ObwConfiguration

Provides methods to configure the Obw measurement.

class nirfmxnr.obw_configuration.ObwConfiguration(signal_obj)[source]

Bases: object

Provides methods to configure the Obw measurement.

configure_averaging(selector_string, averaging_enabled, averaging_count, averaging_type)[source]

Configures averaging for the OBW measurement.

Parameters:

selector_string (string) – Pass an empty string. The signal name that is passed when creating the signal configuration is used.

averaging_enabled (enums.ObwAveragingEnabled, int) –

This parameter specifies whether to enable averaging for the measurement. The default value is False.

Name (Value)	Description
False (0)	The measurement is performed on a single acquisition.
True (1)	The measurement is averaged over multiple acquisitions. The number of acquisitions is obtained by the Averaging Count parameter.

averaging_count (int) – This parameter specifies the number of acquisitions used for averaging when you set the Averaging Enabled parameter to True. The default value is 10.

averaging_type (enums.ObwAveragingType, int) –

This parameter specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for the measurement. The default value is RMS.

Name (Value)	Description
RMS (0)	The power spectrum is linearly averaged. RMS averaging reduces signal fluctuations, but not the noise floor.
Log (1)	The power spectrum is averaged in a logarithmic scale.
Scalar (2)	The square root of the power spectrum is averaged.
Max (3)	The peak power in the spectrum at each frequency bin is retained from one acquisition to the next.
Min (4)	The lowest power in the spectrum at each frequency bin is retained from one acquisition to the next.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

configure_rbw_filter(selector_string, rbw_auto, rbw, rbw_filter_type)[source]

Configures the resolution bandwidth (RBW) filter.

Parameters:

selector_string (string) – Pass an empty string. The signal name that is passed when creating the signal configuration is used.
rbw_auto (enums.ObwRbwAutoBandwidth, int) –
This parameter specifies whether the measurement computes the RBW. The default value is True.

Name (Value)

Description

False (0)

The measurement uses the RBW that you specify in the RBW parameter.

True (1)

The measurement computes the RBW.
rbw (float) – This parameter specifies the bandwidth of the RBW filter, used to sweep the acquired signal, when you set the RBW Auto parameter to False. This value is expressed in Hz. The default value is 10 kHz.
rbw_filter_type (enums.ObwRbwFilterType, int) –
This parameter specifies the shape of the RBW filter. The default value is Gaussian.

Name (Value)

Description

FFT Based (0)

No RBW filtering is performed.

Gaussian (1)

An RBW filter with a Gaussian response is applied.

Flat (2)

An RBW filter with a flat response is applied.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

configure_sweep_time(selector_string, sweep_time_auto, sweep_time_interval)[source]

Configures the sweep time.

Parameters:

selector_string (string) – Pass an empty string. The signal name that is passed when creating the signal configuration is used.

sweep_time_auto (enums.ObwSweepTimeAuto, int) –

This parameter specifies whether the measurement sets the sweep time. The default value is True.

Name (Value)	Description
False (0)	The measurement uses the sweep time that you specify in the Sweep Time Interval parameter.
True (1)	The measurement calculates the sweep time internally. For DL, the sweep time is calculated based on the value of the OBW RBW attribute, and for UL, it uses a sweep time of 1 ms.

sweep_time_interval (float) – This parameter specifies the sweep time when you set the Sweep Time Auto parameter to False. This value is expressed in seconds. The default value is 1 ms.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

get_all_traces_enabled(selector_string)[source]

Gets whether to enable the traces to be stored and retrieved after performing the OBW 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 String topic for information about the string syntax for named signals.

The default value is FALSE.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (bool):: Specifies whether to enable the traces to be stored and retrieved after performing the OBW measurement.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_amplitude_correction_type(selector_string)[source]

Gets whether the amplitude of frequency bins in the spectrum used by the measurement is corrected for external attenuation at RF center frequency or corrected for external attenuation at individual frequency bins. Use the nirfmxinstr.session.Session.configure_external_attenuation_table() method 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 String topic for information about the string syntax for named signals.

The default value is RF Center Frequency.

Name (Value)	Description
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.
Spectrum Frequency Bin (1)	An individual frequency bin in the spectrum is compensated with the external attenuation value corresponding to that frequency.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (enums.ObwAmplitudeCorrectionType):: Specifies whether the amplitude of frequency bins in the spectrum used by the measurement is corrected for external attenuation at RF center frequency or corrected for external attenuation at individual frequency bins. Use the nirfmxinstr.session.Session.configure_external_attenuation_table() method to configure the external attenuation table.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_averaging_count(selector_string)[source]

Gets the number of acquisitions used for averaging when you set the OBW_AVERAGING_ENABLED attribute to 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 String topic for information about the string syntax for named signals.

The default value is 10.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (int):: Specifies the number of acquisitions used for averaging when you set the OBW_AVERAGING_ENABLED attribute to True.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_averaging_enabled(selector_string)[source]

Gets whether to enable averaging for the OBW 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 String topic for information about the string syntax for named signals.

The default value is False.

Name (Value)	Description
False (0)	The measurement is performed on a single acquisition.
True (1)	The OBW measurement uses the value of the OBW Averaging Count attribute as the number of acquisitions over which the OBW measurement is averaged.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (enums.ObwAveragingEnabled):: Specifies whether to enable averaging for the OBW measurement.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_averaging_type(selector_string)[source]

Gets the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for the OBW 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 String topic for information about the string syntax for named signals.

The default value is RMS.

Name (Value)	Description
RMS (0)	The power spectrum is linearly averaged. RMS averaging reduces signal fluctuations but not the noise floor.
Log (1)	The power spectrum is averaged in a logarithmic scale.
Scalar (2)	The square root of the power spectrum is averaged.
Max (3)	The peak power in the spectrum at each frequency bin is retained from one acquisition to the next.
Min (4)	The lowest power in the spectrum at each frequency bin is retained from one acquisition to the next.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (enums.ObwAveragingType):: Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for the OBW measurement.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_fft_window(selector_string)[source]

Gets the FFT window type to be used to reduce spectral leakage.

You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector String topic for information about the string syntax for named signals.

The default value is Flat Top.

Name (Value)	Description
None (0)	No spectral leakage.
Flat Top (1)	Spectral leakage is reduced using flat top window type.
Hanning (2)	Spectral leakage is reduced using Hanning window type.
Hamming (3)	Spectral leakage is reduced using Hamming window type.
Gaussian (4)	Spectral leakage is reduced using Gaussian window type.
Blackman (5)	Spectral leakage is reduced using Blackman window type.
Blackman-Harris (6)	Spectral leakage is reduced using Blackman-Harris window type.
Kaiser-Bessel (7)	Spectral leakage is reduced using Kaiser-Bessel window type.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (enums.ObwFftWindow):: Specifies the FFT window type to be used to reduce spectral leakage.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_measurement_enabled(selector_string)[source]

Gets whether to enable the OBW 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 String topic for information about the string syntax for named signals.

The default value is FALSE.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (bool):: Specifies whether to enable the OBW measurement.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_number_of_analysis_threads(selector_string)[source]

Gets the maximum number of threads used for parallelism for the OBW 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 String topic for information about the string syntax for named signals.

The default value is 1.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (int):: Specifies the maximum number of threads used for parallelism for the OBW measurement.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_power_integration_method(selector_string)[source]

Gets if the OBW measurement window is centered around the center of the channel.

You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector String topic for information about the string syntax for named signals.

The default value is Normal.

Name (Value)	Description
Normal (0)	The OBW measurement window is centered around the signal in the channel.
From Center (1)	The OBW measurement window is centered around the RF Center Frequency.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (enums.ObwPowerIntegrationMethod):: Specifies if the OBW measurement window is centered around the center of the channel.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_rbw_filter_auto_bandwidth(selector_string)[source]

Gets whether the measurement computes the RBW.

You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector String topic for information about the string syntax for named signals.

The default value is True.

Name (Value)	Description
False (0)	The measurement uses the RBW that you specify in the OBW RBW attribute.
True (1)	The measurement computes the RBW.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (enums.ObwRbwAutoBandwidth):: Specifies whether the measurement computes the RBW.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_rbw_filter_bandwidth(selector_string)[source]

Gets the bandwidth of the RBW filter used to sweep the acquired signal, when you set the OBW_RBW_FILTER_AUTO_BANDWIDTH attribute to ** False**. 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 String topic for information about the string syntax for named signals.

The default value is 10 kHz.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (float):: Specifies the bandwidth of the RBW filter used to sweep the acquired signal, when you set the OBW_RBW_FILTER_AUTO_BANDWIDTH attribute to ** False**. This value is expressed in Hz.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_rbw_filter_type(selector_string)[source]

Gets the shape of the digital RBW filter.

You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector String topic for information about the string syntax for named signals.

The default value is Gaussian.

Name (Value)	Description
FFT Based (0)	No RBW filtering is performed.
Gaussian (1)	An RBW filter with a Gaussian response is applied.
Flat (2)	An RBW filter with a flat response is applied.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (enums.ObwRbwFilterType):: Specifies the shape of the digital RBW filter.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_span(selector_string)[source]

Gets the frequency range around the subblock center frequency, which is used to find the OBW_RESULTS_OCCUPIED_BANDWIDTH. When OBW_SPAN_AUTO is set to False, the configured span value is used by the measurement. This value is expressed in Hz.

Use “subblock<n>” as the Selector String to configure or read this attribute.

The default value is 20 MHz.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (float):: Specifies the frequency range around the subblock center frequency, which is used to find the OBW_RESULTS_OCCUPIED_BANDWIDTH. When OBW_SPAN_AUTO is set to False, the configured span value is used by the measurement. This value is expressed in Hz.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_span_auto(selector_string)[source]

Gets whether the frequency range of the spectrum used for the OBW measurement is auto computed or configured by the user.

You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector String topic for information about the string syntax for named signals.

The default value is True.

Name (Value)	Description
False (0)	Indicates that the user-configured span is used.
True (1)	Indicates that the measurement will auto compute the span based on the configuration.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (enums.ObwSpanAuto):: Specifies whether the frequency range of the spectrum used for the OBW measurement is auto computed or configured by the user.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_sweep_time_auto(selector_string)[source]

Gets whether the measurement sets 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 String topic for information about the string syntax for named signals.

The default value is True.

Name (Value)	Description
False (0)	The measurement uses the sweep time that you specify in the OBW Sweep Time attribute.
True (1)	The measurement calculates the sweep time internally. For DL, the sweep time is calculated based on the value of the OBW RBW attribute, and for UL, it uses a sweep time of 1 ms.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (enums.ObwSweepTimeAuto):: Specifies whether the measurement sets the sweep time.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

get_sweep_time_interval(selector_string)[source]

Gets the sweep time when you set the OBW_SWEEP_TIME_AUTO attribute to 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 String topic for information about the string syntax for named signals.

The default value is 1 ms.

Parameters:

selector_string (string) – Pass an empty string.

Returns:

attr_val (float):: Specifies the sweep time when you set the OBW_SWEEP_TIME_AUTO attribute to False. This value is expressed in seconds.
error_code (int):: Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

Tuple (attr_val, error_code)

set_all_traces_enabled(selector_string, value)[source]

Sets whether to enable the traces to be stored and retrieved after performing the OBW 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 String topic for information about the string syntax for named signals.

The default value is FALSE.

Parameters:

selector_string (string) – Pass an empty string.
value (bool) – Specifies whether to enable the traces to be stored and retrieved after performing the OBW measurement.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_amplitude_correction_type(selector_string, value)[source]

Sets whether the amplitude of frequency bins in the spectrum used by the measurement is corrected for external attenuation at RF center frequency or corrected for external attenuation at individual frequency bins. Use the nirfmxinstr.session.Session.configure_external_attenuation_table() method 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 String topic for information about the string syntax for named signals.

The default value is RF Center Frequency.

Name (Value)	Description
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.
Spectrum Frequency Bin (1)	An individual frequency bin in the spectrum is compensated with the external attenuation value corresponding to that frequency.

Parameters:

selector_string (string) – Pass an empty string.
value (enums.ObwAmplitudeCorrectionType, int) – Specifies whether the amplitude of frequency bins in the spectrum used by the measurement is corrected for external attenuation at RF center frequency or corrected for external attenuation at individual frequency bins. Use the nirfmxinstr.session.Session.configure_external_attenuation_table() method to configure the external attenuation table.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_averaging_count(selector_string, value)[source]

Sets the number of acquisitions used for averaging when you set the OBW_AVERAGING_ENABLED attribute to 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 String topic for information about the string syntax for named signals.

The default value is 10.

Parameters:

selector_string (string) – Pass an empty string.
value (int) – Specifies the number of acquisitions used for averaging when you set the OBW_AVERAGING_ENABLED attribute to True.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_averaging_enabled(selector_string, value)[source]

Sets whether to enable averaging for the OBW 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 String topic for information about the string syntax for named signals.

The default value is False.

Name (Value)	Description
False (0)	The measurement is performed on a single acquisition.
True (1)	The OBW measurement uses the value of the OBW Averaging Count attribute as the number of acquisitions over which the OBW measurement is averaged.

Parameters:

selector_string (string) – Pass an empty string.
value (enums.ObwAveragingEnabled, int) – Specifies whether to enable averaging for the OBW measurement.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_averaging_type(selector_string, value)[source]

Sets the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for the OBW 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 String topic for information about the string syntax for named signals.

The default value is RMS.

Name (Value)	Description
RMS (0)	The power spectrum is linearly averaged. RMS averaging reduces signal fluctuations but not the noise floor.
Log (1)	The power spectrum is averaged in a logarithmic scale.
Scalar (2)	The square root of the power spectrum is averaged.
Max (3)	The peak power in the spectrum at each frequency bin is retained from one acquisition to the next.
Min (4)	The lowest power in the spectrum at each frequency bin is retained from one acquisition to the next.

Parameters:

selector_string (string) – Pass an empty string.
value (enums.ObwAveragingType, int) – Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for the OBW measurement.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_fft_window(selector_string, value)[source]

Sets the FFT window type to be used to reduce spectral leakage.

You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector String topic for information about the string syntax for named signals.

The default value is Flat Top.

Name (Value)	Description
None (0)	No spectral leakage.
Flat Top (1)	Spectral leakage is reduced using flat top window type.
Hanning (2)	Spectral leakage is reduced using Hanning window type.
Hamming (3)	Spectral leakage is reduced using Hamming window type.
Gaussian (4)	Spectral leakage is reduced using Gaussian window type.
Blackman (5)	Spectral leakage is reduced using Blackman window type.
Blackman-Harris (6)	Spectral leakage is reduced using Blackman-Harris window type.
Kaiser-Bessel (7)	Spectral leakage is reduced using Kaiser-Bessel window type.

Parameters:

selector_string (string) – Pass an empty string.
value (enums.ObwFftWindow, int) – Specifies the FFT window type to be used to reduce spectral leakage.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_measurement_enabled(selector_string, value)[source]

Sets whether to enable the OBW 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 String topic for information about the string syntax for named signals.

The default value is FALSE.

Parameters:

selector_string (string) – Pass an empty string.
value (bool) – Specifies whether to enable the OBW measurement.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_number_of_analysis_threads(selector_string, value)[source]

Sets the maximum number of threads used for parallelism for the OBW 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 String topic for information about the string syntax for named signals.

The default value is 1.

Parameters:

selector_string (string) – Pass an empty string.
value (int) – Specifies the maximum number of threads used for parallelism for the OBW measurement.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_power_integration_method(selector_string, value)[source]

Sets if the OBW measurement window is centered around the center of the channel.

You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector String topic for information about the string syntax for named signals.

The default value is Normal.

Name (Value)	Description
Normal (0)	The OBW measurement window is centered around the signal in the channel.
From Center (1)	The OBW measurement window is centered around the RF Center Frequency.

Parameters:

selector_string (string) – Pass an empty string.
value (enums.ObwPowerIntegrationMethod, int) – Specifies if the OBW measurement window is centered around the center of the channel.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_rbw_filter_auto_bandwidth(selector_string, value)[source]

Sets whether the measurement computes the RBW.

You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector String topic for information about the string syntax for named signals.

The default value is True.

Name (Value)	Description
False (0)	The measurement uses the RBW that you specify in the OBW RBW attribute.
True (1)	The measurement computes the RBW.

Parameters:

selector_string (string) – Pass an empty string.
value (enums.ObwRbwAutoBandwidth, int) – Specifies whether the measurement computes the RBW.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_rbw_filter_bandwidth(selector_string, value)[source]

Sets the bandwidth of the RBW filter used to sweep the acquired signal, when you set the OBW_RBW_FILTER_AUTO_BANDWIDTH attribute to ** False**. 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 String topic for information about the string syntax for named signals.

The default value is 10 kHz.

Parameters:

selector_string (string) – Pass an empty string.
value (float) – Specifies the bandwidth of the RBW filter used to sweep the acquired signal, when you set the OBW_RBW_FILTER_AUTO_BANDWIDTH attribute to ** False**. This value is expressed in Hz.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_rbw_filter_type(selector_string, value)[source]

Sets the shape of the digital RBW filter.

You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector String topic for information about the string syntax for named signals.

The default value is Gaussian.

Name (Value)	Description
FFT Based (0)	No RBW filtering is performed.
Gaussian (1)	An RBW filter with a Gaussian response is applied.
Flat (2)	An RBW filter with a flat response is applied.

Parameters:

selector_string (string) – Pass an empty string.
value (enums.ObwRbwFilterType, int) – Specifies the shape of the digital RBW filter.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_span(selector_string, value)[source]

Sets the frequency range around the subblock center frequency, which is used to find the OBW_RESULTS_OCCUPIED_BANDWIDTH. When OBW_SPAN_AUTO is set to False, the configured span value is used by the measurement. This value is expressed in Hz.

Use “subblock<n>” as the Selector String to configure or read this attribute.

The default value is 20 MHz.

Parameters:

selector_string (string) – Pass an empty string.
value (float) – Specifies the frequency range around the subblock center frequency, which is used to find the OBW_RESULTS_OCCUPIED_BANDWIDTH. When OBW_SPAN_AUTO is set to False, the configured span value is used by the measurement. This value is expressed in Hz.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_span_auto(selector_string, value)[source]

Sets whether the frequency range of the spectrum used for the OBW measurement is auto computed or configured by the user.

You do not need to use a selector string to configure or read this attribute for the default signal instance. Refer to the Selector String topic for information about the string syntax for named signals.

The default value is True.

Name (Value)	Description
False (0)	Indicates that the user-configured span is used.
True (1)	Indicates that the measurement will auto compute the span based on the configuration.

Parameters:

selector_string (string) – Pass an empty string.
value (enums.ObwSpanAuto, int) – Specifies whether the frequency range of the spectrum used for the OBW measurement is auto computed or configured by the user.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_sweep_time_auto(selector_string, value)[source]

Sets whether the measurement sets 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 String topic for information about the string syntax for named signals.

The default value is True.

Name (Value)	Description
False (0)	The measurement uses the sweep time that you specify in the OBW Sweep Time attribute.
True (1)	The measurement calculates the sweep time internally. For DL, the sweep time is calculated based on the value of the OBW RBW attribute, and for UL, it uses a sweep time of 1 ms.

Parameters:

selector_string (string) – Pass an empty string.
value (enums.ObwSweepTimeAuto, int) – Specifies whether the measurement sets the sweep time.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int

set_sweep_time_interval(selector_string, value)[source]

Sets the sweep time when you set the OBW_SWEEP_TIME_AUTO attribute to 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 String topic for information about the string syntax for named signals.

The default value is 1 ms.

Parameters:

selector_string (string) – Pass an empty string.
value (float) – Specifies the sweep time when you set the OBW_SWEEP_TIME_AUTO attribute to False. This value is expressed in seconds.

Returns:

Returns the status code of this method. The status code either indicates success or describes a warning condition.

Return type:

int