RFmxLteMXSemResults Methods

Determines whether the specified Object is equal to the current Object.

Returns the measurement status, margin, frequency at margin, and the absolute and relative powers at the margin for lower offset segments. The relative power is relative to the total aggregated power.
Use "offset(n)" or "subblock(n)/offset(n)" as the selector string to read results from this method.
Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information.

Returns an array of measurement statuses, margins, frequencies at margins, and absolute and relative powers at margins for lower offset segments. The relative power is relative to the total aggregated power.
Use "subblock(n)" as the selector string to read results from this method.
Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information.

Returns the total absolute and relative powers, peak, absolute, and relative powers, and the frequency at the peak absolute power of the lower offset segment. The relative power is relative to the total aggregated power.
Use "offset(n)" or "subblock(n)/offset(n)" as the selector string to read results from this method.
Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information.

Returns an array of total absolute and relative powers, peak, absolute, and relative powers, and frequencies at peak absolute powers of lower offset segments. The relative power is relative to total aggregated power.
Use "subblock(n)" as the selector string to read results from this method.
Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information.

Returns the overall measurement status based on the standard mask type that you configure.

Fetches the spectrum used for the SEM measurement.

Returns the power, integration bandwidth and center frequency of the subblock.
Use "subblock(n)" as the selector string to read results from this method.

Returns the sum of powers of all subblocks.

Returns the measurement status, margin, frequency at margin, and absolute and relative powers at margin for upper offset segments. The relative power is relative to total aggregated power.
Use "offset(n)" or "subblock(n)/offset(n)" as the selector string to read results from this method.
Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information.

Returns an array of measurement statuses, margins, frequencies at margins, and absolute and relative powers at margins for upper offset segments. The relative power is relative to total aggregated power.
Use "subblock(n)" as the selector string to read results from this method.
Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information.

Returns the total absolute and relative powers, peak, absolute, and relative powers, and frequency at peak absolute power of upper offset segment. The relative power is relative to total aggregated power.
Use "offset(n)" or "subblock(n)/offset(n)" as the selector string to read results from this method.
Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information.

Returns an array of total absolute and relative powers, peak, absolute, and relative powers, and frequencies at peak absolute powers of upper offset segments. The relative power is relative to total aggregated power.
Use "subblock(n)" as the selector string to read results from this method.
Refer to the LTE Uplink Spectral Emission Mask and LTE Downlink Spectral Emission Mask topics for more information.

Serves as a hash function for a particular type.

Gets the lower (negative) offset segment power. For the intra-band non-contiguous 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.

Gets the peak power in the lower (negative) offset segment. For the intra-band non-contiguous 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.

Gets 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 non-contiguous 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.

Gets the power at which the margin occurs in the lower (negative) offset segment. For the intra-band non-contiguous 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.

Gets the frequency at which the margin occurs in the lower (negative) offset. For the intra-band non-contiguous 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.

Gets the power at which the margin occurs in the lower (negative) offset segment relative to the total aggregated power. For the intra-band non-contiguous 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.

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 method. Use "offset(k)" or "subblock(n)/offset(k)" as the selector string to read this result.

Gets the frequency at which the peak power occurs in the lower (negative) offset segment. For the intra-band non-contiguous 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.

Gets the power in the lower (negative) offset segment relative to the total aggregated power. For the intra-band non-contiguous 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.

Gets the peak power in the lower (negative) offset segment relative to the total aggregated power. For the intra-band non-contiguous 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.

Gets the overall measurement status based on the standard mask type that you configure in the SEM Standard Mask Type method.

Gets 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.

Gets 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.

Gets 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.

Gets 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.

Gets the Type of the current instance.

Gets the upper (positive) offset segment power. For the intra-band non-contiguous 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.

Gets the power in the upper (positive) offset segment. For the intra-band non-contiguous 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.

Gets 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 non-contiguous 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.

Gets the power at which the margin occurs in the upper (positive) offset segment. For the intra-band non-contiguous 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.

Gets the frequency at which the margin occurs in the upper (positive) offset. For the intra-band non-contiguous 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.

Gets the power at which the margin occurs in the upper (positive) offset segment relative to the total aggregated power. For the intra-band non-contiguous 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.

Gets 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 non-contiguous 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.

Gets the frequency at which the peak power occurs in the upper (positive) offset segment. For the intra-band non-contiguous 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.

Gets the power in the upper (positive) offset segment relative to the total aggregated power.

Gets the peak power in the upper (positive) offset segment relative to the total aggregated power. For the intra-band non-contiguous 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.

Returns a string that represents the current object.