In order to make use of the cloud, you’ll first need to understand a bit of its unique terminology. The Arduino IoT Cloud allows you to leverage your existing Arduino expertise and create your own IoT devices. Other features like API and data retention were reserved for the paid tiers, of which there are now three. The free tier remained, and was enhanced with the ability to use selected third-party boards. It had both a free and paid tier, and made use of the existing Arduino online sketch editor.Īt the end of 2020 Arduino made a number of improvements to the IoT Cloud, and changed its account structure. The initial implementation of the cloud was a bit limited in the number of Arduino boards it supported. ![]() It allowed you to create IoT applications for Arduino microcontrollers and connect them to a cloud service, to control them or to interface them with existing IoT devices. The Arduino IoT Cloud was, in many ways, similar to the existing Blynk product. On February 6th, 2019 Arduino announced the public beta of the Arduino IoT Cloud. Today we will look at another way of putting together IoT applications using microcontrollers and the Arduino IoT Cloud. ![]() Many experimenters make use of cloud platforms such as Blynk, or “roll their own” solutions with protocols like MQTT and development applications like IBM Node-Red. ![]() There are many ways to build IoT devices, some of them more complex than others. Being able to build remote sensors and devices is both entertaining and useful.Īllowing IoT devices from different manufacturers to interact with your own creations can really open up a number of useful applications, some that you may not have previously considered building. The Internet of Things has opened the door to a number of great projects for makers. We’ll see how to get set up with a cloud account and how to use it with a few different microcontrollers.
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