A configuration command that modifies Huawei second generation power control parameters of the cell.
When AMR UL RX_LEV Upper Threshold is modified, the BSC simultaneously modifies UL RX_LEV Upper Threshold and UL Expected Level at HO Access accordingly.
| ID | Name | Description |
|---|---|---|
| IDXTYPE | Index Type | Meaning:Index Type Value range:BYNAME(By Name),BYIDX(By Index) Explanation:Index Type. Default value:None |
| CELLIDX | Cell Index | Meaning:Cell Index Value range:0~2047 Explanation: This parameter indicates the source cell index. The source cell index must be unique. Default value:None |
| CELLNAME | Cell Name | Meaning:Cell Name Value range:1-32 characters Explanation: This parameter indicates the name of the source cell. The name of each cell under one BSC must be unique. Default value:None |
| ULLEVFILTLEN | Filter Length for UL RX_LEV | Meaning:Filter Length for UL RX_LEV Value range:1~20 Explanation:This parameter specifies the number of measurement reports sampled for calculating the average value of the uplink signal strength before the MS power adjustment. Default value:None |
| DLLEVFILTLEN | Filter Length for DL RX_LEV | Meaning:Filter Length for DL RX_LEV Value range:1~20 Explanation:This parameter specifies the number of measurement reports sampled for calculating the average value of the downlink signal strength before the BTS power adjustment. Default value:None |
| ULQUAFILTLEN | Filter Length for UL Qual. | Meaning:Filter Length for UL Qual. Value range:1~20 Explanation:This parameter specifies the number of measurement reports sampled for calculating the average value of the uplink signal quality before the MS power adjustment. Default value:None |
| DLQUAFILTLEN | Filter Length for DL Qual. | Meaning:Filter Length for DL Qual. Value range:1~20 Explanation:This parameter specifies the number of measurement reports sampled for calculating the average value of the downlink signal quality before the BTS power adjustment. Default value:None |
| MRCOMPREG | MR. Compensation Allowed | Meaning:MR. Compensation Allowed Value range:NO(NO),YES(YES) Explanation:This parameter specifies whether the compensation of measurement reports is allowed by Huawei II power control algorithm. When determining whether to perform power control, the BSC performs weighted filtering on the values of the receive level and of the receive quality in several history measurement reports. The measurement reports may be obtained by the BTS/MS at different transmit power. To ensure the accuracy of the values for filtering, the values in the history measurement reports that are obtained at a different transmit power from the current power must be compensated. Default value:None |
| ULPREDLEND | UL MR. Number Predicted | Meaning:UL MR. Number Predicted Value range:0~3 Explanation:After the BSC delivers the power control command, it should wait for a certain period before receiving an acknowledgement message. Therefore, the MR that power control decision is based on cannot accurately reflect the radio environment of the BTS during the power adjustment, but misses the latest changes of the receive level and receive quality of the MS. Thus, the power adjustment is delayed. To compensate the delay of power adjustment, the power control algorithm implements the prediction and filtering function. In other words, the BSC samples several uplink measurement reports, performs weighted filtering, and predicts N measurement reports from the current time onwards in a short period. This parameter determines the number of uplink measurement reports predicted by the BSC. In other words, the value of this parameter equals to the previous number N. In Huawei II power control algorithm, the average filter value in the history measurement report is not used for power control decision. Instead, the prediction function is applied in the filter to compensate the delay of power adjustment. Default value:None |
| DLPREDLEND | DL MR. Number Predicted | Meaning:DL MR. Number Predicted Value range:0~3 Explanation:After the BSC delivers the power control command, it should wait for a certain period before receiving an acknowledgement message. Therefore, the MR that power control decision is based on cannot accurately reflect the radio environment of the BTS during the power adjustment, but misses the latest changes of the receive level and receive quality of the BTS. Thus, the power adjustment is delayed. To compensate the delay of power adjustment, the power control algorithm implements the prediction and filtering function. In other words, the BSC samples several downlink measurement reports, performs weighted filtering, and predicts N measurement reports from the current time onwards in a short period. This parameter determines the number of downlink measurement reports predicted by the BSC. The value of this parameter equals to the previous number N. In Huawei II power control algorithm, the average filter value in the history measurement report is not used for power control decision. Instead, the prediction function is applied in the filter to compensate the delay of power adjustment. Default value:None |
| MAXSTEP0 | MAX Down Adj.Value Qual.Zone 0 | Meaning:MAX Down Adj.Value Qual.Zone 0 Value range:0~30 Explanation:In Huawei II power control algorithm, the quality zone is divided into three grades (0, 1-2, >=3) based on the receive quality (RQ). A maximum step length of power control is set for each quality zone. When downward power adjustment is performed based on the level, the maximum permissible down adjustment step differs based on the receive quality. This parameter determines the maximum permissible down adjustment step when RQ is 0. Default value:None |
| MAXSTEP1 | MAX Down Adj.Value Qual.Zone 1 | Meaning:MAX Down Adj.Value Qual.Zone 1 Value range:0~30 Explanation:In Huawei II power control algorithm, the quality zone is divided into three grades (0, 1-2, >= 3) based on the receive quality (RQ). A maximum step length of power control is set for each quality zone. When downward power adjustment is performed based on the level, the maximum permissible down adjustment step differs based on the receive quality. This parameter determines the maximum permissible down adjustment step when RQ is 1. Default value:None |
| MAXSTEP2 | MAX Down Adj.Value Qual.Zone 2 | Meaning:MAX Down Adj.Value Qual.Zone 2 Value range:0~30 Explanation:In Huawei II power control algorithm, the quality zone is divided into three grades (0, 1-2, >=3) based on the receive quality (RQ). A maximum step length of power control is set for each quality zone. When downward power adjustment is performed based on the level, the maximum permissible down adjustment step differs based on the receive quality. This parameter determines the maximum permissible down adjustment step when RQ is 2. Default value:None |
| QUALSTEP | MAX Down Adj. PC Value by Qual. | Meaning:MAX Down Adj. PC Value by Qual. Value range:0~4 Explanation:This parameter determines the maximum permissible down adjustment step based on the receive quality. Default value:None |
| MAXVALADJRX | MAX Up Adj. PC Value by RX_LEV | Meaning:MAX Up Adj. PC Value by RX_LEV Value range:0~32 Explanation:This parameter determines the maximum permissible up adjustment step based on the receive level. Default value:None |
| MAXADJPCVAL | MAX Up Adj. PC Value by Qual. | Meaning:MAX Up Adj. PC Value by Qual. Value range:0~32 Explanation:This parameter determines the maximum permissible up adjustment step based on the signal quality. Default value:None |
| ULQUALBADTRIG | UL Qual. Bad Trig Threshold | Meaning:UL Qual. Bad Trig Threshold Value range:0~7 Explanation:In the uplink power control, if the uplink receive quality is greater than or equal to the value of this parameter, then UL RX_LEV Upper Threshold should contain UL Qual Bad UpLEVDiff. This parameter further improves the expected level of the uplink power control. Level 0: BER smaller than 0.2% Level 1: BER ranges from 0.2% to 0.4% Level 2: BER ranges from 0.4% to 0.8% Level 3: BER ranges from 0.8% to 1.6% Level 4: BER ranges from 1.6% to 3.2% Level 5: BER ranges from 3.2% to 6.4% Level 6: BER ranges from 6.4% to 12.8% Level 7: BER greater than 12.8%. Default value:None |
| ULQUALBADUPLEV | UL Qual. Bad UpLEVDiff | Meaning:UL Qual. Bad UpLEVDiff Value range:0~63 Explanation:In uplink power control, if the uplink receive quality is higher than or equal to the UL Qual. Bad Trig Threshold, then the actual UL RX_LEV Upper Threshold should contain UL Qual. Bad UpLEVDiff. Default value:None |
| DLQUALBADTRIG | DL Qual. Bad Trig Threshold | Meaning:DL Qual. Bad Trig Threshold Value range:0~7 Explanation:In downlink power control, if the downlink receive quality is greater than or equal to the value of this parameter, then the actual DL RX_LEV Upper Threshold should contain DL Qual. Bad UpLEVDiff. This parameter further improves the expected level of the downlink power control. Level 0: BER smaller than 0.2% Level 1: BER ranges from 0.2% to 0.4% Level 2: BER ranges from 0.4% to 0.8% Level 3: BER ranges from 0.8% to 1.6% Level 4: BER ranges from 1.6% to 3.2% Level 5: BER ranges from 3.2% to 6.4% Level 6: BER ranges from 6.4% to 12.8% Level 7: BER greater than 12.8%. Default value:None |
| DLQUALBADUPLEV | DL Qual. Bad UpLEVDiff | Meaning:DL Qual. Bad UpLEVDiff Value range:0~63 Explanation:In downlink power control, if the downlink receive quality is higher than or equal to the DL Qual. Bad Trig Threshold, the value of DL RX_LEV Upper Threshold contains the value of the DL Qual. Bad UpLEVDiff. Default value:None |
| BTSPWRNUM | BTS PC Class | Meaning:BTS PC Class Value range:1~16 Explanation:This parameter specifies the maximum range of dynamic power adjustment for the BTS. Default value:None |
| AMRPCADJPERIOD | AMR PC Interval | Meaning:AMR PC Interval Value range:1~15 Explanation:This parameter specifies the minimum time interval between two continuous AMR power control commands. Default value:None |
| AMRULLEVFTLEN | AMR Filter Length for UL RX_LEV | Meaning:AMR Filter Length for UL RX_LEV Value range:1~20 Explanation:This parameter specifies the number of measurement reports sampled for calculating the average value of the uplink signal strength before the AMR MS power adjustment. Default value:None |
| AMRDLLEVFTLEN | AMR Filter Length for DL RX_LEV | Meaning:AMR Filter Length for DL RX_LEV Value range:1~20 Explanation:This parameter specifies the number of measurement reports sampled for calculating the average value of the downlink signal strength before the BTS power adjustment. Default value:None |
| AMRULQUAFTLEN | AMR Filter Length for UL Qual | Meaning:AMR Filter Length for UL Qual Value range:1~20 Explanation:This parameter specifies the number of measurement reports sampled for calculating the average value of the uplink signal quality before the MS power adjustment. Default value:None |
| AMRDLQUAFTLEN | AMR Filter Length for DL Qual. | Meaning:AMR Filter Length for DL Qual. Value range:1~20 Explanation:This parameter specifies the number of measurement reports sampled for calculating the average value of the downlink signal quality before the BTS power adjustment. Default value:None |
| AMRMRCOMPREG | AMR MR. Compensation Allowed | Meaning:AMR MR. Compensation Allowed Value range:NO(NO),YES(YES) Explanation:This parameter specifies whether the compensation of AMR measurement reports is allowed by Huawei II power control algorithm. When this parameter is set to Yes, the Huawei II power control algorithm puts the currently received measurement reports in the measurement report compensation queue and then records the change of the transmit power based on the MS power and the BTS power in the measurement report. After values are added in the measurement report, compensate the receive level value in the history measurement report based on the change of the power. When determining whether to perform power control, the BSC performs weighted filtering on the values of the receive level and of the receive quality in several history measurement reports. The measurement reports may be obtained at different transmit power of the BTS/MS. To ensure the accuracy of the values for filtering, the values in the history measurement reports that are obtained at a different transmit power from the current power must be compensated. Default value:None |
| AMRULPREDLEND | AMR UL MR. Number Predicted | Meaning:AMR UL MR. Number Predicted Value range:0~3 Explanation:This parameter specifies the number of uplink measurement reports used for predicting the level in power control. In Huawei II power control algorithm, the average filter value in the history measurement report is not used for power control decision. Instead, the prediction function is applied in the filter to compensate the delay of power adjustment. Default value:None |
| AMRDLPREDLEND | AMR DL MR. Number Predicted | Meaning:AMR DL MR. Number Predicted Value range:0~3 Explanation:This parameter specifies the number of downlink measurement reports used for predicting the level in power control. In Huawei II power control algorithm, the average filter value in the history measurement report is not used for power control decision. Instead, the prediction function is applied in the filter to compensate the delay of power adjustment. Default value:None |
| AMRULSSHTHRED | AMR UL RX_LEV Upper Threshold | Meaning:AMR UL RX_LEV Upper Threshold Value range:0~63 Explanation:The power control step is calculated based on the signal level. The signal level has an upper threshold and a lower threshold. Power control is not performed if the signal level is between the upper threshold and the lower threshold. Power control is performed only when the signal level exceeds the upper threshold or is below the lower threshold. The level values 0 through 63 map to -110 dBm to -47 dBm. Default value:None |
| AMRULSSLTHRED | AMR UL RX_LEV Lower Threshold | Meaning:AMR UL RX_LEV Lower Threshold Value range:0~63 Explanation:The power control step is calculated based on the signal level. The signal level has an upper threshold and a lower threshold. Power control is not performed if the signal level is between the upper threshold and the lower threshold. Power control is performed only when the signal level exceeds the upper threshold or is below the lower threshold. The level values 0 through 63 map to -110 dBm to -47 dBm. Default value:None |
| AMRULQHTHRED | AMR UL Qual. Upper Threshold | Meaning:AMR UL Qual. Upper Threshold Value range:0~7 Explanation:When the power control step is calculated based on the signal quality, the upper threshold and the lower threshold of the quality zone are set. When the signal quality exceeds the upper threshold or is below the lower threshold, power control is performed. This parameter determines the uplink quality upper threshold of the quality zone. Note: The power of the MS and the BTS is adjusted according to the quality and the level. For details, refer to the Power Control 2nd Generation Control table. The mapping between the BER and the quality level is as follows: Level 0: BER smaller than 0.2% Level 1: BER ranges from 0.2% to 0.4% Level 2: BER ranges from 0.4% to 0.8% Level 3: BER ranges from 0.8% to 1.6% Level 4: BER ranges from 1.6% to 3.2% Level 5: BER ranges from 3.2% to 6.4% Level 6: BER ranges from 6.4% to 12.8% Level 7: BER greater than 12.8%. Default value:None |
| AMRULQLOWTHRED | AMR UL Qual. Lower Threshold | Meaning:AMR UL Qual. Lower Threshold Value range:0~7 Explanation:When the power control step is calculated based on the signal quality, the upper threshold and the lower threshold of the quality zone are set. When the signal quality exceeds the upper threshold or is below the lower threshold, power control is performed. This parameter specifies the lower threshold of the uplink quality for power control. The mapping between the BER and the quality level is as follows: Level 0: BER smaller than 0.2% Level 1: BER ranges from 0.2% to 0.4% Level 2: BER ranges from 0.4% to 0.8% Level 3: BER ranges from 0.8% to 1.6% Level 4: BER ranges from 1.6% to 3.2% Level 5: BER ranges from 3.2% to 6.4% Level 6: BER ranges from 6.4% to 12.8% Level 7: BER greater than 12.8%. Default value:None |
| AMRDLSSHTHRED | AMR DL RX_LEV Upper Threshold | Meaning:AMR DL RX_LEV Upper Threshold Value range:0~63 Explanation:The power control step is calculated based on the signal level. The signal level has an upper threshold and a lower threshold. Power control is not performed if the signal level is between the upper threshold and the lower threshold. Power control is performed only when the signal level exceeds the upper threshold or is below the lower threshold. The level values 0 through 63 map to -110 dBm to -47 dBm. Default value:None |
| AMRDLSSLTHRED | AMR DL RX_LEV Lower Threshold | Meaning:AMR DL RX_LEV Lower Threshold Value range:0~63 Explanation:The power control step is calculated based on the signal level. The signal level has an upper threshold and a lower threshold. Power control is not performed if the signal level is between the upper threshold and the lower threshold. Power control is performed only when the signal level exceeds the upper threshold or is below the lower threshold. The level values 0 through 63 map to -110 dBm to -47 dBm. Default value:None |
| AMRDLQHTHRED | AMR DL Qual. Upper Threshold | Meaning:AMR DL Qual. Upper Threshold Value range:0~7 Explanation:When the power control step is calculated based on the signal quality, the upper threshold and the lower threshold of the quality zone are set. When the signal quality exceeds the upper threshold or is below the lower threshold, power control is performed. This parameter specifies the upper threshold of the downlink quality for power control. The mapping between the BER and the quality level is as follows: Level 0: BER smaller than 0.2% Level 1: BER ranges from 0.2% to 0.4% Level 2: BER ranges from 0.4% to 0.8% Level 3: BER ranges from 0.8% to 1.6% Level 4: BER ranges from 1.6% to 3.2% Level 5: BER ranges from 3.2% to 6.4% Level 6: BER ranges from 6.4% to 12.8% Level 7: BER greater than 12.8%. Default value:None |
| AMRDLQLTHRED | AMR DL Qual. Lower Threshold | Meaning:AMR DL Qual. Lower Threshold Value range:0~7 Explanation:When the power control step is calculated based on the signal quality, the upper threshold and the lower threshold of the stable state quality zone are set. When the signal quality exceeds the upper threshold or is below the lower threshold, power control is performed. This parameter specifies the lower threshold of the downlink quality for power control. The mapping between the BER and the quality level is as follows: Level 0: BER smaller than 0.2% Level 1: BER ranges from 0.2% to 0.4% Level 2: BER ranges from 0.4% to 0.8% Level 3: BER ranges from 0.8% to 1.6% Level 4: BER ranges from 1.6% to 3.2% Level 5: BER ranges from 3.2% to 6.4% Level 6: BER ranges from 6.4% to 12.8% Level 7: BER greater than 12.8%. Default value:None |
| AMRMAXSTEP0 | AMR MAX Down Adj. Value Qual. Zone 0 | Meaning:AMR MAX Down Adj. Value Qual. Zone 0 Value range:0~30 Explanation:This parameter specifies the maximum step length in decreasing the signal level in power control when the RQ is 0. In the Huawei II power control algorithm, the quality zone is divided into three grades (0, 1-2, >=3) based on the receive quality (RQ). Every quality zone has different maximum permissible down adjustment step. When the downward power adjustment is performed based on the level, the maximum permissible down adjustment step differs based on the receive quality. Default value:None |
| AMRMAXSTEP1 | AMR MAX Down Adj. Value Qual. Zone 1 | Meaning:AMR MAX Down Adj. Value Qual. Zone 1 Value range:0~30 Explanation:This parameter specifies the AMR maximum down adjustment step permitted by the quality zone 1 (the RQ value is greater than 0 and less than 3) based on the signal level. In the Huawei II power control algorithm, the quality zone is divided into three grades (0, 1-2, >= 3) based on the receive quality (RQ). Every quality zone has different maximum permissible down adjustment step. When the downward power adjustment is performed based on the level, the maximum permissible down adjustment step differs based on the receive quality. This parameter specifies the maximum step length in decreasing the signal level in power control when the RQ is 1. Default value:None |
| AMRMAXSTEP2 | AMR MAX Down Adj. Value Qual. Zone 2 | Meaning:AMR MAX Down Adj. Value Qual. Zone 2 Value range:0~30 Explanation:This parameter specifies the AMR maximum down adjustment step permitted by the quality zone 2 (the RQ value is greater than or equal to 3) based on the signal level. In the Huawei II power control algorithm, the quality zone is divided into three grades (0, 1-2, >= 3) based on the receive quality (RQ). Every quality zone has different maximum permissible down adjustment step. When the downward power adjustment is performed based on the level, the maximum permissible down adjustment step differs based on the receive quality. This parameter specifies the maximum step length in decreasing the signal level in power control when the RQ is 2. Default value:None |
| AMRQUALSTEP | AMR MAX Down Adj. PC Value by Qual. | Meaning:AMR MAX Down Adj. PC Value by Qual. Value range:0~4 Explanation:This parameter specifies the maximum permissible down adjustment step based on the receive quality. Default value:None |
| AMRMAXVALADJRX | AMR MAX Up Adj. PC Value by RX_LEV | Meaning:AMR MAX Up Adj. PC Value by RX_LEV Value range:0~32 Explanation:This parameter specifies the maximum permissible up adjustment step based on the receive level. Default value:None |
| AMRMAXADJPCVAL | AMR MAX Up Adj. PC Value by Qual. | Meaning:AMR MAX Up Adj. PC Value by Qual. Value range:0~32 Explanation:This parameter specifies the maximum permissible down adjustment step based on the receive quality. Default value:None |
| AMRULQUALBADTRIG | AMR UL Qual. Bad Trig Threshold | Meaning:AMR UL Qual. Bad Trig Threshold Value range:0~7 Explanation:In the uplink power control, if the uplink receive quality is greater than or equal to this threshold, then UL RX_LEV Upper Threshold should contain UL Qual. Bad UpLEVDiff. This parameter further improves the expected level of the uplink power control. Level 0: BER smaller than 0.2% Level 1: BER ranges from 0.2% to 0.4% Level 2: BER ranges from 0.4% to 0.8% Level 3: BER ranges from 0.8% to 1.6% Level 4: BER ranges from 1.6% to 3.2% Level 5: BER ranges from 3.2% to 6.4% Level 6: BER ranges from 6.4% to 12.8% Level 7: BER greater than 12.8%. Default value:None |
| AMRULQUALBADUPLEV | AMR UL Qual. Bad UpLEVDiff | Meaning:AMR UL Qual. Bad UpLEVDiff Value range:0~63 Explanation:In uplink power control, if the uplink receive quality is greater than or equal to UL Qual. Bad Trig Threshold, then the actual UL RX_LEV Upper Threshold should contain UL Qual. Bad UpLEVDiff. Default value:None |
| AMRDLQUALBADTRIG | AMR DL Qual Bad Trig Threshold | Meaning:AMR DL Qual Bad Trig Threshold Value range:0~7 Explanation:In downlink power control, if the downlink receive quality is greater than or equal to this threshold, then the actual DL RX_LEV Upper Threshold should contain DL Qual. Bad UpLEVDiff. This parameter further improves the expected level of the downlink power control. Level 0: BER smaller than 0.2% Level 1: BER ranges from 0.2% to 0.4% Level 2: BER ranges from 0.4% to 0.8% Level 3: BER ranges from 0.8% to 1.6% Level 4: BER ranges from 1.6% to 3.2% Level 5: BER ranges from 3.2% to 6.4% Level 6: BER ranges from 6.4% to 12.8% Level 7: BER greater than 12.8%. Default value:None |
| AMRDLQUALBADUPLEV | AMR DL Qual Bad UpLEVDiff | Meaning:AMR DL Qual Bad UpLEVDiff Value range:0~63 Explanation:In downlink power control, if the downlink receive quality is greater than or equal to DL Qual. Bad Trig Threshold, the value of DL RX_LEV Upper Threshold contains the value of DL Qual. Bad UpLEVDiff. Default value:None |
| AMRBTSPWRNUM | AMR BTS PC Class | Meaning:AMR BTS PC Class Value range:1~16 Explanation:This parameter specifies the maximum range of dynamic power adjustment for the BTS. 0-16 (0 dB to 30 dB in steps of 2 dB). Default value:None |
| SAICTHREDAPDTVALUE | Power Control threshold Adjust for SAIC | Meaning:Power Control threshold Adjust for SAIC Value range:0~2 Explanation:This parameter specifies the quality threshold adjustment of downlink signals in Huawei II power control algorithm when the MS supports SAIC. On the network side, if power control is performed on the SAIC-supportive MS, the threshold must be lowered to reduce the transmit power of the BTS and thus reduce the interference of the entire network. At this time, for both power control downlink good-quality and poor-quality thresholds, the adjustment value must be set higher than the configured parameters. Default value:None |
Modify Huawei second generation power control parameters of the cell (Index Type = BYIDX(By Index); Cell Index = 0): MOD CELLPWRHW2: IDXTYPE=BYIDX, CELLIDX=0, ULLEVFILTLEN=5, DLLEVFILTLEN=5, ULQUAFILTLEN=5, DLQUAFILTLEN=5, MRCOMPREG=YES, ULPREDLEND=2, DLPREDLEND=2, MAXSTEP0=4, MAXSTEP1=4, MAXSTEP2=4, QUALSTEP=4, MAXVALADJRX=16, MAXADJPCVAL=8, ULQUALBADTRIG=5, ULQUALBADUPLEV=0, DLQUALBADTRIG=5, DLQUALBADUPLEV=0, BTSPWRNUM=16, AMRPCADJPERIOD=3, AMRULLEVFTLEN=6, AMRDLLEVFTLEN=6, AMRULQUAFTLEN=6, AMRDLQUAFTLEN=6, AMRMRCOMPREG=YES, AMRULPREDLEND=2, AMRDLPREDLEND=2, AMRULSSHTHRED=35, AMRULSSLTHRED=25, AMRULQHTHRED=0, AMRULQLOWTHRED=2, AMRDLSSHTHRED=40, AMRDLSSLTHRED=30, AMRDLQHTHRED=0, AMRDLQLTHRED=2, AMRMAXSTEP0=4, AMRMAXSTEP1=4, AMRMAXSTEP2=4, AMRQUALSTEP=4, AMRMAXVALADJRX=16, AMRMAXADJPCVAL=8, AMRULQUALBADTRIG=5, AMRULQUALBADUPLEV=0, AMRDLQUALBADTRIG=5, AMRDLQUALBADUPLEV=0, AMRBTSPWRNUM=16;