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这是发射功率测试的最后一个内容:配置的发射功率。终端功率的测试一直都是最重要最复杂的,也是最首要验证的一个指标,NTN终端也不例外。前面学习了EIRP的最小和最大,以及TRP的最大指标,那么配置的发射功率,是在这个基础上进一步做了放宽。
01、Configured transmitted power
什么是配置的发射功率(configured transmitted power)?简单地说,就是NTN VSAT可配置其输出功率。NTN VSAT可配置的最大输出功率PCMAX,f,c被定义为:在每个时隙中为服务小区c的载波f配置的UE最大输出功率,对应于上层滤波的RSRP测量参考点的给定发射分支参考点可用的功率。
实际上,对于终端而言,需要具备很多的测量能力,例如5G终端物理层的测量能力就有五十多项,如下所示,而这些测量数值都是要报给上层的,并由上层来进行判断和控制。其中RSRP(Reference Signal Received Power)测量就是最重要的测量能力之一。RSRP测量是有参考点的,例如说:对于FR1,SS-RSRP的参考点应为UE的天线连接器端口。对于FR2,SS-RSRP应基于对应给定接收分支的天线单元的合成信号进行测量。那么RSRP的测量参考点就是配置的发射功率的参考点。在这个参考点发射的最大功率就是配置的PCMAX,f,c。所以说这个配置功率,除了射频方面的硬性规定,还跟上层协议有很大关系,也就是说终端的发射功率还受到上层信令的实时调控,而上层信令又反过来根据当前的物理资源使用的状态来判断和决定。例如根据业务的需要,在某小区,某频点,某时刻的发射功率需上调或下调。
SS reference signal received power (SS-RSRP)CSI reference signal received power (CSI-RSRP)SS reference signal received quality (SS-RSRQ)CSI reference signal received quality (CSI-RSRQ)SS signal-to-noise and interference ratio (SS-SINR)CSI siqnal-to-noise and interference ratio (CSI-SINR)UE GNSS Timing of Cell Frames for UE positioning for E-UTRAUE GNSS code measurementsUE GNSS carrier phase measurementsIEEE 802.11 WLAN RSSIReference signal time difference (RSTD) for E-UTRASFN and frame timing difference (SFTD)E-UTRA RSRPE-UTRA RSRQE-UTRA RS-SINRSS reference signal received power per branch (SS-RSRPB)SRS reference signal received power (SRS-RSRP)CLI Received signal strength indicator (CL-RSSI)Received Signal Strength Indicator (RSSI)PSBCH reference signal received power (PSBCH-RSRP)PSSCH reference signal received power (PSSCH-RSRP)PSCCH reference signal received power (PSCCH-RSRP)Sidelink received signal strength indicator (SL RSSI)Sidelink channel occupancy ratio (SL CR)Sidelink channel busy ratio (SL CBR)DL PRS reference signal received power (DL PRS-RSRP)DL reference signal time difference (DL RSTD)UE Rx - Tx time differenceSS reference signal antenna relative phase (SS-RSARP)UTRA FDD CPICH RSCPUTRA FDD carrier RSSIUTRA FDD CPICH EC/NoDL PRS reference signal received path power (DL PRS-RSRPP)Sidelink PRS reference signal received power (SL PRS-RSRP)Sidelink PRS reference signal received path power (SL PRS-RSRPP)Sidelink relative time of arrival (TSL-RTOA)Sidelink angle of arrival (SL AoA)Sidelink Rx-Tx time differenceSidelink reference signal time difference (SL RSTD)DL reference signal carrier phase (DL RSCP)DL reference signal carrier phase difference (DL RSCPD)Sidelink PRS received signal strength indicator (SL PRS-RSSI)Time domain channel property (TDCP)UE Rx - Tx time difference subframe offsetDL timing driftSidelink PRS channel occupancy ratio (SL PRS-CR)Sidelink PRS channel busy ratio (SL PRS-CBR)Coherent joint transmission calibration delay offsetCoherent joint transmission calibration frequency offsetCoherent joint transmission calibration phase offsetLow power reference signal received power (LP-RSRP)Low power reference signal received quality (LP-RSRQ)Squared Generalized Cosine Similarity (SGCS)
02、配置功率的范围要求
这个在服务小区c的载波f上配置的NTN VSAT最大输出功率PCMAX,f,c可以在什么范围内进行调节呢?分为EIRP和TRP两种要求。
1. EIRP
如果是EIRP,则应满足以下范围:
PUEType - TEIRP ≤ PUMAX,f,c ≤ EIRPmax + TEIRP
其中,PUEType是NTN终端的OTA测试—VSAT分类及其功率限值中定义的NTN VSAT最小峰值EIRP,EIRPmax是在NTN终端的OTA测试—VSAT分类及其功率限值中定义的最大EIRP,TEIRP则是根据不同频段上下调整的范围,如下所示。调整之后,配置的EIRP发射功率可以比原有指标更小或更大。测试的方法与EIRP的测量一样,链路锁定发射波束的峰值方向,在链路角度上进行相应测量。
TEIRP:
n512、n511、n510频段:3.4 dBn509、n508、n248、n247频段:2.5 dB
2. TRP
如果是TRP,则应满足以下范围:
PTMAX,f,c ≤ TRPMAX + TTRP
其中,PTMAX,f,c是相应测量的总辐射功率;TRPMAX是NTN终端的OTA测试—VSAT分类及其功率限值中定义的NTN VSAT最大TRP限值;TTRP则是根据不同频段调整的范围,如下所示。调整之后,配置的发射功率可以比原有指标更大。测试的方法也与TRP的测量一样,链路锁定发射波束的峰值方向,在整个TRP网格上进行相应测量。
TTRP:
n512、n511、n510频段:3 dBn509、n508、n248、n247频段:2.2 dB
所以说实际的卫星设备,实际能够发出的最大功率都应该比常规要求的功率值范围更大才行,这样才能应对这种配置的发射功率的要求。下面是一个Ka波段VSAT收发信机模组的spec实例。P1dB(1dB压缩点功率)的指标是37-38dBm,可以认为是最大线性端口输出功率,近似于TRP(如果不考虑天线效率的损失);发射天线增益为54-62dB。因此相当于EIRP最高可达100dBm。这个范围符合NTN VSAT常规要求以及配置功率的额外要求,而且还有一定的余量。
