ZTE in partnership with China Mobile and Qualcomm Technologies has successfully completed 5G Sub-band Full-Duplex (SBFD) verification and compatibility test in Xi'an Joint Innovation Lab, achieving the industry's first sub-band full-duplex gNB, with higher uplink throughput over 1.47Gbps and lower end-to-end latency of 3.9ms simultaneously in TDD band with 100MHz system bandwidth. This flexible frame structure was verified with Snapdragon® X65 Modem-RF System based reference device.
As ZTE continues delivering enhanced mobile broadband experiences and extending 5G reach into new use cases, the company is seeing major breakthroughs in 5G technology, allowing for higher flexibility and efficiency on limited radio spectrums within a conventional TDD band.
Sub-band full-duplex (SBFD) is a promising enhancement as it allows gNB to perform simultaneous transmission and reception at the same time but in different non-overlapping sub-bands. 5G Advanced SBFD is a key milestone towards full duplex evolution. In SBFD, gNB allows flexible UL/DL resource allocation and adaptation based on UL/DL traffic. Further, it will help reduce latency while improving UL coverage and system throughput.
ZTE has launched the industry's first SBFD RRU (Remote Radio Unit) with enhanced transceiver architecture by integrating multiple self-interference cancellation schemes like spatial isolation, analog sub-band filter and digital interference cancellation. The self-interference could be mitigated over 130 dB which enables optimal reception performance of the uplink signal at the gNB receiver. In addition, ZTE's SBFD solution adopts "Flexible" slot in frame structure configuration and uses UE-level radio resource scheduling mechanisms to be compatible with legacy UEs.
As the industry moves towards 5G Advanced, China Mobile, ZTE and Qualcomm Technologies, have been demonstrating their continuous push towards innovations, expecting to capture new growth opportunities in the consumer and enterprise segments.ZTE has launched the industry's first SBFD RRU (Remote Radio Unit) with enhanced transceiver architecture by integrating multiple self-interference cancellation schemes like spatial isolation, analog sub-band filter and digital interference cancellation. The self-interference could be mitigated over 130dB which enables optimal reception performance of the uplink signal at the gNB receiver. In addition, ZTE's SBFD solution adopts "Flexible" slot in frame structure configuration and uses UE-level radio resource scheduling mechanisms to be compatible with legacy UEs.
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