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Understanding The Latest Changes of Regulatory Testing for Wi-Fi 6E Devices

About This Webinar

Accelerate Wi-Fi 6E Regulatory Testing

Every Internet of Things (IoT) wireless device uses unlicensed frequency spectrum to enable connectivity. These devices are subject to comprehensive regulatory testing before entering the market. Certification/authorization is necessary before marketing a product in a specific country, regardless of where it is manufactured. In addition, the global regulatory landscape is complex. Each region or country has its own regulatory standards and requirements.

Most countries refer to the European Telecommunications Standards Institute (ETSI) and the Federal Communications Commission (FCC) for direction, but there are multiple standards for wireless LAN. Wi-Fi 6 (802.11ax), which emerged in 2019, provides increased spectral efficiency and higher data rates than its predecessor by using the orthogonal frequency-division multiple access (OFDMA) modulation scheme and higher order quadrature amplitude modulation (QAM). The Wi-Fi 6E (E for extended) variant enables device operation in the unlicensed 6 GHz band. This capability provides additional bandwidth but there are restrictions device manufacturers must understand to deliver devices to the marketplace and take advantage of the new spectrum.

Featured Presenters
Webinar hosting presenter
Senior Application Engineer
Bill Koerner is a Senior Application Engineer with Keysight’s General Electric Measurement Solutions group. Bill is responsible for the development and support of opportunities for the wireless regulatory test solutions and an active member in the FCC Telecommunication Certification Bodies (TCB) group and the ETSI Broadband Radio Access Network (BRAN) working group. Prior to joining Keysight, Bill worked as a RF/Microwave Systems Engineer with Hewlett-Packard for over ten years. In that role, he focused on satellite, aerospace, and cable TV applications, covering vector network analyzers, frequency-agile signal simulators, phase noise, spectrum analysis, and cable TV proof-of-performance measurements.
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