四平网站建设哪家效果好,好文案网站,wordpress如何站点,福州网站设计企业建站7.2 Reference sensitivity level
接收灵敏度是表示接收机能解析出信号的最小功率#xff08;和接收机noise figure相关所以RX lineup的大部分工作就是在调整Gain达到最佳NF#xff09;The throughput shall be ≥ 95%#xff08;BER#xff1a;bit error rate 并不是L3ca…7.2 Reference sensitivity level
接收灵敏度是表示接收机能解析出信号的最小功率和接收机noise figure相关所以RX lineup的大部分工作就是在调整Gain达到最佳NFThe throughput shall be ≥ 95%BERbit error rate 并不是L3call的tput对不同调制的信号要求也不一样高阶调制信号需要更高的分辨率所以调制阶数越高能达到的灵敏度越低但实际上我们只测试最低的调制方式用于验证硬件能力测试信号暂用的频谱只有1/4的载波带宽所以在自己做波形的时候要功率的分配弄错了灵敏度的接错就相差了6dB在5G初期仪表厂家也犯过一样的错Table 7.2.5-1: NR Wide Area BS reference sensitivity levels BS channel Sub-carrier Reference Reference sensitivity power level, PREFSENS (dBm) bandwidth (MHz) spacing (kHz) measurement channel f ≤ 3.0 GHz 3.0 GHz f ≤ 4.2 GHz 4.2 GHz f ≤ 6.0 GHz 5, 10, 15 15 G-FR1-A1-1 (Note 1) -101 -100.7 -100.5 G-FR1-A1-10 (Note 3) -101 (Note 2) -100.7 (Note 2) -100.5 (Note 2) 10, 15 30 G-FR1-A1-2 (Note 1) -101.1 -100.8 -100.6 10, 15 60 G-FR1-A1-3 (Note 1) -98.2 -97.9 -97.7 20, 25, 30, 40, 15 G-FR1-A1-4 (Note 1) -94.6 -94.3 -94.1 50 G-FR1-A1-11 (Note 4) -94.6 (Note 2) -94.3 (Note 2) -94.1 (Note 2) 20, 25, 30, 40, 50, 60, 70, 80, 90, 100 30 G-FR1-A1-5 (Note 1) -94.9 -94.6 -94.4 20, 25, 30, 40, 50, 60, 70, 80, 90, 100 60 G-FR1-A1-6 (Note 1) -95 -94.7 -94.5 7.3 Dynamic range
用来验证上行抗干扰的能力在典型的信号下信号功率太大会导致基站饱和LNA当然也不能太小加入高斯白噪声看基站是否能解码the throughput shall be ≥ 95%经常会调高噪声验证基站能对抗多大的干扰。或者降低有用信号的功率。总之就是改变信噪比。Table 7.3.5-1: Wide Area BS dynamic range BS channel bandwidth (MHz) Subcarrier spacing (kHz) Reference measurement channel Wanted signal mean power (dBm) Interfering signal mean power (dBm) / BWConfig Type of interfering signal 5 15 G-FR1-A2-1 -70.4 -82.5 AWGN 30 G-FR1-A2-2 -71.1 10 15 G-FR1-A2-1 -70.4 -79.3 AWGN 30 G-FR1-A2-2 -71.1 60 G-FR1-A2-3 -68.1 7.4 In-band selectivity and blocking 除了dynamic range是测试抗干扰能那在operation band内如果有干扰了那我们怎么测试基站的抗干扰性能
7.4.1 Adjacent Channel Selectivity (ACS)
在operation band内我们的腔体滤波器是没有办法过滤干扰的只能靠数字滤波和Dynamic range不一样的是干扰信号可能是自己或其他基站的杂散信号所以这次干扰信号就是和载波信号一样的调制信号那么调制信号有不同的阶数并且阶数越高抗干扰越差那这个case的测试信号一般就选用高阶的调制信号
Table 7.4.1.5-1: Base station ACS requirement BS channel bandwidth of the lowest/highest carrier received (MHz) Wanted signal mean power (dBm) Interfering signal mean power (dBm) 5, 10, 15, 20, 25, 30, 40, 50, 60, 70, 80, 90, 100 (Note 1) PREFSENS 6 dB Wide Area BS: -52 Medium Range BS: -47 Local Area BS: -44 7.4.2 In-band blocking
Operating band 以内符合general 和narrow blocking的要求和wanted信号靠的很近是容易fail的case
in-band blocking requirement applies from FUL_low - ΔfOOB to FUL_high ΔfOOB, excluding the downlink frequency range of the operating band
Table 7.4.2.5-0: ΔfOOB offset for NR operating bands BS type Operating band characteristics ΔfOOB (MHz) BS type 1-C FUL_high – FUL_low ≤ 200 MHz 20 200 MHz FUL_high – FUL_low ≤ 900 MHz 60
Table 7.4.2.5-1: Base station general blocking requirement BS channel bandwidth of the lowest/highest carrier received (MHz) Wanted signal mean power (dBm) Interfering signal mean power (dBm) Interfering signal centre frequency minimum offset from the lower/upper Base Station RF Bandwidth edge or sub-block edge inside a sub-block gap (MHz) Type of interfering signal 5, 10, 15, 20 PREFSENS 6 dB Wide Area BS: -43 Medium Range BS: -38 Local Area BS: -35 ±7.5 5 MHz DFT-s-OFDM NR signal, 15 kHz SCS, 25 RBs 25, 30, 40, 50, 60, 70, 80, 90, 100 PREFSENS 6 dB Wide Area BS: -43 Medium Range BS: -38 Local Area BS: -35 ±30 20 MHz DFT-s-OFDM NR signal, 15 kHz SCS, 100 RBs NOTE: PREFSENS depends on the RAT. For NR, PREFSENS depends also on the BS channel bandwidth as specified in TS 38.104 [2], table 7.2.2-1, 7.2.2-2 and 7.2.2-3. For NB-IoT, PREFSENS depends also on the sub-carrier spacing as specified in tables 7.2-5, 7.2-6 and 7.2-8 of TS 36.141 [24]. Table 7.4.2.5-2: Base station narrowband blocking requirement BS channel bandwidth of the lowest/highest carrier received (MHz) Wanted signal mean power (dBm) Interfering signal mean power (dBm) 5, 10, 15, 20, 25, 30, 40, 50, 60, 70, 80, 90, 100 (Note 1) PREFSENS 6 dB Wide Area BS: -49 Medium Range BS: -44 Local Area BS: -41 NOTE 1: The SCS for the lowest/highest carrier received is the lowest SCS supported by the BS for that BS channel bandwidth NOTE 2: PREFSENS depends on the BS channel bandwidth as specified in TS 38.104 [2], table 7.2.2-1, 7.2.2-2 and 7.2.2-3. NOTE 3: 7.5 kHz shift is not applied to the wanted signal. 7.5 Out-of-band blocking
测完了带的抗干扰的验证就到带外了
特点测试耗时长
The CW interfering signal shall be swept with a step size of 1 MHz over than range 1 MHz to (FUL_low - ΔfOOB) MHz and (FUL_high ΔfOOB) MHz to 12750 MHz.
Table 7.5.5.1-1: Out-of-band blocking performance requirement Wanted signal mean power (dBm) Interfering signal mean power (dBm) Type of interfering signal PREFSENS 6 dB (Note 1) -15 CW carrier 7.5.5.2 Co-location requirements
除了一般的带外blocking还有DL 频带的co-location 模拟TX有大功率落在接收频段
Table 7.5.5.2-1: Blocking performance requirement for NR BS when co-located with BS in other frequency bands. Frequency range of interfering signal Wanted signal mean power for WA BS (dBm) Interfering signal mean power for WA BS (dBm) Interfering signal mean power for MR BS (dBm) Interfering signal mean power for LA BS (dBm) Type of interfering signal Frequency range of co-located downlink operating band PREFSENS 6dB (Note 1) 16 8 x (Note 2) CW carrier 7.6 Receiver spurious emissions
一般没有问题测试意义不大
The receiver spurious emissions power is the power of emissions generated or amplified in a receiver unit that appear at the antenna connector (for BS type 1-C) or at the TAB connector (for BS type 1-H). The requirements apply to all BS with separate RX and TX antenna connectors / TAB connectors.
NOTE: In this case for FDD operation the test is performed when both TX and RX are ON, with the TX antenna connectors / TAB connectors terminated. For TDD connectors capable of transmit and receive ensure the transmitter is OFF.
Table 7.6.5.1-1: General BS receiver spurious emissions limits Spurious frequency range Basic limit Measurement bandwidth Notes 30 MHz – 1 GHz -57 dBm 100 kHz Note 1 1 GHz – 12.75 GHz -47 dBm 1 MHz Note 1, Note 2 12.75 GHz – 5th harmonic of the upper frequency edge of the UL operating band in GHz -47 dBm 1 MHz Note 1, Note 2, Note 3 7.7 Receiver intermodulation
two interfering RF signals can produce an interfering signal in the band of the desired channel
The throughput shall be ≥ 95%
Table 7.7.5-1: General intermodulation requirement Base Station type Wanted Signal mean power (dBm) Mean power of interfering signals (dBm) Type of interfering signals Wide Area BS PREFSENS 6 dB -52 Medium Range BS PREFSENS 6 dB -47 See table 7.7.5-2
Table 7.7.5-2: Interfering signals for intermodulation requirement BS channel bandwidth of the lowest/highest carrier received (MHz) Interfering signal centre frequency offset from the lower/upper Base Station RF Bandwidth edge (MHz) Type of interfering signal (Note 3) 100 ±7.48 CW ±25 20 MHz DFT-s-OFDM NR signal, (Note 2) NOTE 1: For the 15 kHz subcarrier spacing, the number of RB is 25. For the 30 kHz subcarrier spacing, the number of RB is 10. NOTE 2: For the 15 kHz subcarrier spacing, the number of RB is 100. For the 30 kHz subcarrier spacing, the number of RB is 50. For the 60 kHz subcarrier spacing, the number of RB is 24. NOTE 3: The RBs shall be placed adjacent to the transmission bandwidth configuration edge which is closer to the Base Station RF Bandwidth edge. 7.8 In-channel selectivity
In-channel selectivity (ICS) is a measure of the receiver ability to receive a wanted signal at its assigned resource block locations at the antenna connector
ACS是相邻信道的选择性ICS就是载波内PRB的选择性wanted signal摆在中心频点两边interfering signal摆在另一边
Table 7.8.5-1: Wide Area BS in-channel selectivity NR channel bandwidth Subcarrier spacing Reference measurement Wanted signal mean power (dBm) Interfering signal mean Type of interfering signal (MHz) (kHz) channel f ≤ 3.0 GHz 3.0 GHz f ≤ 4.2 GHz 4.2 GHz f ≤ 6.0 GHz power (dBm) 40, 50, 60, 70, 80, 90, 100 30 G-FR1-A1-5 -91.2 -90.8 -90.5 -71.4 DFT-s-OFDM NR signal, 30 kHz SCS, 50 RBs NOTE: Wanted and interfering signal are placed adjacently around Fc, where the Fc is defined for BS channel bandwidth of the wanted signal according to the table 5.4.2.2-1 in TS 38.104 [2]. The aggregated wanted and interferer signal shall be centred in the BS channel bandwidth of the wanted signal.
