Based on the development of the Internet of Things (IoT), ON Semiconductor recently added two shielded (sub-board), Bluetooth low energy (BLE) applications and battery-free sensing technology, which is a must-have for many IoT implementations. condition.
The deployment of Internet of Things (IoT) technology has begun to make real progress. The potential size and diversity of the market is spurring major innovations, and new technological advances and emerging communication protocols are helping IoT move forward to the projected billions of nodes in the next few years.
Engineers may have a wealth of expertise in their specific functional areas, but they may be poor when dealing with unfamiliar IoT hardware and software design and development challenges. As this becomes more common, engineers need node-to-cloud platforms like ON Semiconductor's multifaceted IoT Development Kit (IDK), which have proven to help speed and simplify design in a wide variety of different areas. Deploy the IoT feature.
The development of IoT solutions has become more complex due to the variety of connectivity, sensing and actuation options available to designers. If the prototyping platform can evaluate multiple energy efficiency options and quickly prototype end-to-end solutions, it will significantly reduce product development and deployment time. A platform such as IDK with multiple connectivity, sensing and actuation options provides design flexibility that is critical during the evaluation and prototyping phases.
ONK's IDK has recently added two shields (sub-boards) for Bluetooth low-power wireless connectivity and reading temperature, pressure and humidity data from the company's battery-free energy harvesting sensors.
The new shields bring a new customer layer to IDK, making unique types of IoT applications possible. Energy harvesting and battery-free sensing technologies create a new IoT use case paradigm in industrial quality control, predictive maintenance, health monitoring and agriculture. At the same time, the ubiquitous Bluetooth low-power technology creates the possibility of wireless connectivity with minimal impact on battery life—a “must have†condition for many IoT implementations.
The newly released shields, along with existing sensing, actuation and connectivity options, significantly extend the applications that can be built on IDK. In addition, the use of ultra-low-power devices on IDK enables designers to create IoT products with longer battery life.
IDK's hardware products are complemented by an Eclipse-based integrated development environment (IDE) with an intuitive user interface. The IDE also provides a variety of different application programming interfaces (APIs) and use cases for vertical areas such as smart home/building, predictive maintenance, wearable/mobile medical. The software framework also includes a C++ compiler, debugger, code editor, and some application-related libraries.
IDK also includes design circuit diagrams, PCB layouts, and lithography files to further accelerate the rapid convergence of design, development, and production, allowing end product designs to be completed with almost just “clip-cut†methods.
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