Complete low-power Wi-Fi HaLow radio for IoT

June 06, 2016 // By Jean-Pierre Joosting
Complete low-power Wi-Fi HaLow radio for IoT
Nanoelectronics research center imec, Holst Centre (initiated by imec and TNO), and Wi-Fi IP provider Methods2Bussiness have presented a complete Wi-Fi HaLow™ radio. The low-power, long-range radio solution uses 10 times less power than state-of-the-art orthogonal frequency division multiplexing (OFDM) radios on the market.

The Wi-Fi HaLow™ radio can be used for a broad range of applications related to the Internet of Things (IoT) and complies with the most recent wireless networking protocol, IEEE 802.11ah.

The radio’s compliance with the recently amended wireless networking protocol ensures that it is especially optimized for IoT-related applications. The Wi-Fi Alliance® recently introduced the HaLow™ designation for the new low-power, long-range Wi-Fi protocol IEEE802.11ah. Compared to other IoT standards, its sub-GHz carrier frequency and mandatory modes with 1-MHz/2-MHz channel bandwidths allow devices to operate over a longer range with scalable data rates from 150 kb/s to 7.8 Mb/s. The standard uses OFDM to improve the link robustness against fading, which is important in urban environments, and to achieve a high spectral efficiency (data rate over a given bandwidth).

The radio integrates a sub-1GHz IEEE 802.11ah transceiver from imec and Holst Centre, and a Medium Access Controller (MAC) hardware and software IP and application layer from Methods2Business to enable 802.11ah communication between large numbers of IoT clients and the internet using a central access point. The transceiver comprises a complete low-power physical layer implementation of RF front-end and digital baseband. It features a 1.3nJ/b fully digital polar transmitter optimized for IoT applications as well as for the novel IEEE 802.11ah Wi-Fi protocol. The transmitter surpasses the tight spectral mask and error-vector-magnitude (EVM) requirements of conventional Wi-Fi standards. It does so while demonstrating a power consumption rate as low as 7.1mW in Tx mode for 0 dBm output power.

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