IEEE 802.11ac: What Does it Mean for Test?
802.11ac is expected to make a substantial impact in the marketplace, with over one billion ICs being shipped worldwide. This paper highlights the motivations, key features and market forecast for 802.11ac.
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802.11ac is expected to make a substantial impact in the marketplace, with over one billion ICs being shipped worldwide. This paper highlights the motivations, key features and market forecast for 802.11ac.
This paper highlights implications LTE and 802.11ac have on power amplifier (PA) designs, explains the use of DPD and ET to manage linearity and efficiency and discusses measurements for evaluating and optimizing PAs using these technologies.
Learn about the key RF-PHY changes made in Wi-Fi 6/802.11ax compared to Wi-Fi 5 and older generations: the addition of a new frequency band, higher modulation rate, smaller subcarrier spacing, longer guard interval and the introduction of the OFDMA modulation technique providing capacity improvements and latency reduction.
Solution reduces test time and improves reliability of measurements
R&D testing solution for WLAN MIMO
802.11ax presents additional challenges for power amplifier design, characterization and test. This application note covers new physical layer test requirements including increased linearity for 1024QAM, in-band emission testing and more.
Discover how micro-location positioning unlocks a new generation of use cases. Eve Danel compares positioning accuracy among Bluetooth® 5.1, UWB, and Wi-Fi 802.11az technologies.
Devices operating in the 6 GHz band must coexist with incumbent devices. The new Wi-Fi 6E spectrum poses challenges and device makers must consider the optimum test solution and its implementation when building the next generation of Wi-Fi 6E devices.