It communicates using the 802.11ad protocol over an IF signal at 15 GHz. The QCA6335 chipset when combined with the QCA6310 chipset can communicate over the 60 GHz unlicensed frequ...
It communicates using the 802.11ad protocol over an IF signal at 15 GHz. The QCA6335 chipset when combined with the QCA6310 chipset can communicate over the 60 GHz unlicensed frequ...
It communicates using the 802.11ad protocol over an IF signal at 15 GHz. The QCA6335 chipset when combined with the QCA6310 chipset can communicate over the 60 GHz unlicensed frequency band at speeds of 4.6 Gbps using a single carrier transmission.
Includes dedicated ground pins for improved grounding, mechanical strength, and thermal continuity and employs ...
It communicates using the 802.11ad protocol over an IF signal at 15 GHz. The QCA6335 chipset when combined with the QCA6310 chipset can communicate over the 60 GHz unlicensed frequency band at speeds of 4.6 Gbps using a single carrier transmission.
Includes dedicated ground pins for improved grounding, mechanical strength, and thermal continuity and employs DAC/ADC, BB amplification and filtering, and conversion from IQ modulation to IF signaling at 15 GHz. Supports single carrier modulation from BPSK up to 16 QAM and implements the I...
QCA6335 is a product of Qualcomm Technologies, Inc., and/or its subsidiaries.
Features
- Smallest, highly integrated 802.11ad solution
- Industry-leading throughput (4.6 Gbps PHY) with low power consumption
- Supports up to eight simultaneous RF modules for unparalleled coverage and range. Each RF module packs 32 antennas in a small package enabling up to 30 dBi of directivity and implements QTI beam forming technology
- Supports receive diversity to improve quality and reliability of wireless interface
- Supports two physical PCIe generation 2.0 ports
- Supports a SPI interface to connect to an external FLASH for storing product configuration information
- Requires only a single coaxial connection to the RF module
- Supports FST, which enables fast transparent switching between WLAN bands to deal with user mobility, dynamic channel conditions, and so on
- Supports control PHY modulation, which can detect and decode signals in ultra-low SNRs, lower than 0 dB
Development tools and purchase options.
