Angle of Arrival / Departure#

Angle of Arrival / Departure.

These functions are related to the calculation of the Angle of Arrival and Angle of Departure from I/Q samples. The angles can be calculated following these steps:

  1. Initialize a sl_rtl_aox_libitem instance.

  2. Set up the antenna array and angle calculation parameters.

  3. Create the estimator.

  4. Set the antenna switching pattern.

  5. Input the I/Q data into the libitem.

  6. Process the I/Q data into an angle.

Modules#

sl_rtl_clib_iq_sample_qa_antenna_data_t

sl_rtl_clib_iq_sample_qa_dataset_t

Enumerations#

enum
SL_RTL_AOX_ARRAY_TYPE_4x4_URA = 0
SL_RTL_AOX_ARRAY_TYPE_3x3_URA
SL_RTL_AOX_ARRAY_TYPE_1x4_ULA
SL_RTL_AOX_ARRAY_TYPE_4x4_DP_URA
SL_RTL_AOX_ARRAY_TYPE_COREHW_15x15_DP
SL_RTL_AOX_ARRAY_TYPE_COREHW_12x12_DP
SL_RTL_AOX_ARRAY_TYPE_COREHW_4x4_URA
SL_RTL_AOX_ARRAY_TYPE_COREHW_2x2_URA
SL_RTL_AOX_ARRAY_TYPE_LAST
}

AoX antenna array type.

enum
SL_RTL_AOX_SWITCH_PATTERN_ARRAY_4x4_CP = 0
SL_RTL_AOX_SWITCH_PATTERN_ARRAY_4x4_DP
SL_RTL_AOX_SWITCH_PATTERN_ARRAY_LAST
}
enum
SL_RTL_AOX_SWITCH_PATTERN_OPTIONS_DUAL_POLARIZED = 0x1
SL_RTL_AOX_SWITCH_PATTERN_OPTIONS_EXTRA_REFERENCE = 0x2
}
enum
SL_RTL_AOA_MODE_ONE_SHOT_BASIC = 3
SL_RTL_AOA_MODE_ONE_SHOT_BASIC_LIGHTWEIGHT
SL_RTL_AOA_MODE_ONE_SHOT_FAST_RESPONSE
SL_RTL_AOA_MODE_ONE_SHOT_HIGH_ACCURACY
SL_RTL_AOA_MODE_ONE_SHOT_BASIC_AZIMUTH_ONLY
SL_RTL_AOA_MODE_ONE_SHOT_FAST_RESPONSE_AZIMUTH_ONLY
SL_RTL_AOA_MODE_ONE_SHOT_HIGH_ACCURACY_AZIMUTH_ONLY
SL_RTL_AOA_MODE_REAL_TIME_FAST_RESPONSE
SL_RTL_AOA_MODE_REAL_TIME_BASIC
SL_RTL_AOA_MODE_REAL_TIME_HIGH_ACCURACY
SL_RTL_AOA_MODE_LAST
SL_RTL_AOD_MODE_ONE_SHOT_BASIC = 3 | 0x20
SL_RTL_AOD_MODE_ONE_SHOT_BASIC_LIGHTWEIGHT
SL_RTL_AOD_MODE_ONE_SHOT_FAST_RESPONSE
SL_RTL_AOD_MODE_ONE_SHOT_HIGH_ACCURACY
SL_RTL_AOD_MODE_ONE_SHOT_BASIC_AZIMUTH_ONLY
SL_RTL_AOD_MODE_ONE_SHOT_FAST_RESPONSE_AZIMUTH_ONLY
SL_RTL_AOD_MODE_ONE_SHOT_HIGH_ACCURACY_AZIMUTH_ONLY
SL_RTL_AOD_MODE_REAL_TIME_FAST_RESPONSE
SL_RTL_AOD_MODE_REAL_TIME_BASIC
SL_RTL_AOD_MODE_REAL_TIME_HIGH_ACCURACY
SL_RTL_AOD_MODE_LAST
SL_RTL_AOX_MODE_ONE_SHOT_BASIC = 3 | 0x40
SL_RTL_AOX_MODE_ONE_SHOT_BASIC_LIGHTWEIGHT
SL_RTL_AOX_MODE_ONE_SHOT_FAST_RESPONSE
SL_RTL_AOX_MODE_ONE_SHOT_HIGH_ACCURACY
SL_RTL_AOX_MODE_ONE_SHOT_BASIC_AZIMUTH_ONLY
SL_RTL_AOX_MODE_ONE_SHOT_FAST_RESPONSE_AZIMUTH_ONLY
SL_RTL_AOX_MODE_ONE_SHOT_HIGH_ACCURACY_AZIMUTH_ONLY
SL_RTL_AOX_MODE_REAL_TIME_FAST_RESPONSE
SL_RTL_AOX_MODE_REAL_TIME_BASIC
SL_RTL_AOX_MODE_REAL_TIME_HIGH_ACCURACY
SL_RTL_AOX_MODE_LAST
}

AoA, AoD (and AoX for backward compatibility) estimator modes.

enum
SL_RTL_AOX_CONSTRAINT_TYPE_AZIMUTH = 0
SL_RTL_AOX_CONSTRAINT_TYPE_ELEVATION
}
enum
SL_RTL_AOX_SWITCH_PATTERN_MODE_DEFAULT = 0
SL_RTL_AOX_SWITCH_PATTERN_MODE_RANDOM
SL_RTL_AOX_SWITCH_PATTERN_MODE_EXTERNAL
SL_RTL_AOX_SWITCH_PATTERN_MODE_EXTRA_REFERENCE
}
enum
SL_RTL_AOX_IQ_SAMPLE_QA_INVAL_REF = 0
SL_RTL_AOX_IQ_SAMPLE_QA_DCOFFSET = 2
SL_RTL_AOX_IQ_SAMPLE_QA_SNDR = 3
SL_RTL_AOX_IQ_SAMPLE_QA_ROTATING_ERROR = 4
SL_RTL_AOX_IQ_SAMPLE_QA_REF_ANT_PHASE_VALUE = 5
SL_RTL_AOX_IQ_SAMPLE_QA_REF_ANT_PHASE_JITTER = 6
SL_RTL_AOX_IQ_SAMPLE_QA_ANT_X_PHASE_JITTER = 7
SL_RTL_AOX_IQ_SAMPLE_QA_ALL_SAME_PHASE = 8
SL_RTL_AOX_IQ_SAMPLE_QA_SWICHING_JITTER = 9
}

Typedefs#

typedef void *

Angle of Arrival / Departure library item.

typedef void *

Angle of Arrival / Departure antenna array radiation pattern.

Functions#

sl_rtl_aox_init(sl_rtl_aox_libitem *item)
sl_rtl_aox_deinit(sl_rtl_aox_libitem *item)
sl_rtl_aox_set_num_snapshots(sl_rtl_aox_libitem *item, uint32_t num_snapshots)
sl_rtl_aox_set_array_type(sl_rtl_aox_libitem *item, enum sl_rtl_aox_array_type array_type)
sl_rtl_aox_set_mode(sl_rtl_aox_libitem *item, enum sl_rtl_aox_mode mode)
sl_rtl_aox_calculate_iq_sample_phase_rotation(sl_rtl_aox_libitem *item, float iq_data_downsampling_factor, float *i_samples, float *q_samples, uint32_t num_samples, float *phase_rotation_out)
sl_rtl_aox_set_iq_sample_phase_rotation(sl_rtl_aox_libitem *item, float phase_rotation)
sl_rtl_aox_add_constraint(sl_rtl_aox_libitem *item, enum sl_rtl_aox_constraint_type constraint_type, float min_value, float max_value)
sl_rtl_aox_set_sample_rate(sl_rtl_aox_libitem *item, float sampleRate)
sl_rtl_aox_set_num_radio_channels(sl_rtl_aox_libitem *item, uint32_t channels)
uint32_t
sl_rtl_aox_iq_sample_qa_get_results(sl_rtl_aox_libitem *item)
sl_rtl_aox_iq_sample_qa_get_details(sl_rtl_aox_libitem *item, sl_rtl_clib_iq_sample_qa_dataset_t *results, sl_rtl_clib_iq_sample_qa_antenna_data_t *antenna_data)
sl_rtl_aox_iq_sample_qa_get_channel_details(sl_rtl_aox_libitem *item, uint8_t channel, sl_rtl_clib_iq_sample_qa_dataset_t *results, sl_rtl_clib_iq_sample_qa_antenna_data_t *antenna_data)
sl_rtl_aox_create_estimator(sl_rtl_aox_libitem *item)
sl_rtl_aox_convert_raw_samples(sl_rtl_aox_libitem *item, uint32_t start_offset, float iq_data_downsampling_factor, float *raw_i_samples_in, float *raw_q_samples_in, uint32_t num_raw_samples_in, float **i_samples_out, float **q_samples_out, uint32_t num_snapshots_out)
sl_rtl_aox_calculate_number_of_snapshots(sl_rtl_aox_libitem *item, uint32_t num_raw_samples_in, uint32_t start_offset, float iq_data_downsampling_factor, uint32_t num_channels, uint32_t *num_snapshots_out)
sl_rtl_aox_set_switch_pattern_mode(sl_rtl_aox_libitem *item, enum sl_rtl_aox_switch_pattern_mode mode)
sl_rtl_aox_update_switch_pattern(sl_rtl_aox_libitem *item, uint32_t *switch_pattern_in, uint32_t **switch_pattern_out)
sl_rtl_aox_set_switch_pattern_seed(sl_rtl_aox_libitem *item, int32_t seed_value)
sl_rtl_aox_convert_switch_pattern(sl_rtl_aox_libitem *item, uint32_t array_id, uint32_t options, uint32_t switch_pattern_size_in, uint32_t *switch_pattern_in, uint32_t *switch_pattern_size_out, uint32_t **switch_pattern_out)
sl_rtl_aox_reset_estimator(sl_rtl_aox_libitem *item)
sl_rtl_aox_process(sl_rtl_aox_libitem *item, float **i_samples, float **q_samples, float tone_frequency, float *az_out, float *el_out)
sl_rtl_aox_get_latest_aox_standard_deviation(sl_rtl_aox_libitem *item, float *az_std_dev, float *el_std_dev)
sl_rtl_aox_get_latest_aoa_standard_deviation(sl_rtl_aox_libitem *item, float *az_std_dev, float *el_std_dev)
sl_rtl_aox_get_latest_aod_standard_deviation(sl_rtl_aox_libitem *item, float *az_std_dev, float *el_std_dev)
sl_rtl_aox_set_expected_direction(sl_rtl_aox_libitem *item, float expected_az, float expected_el)
sl_rtl_aox_set_expected_deviation(sl_rtl_aox_libitem *item, float deviation_az, float deviation_el)
sl_rtl_aox_enable_spectrum(sl_rtl_aox_libitem *item, bool enable)
sl_rtl_aox_get_spectrum_size(sl_rtl_aox_libitem *item, uint32_t *rows, uint32_t *cols)
sl_rtl_aox_get_polarization_spectrum_size(sl_rtl_aox_libitem *item, uint32_t *rows, uint32_t *cols)
sl_rtl_aox_get_spectrum(sl_rtl_aox_libitem *item, float **spectrum_out)
sl_rtl_aox_get_polarization_spectrum(sl_rtl_aox_libitem *item, float **spectrum_out)
sl_rtl_aox_antenna_pattern_init(sl_rtl_aox_antenna_pattern *pattern, enum sl_rtl_aox_array_type array_type)
sl_rtl_aox_set_antenna_pattern(sl_rtl_aox_libitem *item, sl_rtl_aox_antenna_pattern *pattern)
sl_rtl_aox_antenna_pattern_deinit(sl_rtl_aox_antenna_pattern *pattern)

Enumeration Documentation#

sl_rtl_aox_array_type#

sl_rtl_aox_array_type

AoX antenna array type.

Enumerator
SL_RTL_AOX_ARRAY_TYPE_4x4_URA

Silicon Labs Ref. 4x4 Uniform Rectangular Array.

SL_RTL_AOX_ARRAY_TYPE_3x3_URA

Silicon Labs Ref. 3x3 Uniform Rectangular Array.

SL_RTL_AOX_ARRAY_TYPE_1x4_ULA

Silicon Labs Ref. 1x4 Uniform Linear Array.

SL_RTL_AOX_ARRAY_TYPE_4x4_DP_URA

Silicon Labs Ref. 4x4 Uniform Dual Polarized Rectangular Array.

SL_RTL_AOX_ARRAY_TYPE_COREHW_15x15_DP

CoreHw Ref. 150 mm x 150 mm, 8 Element Dual Polarized Array.

SL_RTL_AOX_ARRAY_TYPE_COREHW_12x12_DP

CoreHw Ref. 120 mm x 120 mm, 8 Element Dual Polarized Array.

SL_RTL_AOX_ARRAY_TYPE_COREHW_4x4_URA

CoreHw Ref. 4x4 Uniform Rectangular Array.

SL_RTL_AOX_ARRAY_TYPE_COREHW_2x2_URA

CoreHw Ref. 2x2 Uniform Rectangular Array.

SL_RTL_AOX_ARRAY_TYPE_LAST

Placeholder.


Definition at line 104 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_switch_pattern_array#

sl_rtl_aox_switch_pattern_array
Enumerator
SL_RTL_AOX_SWITCH_PATTERN_ARRAY_4x4_CP
SL_RTL_AOX_SWITCH_PATTERN_ARRAY_4x4_DP
SL_RTL_AOX_SWITCH_PATTERN_ARRAY_LAST

Definition at line 117 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_switch_pattern_options#

sl_rtl_aox_switch_pattern_options
Enumerator
SL_RTL_AOX_SWITCH_PATTERN_OPTIONS_DUAL_POLARIZED
SL_RTL_AOX_SWITCH_PATTERN_OPTIONS_EXTRA_REFERENCE

Definition at line 124 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_mode#

sl_rtl_aox_mode

AoA, AoD (and AoX for backward compatibility) estimator modes.

Enumerator
SL_RTL_AOA_MODE_ONE_SHOT_BASIC

Medium filtering, medium response. Returns 2D angle, requires 10 rounds. Most suitable for single shot measurement.

SL_RTL_AOA_MODE_ONE_SHOT_BASIC_LIGHTWEIGHT

Medium filtering, medium response, low CPU cost & low elevation resolution. 2D angle, req. 10 rounds. Most suitable for single shot measurement.

SL_RTL_AOA_MODE_ONE_SHOT_FAST_RESPONSE

Low filtering, fast response, low CPU cost & low elevation resolution. 2D angle, requires 2 rounds. Most suitable for single shot measurement.

SL_RTL_AOA_MODE_ONE_SHOT_HIGH_ACCURACY

High filtering, slow response. 2D angle, requires 20 rounds. Most suitable for single shot measurement.

SL_RTL_AOA_MODE_ONE_SHOT_BASIC_AZIMUTH_ONLY

Equivalent to ONE_SHOT_BASIC with low CPU cost and returns 1D angle. Most suitable for single shot measurement.

SL_RTL_AOA_MODE_ONE_SHOT_FAST_RESPONSE_AZIMUTH_ONLY

Equivalent to ONE_SHOT_FAST_RESPONSE with low CPU cost, 1D angle. Most suitable for single shot measurement.

SL_RTL_AOA_MODE_ONE_SHOT_HIGH_ACCURACY_AZIMUTH_ONLY

Equivalent to ONE_SHOT_HIGH_ACCURACY with low CPU cost, 1D angle. Most suitable for single shot measurement.

SL_RTL_AOA_MODE_REAL_TIME_FAST_RESPONSE

Low filtering, fast response, lowest CPU cost, 2D angle, Most suitable for real-time tracking.

SL_RTL_AOA_MODE_REAL_TIME_BASIC

Medium filtering, medium response, medium CPU cost, 2D angle, Most suitable for real-time tracking.

SL_RTL_AOA_MODE_REAL_TIME_HIGH_ACCURACY

High filtering, slow response, highest CPU cost, 2D angle, Most suitable for real-time tracking.

SL_RTL_AOA_MODE_LAST

Placeholder.

SL_RTL_AOD_MODE_ONE_SHOT_BASIC

Medium filtering, medium response. Returns 2D angle, requires 10 rounds. Most suitable for single shot measurement.

SL_RTL_AOD_MODE_ONE_SHOT_BASIC_LIGHTWEIGHT

Medium filtering, medium response, low CPU cost & low elevation resolution. 2D angle, req. 10 rounds. Most suitable for single shot measurement.

SL_RTL_AOD_MODE_ONE_SHOT_FAST_RESPONSE

Low filtering, fast response, low CPU cost & low elevation resolution. 2D angle, requires 2 rounds. Most suitable for single shot measurement.

SL_RTL_AOD_MODE_ONE_SHOT_HIGH_ACCURACY

High filtering, slow response. 2D angle, requires 20 rounds. Most suitable for single shot measurement.

SL_RTL_AOD_MODE_ONE_SHOT_BASIC_AZIMUTH_ONLY

Equivalent to ONE_SHOT_BASIC with low CPU cost and returns 1D angle. Most suitable for single shot measurement.

SL_RTL_AOD_MODE_ONE_SHOT_FAST_RESPONSE_AZIMUTH_ONLY

Equivalent to ONE_SHOT_FAST_RESPONSE with low CPU cost, 1D angle. Most suitable for single shot measurement.

SL_RTL_AOD_MODE_ONE_SHOT_HIGH_ACCURACY_AZIMUTH_ONLY

Equivalent to ONE_SHOT_HIGH_ACCURACY with low CPU cost, 1D angle. Most suitable for single shot measurement.

SL_RTL_AOD_MODE_REAL_TIME_FAST_RESPONSE

Low filtering, fast response, lowest CPU cost, 2D angle, Most suitable for real-time tracking.

SL_RTL_AOD_MODE_REAL_TIME_BASIC

Medium filtering, medium response, medium CPU cost, 2D angle, Most suitable for real-time tracking.

SL_RTL_AOD_MODE_REAL_TIME_HIGH_ACCURACY

High filtering, slow response, highest CPU cost, 2D angle, Most suitable for real-time tracking.

SL_RTL_AOD_MODE_LAST

Placeholder.

SL_RTL_AOX_MODE_ONE_SHOT_BASIC

Medium filtering, medium response. Returns 2D angle, requires 10 rounds. Most suitable for single shot measurement.

SL_RTL_AOX_MODE_ONE_SHOT_BASIC_LIGHTWEIGHT

Medium filtering, medium response, low CPU cost & low elevation resolution. 2D angle, req. 10 rounds. Most suitable for single shot measurement.

SL_RTL_AOX_MODE_ONE_SHOT_FAST_RESPONSE

Low filtering, fast response, low CPU cost & low elevation resolution. 2D angle, requires 2 rounds. Most suitable for single shot measurement.

SL_RTL_AOX_MODE_ONE_SHOT_HIGH_ACCURACY

High filtering, slow response. 2D angle, requires 20 rounds. Most suitable for single shot measurement.

SL_RTL_AOX_MODE_ONE_SHOT_BASIC_AZIMUTH_ONLY

Equivalent to ONE_SHOT_BASIC with low CPU cost and returns 1D angle. Most suitable for single shot measurement.

SL_RTL_AOX_MODE_ONE_SHOT_FAST_RESPONSE_AZIMUTH_ONLY

Equivalent to ONE_SHOT_FAST_RESPONSE with low CPU cost, 1D angle. Most suitable for single shot measurement.

SL_RTL_AOX_MODE_ONE_SHOT_HIGH_ACCURACY_AZIMUTH_ONLY

Equivalent to ONE_SHOT_HIGH_ACCURACY with low CPU cost, 1D angle. Most suitable for single shot measurement.

SL_RTL_AOX_MODE_REAL_TIME_FAST_RESPONSE

Low filtering, fast response, lowest CPU cost, 2D angle, Most suitable for real-time tracking.

SL_RTL_AOX_MODE_REAL_TIME_BASIC

Medium filtering, medium response, medium CPU cost, 2D angle, Most suitable for real-time tracking.

SL_RTL_AOX_MODE_REAL_TIME_HIGH_ACCURACY

High filtering, slow response, highest CPU cost, 2D angle, Most suitable for real-time tracking.

SL_RTL_AOX_MODE_LAST

Placeholder.


Definition at line 130 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_constraint_type#

sl_rtl_aox_constraint_type
Enumerator
SL_RTL_AOX_CONSTRAINT_TYPE_AZIMUTH

Azimuth constraint in degrees.

SL_RTL_AOX_CONSTRAINT_TYPE_ELEVATION

Elevation constraint in degrees.


Definition at line 182 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_switch_pattern_mode#

sl_rtl_aox_switch_pattern_mode
Enumerator
SL_RTL_AOX_SWITCH_PATTERN_MODE_DEFAULT

Internally defined switch pattern: 0, 1, 2, ..., N-1, where N is the number of antennas.

SL_RTL_AOX_SWITCH_PATTERN_MODE_RANDOM

Internally defined random switch pattern.

SL_RTL_AOX_SWITCH_PATTERN_MODE_EXTERNAL

Switch pattern set externally by the user.

SL_RTL_AOX_SWITCH_PATTERN_MODE_EXTRA_REFERENCE

Switch pattern set externally by the user with extra reference antenna as a first.


Definition at line 188 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_slib_iq_sample_qa_result_t#

sl_rtl_slib_iq_sample_qa_result_t
Enumerator
SL_RTL_AOX_IQ_SAMPLE_QA_INVAL_REF

Invalid reference period data.

SL_RTL_AOX_IQ_SAMPLE_QA_DCOFFSET

DC offset too large.

SL_RTL_AOX_IQ_SAMPLE_QA_SNDR

Reference period SNDR too large.

SL_RTL_AOX_IQ_SAMPLE_QA_ROTATING_ERROR

Rotation error too large.

SL_RTL_AOX_IQ_SAMPLE_QA_REF_ANT_PHASE_VALUE

Reference antenna phase value too big.

SL_RTL_AOX_IQ_SAMPLE_QA_REF_ANT_PHASE_JITTER

Reference antenna phase jitter too large.

SL_RTL_AOX_IQ_SAMPLE_QA_ANT_X_PHASE_JITTER

Antenna X phase jitter too large.

SL_RTL_AOX_IQ_SAMPLE_QA_ALL_SAME_PHASE

All the antennas seen in the same phase.

SL_RTL_AOX_IQ_SAMPLE_QA_SWICHING_JITTER

Switching jitter too large.


Definition at line 220 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

Typedef Documentation#

sl_rtl_aox_libitem#

typedef void* sl_rtl_aox_libitem

Angle of Arrival / Departure library item.


Definition at line 196 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_antenna_pattern#

typedef void* sl_rtl_aox_antenna_pattern

Angle of Arrival / Departure antenna array radiation pattern.


Definition at line 678 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

Function Documentation#

sl_rtl_aox_init#

enum sl_rtl_error_code sl_rtl_aox_init (sl_rtl_aox_libitem * item)
Parameters
[in]item

Pointer to the libitem to be initialized.

Initialize the AoX libitem instance.

Returns


Definition at line 245 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_deinit#

enum sl_rtl_error_code sl_rtl_aox_deinit (sl_rtl_aox_libitem * item)
Parameters
[in]item

Pointer to the libitem to be deinitialized.

Deinitialize a libitem instance of the AoX estimator.

Returns


Definition at line 253 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_set_num_snapshots#

enum sl_rtl_error_code sl_rtl_aox_set_num_snapshots (sl_rtl_aox_libitem * item, uint32_t num_snapshots)
Parameters
[in]item

Pointer to the initialized AoX libitem.

[in]num_snapshots

Number of snapshots as positive integer value.

Set the number of signal snapshots to be used in the angle estimation.

Returns


Definition at line 264 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_set_array_type#

enum sl_rtl_error_code sl_rtl_aox_set_array_type (sl_rtl_aox_libitem * item, enum sl_rtl_aox_array_type array_type)
Parameters
[in]item

Pointer to the initialized AoX libitem.

[in]array_type

Array type as sl_rtl_aox_array_type.

Set the array type used with the estimator.

Returns

Set the array type used with the estimator. For example, the array type should be set to SL_RTL_AOX_ARRAY_TYPE_4x4_URA when using the reference 4x4 URA board.


Definition at line 277 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_set_mode#

enum sl_rtl_error_code sl_rtl_aox_set_mode (sl_rtl_aox_libitem * item, enum sl_rtl_aox_mode mode)
Parameters
[in]item

Pointer to the initialized AoX libitem.

[in]mode

Estimator mode as sl_rtl_aox_mode.

Set the estimation mode.

Returns

Set the estimation mode. For example, ::SL_RTL_AOX_MODE_BASIC sets medium filtering and estimates both azimuth and elevation. For further description of the modes, see the documentation of sl_rtl_aox_mode.


Definition at line 290 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_calculate_iq_sample_phase_rotation#

enum sl_rtl_error_code sl_rtl_aox_calculate_iq_sample_phase_rotation (sl_rtl_aox_libitem * item, float iq_data_downsampling_factor, float * i_samples, float * q_samples, uint32_t num_samples, float * phase_rotation_out)
Parameters
[in]item

Pointer to the initialized AoX libitem.

[in]iq_data_downsampling_factor

Ratio between reference period IQ-data sampling rate. and actual IQ-data (i.e., antenna array data) sampling rate. For example, 1e6 / 500e3 = 2.0

[in]i_samples

Float-array of the reference period I samples.

[in]q_samples

Float-array of the reference period Q samples.

[in]num_samples

Number of samples, or size of the I or Q sample array.

[out]phase_rotation_out

Returned phase rotation value as float in degrees.

Estimate the I/Q-sample phase rotation error in degrees.

Returns

Estimate the I/Q-sample phase rotation error caused by switching and CTE frequency error based on I/Q samples from the reference period.


Definition at line 308 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_set_iq_sample_phase_rotation#

enum sl_rtl_error_code sl_rtl_aox_set_iq_sample_phase_rotation (sl_rtl_aox_libitem * item, float phase_rotation)
Parameters
[in]item

Pointer to the initialized AoX libitem.

[in]phase_rotation

Float value of I/Q sample phase rotation in degrees.

Set a constant value of I/Q sample phase rotation in degrees.

Returns

Set a constant value of I/Q sample phase rotation in degrees. The sample rotation can be used to correct the switching and CTE frequency error. Note

  • : This function should be called only after the estimator is created.


Definition at line 322 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_add_constraint#

enum sl_rtl_error_code sl_rtl_aox_add_constraint (sl_rtl_aox_libitem * item, enum sl_rtl_aox_constraint_type constraint_type, float min_value, float max_value)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]constraint_type

Select which constraints should be added.

[in]min_value

Starting (minimum) value of the range including the min_value.

[in]max_value

Ending (maximum) value of the range including the max_value.

Add constraints for the estimator. Call before sl_rtl_aox_create_estimator.

Returns

For example, constraint for SL_RTL_AOX_CONSTRAINT_TYPE_AZIMUTH with min_value = 0 and max_value = 90 means that the angular range 0 to 90 degrees is excluded from the estimators internal processing range and angle estimated between that range are not considered as valid results. Setting constraints will help ruling out false multipath-detections when the locator is installed nearby a wall or a RF-reflective surface. Note

  • : This function must called before the estimator is created.


Definition at line 341 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_set_sample_rate#

enum sl_rtl_error_code sl_rtl_aox_set_sample_rate (sl_rtl_aox_libitem * item, float sampleRate)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]sampleRate

The new sample rate.

Configure the IQ sampling sample rate for the library.

Returns


Definition at line 350 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_set_num_radio_channels#

enum sl_rtl_error_code sl_rtl_aox_set_num_radio_channels (sl_rtl_aox_libitem * item, uint32_t channels)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]channels

The new number of radio channels.

Configure the number of radio channels.

Returns


Definition at line 359 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_iq_sample_qa_configure#

enum sl_rtl_error_code sl_rtl_aox_iq_sample_qa_configure (sl_rtl_aox_libitem * item)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

Configure the IQ sample quality analysis.

Returns

This function turns the IQ sample quality analysis, which is not done by default.


Definition at line 370 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_iq_sample_qa_get_results#

uint32_t sl_rtl_aox_iq_sample_qa_get_results (sl_rtl_aox_libitem * item)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

Get the IQ sample quality analysis overall results.

Returns

  • bitmask of found problems, zero indicates that everything is OK


Definition at line 378 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_iq_sample_qa_get_details#

enum sl_rtl_error_code sl_rtl_aox_iq_sample_qa_get_details (sl_rtl_aox_libitem * item, sl_rtl_clib_iq_sample_qa_dataset_t * results, sl_rtl_clib_iq_sample_qa_antenna_data_t * antenna_data)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[out]results

The data structure with data related to the latest data packet.

[out]antenna_data

The array of antenna-specific results.

Get the IQ sample quality analysis detailed results for the latest packet.

Returns

Fetch the results for the latest packet.


Definition at line 390 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_iq_sample_qa_get_channel_details#

enum sl_rtl_error_code sl_rtl_aox_iq_sample_qa_get_channel_details (sl_rtl_aox_libitem * item, uint8_t channel, sl_rtl_clib_iq_sample_qa_dataset_t * results, sl_rtl_clib_iq_sample_qa_antenna_data_t * antenna_data)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]channel

Radio channel to show results for.

[out]results

The data structure with data related to the last data packet using the requested channel.

[out]antenna_data

The array of antenna-specific results

Get the IQ sample quality analysis detailed results for the requested radio channel.

Returns

Fetch the latest results for the given radio channel, which may be other than the latest packet received.


Definition at line 404 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_create_estimator#

enum sl_rtl_error_code sl_rtl_aox_create_estimator (sl_rtl_aox_libitem * item)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

Create the estimator after initializing the libitem and setting parameters.

Returns


Definition at line 412 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_convert_raw_samples#

enum sl_rtl_error_code sl_rtl_aox_convert_raw_samples (sl_rtl_aox_libitem * item, uint32_t start_offset, float iq_data_downsampling_factor, float * raw_i_samples_in, float * raw_q_samples_in, uint32_t num_raw_samples_in, float ** i_samples_out, float ** q_samples_out, uint32_t num_snapshots_out)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]start_offset

The start offset in the buffer (for example, for skipping a reference period).

[in]iq_data_downsampling_factor

Ratio between chip IQ-data sampling rate and downsampled rate. For example, 4.8e6 / 500e3 = 9.6

[in]raw_i_samples_in

I-part sample buffer input

[in]raw_q_samples_in

Q-part sample buffer input

[in]num_raw_samples_in

Number of IQ-sample pairs in the input buffers.

[out]i_samples_out

Buffer for the processed I-samples. Must be allocated by the user. Indexing: i_samples_out[snapshot][antenna]

[out]q_samples_out

Buffer for the processed Q-samples. Must be allocated by the user. Indexing: q_samples_out[snapshot][antenna]

[in]num_snapshots_out

Number of snapshots allocated in the output buffers. This function checks if the given number of snapshots and calculated snapshots based on the length of RAW-data match

Convert data in RAW IQ-data buffers to downsampled IQ-data buffers.

Returns


Definition at line 432 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_calculate_number_of_snapshots#

enum sl_rtl_error_code sl_rtl_aox_calculate_number_of_snapshots (sl_rtl_aox_libitem * item, uint32_t num_raw_samples_in, uint32_t start_offset, float iq_data_downsampling_factor, uint32_t num_channels, uint32_t * num_snapshots_out)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]num_raw_samples_in

Total number of RAW IQ-sample pairs.

[in]start_offset

The start offset in the buffer, for example, for skipping a reference period.

[in]iq_data_downsampling_factor

Ratio between chip IQ-data sampling rate and downsampled rate. For example, 4.8e6 / 500e3 = 9.6.

[in]num_channels

Number of channels in the RAW data

[out]num_snapshots_out

Calculated number of snapshots based on the input.

Calculate the number of downsampled snapshots in a RAW IQ-data buffer. Use this function to get the number of snapshots to allocate the i_samples and q_samples buffers for the process-function.

Returns


Definition at line 447 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_set_switch_pattern_mode#

enum sl_rtl_error_code sl_rtl_aox_set_switch_pattern_mode (sl_rtl_aox_libitem * item, enum sl_rtl_aox_switch_pattern_mode mode)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]mode

Required mode.

Set switch pattern mode. Sets internal mode used by the library. See enum sl_rtl_aox_switch_pattern_mode for detailed description of the modes. If this function isn't called, a default switch pattern of: 0, 1, 2, 3, ..., N-1 will be used, where N is the number of antennas. Call this function at run-time after initializing and creating the estimator.

Returns


Definition at line 459 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_update_switch_pattern#

enum sl_rtl_error_code sl_rtl_aox_update_switch_pattern (sl_rtl_aox_libitem * item, uint32_t * switch_pattern_in, uint32_t ** switch_pattern_out)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]switch_pattern_in

Pointer to the switch pattern array. The pointer must point to a valid switch pattern when SL_RTL_AOX_SWITCH_PATTERN_MODE_EXTERNAL is used.

[out]switch_pattern_out

Pointer to the user defined uint32_t* variable. This pointer must be non-zero when using internally defined switch pattern modes, otherwise can be zero.

Update switch pattern, which is used by the estimator algorithm. This function must be called before calling the function sl_rtl_aox_process. Call this function at run-time after initializing and creating the estimator.

When using a custom pattern in SL_RTL_AOX_SWITCH_PATTERN_MODE_EXTERNAL mode, the pattern in switch_pattern_in must not contain duplicate elements and the antenna indices must be within the range 0 to (number_of_antennas - 1). Number_of_antennas is the amount of antennas in the set array type, for example for the 4x4 URA this is 16 and for the 1x4 ULA this is 4. The length of the switching pattern must be equal to number_of_antennas.

Note: The RF switch pattern indices may be different to the indices required by the RTL algorithm. For example, a 1x4 ULA might use RF controls [12, 13, 14, 15] for switching the antennas 1-4, but the RTL algorithm requires the switch pattern [0, 1, 2, 3]. If the RF controls are switched as [14, 15, 13, 12], the RTL algorithm requires the pattern [2, 3, 1, 0].

Returns


Definition at line 486 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_set_switch_pattern_seed#

enum sl_rtl_error_code sl_rtl_aox_set_switch_pattern_seed (sl_rtl_aox_libitem * item, int32_t seed_value)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]seed_value

The seed value to be used.

Set the random seed for the switch pattern, which is used for the random pattern mode. Call this function at run-time after initializing and creating the estimator.

Returns


Definition at line 496 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_convert_switch_pattern#

enum sl_rtl_error_code sl_rtl_aox_convert_switch_pattern (sl_rtl_aox_libitem * item, uint32_t array_id, uint32_t options, uint32_t switch_pattern_size_in, uint32_t * switch_pattern_in, uint32_t * switch_pattern_size_out, uint32_t ** switch_pattern_out)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]array_id

Array ID, see sl_rtl_aox_switch_pattern_array, for example SL_RTL_AOX_SWITCH_PATTERN_ARRAY_4x4_DP

[in]options

Switch pattern options, see sl_rtl_aox_switch_pattern_options. Can be used to set for example dual polarization (default is single polarization).

[in]switch_pattern_size_in

The length of the input switching pattern.

[in]switch_pattern_in

The input switching pattern.

[out]switch_pattern_size_out

The outputted length of the converted switching pattern.

[out]switch_pattern_out

The outputted switching pattern.

Convert switching pattern from antenna indices to antenna switching pin control logic. Call this function at run-time after initializing and creating the estimator.

Returns


Definition at line 514 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_reset_estimator#

enum sl_rtl_error_code sl_rtl_aox_reset_estimator (sl_rtl_aox_libitem * item)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

Reset estimator state. Calling this function causes the selected aox-mode to start from its initial state. Call this function at run-time after initializing and creating the estimator.

Returns


Definition at line 523 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_process#

enum sl_rtl_error_code sl_rtl_aox_process (sl_rtl_aox_libitem * item, float ** i_samples, float ** q_samples, float tone_frequency, float * az_out, float * el_out)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]i_samples

Two-dimensional float-array of captured I samples as i_samples[snapshot][antenna].

[in]q_samples

Two-dimensional float-array of captured Q samples as q_samples[snapshot][antenna], corresponding to the I samples array.

[in]tone_frequency

The frequency of the signal from which the I/Q data was captured from as float (e.g., 2.46e9f).

[out]az_out

Output azimuth angle.

[out]el_out

Output elevation angle.

Calculate the angle estimate.

Returns

Calculate the angle estimate from the given I/Q samples captured at the given frequency. Call this function with new I/Q data as many times as indicated by the sl_rtl_aox_mode used by the estimator before the final estimate is output.


Definition at line 546 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_get_latest_aox_standard_deviation#

enum sl_rtl_error_code sl_rtl_aox_get_latest_aox_standard_deviation (sl_rtl_aox_libitem * item, float * az_std_dev, float * el_std_dev)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[out]az_std_dev

Pointer for getting standard deviation of the latest azimuth estimate.

[out]el_std_dev

Pointer for getting standard deviation of the latest elevation estimate.

Get the standard deviation for the latest AoA/AoD-estimate.

Returns

Call this function after sl_rtl_aox_process to fetch standard deviation for the latest AoA/AoD-estimate. Positive standard deviations indicate line-of-sight detection and negative values indicate likely non-line-of-sight detection.


Definition at line 563 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_get_latest_aoa_standard_deviation#

static enum sl_rtl_error_code sl_rtl_aox_get_latest_aoa_standard_deviation (sl_rtl_aox_libitem * item, float * az_std_dev, float * el_std_dev)
Parameters
N/Aitem
N/Aaz_std_dev
N/Ael_std_dev

Kept for backward compatibility


Definition at line 568 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_get_latest_aod_standard_deviation#

static enum sl_rtl_error_code sl_rtl_aox_get_latest_aod_standard_deviation (sl_rtl_aox_libitem * item, float * az_std_dev, float * el_std_dev)
Parameters
N/Aitem
N/Aaz_std_dev
N/Ael_std_dev

Kept for backward compatibility


Definition at line 576 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_set_expected_direction#

enum sl_rtl_error_code sl_rtl_aox_set_expected_direction (sl_rtl_aox_libitem * item, float expected_az, float expected_el)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]expected_az

Expected azimuth angle calculated by position algorithm.

[in]expected_el

Expected elevation angle calculated by position algorithm.

Feed the expected angles back to the locator.

Returns

The position algorithm has a more complete view of the asset's location. The direction it should be found can be calculated back and fed to the locator, so that it can recover faster when, for example, it has locked to a reflection rather than to the line of sight signal. See also sl_rtl_loc_get_expected_direction().


Definition at line 595 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_set_expected_deviation#

enum sl_rtl_error_code sl_rtl_aox_set_expected_deviation (sl_rtl_aox_libitem * item, float deviation_az, float deviation_el)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

[in]deviation_az

Deviation of the expected azimuth angle calculated by position algorithm.

[in]deviation_el

Deviation of the expected elevation angle calculated by position algorithm.

Feed the expected angle deviations back to the locator.

Returns

Report expected deviations calculated by the position algorithm back to the locator so that angles are calculated more accurately taking in account the correctness of the expected directions. If sl_rtl_aox_set_expected_direction() is called but this function is not called, the algorithm will use default values for the expected deviations. See also sl_rtl_loc_get_expected_deviation() and sl_rtl_aox_set_expected_direction().


Definition at line 612 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_clear_expected_direction#

enum sl_rtl_error_code sl_rtl_aox_clear_expected_direction (sl_rtl_aox_libitem * item)
Parameters
[in]item

Pointer to the initialized and configured AoX libitem.

Clear the expected directions and deviations from the locator.

Returns

See also sl_rtl_aox_set_expected_direction() and sl_rtl_aox_set_expected_deviation().


Definition at line 622 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_enable_spectrum#

enum sl_rtl_error_code sl_rtl_aox_enable_spectrum (sl_rtl_aox_libitem * item, bool enable)
Parameters
[in]item

Pointer to the initialized libitem.

[in]enable

Set to true to enable outputting the pseudospectrum.

Enable or disable outputting the pseudospectrum. This function should be called before creating the estimator.

Returns


Definition at line 632 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_get_spectrum_size#

enum sl_rtl_error_code sl_rtl_aox_get_spectrum_size (sl_rtl_aox_libitem * item, uint32_t * rows, uint32_t * cols)
Parameters
[in]item

Pointer to the initialized libitem.

[out]rows

Number of rows in the pseudospectrum data array.

[out]cols

Number of columns in the pseudospecutrm data array.

Get the size of the pseudospectrum. This function should be called after calling the AoX process function.

Returns


Definition at line 643 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_get_polarization_spectrum_size#

enum sl_rtl_error_code sl_rtl_aox_get_polarization_spectrum_size (sl_rtl_aox_libitem * item, uint32_t * rows, uint32_t * cols)
Parameters
[in]item

Pointer to the initialized libitem.

[out]rows

Number of rows in the polarization pseudospectrum data array.

[out]cols

Number of columns in the pseudospecutrm data array.

Get the size of the polarization pseudospectrum. This function should be called after calling the AoX process function.

Returns


Definition at line 655 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_get_spectrum#

enum sl_rtl_error_code sl_rtl_aox_get_spectrum (sl_rtl_aox_libitem * item, float ** spectrum_out)
Parameters
[in]item

Pointer to the initialized libitem.

[out]spectrum_out

Outputted pseudospectrum.

Get the pseudospectrum. Memory for the output spectrum must be allocated by the user, the size of the rows and columns are given by sl_rtl_aox_get_spectrum_size().

Returns


Definition at line 665 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_get_polarization_spectrum#

enum sl_rtl_error_code sl_rtl_aox_get_polarization_spectrum (sl_rtl_aox_libitem * item, float ** spectrum_out)
Parameters
[in]item

Pointer to the initialized libitem.

[out]spectrum_out

Outputted polarization pseudospectrum.

Get the polarization spectrum. Memory for the output spectrum must be allocated by the user, the size of the rows and columns are given by sl_rtl_aox_get_polarization_spectrum_size().

Returns


Definition at line 675 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_antenna_pattern_init#

enum sl_rtl_error_code sl_rtl_aox_antenna_pattern_init (sl_rtl_aox_antenna_pattern * pattern, enum sl_rtl_aox_array_type array_type)
Parameters
[in]pattern

Pointer to the pattern item to initialize.

[in]array_type

Array type of the board for which the pattern is loaded.

Initialize the antenna radiation pattern item for the given array board. The antenna pattern item can be shared by multiple different estimators.

Returns


Definition at line 688 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_set_antenna_pattern#

enum sl_rtl_error_code sl_rtl_aox_set_antenna_pattern (sl_rtl_aox_libitem * item, sl_rtl_aox_antenna_pattern * pattern)
Parameters
[in]item

Pointer to the initialized libitem.

[in]pattern

Pointer to the initialized antenna pattern item.

Set the given estimator to use the given antenna radiation pattern in the model. The same antenna pattern can be shared between multiple estimators. The antenna pattern can be cleared for an estimator by setting it to NULL. The estimator will then use the default model. Note

  • : This function should be called only after the estimator is created.

Returns


Definition at line 702 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

sl_rtl_aox_antenna_pattern_deinit#

enum sl_rtl_error_code sl_rtl_aox_antenna_pattern_deinit (sl_rtl_aox_antenna_pattern * pattern)
Parameters
[in]pattern

Pointer to the initialized pattern item.

Deinitialize the antenna radiation pattern item.

Returns


Definition at line 710 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

Macro Definition Documentation#

SL_RTL_AOX_IQ_SAMPLE_QA_ALL_OK#

#define SL_RTL_AOX_IQ_SAMPLE_QA_ALL_OK
Value:
0

Definition at line 218 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

SL_RTL_AOX_IQ_SAMPLE_QA_FAILURE#

#define SL_RTL_AOX_IQ_SAMPLE_QA_FAILURE
Value:
0xffffffff

Definition at line 219 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

SL_RTL_AOX_IQ_SAMPLE_QA_CLEAR_BIT#

#define SL_RTL_AOX_IQ_SAMPLE_QA_CLEAR_BIT
Value:
(code, bit)

Definition at line 232 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

SL_RTL_AOX_IQ_SAMPLE_QA_SET_BIT#

#define SL_RTL_AOX_IQ_SAMPLE_QA_SET_BIT
Value:
(code, bit)

Definition at line 234 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h

SL_RTL_AOX_IQ_SAMPLE_QA_IS_SET#

#define SL_RTL_AOX_IQ_SAMPLE_QA_IS_SET
Value:
(code, bit)

Definition at line 236 of file /mnt/raid/workspaces/ws.PnjKN2fAf/overlay/gsdk/util/silicon_labs/rtl/inc/sl_rtl_clib_api.h