The IoT Platform Development Kit brings together a series of performance-optimized computing and connectivity modules to facilitate quick and effective deployment of battery-free wireless sensing technology and IoT hardware in locations where power and space constraints are of particular concern. This streamlined and flexible solution takes the approach of moving much of the system’s intelligence away from where the sensors are situated, and placing it on the cloud.
Each IoT Platform Development Kit incorporates ON Semiconductor’s battery-free wireless sensor tags, which use RFMicron’s Magnus S2 Sensor IC, and can perform temperature, moisture, pressure, or proximity sensing functions. The platform also features a UHF RFID reader module with 32 dBm power rating and an 860 megahertz (MHz) to 960 MHz frequency range. Localized data processing is performed by the ARM Cortex-A8 based AM335x system-on-chip (SoC). The platform has the capacity to transfer captured data either wirelessly (via WLAN, Zigbee, Z-Wave, UHF Gen 2, etc.) or using wireline infrastructure (via KNX, CAN, SPI, Ethernet. etc.). The development kit complements ON Semiconductor’s existing wireless sensor evaluation kit, SPS1M-EVK, which provides a set of tools test our sensor capabilities.
“This IoT Platform Development Kit opens up greater opportunities for IoT-based data-acquisition/monitoring enabling the implementation of wireless sensors quickly and effectively into many applications. Using it, the data from multiple sensors can rapidly be accessed, analyzed and used on multiple backend networks,” said Gary Straker, Vice President and General Manager of Protection and Signal Division at ON Semiconductor. “As a result of this platform, wireless sensing technology can now be deployed into application scenarios where a mains supply is simply not available or where replacing batteries would be too difficult and costly to undertake. This ground-breaking product will markedly broaden the scope of IoT deployment and this development kit offers a tool that makes evaluating the technology simple for multiple application use cases. Through this wireless sensing technology we will be able to connect what was previously un-connectable.”