The foundation of Industrial IoT (IIoT) is based on communication between different devices for data gathering, processing and sharing over the cloud. In this week’s Wireless Wednesday blog, we will look at how a purpose-built, Tri-Radio solution (Wi-Fi, Bluetooth, 802.15.4) aids in seamless communication between the diverse protocols used in IIoT.
Industrial infrastructure encompasses different interconnected components—such as sensors, end-nodes, controllers and processors—that are connected over Wi-Fi, Bluetooth or 802.15.4 (Thread, Zigbee, Matter). IIoT solutions require interoperability among these devices along with robust performance across these wireless protocols. NXP’s Wireless Connectivity Solutions provide a range of devices that enable coexistence of three leading radios—Wi-Fi, Bluetooth and 802.15.4—making sensor-to-cloud communication seamless and unlocking the full potential of Industrial IoT.
Let’s clarify some of the use cases in the IIoT space and some possible solutions for upgrading systems with wireless connectivity.
To improve safety, quality and efficiency of manufacturing devices like machines and robots, these devices must be connected to collect, process and share data as well as suggest efficiency improvements. HMI screens in an industrial control system serve as a user interface between operators and machines on the factory floor. These devices must be connected to the cloud for remote access and sharing key metrics or data.
NXP’s RW61x solution addresses this application by providing an application-dedicated 260 MHz Arm Cortex-M33 with Tri-Radio capability supporting Wi-Fi, Bluetooth LE and 802.15.4. This single-chip solution offers cost savings while providing flexibility to support multi-protocol use cases, such as communicating with end nodes on a Thread network or sharing data over Wi-Fi. The RW61x can either work as an independent wireless MCU in Standalone mode or in Network Co-Processor mode (NCP), pairing with a host processor or microcontroller.
The MCUXpresso Developer Experience provides low-cost development boards. Start prototyping for IIoT applications today with the RW61x FRDM board.
For a better viewing experience, download the block diagram.
The RW61x can drive an LCD display in Standalone mode. Learn more and watch a demo in this previous Wireless Wednesday article.
For applications requiring higher processing performance, NXP’s i.MX93 Processor paired with the IW612 Wi-Fi 6 Tri-Radio, IW610 Wi-Fi 6 Tri-Radio or IW416 Wi-Fi 4 + Bluetooth solutions in Radio Co-Processor mode (RCP) is recommended. While attaching NXP Wireless Connectivity to NXP Processors provides ease-of-use and software compatibility, the Tri-Radio wireless solutions can also be connected to existing applications using third-party, non-NXP processors.
NXP offers a solution for high-end industrial control systems. Learn more about i.MX93 FRDM board and on-board IW612 Wi-Fi 6 Tri-radio module.
With the market moving to build energy efficient devices and systems, such as smart meters and solar inverters, the efforts to collect and track energy consumption have increased. A smart meter can collect, monitor, process and send power and voltage data to the customers and billing centers to analyze trends and optimize energy consumption. A solar inverter converts DC power produced from panels to AC power and supplies that energy to different loads.
The smart meter and solar inverter can communicate over narrowband radios like Zigbee, Thread or Bluetooth. They can use Zigbee or Thread to collect information like energy consumption, anomalies or maintenance cycles. Bluetooth technology can be used for commissioning smart devices on the network, making it easy to expand or scale the network of connected devices. When these energy devices utilize Wi-Fi connectivity, they can send the data to the cloud or to an In-Home Energy Display or Home Control Panel to show information on energy production, usage by different systems or appliances, cost savings on power, etc.
NXP provides a solution for smart energy management systems. The IoT-optimized IW610 Wi-Fi 6 Tri-radio solution can be paired with the i.MX 91 Processor in Radio-Co-Processor (RCP) mode to implement wireless connectivity in smart meter, solar inverter or other smart energy applications. With diverse host interface support for SDIO, USB, UART and SPI, the IW610 can be paired with a wide range of NXP processors or third-party, non-NXP processors. Additionally, the connectivity solution is scalable by pairing the i.MX 91 with the IW612 Wi-Fi 6 Tri-Radio solution or IW416 Wi-Fi 4 + Bluetooth solution for applications that require higher or lower wireless performance, respectively. For applications that require less processing performance, the RW61x can be used as a single-chip solution for MCU and connectivity.
For a better viewing experience, download the block diagram.
Start planning your next IIoT design with NXP’s latest processor and wireless solutions. Learn more about the i.MX 91 Processor and IW610 Wi-Fi 6 Tri-radio solution.
Aditi Patel is a Product Manager for NXP’s Wireless Connectivity Solutions. She focuses on Wi-Fi, Bluetooth and 802.15.4 products in the Industrial and IoT space and creates content for Mass Market enablement. She holds master’s degree in Engineering Management from Duke University and is based in San Jose.