![]() NR supports a supplementary uplink (SUL) to specifically handle this scenario. There is co-existence only in the UL direction, typically within the UL part of a lower-frequency paired spectrum, with NR downlink transmission taking place in the spectrum dedicated to NR, typically at higher frequencies.LTE/NR co-existence in both DL and UL directions. ![]() Two co-existence scenarios were identified in 3GPP and guided the NR design: Since the lower frequency bands are already occupied by LTE primarily, so for enabling early NR deployment in lower-frequency spectra, LTE/NR spectrum co-existence is thought of as the way for an operator to deploy NR in the same spectrum as an already existing LTE deployment. In conjunction with a UL/DL carrier pair (FDD band) or a bidirectional carrier (TDD band), a UE may be configured with additional, Supplementary Uplink (SUL) which can improve UL coverage for high frequency scenarios. In 5G NR, a downlink carrier may be associated with two uplink carriers (the non-SUL carrier and the SUL carrier), where the Supplementary Uplink (SUL) carrier is typically located in lower frequency bands, thereby providing enhanced uplink coverage.Įxample of Supplementary Uplink: With SUL, the UE is configured with 2 ULs for one DL of the same cell as depicted in figure below: Example of Supplementary Uplinkīelow are the Operating Bands defined by 3GPP for NR in Frequency Range 1 where the duplex mode is SUL: Operating Bands supporting SUL as duplex mode Supplementary Uplink (in detail)
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