MTK6252 GSM850 PCS1900校准问题

不是很清楚这个东东，可以查看一下自动生成的LOGO文件，看出错信息，然后检查CONFIG对不对，还有INI文件是否正确，datebase是否是与软件版本一致。还有问硬件是否可以这两个频段校准，俺也是外行，双频都是用900,1800

工具更新下，应该没有问题

之前有校准过的话，现在很有可能是匹配的问题了；

===========TX IQ Cal Start===============
===========TX IQ Cal Result Detail===============
Band :2 Channel= 65
TrimI =0,TrimQ =0,SBS =-14.261280,PSBS =0.037486
OffsetI ==0,OffsetQ =0,OOS =-9.388046,POOS =0.115132
TrimI =7,TrimQ =-7,SBS =-11.896550,PSBS =0.064617
OffsetI ==0,OffsetQ =30,OOS =-5.800575,POOS =0.262992
TrimI =-7,TrimQ =7,SBS =-13.456370,PSBS =0.045119
OffsetI ==30,OffsetQ =-30,OOS =-5.875443,POOS =0.258497
OffsetI ==-30,OffsetQ =-30,OOS =-7.434166,POOS =0.180544
Evaluate Xt = -3.93,TrimI = -2,TrimQ = 2
Evaluate OffsetI = -7,OffsetQ = -11
Fail Check : d_OOS_Check = -2.67,d_SBS_Check = -7.94
===================== TX IQ Second shot begin ===================
Second shot reference point : I = 7 , Q = 11
IQt_2a.I: -2, IQt_2a.Q: 9
IQt_2b.I: 9, IQt_2b.Q: 2
IQt_2[0]_I = -2 , IQt_2[0]_Q = 9 , OOS= -9.612831, SBS= -13.809540
IQt_2[1]_I = 9 , IQt_2[1]_Q = 2 , OOS= -3.331284 , SBS= -7.367760 Second shoot Fail

我使用的工具是 ATE6.1112 这个跟工具是没有问题， 这个是我CFG文件
[TX IQ table]
TX_IQ_MEASUREMENT_COUNT = 20
;TX_IQ_BAND:PCS, GSM850
TX_IQ_BAND = GSM
TX_IQ_ARFCN = 65
TX_IQ_PCL = 15
TX_IQ_DC_OFFSET_MAX = -38
TX_IQ_GAIN_IMBALANCE_MAX = -35
; The following setting is for MT6252B
TX_IQ_BAND_HIGH = DCS
TX_IQ_ARFCN_HIGH = 700
TX_IQ_PCL_HIGH = 5
TX_IQ_DC_OFFSET_MAX_HIGH = -38
TX_IQ_GAIN_IMBALANCE_MAX_HIGH = -35

呵呵 ，52和53平台好像不用校TX IQ

挨，那位同人能解释一下IQ DC校准的意义吗，小弟还有一事想请教就是关于PATHLOSS 校准不通过，可是连值都不显示直接就FAIL了，是时间问题还是···

1. Command Agilent 8960 or R&S CMU 200 to setband as PHASE_ERROR_BAND, BCCH carrier as
PHASE_ERROR_ARFCN, PCL as PHASE_ERROR_PCL, and TSC (training sequence code) as TSC. And read
BB TX parameter from NVRAM.
2.Command target to do baseband auto calibration by calling META_DLL API META_Rf_BBTXAutoCal().
3. Get BB TX parameter from target register by calling META_DLL API META_Rf_GetBBTxCfg2() and then save
BB TX parameter to structure rf_bb_tx_cfg2_req.
4. Command target to send normal burst by calling META_DLL API META_Rf_NB_TX().
5.Fetch RMS phase error from Agilent 8960 or R&S CMU 200.
6.If RMS phase error reading at step 5 is less than PHASE_ERROR_RMS_ERROR, phase error pre-check pass,
phase error calibration procedure is finish. Otherwise, go to step 7 to start OffsetI calibration.
7.Set begin_Offset_I = -32, end_Offset_I = 31.
8.Set cal_OffI1= (begin_Offset_I + (begin_Offset_IQ+end_Offset_I)/2)/2,and set rf_bb_tx_cfg2_req.
TxOffsetI=cal_OffI1.
9.Set BB TX parameter saved in structure rf_bb_tx_cfg2_req to target register by calling META_DLL
META_Rf_SetBBTxCfg2().
10.Command target to send normal burst by calling META_DLL API META_Rf_NB_TX().
11. Fetch RMS phase error from Agilent 8960 or R&S CMU 200 and save RMS phase error as RMSErr1.
12. Set cal_OffI2 = (end_Offset_I + (begin_Offset_IQ+end_Offset_I)/2)/2. andset rf_bb_tx_cfg2_req.
TxOffsetI=cal_OffI2.
13. Repeat step911, and saved RMS phase error as RMSErr2.
14. If abs(RMSErr1)= abs(RMSErr2) and abs(RMSErr2) = abs(RMSErr2), Set begin_Offset_I = (begin_Offset_I+end_Offset_I)/2 + 1.
18. Repeat step 817 until the following condition occurred, minRMSErr=0, cal_OffI1>=cal_OffI2.
19. Repeat step 718 to do OffsetQ calibration.
20. Command target to send normal burst by calling META_DLL API META_Rf_NB_TX().
21. Fetch RMS phase error from Agilent 8960 or R&S CMU 200 and save RMS phase error as RMSErrCheck.
22. If RMSErrCheck<=PHASE_ERROR_RMS_ERROR, set rf_bb_tx_cfg2_req.bbtx_isCalibrated=191, phase
error check pass. Otherwise, set set rf_bb_tx_cfg2_req.bbtx_isCalibrated=0.

申明：网友回复良莠不齐，仅供参考。