Overview
Create your very own Alexa voice-controlled devices in under 7 minutes with the Voice Controlled Light Bundle.
This bundle featuring the Arduino MKR WIFI 1010 and the Arduino MKR RGB Shield, combined with the Arduino Alexa Skill, enables you to build the multicolored lamp as featured in the Arduino Alexa Skill video (lamp not provided).
This Bundle contains:
- 1 x Arduino MKR WIFI 1010. Compatible with the Arduino IoT Cloud the MKR WIFI 1010 board interacts with Amazon Alexa’s SmartHomeSkill, responds to voice commands and controls your devices.
- 1 x Arduino MKR RGB Shield. With 84 RGB LEDs at your service, the MKR RGB Shield is ready to light up your room in a myriad of amazing colours. Just plug the MKR RGB shield on top of your MKR WiFi 1010 board and it’s ready shine on request.
All you need to do now is choose whichever object you’d like to act as a lamp. In the video we’ve used a readily available Ikea lamp holder, but you can just as easily opt for a more seasonal feel.
Arduino IoT Cloud Compatible
Resources for Safety and Products
Manufacturer Information
The production information includes the address and related details of the product manufacturer.
Arduino S.r.l.
Via Andrea Appiani, 25
Monza, MB, IT, 20900
https://www.arduino.cc/
Responsible Person in the EU
An EU-based economic operator who ensures the product's compliance with the required regulations.
Arduino S.r.l.
Via Andrea Appiani, 25
Monza, MB, IT, 20900
Phone: +39 0113157477
Email: support@arduino.cc
Get Inspired
Learn how to build a complete HMI with Arduino that will allow you to interact with your projects in an intuitive and visual way.
OPC Unified Architecture – OPC UA in short – is a cross-platform, open-source machine-to-machine communication protocol for industrial automation. It was developed by the Open Platform Communications (OPC) Foundation and is defined in detail in the IEC 62541 standard. With the release of the Arduino_OPC_UA library we enable users to convert any product from our Arduino Opta range into an OPC UA-enabled device. Step-by-step guide to setting up OPC UA on Arduino Opta It’s as simple as uploading a single sketch onto your Opta and connecting it to an Ethernet network. Once uploaded, the OPC UA firmware exposes the Arduino Opta’s analog and digital inputs, the user button and LED (only Arduino Opta WiFi), as well as its relay outputs as properties that can be read from or written to using OPC UA. OPC UA communication is performed using OPC UA binary encoding via TCP sockets. Arduino_OPC_UA is a port of the Fraunhofer open62541 library implementing IEC 62541 in highly portable C99 for both Windows and Linux targets. One serious challenge during the porting of open62541 was to decide on sensible tradeoffs concerning RAM consumption, as using OPC UAs full namespace zero (NS0) requires up to 8 MB of RAM while the STM32H747 powering the Arduino Opta has a total of 1 MB of SRAM to offer – some of which already allocated by the the Arduino framework for the Arduino Opta. Expand functionality with Arduino Opta Modules and OPC UA integration Additionally, Arduino_OPC_UA supports the automatic discovery, configuration and exposure as OPC UA objects of the recently released Arduino Opta expansion modules. Currently three different expansion modules exist: Arduino Opta Analog Expansion (A0602), Arduino Opta Digital Expansion with electro-mechanical relay outputs (D1608E), and with solid-state relay outputs (DS1608S). During system start-up, the Arduino Opta’s expansion bus is queried for connected expansion modules and automatically configures them and