ARM Energy Probe 3 Channel |
It is an ARM Energy Probe easily deployable USB accessory that can sample voltage, current and power from up to three probe points in the system. |
1 |
| Raspberry Pi 3.0 |
Single-board computer with wireless LAN and Bluetooth connectivity |
4 |
| Arduino Uno |
Arduino UNO is a microcontroller board based on the ATmega328P. It has 14 digital input/output pins (of which 6 can be used as PWM outputs), 6 analog inputs, a 16 MHz ceramic resonator, 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. |
2 |
| Node MCU |
NodeMCU is an open-source LUA based firmware developed for the ESP8266 wifi chip. NodeMCU firmware comes with the ESP8266 Development board/kit i.e. NodeMCU Development board. |
4 |
| ICD 3 In-Circuit Debugger |
The MPLAB ICD 3 In-Circuit Debugger is a complex debugger system used for hardware and software development of Microchip PIC® microcontrollers (MCUs) and dsPIC® Digital Signal Controllers (DSCs) that are based on In-Circuit Serial Programming™ (ICSP™) and Enhanced In-Circuit Serial Programming 2-wire serial interface |
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| Arduino TIAN Boards |
The Arduino Tian board is powered by Atmel’s SAMD21 MCU, featuring a 32-bit ARM Cortex® M0+ core and a Qualcomm Atheros AR9342, which is an highly integrated MIPS processor operating at up to 533MHz and feature-rich IEEE802.11n 2x2 2.4/5 GHz dual-band WiFi module. Qualcomm Atheros MIPS supports a Linux distribution, based on OpenWRT named Linino. The Arduino Tian has also a build in 4GB eMMC memory that will can be helpful to build various projects. It is possible to Switch ON/OFF the Linux port from the MCU to reduce the power consumption. |
2 |
| IoT Evaluator Kit |
Libelium Evaluator Kit WEVAKIT |
1 |
| Meshlium Gateway |
Meshlium 4G 802.15.4 AP EU (M4G-802-EU) |
1 |
| Expansion Radio Board |
Libelium |
2 |
| GSM/GPRS Module |
Libelium-WGPRS |
1 |
| Motes |
Waspmote Zigbee 5dBi-WZBP-SMA5 |
2 |
| USB Gateway |
Xbee 802.15.4.5 dbi EU-X802P-SMAS-EU |
1 |
| Gateway |
Xbee Zigbee 5 dBi-XZBP-SMA5 |
1 |
| Gateway |
Waspmote Zigbee 5dBi-WGZBP-SMA5 |
1 |
| Sensor Board |
Gases Pro-WGASPRO (Sensor Board) |
1 |
| Sensor Board |
Smart water-WWATER (Sensor Board) |
1 |
| Sensor Board |
Liquified petroleum gases (h2,CH,ethanol & isobutane)-9234(Sensor) |
1 |
| Sensor Board |
Distance-9267 (Sensor) |
1 |
| Sensor Board |
Water flow small-9296 (Sensor) |
1 |
| Sensor Board |
Water flow medium - 9297 (Sensor) |
1 |
| Sensor Board |
Water flow large-9298 (Sensor) |
1 |
| Sensor Board |
Leaf Wetness-9249 (Sensor) |
1 |
| Sensor Board |
Horizontal Liquid Level (Water) - 9240 (Sensor) |
1 |
| Sensor Board |
Vertical Liquid Level (Water)-9242 (Sensor) |
1 |
| Sensor Board |
Hall effect-9207 (Sensor) |
1 |
| FRED Workstation |
Workstation |
1 |
| Digital Storage Oscilloscopes |
Oscilloscope |
3 |
| All in One (Oscilloscope, DC Power Supply, Function Generator) |
Oscilloscope + DC Power Supply + Function Generator |
1 |
Electronics & Instrumentation Technology