SWRU616B September   2023  – April 2024 CC3300 , CC3301 , CC3301MOD , CC3350 , CC3351

 

  1.   1
  2.   CC33xx WLAN Features Guide
  3.   Trademarks
  4. 1Introduction
    1. 1.1 Scope
    2. 1.2 Acronyms Used in This Document
    3. 1.3 CC33xx Specification
  5. 2General Features
    1. 2.1  Supported Rates
      1. 2.1.1 11ax Rates
      2. 2.1.2 11n Rates
      3. 2.1.3 11a/g Rates
      4. 2.1.4 11b Rates
    2. 2.2  A-MPDU and A-MSDU
    3. 2.3  BA Sessions
    4. 2.4  Keep Alive
      1. 2.4.1 STA
      2. 2.4.2 AP
    5. 2.5  Wake on WLAN (WoW)
    6. 2.6  Antenna Diversity
    7. 2.7  Quality of Service (QoS)
    8. 2.8  Security
      1. 2.8.1 Authentication Types
      2. 2.8.2 Encryption Types
    9. 2.9  Wi-Fi Provisioning
      1. 2.9.1 AP Provisioning
      2. 2.9.2 Bluetooth Low Energy Provisioning
      3. 2.9.3 Wi-Fi Protected Setup (WPS)
        1. 2.9.3.1 WPS PBC
        2. 2.9.3.2 WPS PIN
    10. 2.10 Wi-Fi Power Management Modes
      1. 2.10.1 Power Levels
        1. 2.10.1.1 Active
      2. 2.10.2 Power Save Delivery
        1. 2.10.2.1 Legacy Power Save
  6. 3Single Role: Station
    1. 3.1 Scanning
      1. 3.1.1 Active
      2. 3.1.2 Passive
    2. 3.2 Wi-Fi 6
    3. 3.3 Multicast Filtering
    4. 3.4 Preferred Networks
    5. 3.5 Channel Switch
    6. 3.6 Wi-Fi Power Management Modes
      1. 3.6.1 Power Save Delivery
        1. 3.6.1.1 Unscheduled Asynchronous Power Save Delivery (U-APSD)
        2. 3.6.1.2 Target Wake Time (TWT)
      2. 3.6.2 TI Specific Features
        1. 3.6.2.1 Auto Power-Save Mode
        2. 3.6.2.2 Long Sleep Interval
  7. 4Single Role: AP
    1. 4.1 Hidden SSID
    2. 4.2 Maximum Connected Stations
    3. 4.3 Aging
  8. 5Multirole Multichannel
    1. 5.1 AP-STA
    2. 5.2 STA-STA
  9. 6Wi-Fi/Bluetooth Low Energy Coexistence
  10. 7References
  11. 8Revision History

Long Sleep Interval

The CC33xx devices feature configurable Long sleep Interval (LSI) that reduces the power consumption of the device. The CC33xx can be configured to sleep for specific intervals so that it awakens every ‘n’ DTIMs (delivery traffic indication messages). This creates a tradeoff where the device is able to significantly reduce power consumption, but there is a possibility of losing multicast/broadcast frames between received DTIMs while the device is still asleep.

While the device is asleep, data will be buffered within the AP the CC33xx is connected to until the next DTIM that the CC33xx awakens for, at which point it receives the data. The potential tradeoff of losing data can occur if the buffer reaches capacity before the station can retrieve the data. The amount of time the device is asleep for is configurable in terms of DTIM intervals - the number of beacons sent between each DTIM. Thus the CC33x is able to awaken for a single broadcast within the specified interval of beacons sent.

For guidance on how to configure the LSI feature, please consult the CC33xx SDK.