| Local Cell ID | Indicates the local cell ID. It uniquely identifies a cell within an eNodeB. This parameter applies only to LTE FDD and LTE TDD. |
| Srs Power Control Strategy | Indicates the SRS power control algorithm, which can be the SINR-based SRS power control algorithm, SRS power control algorithm based on the converged SINR and RSRP, and SINR-based adaptive SRS power control algorithm. This parameter applies only to LTE TDD. |
| PUCCH Close Loop Power Control Type | Indicates whether the P0NominalPUCCH parameter affects closed-loop power control (CL PC) for the PUCCH. If this parameter is set to NOT_USE_P0NOMINALPUCCH, the P0NominalPUCCH parameter does not affect CL PC for the PUCCH. If this parameter is set to USE_P0NOMINALPUCCH, the reference signal received power (RSRP) cannot exceed the P0NominalPUCCH parameter value in CL PC for the PUCCH. This parameter applies only to LTE FDD and LTE TDD. |
| Pucch Power Control Period | Indicates the period of power control for the PUCCH. This parameter applies only to LTE FDD and LTE TDD. |
| Pucch Power Control Target Sinr Offset | Indicates the offset to the target signal to interference plus noise ratio (SINR) in power control for the PUCCH. This parameter applies only to LTE FDD and LTE TDD. |
| PUSCH RSRP High Threshold | Indicates the upper limit of RSRP in closed-loop power control for the PUSCH. This parameter takes effect only when PuschRsrpHighThdSwitch of the UlPcAlgoSwitch parameter in the CellAlgoSwitch MO is on. This parameter applies only to LTE FDD and LTE TDD. |
| Pusch IoT Control A3Offset | Indicates the offset of signal quality of a neighboring cell to that of the serving cell. This parameter is used to report a measurement event for PUSCH IoT-based power control. A large value of this parameter indicates that the event can be reported only when a UE receives signals of good quality from a neighboring cell. A small value of this parameter indicates that the event can be reported when a UE receives signals of poor quality from a neighboring cell. For details, see 3GPP TS 36.331. This parameter applies only to LTE TDD. |
| IoT NearPoint Optimization Switch | Indicates whether to enable IoT-based optimization for UEs at the cell center. If this parameter is set to OFF(Off), the eNodeB does not deliver event A3-based measurement configurations to optimize the uplink throughput of UEs at the cell center when strong interference occurs (the IoT is greater than 7 dB). If this parameter is set to ON(On), the eNodeB delivers event A3-based measurement configurations to optimize the uplink throughput of UEs at the cell center when strong interference occurs (the IoT is greater than 7 dB). This parameter applies only to LTE TDD. |
| IoT NearPoint PathLoss Threshold | Indicates the path loss threshold of a UE for delivering event A3-based measurement configurations for IoT-based power control if the cell has strong interference (the IoT is greater than 7 dB). This threshold is used for IoT-based optimization for UEs at the cell center. This parameter applies only to LTE TDD. If the path loss of a UE is less than this threshold, the eNodeB delivers event A3-based measurement configurations to this UE. If the path loss of a UE is greater than this threshold, the eNodeB does not deliver event A3-based measurement configurations to this UE. |
| SRS Power Control SINR Target | Indicates the target SINR for SRS power control. If this parameter is set to a large value, the transmit power of UEs increases, causing interference to neighboring cells. If this parameter is set to a small value, the transmit power of UEs decreases, causing poor uplink SRS receive performance in the local cell. If inter-cell interference is strong, set this parameter to a small value. If SRS receive performance in the local cell is poor, set this parameter to a large value. This parameter applies only to LTE TDD. |
| SRS Power Control RSRP Target | Indicates the target RSRP for SRS power control. If this parameter is set to a large value, the transmit power of UEs increases, causing interference to neighboring cells. If this parameter is set to a small value, the transmit power of UEs decreases, causing poor uplink SRS receive performance in the local cell. If inter-cell interference is strong, set this parameter to a small value. If SRS receive performance in the local cell is poor, set this parameter to a large value. This parameter applies only to LTE TDD. |
| PUSCH PSD Control Target | Indicates the transmit power spectral density for the PUSCH of normal UEs when the SchedulerCtrlPowerSwitch(SchedulerCtrlPowerSwitch) option of the UlSchSwitch parameter is selected. The larger the value of this parameter, the higher the transmit power spectral density for the PUSCH of normal UEs. If this parameter is set to ADAPTIVE, the eNodeB automatically adjusts the transmit power spectral density of these UEs based on the network load. This parameter applies only to LTE FDD and LTE TDD. |
| Close Loop Optimization PUSCH Type | Indicates the scope of UEs near the cell center for which optimized closed-loop power control for the PUSCH is enabled. If this parameter is set to Normal, optimized closed-loop power control is enabled for all UEs near the cell center. If this parameter is set to Us, optimized closed-loop power control is enabled only for UEs near the cell center running unlimited services. If this parameter is set to ULBigPkt, optimized closed-loop power control is enabled only for UEs near the cell center running services with large packets in the uplink. If this parameter is set to UsOrUlBigPkt, optimized closed-loop power control is enabled for UEs near the cell center running unlimited services and those running services with large packets in the uplink. This parameter applies only to LTE TDD cells. |
| PUSCH Optimization IBLER Threshold | Indicates the target BLER when PUSCH power control is optimized for UEs at the cell center. This parameter applies only to LTE TDD. |
| PUSCH PSD Control Target for Unlimited Service | Indicates the transmit power spectral density for the PUSCH of UEs running unlimited services when the SchedulerCtrlPowerSwitch(SchedulerCtrlPowerSwitch) check box under the UlSchSwitch parameter is selected. The larger the value of this parameter, the higher the transmit power spectral density for the PUSCH of UEs running unlimited services. If this parameter is set to SAME AS NS, the transmit power spectral density of these UEs is the same as that of Normal UEs. This parameter applies only to LTE FDD and LTE TDD. |
| IoT Control IN Correct Switch | Indicates whether to enable noise and interference correction for interference-based uplink power control. This parameter applies only to LTE TDD. |
| IoT Control Edge UE Pathloss Threshold | Indicates the path loss threshold for identifying CEUs for interference coordination in the interference-based uplink power control function. This parameter applies only to LTE TDD. |
| IoT Control NI Threshold | Indicates the interference threshold for triggering interference-based uplink power control. This parameter applies only to LTE TDD. |
| Near Point PUSCH User Type | Indicates the type of UEs near the cell center to which the PUSCH power increase applies. If this parameter is set to AllUser(AllUser), the PUSCH power increase applies to all UEs near the cell center. If this parameter is set to UlBigPktUser(UlBigPktUser), the PUSCH power increase applies to all large-packet UEs near the cell center. This option applies only to LTE FDD. |
| VoLTE SINR High Threshold Offset | Indicates the offset of the PUSCH SINR high threshold of UEs running voice services against the PUSCH SINR high threshold of UEs running data services. This parameter takes effect only when closed-loop PUSCH power control is enabled. In a heavily loaded network with a large number of UEs, setting this parameter to a proper value decreases interference in neighboring cells caused by CCUs running voice services in the local cell, and improves voice quality for CEUs running voice services in the local cell. If this parameter is set to 0, the optimization scheme does not apply to UEs running voice services. If this parameter is adjusted to a value less than 0, the PUSCH SINR high threshold of UEs running voice services is lowered and the SINR evaluation value is changed. For LTE TDD, this parameter is valid only when the PuschIoTCtrlSwitch option is deselected under the UlPcAlgoSwitch parameter; this parameter is not applicable to UEs using 64QAM in the uplink. This parameter applies only to LTE FDD and LTE TDD. |
| PUSCH RSRP High Threshold Offset for VoIP | Indicates the offset of the upper limit of PUSCH RSRP used for voice (VoLTE and PTT) service users relative to the upper limit of PUSCH RSRP used for data service users. If this parameter is set to a value in the range of 0 to 30, the value of this parameter plus the upper limit of PUSCH RSRP used for data service users is the upper limit of PUSCH RSRP used for voice service users. If this parameter is set to 255, there is no upper limit on the PUSCH RSRP used for voice service users. This parameter is valid only if the PuschRsrpHighThdSwitch option of the UlPcAlgoSwitch parameter, the ACHSwitch option of the IOptAlgoSwitch parameter, or the UL_COORD_PC_SWITCH option of the UlCsSw parameter is selected. This parameter applies only to LTE FDD. |
| VoLTE PUSCH Power Offset | Indicates the offset of the uplink PUSCH power of VoLTE UEs to that of non-VoLTE UEs. This parameter applies only to LTE FDD and LTE TDD. |
| D-MIMO Srs Power Control Offset for Sinr Target | Indicates the offset to the target SINR for beamforming UEs during SRS power control in D-MIMO scenarios. If this parameter is set to 0, the target SINR of SRS power control for beamforming UEs is not adjusted. If this parameter is set to another value, the target SINR of SRS power control for beamforming UEs equals the configured target SINR plus this offset. This parameter applies only to LTE TDD. |
| Power Checking Function Switch | Indicates whether to enable power checking. If this parameter is set to ON, the eNodeB checks the power of physical downlink channels. If the power exceeds the maximum power allowed by the single-channel capability of the RRU, the eNodeB discards some data to ensure that the configured power is not higher than the maximum power. If this parameter is set to OFF, the eNodeB does not check the power of physical downlink channels. This parameter applies only to LTE FDD and LTE TDD. |
