![]() Though it’s intended for traditional embedded applications, and therefore supports C/C++ development, it can also be used with MicroPython, a version of the popular language that’s been tailored for use with microcontrollers rather than full PCs. The Pico has another advantage: it’s highly programmable. And with the Pico’s RP2040 microcontroller available in commercial quantities, the development work you do can readily form the basis for production devices later. These three components provide an excellent development platform for IoT. ![]() Fortunately, we can fix that with a Super SIM and an add-on cellular module such as Waveshare’s Pico SIM7080. ![]() The Raspberry Pi Pico would be a great Internet of Things device but for one thing: it has no cellular Internet connectivity. Work with the Breakout SDK for Narrowband Get Started with Machine-to-Machine SMS Commands Get Started with the Programmable Asset Tracker How to Obtain a Programmable Asset Tracker Get Started with the Microvisor Nucleo Development Board How Super SIM Devices Connect to Cell Networks Monitor Super SIM Connection Events using AWS ElasticSearch and Kibanaīest Practices for Cellular Module Registration Set Super SIM’s Network Attach Priority List Get Started with Super SIM Connection Events Get Started with Super SIM eSIM Profiles for eUICCs ![]() Get Started with IP Commands and the Raspberry Pi Pico Get Started with IP Commands and the Raspberry Pi 4 Get Started with SMS Commands and the Raspberry Pi Pico Get Started with SMS Commands and the Raspberry Pi 4 Get Started with the Raspberry Pi 4 and Sixfab Base Hat Get Started with the Raspberry Pi 4 and Waveshare 4G Hat ![]()
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