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发表于 2017-6-8 11:26:29
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可以尝试以下方法:
1.<采用最新校准文件>
请重新校准,采用最新的CFG INI文件,看是否OK?
找MTK的射频接口人,索要最新的射频校准文件试试
2. <先慢校准后快速校准>
请采用慢速校准(非FHC),校准后把校准参数从NV里面导出来,将对应出现问题频段的参数覆盖INI 中对应的部分,重新用FHC 校准,看是否OK?
3. <修改切换点>
如果Fail点在切换点,请更改切换点,重新校准,看是否OK?
[WCDMA BAND8 TPC]
End1=12
End2=22PA OCTLEVEL PA Phase Compensation=0,0,0
PA OCTLEVEL PMU Level Dc2Dc=3.3V,3.0V,2.4V,2.1V,1.7V,1.4V,1.2V,0.8V
PA OCTLEVEL PMU Level PA Gain=36.09375,35.84375,35.15625,34.15625,32.84375,31.18750,28.59375,23.34375
PA OCTLEVEL PMU Level PA Mode=H,H,H,H,H,M,M,L
PA OCTLEVEL PMU Level Prf=24,22,20,16,14,10,5,0
PA OCTLEVEL PMU Level VBias=0,0,0,0,0,0,0,0
PA OCTLEVEL PMU Level Vm1=0,0,0,0,0,1,1,1
PA OCTLEVEL PMU Level Vm2=0,0,0,0,0,0,0,1
PA OCTLEVEL Sections=8
Power detector subband max uarfcn=2712,2724,2736,2748,2760,2772,2787,2796,2807,2818,2829,2840,2851,2863
Power detector subband power offset dB=1.56250,1.37500,1.03125,0.68750,0.50000,0.18750,0.00000,-0.12500,0.00000,0.12500,0.12500,0.75000,1.00000,1.28125
Start1=12
Start2=22Subband max uarfcn, PA high mode=2712,2724,2736,2748,2760,2772,2787,2796,2807,2818,2829,2840,2851,2863
Subband max uarfcn, PA low mode=2712,2724,2736,2748,2760,2772,2787,2796,2807,2818,2829,2840,2851,2863
Subband max uarfcn, PA middle mode=2712,2724,2736,2748,2760,2772,2787,2796,2807,2818,2829,2840,2851,2863
Subband power offset dB, PA high mode=-0.68750,-0.90625,-0.78125,-0.21875,0.15625,0.28125,0.00000,-0.31250,-0.65625,-0.87500,-0.71875,-0.40625,-0.18750,-0.21875
Subband power offset dB, PA low mode=-0.62500,-0.84375,-0.71875,-0.28125,0.06250,0.18750,0.00000,-0.28125,-0.50000,-0.68750,-0.59375,-0.21875,-0.06250,0.00000
Subband power offset dB, PA middle mode=-0.75000,-0.96875,-0.84375,-0.37500,0.00000,0.15625,0.00000,-0.37500,-0.68750,-0.93750,-0.81250,-0.43750,-0.18750,-0.21875
Temperature compensation offset dB, PA high mode=0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000
Temperature compensation offset dB, PA low mode=0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000
Temperature compensation offset dB, PA middle mode=0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000
VGA DAC, PA high mode=296,247
VGA DAC, PA low mode=161,250
VGA DAC, PA middle mode=238,249
如上End和Start为切换点,其中End就是PA工作状态由H到M,由M到L两种状态切换点;其中Start就是PA工作状态由L到M,由M到H两种状态切换点;
上面END1=12,WCDMA的最大目标功率为24 dBm,24-12=12,也就意味着PA由H到M切换功率在12 dBm附近;END2=22,24-22=2,也就意味着PA由M到L切换功率在2 dBm附近;Start1和Start2与END是一样的含义。
再次查看我们内环出现的fail点,如果发现确实是在切换点处出现fail,所以按照如上的理解,我们可以尝试把切换点12在±2范围内修正,同步切换点22在±2范围内修正,
重新校准看是否可以解决内环问题。
4. <修改电压值>
这个方法需要再第三种配合使用,那就是修正调节不同目标功率下所对应的DC2DC电压值。如上我们可以调整0dBm对应的0.8V,10 dBm对应的1.4V,以0.1V为步径增加电压值去重新校准看是否可以解决此问题。
至此上述的方法应该就可以解决内环功控失败的问题,如果依然有问题,那就进行下面检查。
5. <查看电源>
重新检查下PA部分原理图电源设计和PCB走线布局,检查PA Vcc2 电路是否按照参考设计进行,对地电容要合理,不合理的话会导致PA供电不稳,噪声太大而影响PA工作。
6. <硬件调试>
如果不是切换点,只能通过调整匹配电路(注意要PA看到RF Carkit ,要收敛),可以测试H M L Channel, 是否一些信道OK,而一部分信道Fail,如果是这样,且不是切换点,只能通过调整这个匹配,强化匹配的收敛性(兼顾HML Channel)。
7. <开启PA Drift功能>
如果如上方法均未能找到解决内环功控失败的问题,那我们就采取最后一招,如果确认ILPC Fail 是否在HML 切换点出现的Fail,那么我们开启PA Drift功能来补偿,改善该问题。按照MTK的说法,此功能肯定是可以完美解决W内环问题,但是有个问题是这个补偿功能,想要找到一个合适的参数解决不同批次的板子内环问题,这个参数需要一定数量的样本去验证,比较困难。所以此功能对应解决单个机器的内环问题比较实用。具体操作MTK有个文档介绍,我这没找到,可以找MTK要。
希望上述方法能解决你的问题。
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