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NI RFmx LTE SEM Attributes
Dane Stull edited this page Feb 28, 2022
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- RFMXLTE_ATTR_SEM_MEASUREMENT_ENABLED
- RFMXLTE_ATTR_SEM_UPLINK_MASK_TYPE
- RFMXLTE_ATTR_SEM_DOWNLINK_MASK_TYPE
- RFMXLTE_ATTR_SEM_SIDELINK_MASK_TYPE
- Downlink
- RFMXLTE_ATTR_SEM_SUBBLOCK_INTEGRATION_BANDWIDTH
- RFMXLTE_ATTR_SEM_SUBBLOCK_AGGREGATED_CHANNEL_BANDWIDTH
- Component Carrier
- Offset
- Sweep Time
- Averaging
- RFMXLTE_ATTR_SEM_AMPLITUDE_CORRECTION_TYPE
- RFMXLTE_ATTR_SEM_ALL_TRACES_ENABLED
- RFMXLTE_ATTR_SEM_NUMBER_OF_ANALYSIS_THREADS
-
Results
- RFMXLTE_ATTR_SEM_RESULTS_TOTAL_AGGREGATED_POWER
- RFMXLTE_ATTR_SEM_RESULTS_MEASUREMENT_STATUS
- RFMXLTE_ATTR_SEM_RESULTS_SUBBLOCK_CENTER_FREQUENCY
- RFMXLTE_ATTR_SEM_RESULTS_SUBBLOCK_INTEGRATION_BANDWIDTH
- RFMXLTE_ATTR_SEM_RESULTS_SUBBLOCK_POWER
- Component Carrier
-
Lower Offset
- RFMXLTE_ATTR_SEM_RESULTS_LOWER_OFFSET_MEASUREMENT_STATUS
- RFMXLTE_ATTR_SEM_RESULTS_LOWER_OFFSET_ABSOLUTE_INTEGRATED_POWER
- RFMXLTE_ATTR_SEM_RESULTS_LOWER_OFFSET_RELATIVE_INTEGRATED_POWER
- RFMXLTE_ATTR_SEM_RESULTS_LOWER_OFFSET_ABSOLUTE_PEAK_POWER
- RFMXLTE_ATTR_SEM_RESULTS_LOWER_OFFSET_RELATIVE_PEAK_POWER
- RFMXLTE_ATTR_SEM_RESULTS_LOWER_OFFSET_PEAK_FREQUENCY
- RFMXLTE_ATTR_SEM_RESULTS_LOWER_OFFSET_MARGIN
- RFMXLTE_ATTR_SEM_RESULTS_LOWER_OFFSET_MARGIN_ABSOLUTE_POWER
- RFMXLTE_ATTR_SEM_RESULTS_LOWER_OFFSET_MARGIN_RELATIVE_POWER
- RFMXLTE_ATTR_SEM_RESULTS_LOWER_OFFSET_MARGIN_FREQUENCY
-
Upper Offset
- RFMXLTE_ATTR_SEM_RESULTS_UPPER_OFFSET_MEASUREMENT_STATUS
- RFMXLTE_ATTR_SEM_RESULTS_UPPER_OFFSET_ABSOLUTE_INTEGRATED_POWER
- RFMXLTE_ATTR_SEM_RESULTS_UPPER_OFFSET_RELATIVE_INTEGRATED_POWER
- RFMXLTE_ATTR_SEM_RESULTS_UPPER_OFFSET_ABSOLUTE_PEAK_POWER
- RFMXLTE_ATTR_SEM_RESULTS_UPPER_OFFSET_RELATIVE_PEAK_POWER
- RFMXLTE_ATTR_SEM_RESULTS_UPPER_OFFSET_PEAK_FREQUENCY
- RFMXLTE_ATTR_SEM_RESULTS_UPPER_OFFSET_MARGIN
- RFMXLTE_ATTR_SEM_RESULTS_UPPER_OFFSET_MARGIN_ABSOLUTE_POWER
- RFMXLTE_ATTR_SEM_RESULTS_UPPER_OFFSET_MARGIN_RELATIVE_POWER
- RFMXLTE_ATTR_SEM_RESULTS_UPPER_OFFSET_MARGIN_FREQUENCY
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies whether to enable the SEM measurement. You do not need to use a selector string to configure or read this attribute for the default signal and result instances. Refer to the Selector String topic for information about the string syntax for named signals and named results. The default value is RFMXLTE_VAL_FALSE. Get Function: RFmxLTE_SEMGetMeasurementEnabled Set Function: RFmxLTE_SEMSetMeasurementEnabled |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies the spectrum emission mask used in the measurement for uplink. Each mask type refers to a different Network Signalled (NS) value. General CA Class B, CA_NS_04, and CA_NC_NS_01 refers to carrier aggregation case. You must set the mask type to Custom to configure the custom offset masks. Refer to section 6.6.2.1 of the 3GPP 36.521 specification for more information about standard-defined mask types. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is RFMXLTE_VAL_SEM_UPLINK_MASK_TYPE_GENERAL_NS01. Get Function: RFmxLTE_SEMGetUplinkMaskType Set Function: RFmxLTE_SEMSetUplinkMaskType |
| Values: |
| RFMXLTE_VAL_SEM_UPLINK_MASK_TYPE_GENERAL_NS01 (0) | The measurement selects the offset frequencies and limits for the SEM as defined in Table 6.6.2.1.5-1, 6.6.2.1.5-2, 6.6.2.1A.5-1, 6.6.2.1A.1.5-2, 6.6.2.1A.1.5-3, and 6.6.2.1A.5-4 in section 6.6.2 of the 3GPP TS 36.521-1 specification. |
|---|---|
| RFMXLTE_VAL_SEM_UPLINK_MASK_TYPE_NS03_OR_NS11_OR_NS20_OR_NS21 (1) | The measurement selects the offset frequencies and limits for the SEM as defined in Table 6.6.2.2.5.1-1 and 6.6.2.2.5.1-2 in section 6.6.2 of the 3GPP TS 36.521-1 specification. |
| RFMXLTE_VAL_SEM_UPLINK_MASK_TYPE_NS04 (2) | The measurement selects the offset frequencies and limits for the SEM as defined in Table 6.6.2.2.3.2-3 in section 6.6.2 of the 3GPP TS 36.521-1 specification. When RFMXLTE_ATTR_COMPONENT_CARRIER_BANDWIDTH is 1.4MHz or 3MHz, the measurement selects the offset frequencies and limits for the SEM as defined in Table 6.6.2.2.5.2-1 in section 6.6.2 of the 3GPP TS 36.521-1 specification. |
| RFMXLTE_VAL_SEM_UPLINK_MASK_TYPE_NS06_OR_NS07 (3) | The measurement selects the offset frequencies and limits for the SEM as defined in Table 6.6.2.2.5.3-1 and 6.6.2.2.5.3-2 in section 6.6.2 of the 3GPP TS 36.521-1 specification. |
| RFMXLTE_VAL_SEM_UPLINK_MASK_TYPE_CANS04 (4) | The measurement selects the offset frequencies and limits for the SEM as defined in Table 6.6.2.2A.1.5.1-1 in section 6.6.2 of the 3GPP TS 36.521-1 specification. This mask applies only for aggregated carriers. |
| RFMXLTE_VAL_SEM_UPLINK_MASK_TYPE_CUSTOM (5) | You need to configure the RFMXLTE_ATTR_SEM_NUMBER_OF_OFFSETS, RFMXLTE_ATTR_SEM_OFFSET_START_FREQUENCY, RFMXLTE_ATTR_SEM_OFFSET_STOP_FREQUENCY, RFMXLTE_ATTR_SEM_OFFSET_ABSOLUTE_LIMIT_START, RFMXLTE_ATTR_SEM_OFFSET_ABSOLUTE_LIMIT_STOP, RFMXLTE_ATTR_SEM_OFFSET_SIDEBAND, RFMXLTE_ATTR_SEM_OFFSET_RBW_FILTER_BANDWIDTH, RFMXLTE_ATTR_SEM_OFFSET_RBW_FILTER_TYPE, and RFMXLTE_ATTR_SEM_OFFSET_BANDWIDTH_INTEGRAL attributes for each offset. |
| RFMXLTE_VAL_SEM_UPLINK_MASK_TYPE_GENERAL_CACLASSB (6) | The measurement selects offset frequencies and limits for the SEM as defined in Table 6.6.2.1A.1.5-3 and 6.6.2.1A.1.5-4 in section 6.6.2 of 3GPP TS 36.521-1 specification. |
| RFMXLTE_VAL_SEM_UPLINK_MASK_TYPE_CANCNS01 (7) | The measurement selects offset frequencies and limits for the SEM as defined in Table 6.6.2.2A.3.5-1 and 6.6.2.2A.3.5-2 in section 6.6.2 of 3GPP TS 36.521-1 specification. |
| RFMXLTE_VAL_SEM_UPLINK_MASK_TYPE_NS27 (8) | The measurement selects offset frequencies and limits for the SEM as defined in Table 6.6.2.2.5.4-1 in section 6.6.2.2.5.4 of 3GPP TS 36.521-1 specification. |
| RFMXLTE_VAL_SEM_UPLINK_MASK_TYPE_NS35 (9) | The measurement selects offset frequencies and limits for the SEM as defined in Table 6.6.2.2.5.5-1 in section 6.6.2.2.5.5 of 3GPP TS 36.521-1 specification. |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies the limits to be used in the measurement for downlink. Refer to section 6.6.3 of the 3GPP 36.141 specification for more information about standard-defined mask types. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is RFMXLTE_VAL_SEM_DOWNLINK_MASK_TYPE_ENODEB_CATEGORY_BASED. Get Function: RFmxLTE_SEMGetDownlinkMaskType Set Function: RFmxLTE_SEMSetDownlinkMaskType |
| Values: |
| RFMXLTE_VAL_SEM_DOWNLINK_MASK_TYPE_ENODEB_CATEGORY_BASED (0) | The limits are applied based on RFMXLTE_ATTR_ENODEB_CATEGORY attribute. |
|---|---|
| RFMXLTE_VAL_SEM_DOWNLINK_MASK_TYPE_BAND46 (1) | The limits are applied based on Band 46 test requirements. |
| RFMXLTE_VAL_SEM_DOWNLINK_MASK_TYPE_CUSTOM (5) | You need to configure the RFMXLTE_ATTR_SEM_NUMBER_OF_OFFSETS, RFMXLTE_ATTR_SEM_OFFSET_START_FREQUENCY, RFMXLTE_ATTR_SEM_OFFSET_STOP_FREQUENCY, RFMXLTE_ATTR_SEM_OFFSET_ABSOLUTE_LIMIT_START, RFMXLTE_ATTR_SEM_OFFSET_ABSOLUTE_LIMIT_STOP, RFMXLTE_ATTR_SEM_OFFSET_RELATIVE_LIMIT_START, RFMXLTE_ATTR_SEM_OFFSET_RELATIVE_LIMIT_STOP, RFMXLTE_ATTR_SEM_OFFSET_SIDEBAND, RFMXLTE_ATTR_SEM_OFFSET_RBW_FILTER_BANDWIDTH, RFMXLTE_ATTR_SEM_OFFSET_RBW_FILTER_TYPE, and RFMXLTE_ATTR_SEM_OFFSET_BANDWIDTH_INTEGRAL attributes for each offset. |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies the spectrum emission mask used in the measurement for sidelink. Each mask type refers to a different Network Signalled (NS) value. You must set the mask type to Custom to configure the custom offset masks. Refer to section 6.6.2 of the 3GPP 36.521 specification for more information about standard-defined mask types. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is RFMXLTE_VAL_SEM_SIDELINK_MASK_TYPE_GENERAL_NS01. Get Function: RFmxLTE_SEMGetSidelinkMaskType Set Function: RFmxLTE_SEMSetSidelinkMaskType |
| Values: |
| RFMXLTE_VAL_SEM_SIDELINK_MASK_TYPE_GENERAL_NS01 (0) | The measurement selects the offset frequencies and limits for the SEM as defined in Table 6.6.2.1G.1.5-1 and Table 6.6.2.1G.3.5-1 in section 6.6.2 of the 3GPP TS 36.521-1 specification. |
|---|---|
| RFMXLTE_VAL_SEM_SIDELINK_MASK_TYPE_NS33_OR_NS34 (1) | The measurement selects the offset frequencies and limits for the SEM as defined in Table Table 6.6.2.2G.1.5-1 in section 6.6.2 of the 3GPP TS 36.521-1 specification. |
| RFMXLTE_VAL_SEM_SIDELINK_MASK_TYPE_CUSTOM (5) | You need to configure the RFMXLTE_ATTR_SEM_NUMBER_OF_OFFSETS, RFMXLTE_ATTR_SEM_OFFSET_START_FREQUENCY, RFMXLTE_ATTR_SEM_OFFSET_STOP_FREQUENCY, RFMXLTE_ATTR_SEM_OFFSET_ABSOLUTE_LIMIT_START, RFMXLTE_ATTR_SEM_OFFSET_ABSOLUTE_LIMIT_STOP, RFMXLTE_ATTR_SEM_OFFSET_SIDEBAND, RFMXLTE_ATTR_SEM_OFFSET_RBW_FILTER_BANDWIDTH, RFMXLTE_ATTR_SEM_OFFSET_RBW_FILTER_TYPE, and RFMXLTE_ATTR_SEM_OFFSET_BANDWIDTH_INTEGRAL attributes for each offset. |
| Data Type: | float64 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeF64 RFmxLTE_GetAttributeF64 |
| Description: | Specifies the stop frequency for the last offset segment to be used in the measurement. This value is expressed in Hz. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is 15 MHz. The minimum value is 9.5 MHz. This attribute is considered for downlink only when you set the SEM DL Mask Type attribute to either eNodeB Category Based or Band 46. Get Function: RFmxLTE_SEMGetDeltaFMaximum Set Function: RFmxLTE_SEMSetDeltaFMaximum |
| Data Type: | float64 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeF64 RFmxLTE_GetAttributeF64 |
| Description: | Specifies the aggregated maximum output power of all transmit antenna connectors. This value is expressed in dBm. Refer to the Section 6.6.3 of 3GPP 36.141 specification for more details. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is 0. Valid values are within 20, inclusive. This attribute is considered only when you set the Link Direction attribute to Downlink, eNodeB Category attribute to Home Base Station, and SEM DL Mask Type attribute to eNodeB Category Based. Get Function: RFmxLTE_SEMGetAggregatedMaximumPower Set Function: RFmxLTE_SEMSetAggregatedMaximumPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the integration bandwidth of a subblock. This value is expressed in Hz. Integration bandwidth is the span from the left edge of the leftmost carrier to the right edge of the rightmost carrier within the subblock. Use 'subblock(n)' as the selector string to read this result. The default value is 0. Get Function: RFmxLTE_SEMGetSubblockIntegrationBandwidth |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the aggregated channel bandwidth of a configured subblock. This value is expressed in Hz. The aggregated channel bandwidth is the sum of the subblock integration bandwidth and the guard bands on either side of the subblock integration bandwidth. Use 'subblock(n)' as the selector string to read this result. The default value is 0. Get Function: RFmxLTE_SEMGetSubblockAggregatedChannelBandwidth |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the integration bandwidth of a component carrier. This value is expressed in Hz. Use 'carrier(k)' or 'subblock(n)/carrier(k)' as the selector string to read this result. The default value is 9 MHz. Get Function: RFmxLTE_SEMGetComponentCarrierIntegrationBandwidth |
| Data Type: | float64 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeF64 RFmxLTE_GetAttributeF64 |
| Description: | Specifies the maximum output power, Pmax,c, per carrier that is used only to choose the limit table for Medium Range Base Station. For more details please refer to the section 6.6.3 of 3GPP 36.141 specification. Use 'carrier(k)' or 'subblock(n)/carrier(k)' as the selector string to configure or read this attribute. The default value is 0. Valid values are within 38, inclusive. This attribute is considered only when you set the Link Direction attribute to Downlink, eNodeB Category attribute to Medium Range Base Station, and SEM DL Mask Type attribute to eNodeB Category Based. Get Function: RFmxLTE_SEMGetComponentCarrierMaximumOutputPower Set Function: RFmxLTE_SEMSetComponentCarrierMaximumOutputPower |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies the number of SEM offset segments. Use 'subblock(n)' as the selector string to configure or read this attribute. The default value is 1. Get Function: RFmxLTE_SEMGetNumberOfOffsets Set Function: RFmxLTE_SEMSetNumberOfOffsets |
| Data Type: | float64 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeF64 RFmxLTE_GetAttributeF64 |
| Description: | Specifies the start frequency of an offset segment relative to the RFMXLTE_ATTR_COMPONENT_CARRIER_BANDWIDTH edge (single carrier) or RFMXLTE_ATTR_SEM_SUBBLOCK_AGGREGATED_CHANNEL_BANDWIDTH edge (multi-carrier). This value is expressed in Hz. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to configure or read this attribute. The default value is 0. Get Function: RFmxLTE_SEMGetOffsetStartFrequency Set Function: RFmxLTE_SEMSetOffsetStartFrequency |
| Data Type: | float64 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeF64 RFmxLTE_GetAttributeF64 |
| Description: | Specifies the stop frequency of an offset segment relative to the RFMXLTE_ATTR_COMPONENT_CARRIER_BANDWIDTH edge (single carrier) or RFMXLTE_ATTR_SEM_SUBBLOCK_AGGREGATED_CHANNEL_BANDWIDTH edge (multi-carrier). This value is expressed in Hz. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to configure or read this attribute. The default value is 1 MHz. Get Function: RFmxLTE_SEMGetOffsetStopFrequency Set Function: RFmxLTE_SEMSetOffsetStopFrequency |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies whether the offset segment is present either on one side or on both sides of a carrier. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to configure or read this attribute. The default value is RFMXLTE_VAL_SEM_OFFSET_SIDEBAND_BOTH. Get Function: RFmxLTE_SEMGetOffsetSideband Set Function: RFmxLTE_SEMSetOffsetSideband |
| Values: |
| RFMXLTE_VAL_SEM_OFFSET_SIDEBAND_NEGATIVE (0) | Configures a lower offset segment to the left of the leftmost carrier. |
|---|---|
| RFMXLTE_VAL_SEM_OFFSET_SIDEBAND_POSITIVE (1) | Configures an upper offset segment to the right of the rightmost carrier. |
| RFMXLTE_VAL_SEM_OFFSET_SIDEBAND_BOTH (2) | Configures both the negative and the positive offset segments. |
| Data Type: | float64 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeF64 RFmxLTE_GetAttributeF64 |
| Description: | Specifies the bandwidth of an RBW filter used to sweep an acquired offset segment. This value is expressed in Hz. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to configure or read this attribute. The default value is 30000 Hz. Get Function: RFmxLTE_SEMGetOffsetRBWFilterBandwidth Set Function: RFmxLTE_SEMSetOffsetRBWFilterBandwidth |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies the shape of a digital RBW filter. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to configure or read this attribute. The default value is RFMXLTE_VAL_SEM_OFFSET_RBW_FILTER_TYPE_GAUSSIAN. Get Function: RFmxLTE_SEMGetOffsetRBWFilterType Set Function: RFmxLTE_SEMSetOffsetRBWFilterType |
| Values: |
| RFMXLTE_VAL_SEM_OFFSET_RBW_FILTER_TYPE_FFT_BASED (0) | No RBW filtering is performed. |
|---|---|
| RFMXLTE_VAL_SEM_OFFSET_RBW_FILTER_TYPE_GAUSSIAN (1) | The RBW filter has a Gaussian response. |
| RFMXLTE_VAL_SEM_OFFSET_RBW_FILTER_TYPE_FLAT (2) | The RBW filter has a flat response. |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies the resolution of a spectrum to compare with the spectral mask limits as an integer multiple of the RBW. When you set this attribute to a value greater than 1, the measurement acquires the spectrum with a narrow resolution and then processes it digitally to get a wider resolution that is equal to the product of a bandwidth integral and a RBW. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to configure or read this attribute. The default value is 1. Get Function: RFmxLTE_SEMGetOffsetBandwidthIntegral Set Function: RFmxLTE_SEMSetOffsetBandwidthIntegral |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies the criteria to determine the measurement fail status. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to configure or read this attribute. The default value is RFMXLTE_VAL_SEM_OFFSET_LIMIT_FAIL_MASK_ABSOLUTE.When you set the Link Direction attribute to Downlink, all the values of limit fail mask are supported but when you set the Link Direction attribute to Uplink, the measurement internally sets the value of limit fail mask to Absolute. Get Function: RFmxLTE_SEMGetOffsetLimitFailMask Set Function: RFmxLTE_SEMSetOffsetLimitFailMask |
| Values: |
| RFMXLTE_VAL_SEM_OFFSET_LIMIT_FAIL_MASK_ABS_AND_REL (0) | Specifies the fail in measurement if the power in the segment exceeds both the absolute and relative masks. |
|---|---|
| RFMXLTE_VAL_SEM_OFFSET_LIMIT_FAIL_MASK_ABS_OR_REL (1) | Specifies the fail in measurement if the power in the segment exceeds either the absolute or relative mask. |
| RFMXLTE_VAL_SEM_OFFSET_LIMIT_FAIL_MASK_ABSOLUTE (2) | Specifies the fail in measurement if the power in the segment exceeds the absolute mask. |
| RFMXLTE_VAL_SEM_OFFSET_LIMIT_FAIL_MASK_RELATIVE (3) | Specifies the fail in measurement if the power in the segment exceeds the relative mask. |
| Data Type: | float64 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeF64 RFmxLTE_GetAttributeF64 |
| Description: | Specifies the absolute power limit corresponding to the beginning of an offset segment. This value is expressed in dBm. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to configure or read this attribute. The default value is -16.5. Get Function: RFmxLTE_SEMGetOffsetAbsoluteLimitStart Set Function: RFmxLTE_SEMSetOffsetAbsoluteLimitStart |
| Data Type: | float64 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeF64 RFmxLTE_GetAttributeF64 |
| Description: | Specifies the absolute power limit corresponding to the end of an offset segment. This value is expressed in dBm. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to configure or read this attribute. The default value is -16.5. Get Function: RFmxLTE_SEMGetOffsetAbsoluteLimitStop Set Function: RFmxLTE_SEMSetOffsetAbsoluteLimitStop |
| Data Type: | float64 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeF64 RFmxLTE_GetAttributeF64 |
| Description: | Specifies the relative power limit corresponding to the beginning of the offset segment. This value is expressed in dB. This attribute is considered only when you set the RFMXLTE_ATTR_LINK_DIRECTION attribute to RFMXLTE_VAL_LINK_DIRECTION_DOWNLINK. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to configure or read this attribute. The default value is -51.5. Get Function: RFmxLTE_SEMGetOffsetRelativeLimitStart Set Function: RFmxLTE_SEMSetOffsetRelativeLimitStart |
| Data Type: | float64 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeF64 RFmxLTE_GetAttributeF64 |
| Description: | Specifies the relative power limit corresponding to the end of the offset segment. This value is expressed in dB. This attribute is considered only when you set the RFMXLTE_ATTR_LINK_DIRECTION attribute to RFMXLTE_VAL_LINK_DIRECTION_DOWNLINK. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to configure or read this attribute. The default value is -58.5. Get Function: RFmxLTE_SEMGetOffsetRelativeLimitStop Set Function: RFmxLTE_SEMSetOffsetRelativeLimitStop |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies whether the measurement computes the sweep time. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is RFMXLTE_VAL_SEM_SWEEP_TIME_AUTO_TRUE. Get Function: RFmxLTE_SEMGetSweepTimeAuto Set Function: RFmxLTE_SEMSetSweepTimeAuto |
| Values: |
| RFMXLTE_VAL_SEM_SWEEP_TIME_AUTO_FALSE (0) | The measurement uses the sweep time that you specify in the RFMXLTE_ATTR_SEM_SWEEP_TIME_INTERVAL attribute. |
|---|---|
| RFMXLTE_VAL_SEM_SWEEP_TIME_AUTO_TRUE (1) | The measurement uses a sweep time of 1 ms. |
| Data Type: | float64 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeF64 RFmxLTE_GetAttributeF64 |
| Description: | Specifies the sweep time when you set the RFMXLTE_ATTR_SEM_SWEEP_TIME_AUTO attribute to RFMXLTE_VAL_SEM_SWEEP_TIME_AUTO_FALSE. This value is expressed in seconds. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is 1 ms. Get Function: RFmxLTE_SEMGetSweepTimeInterval Set Function: RFmxLTE_SEMSetSweepTimeInterval |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies whether to enable averaging for the SEM measurement. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is RFMXLTE_VAL_SEM_AVERAGING_ENABLED_FALSE. Get Function: RFmxLTE_SEMGetAveragingEnabled Set Function: RFmxLTE_SEMSetAveragingEnabled |
| Values: |
| RFMXLTE_VAL_SEM_AVERAGING_ENABLED_FALSE (0) | The measurement is performed on a single acquisition. |
|---|---|
| RFMXLTE_VAL_SEM_AVERAGING_ENABLED_TRUE (1) | The SEM measurement uses the value of the RFMXLTE_ATTR_SEM_AVERAGING_COUNT attribute as the number of acquisitions over which the SEM measurement is averaged. |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies the number of acquisitions used for averaging when you set the RFMXLTE_ATTR_SEM_AVERAGING_ENABLED attribute to RFMXLTE_VAL_SEM_AVERAGING_ENABLED_TRUE. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is 10. Get Function: RFmxLTE_SEMGetAveragingCount Set Function: RFmxLTE_SEMSetAveragingCount |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for SEM measurement. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is RFMXLTE_VAL_SEM_AVERAGING_TYPE_RMS. Get Function: RFmxLTE_SEMGetAveragingType Set Function: RFmxLTE_SEMSetAveragingType |
| Values: |
| RFMXLTE_VAL_SEM_AVERAGING_TYPE_RMS (0) | The power spectrum is linearly averaged. RMS averaging reduces signal fluctuations but not the noise floor. |
|---|---|
| RFMXLTE_VAL_SEM_AVERAGING_TYPE_LOG (1) | The power spectrum is averaged in a logarithmic scale. |
| RFMXLTE_VAL_SEM_AVERAGING_TYPE_SCALAR (2) | The square root of the power spectrum is averaged. |
| RFMXLTE_VAL_SEM_AVERAGING_TYPE_MAXIMUM (3) | The peak power in the spectrum at each frequency bin is retained from one acquisition to the next. |
| RFMXLTE_VAL_SEM_AVERAGING_TYPE_MINIMUM (4) | The lowest power in the spectrum at each frequency bin is retained from one acquisition to the next. |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies whether the amplitude of the frequency bins, used in measurements, is corrected for external attenuation at the RF center frequency, or at the individual frequency bins. Use the RFmxInstr_CfgExternalAttenuationTable function to configure the external attenuation table. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is RFMXLTE_VAL_SEM_AMPLITUDE_CORRECTION_TYPE_RF_CENTER_FREQUENCY. Get Function: RFmxLTE_SEMGetAmplitudeCorrectionType Set Function: RFmxLTE_SEMSetAmplitudeCorrectionType |
| Values: |
| RFMXLTE_VAL_SEM_AMPLITUDE_CORRECTION_TYPE_RF_CENTER_FREQUENCY (0) | All the frequency bins in the spectrum are compensated with a single external attenuation value that corresponds to the RF center frequency. |
|---|---|
| RFMXLTE_VAL_SEM_AMPLITUDE_CORRECTION_TYPE_SPECTRUM_FREQUENCY_BIN (1) | An individual frequency bin in the spectrum is compensated with the external attenuation value corresponding to that frequency. |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies whether to enable the traces to be stored and retrieved after performing the SEM measurement. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is RFMXLTE_VAL_FALSE. Get Function: RFmxLTE_SEMGetAllTracesEnabled Set Function: RFmxLTE_SEMSetAllTracesEnabled |
| Data Type: | int32 |
|---|---|
| Access: | read/write |
| Functions: | RFmxLTE_SetAttributeI32 RFmxLTE_GetAttributeI32 |
| Description: | Specifies the maximum number of threads used for parallelism for the SEM measurement. The number of threads can range from 1 to the number of physical cores. The number of threads you set may not be used in calculations. The actual number of threads used depends on the problem size, system resources, data availability, and other considerations. You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. The default value is 1. Get Function: RFmxLTE_SEMGetNumberOfAnalysisThreads Set Function: RFmxLTE_SEMSetNumberOfAnalysisThreads |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the sum of powers of all the subblocks. This value includes the power in the inter-carrier gap within a subblock, but it excludes power in the inter-subblock gaps. This value is expressed in dBm. You do not need to use a selector string to read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. Get Function: RFmxLTE_SEMGetResultsTotalAggregatedPower |
| Data Type: | int32 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeI32 |
| Description: | Returns the overall measurement status based on the standard mask type that you configure in the SEM Standard Mask Type attribute. You do not need to use a selector string to read this attribute for the default signal instance. Refer to the Selector Strings topic for information about the string syntax for named signals. Get Function: RFmxLTE_SEMGetResultsMeasurementStatus |
| Values: |
| RFMXLTE_VAL_SEM_MEASUREMENT_STATUS_FAIL (0) | Indicates that the measurement has failed. |
|---|---|
| RFMXLTE_VAL_SEM_MEASUREMENT_STATUS_PASS (1) | Indicates that the measurement has passed. |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the absolute center frequency of the subblock. This value is the center of the subblock integration bandwidth. Integration bandwidth is the span from the left edge of the leftmost carrier to the right edge of the rightmost carrier within the subblock. This value is expressed in Hz. Use 'subblock(n)' as the selector string to read this result. Get Function: RFmxLTE_SEMGetResultsSubblockCenterFrequency |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the integration bandwidth of the subblock. Integration bandwidth is the span from left edge of the leftmost carrier to the right edge of the rightmost carrier within the subblock. This value is expressed in Hz. Use 'subblock(n)' as the selector string to read this result. Get Function: RFmxLTE_SEMGetResultsSubblockIntegrationBandwidth |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the power measured over the integration bandwidth of the subblock. This value is expressed in dBm. Use 'subblock(n)' as the selector string to read this result. Get Function: RFmxLTE_SEMGetResultsSubblockPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the sum of powers of all the frequency bins over the integration bandwidth of the carrier. This value is expressed in dBm. Use 'carrier(k)' or 'subblock(n)/carrier(k)' as the selector string to read this result. Get Function: RFmxLTE_SEMGetResultsComponentCarrierAbsoluteIntegratedPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the sum of powers of all the frequency bins over the integration bandwidth of the component carrier power relative to its subblock power. This value is expressed in dB. Use 'carrier(k)' or 'subblock(n)/carrier(k)' as the selector string to read this result. Get Function: RFmxLTE_SEMGetResultsComponentCarrierRelativeIntegratedPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the peak power in the component carrier. This value is expressed in dBm. Use 'carrier(k)' or 'subblock(n)/carrier(k)' as the selector string to read this result. Get Function: RFmxLTE_SEMGetResultsComponentCarrierAbsolutePeakPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the frequency at which the peak power occurs in the component carrier. This value is expressed in Hz. Use 'carrier(k)' or 'subblock(n)/carrier(k)' as the selector string to read this result. Get Function: RFmxLTE_SEMGetResultsComponentCarrierPeakFrequency |
| Data Type: | int32 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeI32 |
| Description: | Indicates the measurement status based on the spectrum emission limits defined by the standard mask type that you configure in the SEM Standard Mask Type attribute. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM mask. Get Function: RFmxLTE_SEMGetResultsLowerOffsetMeasurementStatus |
| Values: |
| RFMXLTE_VAL_SEM_LOWER_OFFSET_MEASUREMENT_STATUS_FAIL (0) | Indicates that the measurement has failed. |
|---|---|
| RFMXLTE_VAL_SEM_LOWER_OFFSET_MEASUREMENT_STATUS_PASS (1) | Indicates that the measurement has passed. |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the lower (negative) offset segment power. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dBm. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsLowerOffsetAbsoluteIntegratedPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the power in the lower (negative) offset segment relative to the total aggregated power. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dB. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsLowerOffsetRelativeIntegratedPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the peak power in the lower (negative) offset segment. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dBm. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsLowerOffsetAbsolutePeakPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the peak power in the lower (negative) offset segment relative to the total aggregated power. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dB. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsLowerOffsetRelativePeakPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the frequency at which the peak power occurs in the lower (negative) offset segment. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in Hz. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsLowerOffsetPeakFrequency |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the margin from the standard-defined absolute limit mask for the lower (negative) offset. Margin is defined as the minimum difference between the limit mask and the spectrum. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dB. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsLowerOffsetMargin |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the power at which the margin occurs in the lower (negative) offset segment. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dBm. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsLowerOffsetMarginAbsolutePower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the power at which the margin occurs in the lower (negative) offset segment relative to the total aggregated power. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dB. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsLowerOffsetMarginRelativePower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the frequency at which the margin occurs in the lower (negative) offset. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in Hz. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsLowerOffsetMarginFrequency |
| Data Type: | int32 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeI32 |
| Description: | Returns the measurement status based on the user-configured standard measurement limits and the failure criteria specified by Limit Fail Mask for the upper (positive) offset. For intra-band noncontiguous case, the offset segment may be truncated or discarded based on offset overlap rules defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsUpperOffsetMeasurementStatus |
| Values: |
| RFMXLTE_VAL_SEM_UPPER_OFFSET_MEASUREMENT_STATUS_FAIL (0) | Indicates that the measurement has failed. |
|---|---|
| RFMXLTE_VAL_SEM_UPPER_OFFSET_MEASUREMENT_STATUS_PASS (1) | Indicates that the measurement has passed. |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the upper (positive) offset segment power. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dBm. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsUpperOffsetAbsoluteIntegratedPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the power in the upper (positive) offset segment relative to the total aggregated power. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dB. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsUpperOffsetRelativeIntegratedPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the power in the upper (positive) offset segment. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dBm. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsUpperOffsetAbsolutePeakPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the peak power in the upper (positive) offset segment relative to the total aggregated power. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dB. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsUpperOffsetRelativePeakPower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the frequency at which the peak power occurs in the upper (positive) offset segment. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in Hz. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsUpperOffsetPeakFrequency |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the margin from the absolute limit mask for the upper (positive) offset. The Margin is defined as the minimum difference between the limit mask and the spectrum. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in Hz. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsUpperOffsetMargin |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the power at which the margin occurs in the upper (positive) offset segment. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dBm. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsUpperOffsetMarginAbsolutePower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the power at which the margin occurs in the upper (positive) offset segment relative to the total aggregated power. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in dB. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsUpperOffsetMarginRelativePower |
| Data Type: | float64 |
|---|---|
| Access: | read only |
| Functions: | RFmxLTE_GetAttributeF64 |
| Description: | Returns the frequency at which the margin occurs in the upper (positive) offset. For the intra-band noncontiguous type of carrier aggregation, the offset segment may be truncated or discarded based on the offset overlap rules, as defined in the 3GPP TS 36.521 specification. If the offset segment is truncated, the measurement is performed on the updated offset segment. If the offset segment is discarded, a NaN is returned. This value is expressed in Hz. Use 'offset(k)' or 'subblock(n)/offset(k)' as the selector string to read this result. Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information about SEM offsets. Get Function: RFmxLTE_SEMGetResultsUpperOffsetMarginFrequency |
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- Advanced Attributes
NI-RFmx SpecAn
- gRPC API Differences From C API
- General Functions
- Configuration Functions
- Set And Get Attribute Functions
- Read Functions
- Fetch Functions
- Utility Functions
- Marker Functions
- Build String Functions
- Advanced Functions
- General Attributes
- Trigger Attributes
- ACP Attributes
- Cdf Attributes
- CHP Attributes
- Fcnt Attributes
- Harm Attributes
- OBW Attributes
- SEM Attributes
- Spectrum Attributes
- Spur Attributes
- TXP Attributes
- AMPM Attributes
- Dpd Attributes
- IQ Attributes
- IM Attributes
- NF Attributes
- Phasenoise Attributes
- PAVT Attributes
- Advanced Attributes
NI-RFmx WLAN
- gRPC API Differences From C API
- General Functions
- Configuration Functions
- Set And Get Attribute Functions
- Fetch DSSS ModAcc Functions
- Fetch OFDM ModAcc Functions
- Fetch SEM Functions
- Fetch TXP Functions
- Fetch PowerRamp Functions
- Utility Functions
- Build String Functions
- Advanced Functions
- General Attributes
- Trigger Attributes
- OFDM Attributes
- Auto Detect Signal Attributes
- DSSS ModAcc Attributes
- OFDM ModAcc Attributes
- SEM Attributes
- TXP Attributes
- PowerRamp Attributes
- Advanced Attributes
NI-RFSA
- General Functions
- Configuration Functions
- Acquisition Functions
- Utility Functions
- Calibration Functions
- General Attributes
- Vertical Attributes
- Signal Path Attributes
- Acquisition Attributes
- Acquisition Attributes
- Triggers Attributes
- Events Attributes
- Device Characteristics Attributes
- Peer To Peer Streaming Attributes
- Configuration List Attributes
- Inherent IVI Properties Attributes
- De-embedding Attributes
- Self Calibration Attributes
- Factory Calibration Attributes
- External Alignment Attributes
- Device Specific Attributes
NI-RFSG
- General Functions
- Generation Configuration
- Utility Functions
- Calibration Functions
- Arb Attributes
- Clock Attributes
- Configuration List Attributes
- De-embedding Attributes
- Device Characteristics Attributes
- Device Specific Attributes
- Events Attributes
- External Calibration Attributes
- Inherent IVI Attributes Attributes
- IQ Impairment Attributes
- Load Configurations Attributes
- Modulation Attributes
- Obsolete Attributes
- Peer To Peer Attributes
- RF Attributes
- Self Calibration Attributes
- Triggers Attributes
NI-SCOPE
- Setup Functions
- Configure Functions
- Attribute Functions
- Acquisition Functions
- Measurement Functions
- Calibrate Functions
- Utility Funcitons
- Error Handling Functions
- IVI Compliance Or Obsolete Functions
- Vertical Attributes
- Horizontal Attributes
- Trigger Attributes
- Clocking Attributes
- Synchronization Attributes
- Acquisition Attributes
- Waveform Measurements Attributes
- Onboard Signal Processing Attributes
- Peer To Peer Streaming Attributes
- Device Attributes
- IVI Or Obsolete Attributes
- Instrument Capabilities Attributes
- If Digitizer Attributes
NI-XNET
- gRPC API differences from C APIs
- General Functions
- Cluster Properties
- Database Properties
- Device Properties
- ECU Properties
- Frame Properties
- Interface Properties
- LIN Schedule Entry Properties
- LIN Schedule Properties
- PDU Properties
- Session Ethernet Properties
- Session Frame Properties
- Session Interface Properties
- Session Properties
- Session SAE J1939 Properties
- Signal Properties
- Subframe Properties
- System Properties
- IP-Stack Functions
- Socket Options
- Socket Functions