ST Expansion SW Team
The VL53L1CB proximity sensor, based on ST’s FlightSense™, Time-of-Flight technology.
Dependencies: X_NUCLEO_COMMON ST_INTERFACES
Dependents: VL53L1CB_noshield_1sensor_polls_auton VL53L1CB_noshield_1sensor_interrupt_auton X_NUCLEO_53L1A2
Based on VL53L1 library, this is a library for the VL53L1CB ToF chip.
src/vl53l1_nvm.c
- Committer:
- lugandc
- Date:
- 2021-07-21
- Revision:
- 18:0696efe39d08
- Parent:
- 7:1add29d51e72
File content as of revision 18:0696efe39d08:
// SPDX-License-Identifier: GPL-2.0+ OR BSD-3-Clause
/******************************************************************************
* Copyright (c) 2020, STMicroelectronics - All Rights Reserved
This file is part of VL53L1 and is dual licensed,
either GPL-2.0+
or 'BSD 3-clause "New" or "Revised" License' , at your option.
******************************************************************************
*/
#ifdef _MSC_VER
#define snprintf _snprintf
#endif
#include "vl53l1_ll_def.h"
#include "vl53l1_platform.h"
#include "vl53l1_platform_log.h"
#include "vl53l1_register_map.h"
#include "vl53l1_core.h"
#include "vl53l1_nvm_structs.h"
#include "vl53l1_nvm_map.h"
#include "vl53l1_nvm.h"
#define LOG_FUNCTION_START(fmt, ...) \
_LOG_FUNCTION_START(VL53L1_TRACE_MODULE_NVM, fmt, ##__VA_ARGS__)
#define LOG_FUNCTION_END(status, ...) \
_LOG_FUNCTION_END(VL53L1_TRACE_MODULE_NVM, status, ##__VA_ARGS__)
#define LOG_FUNCTION_END_FMT(status, fmt, ...) \
_LOG_FUNCTION_END_FMT(VL53L1_TRACE_MODULE_NVM,\
status, fmt, ##__VA_ARGS__)
#define trace_print(level, ...) \
_LOG_TRACE_PRINT(VL53L1_TRACE_MODULE_NVM, \
level, VL53L1_TRACE_FUNCTION_NONE, ##__VA_ARGS__)
VL53L1_Error VL53L1_nvm_enable(
VL53L1_DEV Dev,
uint16_t nvm_ctrl_pulse_width,
int32_t nvm_power_up_delay_us)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
LOG_FUNCTION_START("");
if (status == VL53L1_ERROR_NONE)
status = VL53L1_disable_firmware(Dev);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_enable_powerforce(Dev);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WaitUs(
Dev,
VL53L1_ENABLE_POWERFORCE_SETTLING_TIME_US);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WrByte(
Dev,
VL53L1_RANGING_CORE__NVM_CTRL__PDN,
0x01);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WrByte(
Dev,
VL53L1_RANGING_CORE__CLK_CTRL1,
0x05);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WaitUs(
Dev,
nvm_power_up_delay_us);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WrByte(
Dev,
VL53L1_RANGING_CORE__NVM_CTRL__MODE,
0x01);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WrWord(
Dev,
VL53L1_RANGING_CORE__NVM_CTRL__PULSE_WIDTH_MSB,
nvm_ctrl_pulse_width);
LOG_FUNCTION_END(status);
return status;
}
VL53L1_Error VL53L1_nvm_read(
VL53L1_DEV Dev,
uint8_t start_address,
uint8_t count,
uint8_t *pdata)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
uint8_t nvm_addr = 0;
LOG_FUNCTION_START("");
trace_print(
VL53L1_TRACE_LEVEL_INFO,
"%-12s = 0x%02X (%3u)\n",
"nvm_addr", nvm_addr, nvm_addr);
trace_print(
VL53L1_TRACE_LEVEL_INFO,
"%-12s = 0x%02X (%3u)\n",
"count", count, count);
for (nvm_addr = start_address;
nvm_addr < (start_address+count) ; nvm_addr++) {
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WrByte(
Dev,
VL53L1_RANGING_CORE__NVM_CTRL__ADDR,
nvm_addr);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WrByte(
Dev,
VL53L1_RANGING_CORE__NVM_CTRL__READN,
0x00);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WaitUs(
Dev,
VL53L1_NVM_READ_TRIGGER_DELAY_US);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WrByte(
Dev,
VL53L1_RANGING_CORE__NVM_CTRL__READN,
0x01);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_ReadMulti(
Dev,
VL53L1_RANGING_CORE__NVM_CTRL__DATAOUT_MMM,
pdata,
4);
trace_print(
VL53L1_TRACE_LEVEL_INFO,
"NVM address : 0x%02X = 0x%02X%02X%02X%02X\n",
nvm_addr, *pdata, *(pdata+1), *(pdata+2), *(pdata+3));
pdata = pdata + 4;
}
LOG_FUNCTION_END(status);
return status;
}
VL53L1_Error VL53L1_nvm_disable(
VL53L1_DEV Dev)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
LOG_FUNCTION_START("");
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WrByte(
Dev,
VL53L1_RANGING_CORE__NVM_CTRL__READN,
0x01);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_WrByte(
Dev,
VL53L1_RANGING_CORE__NVM_CTRL__PDN,
0x00);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_disable_powerforce(Dev);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_enable_firmware(Dev);
LOG_FUNCTION_END(status);
return status;
}
VL53L1_Error VL53L1_nvm_format_decode(
uint16_t buf_size,
uint8_t *pbuffer,
VL53L1_decoded_nvm_data_t *pdata)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
uint8_t i = 0;
uint8_t *ptmp = NULL;
int pptmp[VL53L1_NVM_MAX_FMT_RANGE_DATA];
LOG_FUNCTION_START("");
if (buf_size < VL53L1_NVM_SIZE_IN_BYTES)
return VL53L1_ERROR_BUFFER_TOO_SMALL;
pdata->nvm__identification_model_id =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__IDENTIFICATION__MODEL_ID,
0x000000FF,
0,
0);
pdata->nvm__identification_module_type =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__IDENTIFICATION__MODULE_TYPE,
0x000000FF,
0,
0);
pdata->nvm__identification_revision_id =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__IDENTIFICATION__REVISION_ID,
0x0000000F,
0,
0);
pdata->nvm__identification_module_id =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__IDENTIFICATION__MODULE_ID,
0x0000FFFF,
0,
0);
pdata->nvm__i2c_valid =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__I2C_VALID,
0x000000FF,
0,
0);
pdata->nvm__i2c_device_address_ews =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__I2C_SLAVE__DEVICE_ADDRESS,
0x000000FF,
0,
0);
pdata->nvm__ews__fast_osc_frequency =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer +
VL53L1_NVM__EWS__OSC_MEASURED__FAST_OSC_FREQUENCY,
0x0000FFFF,
0,
0);
pdata->nvm__ews__fast_osc_trim_max =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__FAST_OSC_TRIM_MAX,
0x0000007F,
0,
0);
pdata->nvm__ews__fast_osc_freq_set =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__FAST_OSC_FREQ_SET,
0x00000007,
0,
0);
pdata->nvm__ews__slow_osc_calibration =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__EWS__SLOW_OSC_CALIBRATION,
0x000003FF,
0,
0);
pdata->nvm__fmt__fast_osc_frequency =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer +
VL53L1_NVM__FMT__OSC_MEASURED__FAST_OSC_FREQUENCY,
0x0000FFFF,
0,
0);
pdata->nvm__fmt__fast_osc_trim_max =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FAST_OSC_TRIM_MAX,
0x0000007F,
0,
0);
pdata->nvm__fmt__fast_osc_freq_set =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FAST_OSC_FREQ_SET,
0x00000007,
0,
0);
pdata->nvm__fmt__slow_osc_calibration =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__FMT__SLOW_OSC_CALIBRATION,
0x000003FF,
0,
0);
pdata->nvm__vhv_config_unlock =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__VHV_CONFIG_UNLOCK,
0x000000FF,
0,
0);
pdata->nvm__ref_selvddpix =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__REF_SELVDDPIX,
0x0000000F,
0,
0);
pdata->nvm__ref_selvquench =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__REF_SELVQUENCH,
0x00000078,
3,
0);
pdata->nvm__regavdd1v2_sel =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__REGAVDD1V2_SEL_REGDVDD1V2_SEL,
0x0000000C,
2,
0);
pdata->nvm__regdvdd1v2_sel =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__REGAVDD1V2_SEL_REGDVDD1V2_SEL,
0x00000003,
0,
0);
pdata->nvm__vhv_timeout__macrop =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer +
VL53L1_NVM__VHV_CONFIG__TIMEOUT_MACROP_LOOP_BOUND,
0x00000003,
0,
0);
pdata->nvm__vhv_loop_bound =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer +
VL53L1_NVM__VHV_CONFIG__TIMEOUT_MACROP_LOOP_BOUND,
0x000000FC,
2,
0);
pdata->nvm__vhv_count_threshold =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__VHV_CONFIG__COUNT_THRESH,
0x000000FF,
0,
0);
pdata->nvm__vhv_offset =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__VHV_CONFIG__OFFSET,
0x0000003F,
0,
0);
pdata->nvm__vhv_init_enable =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__VHV_CONFIG__INIT,
0x00000080,
7,
0);
pdata->nvm__vhv_init_value =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__VHV_CONFIG__INIT,
0x0000003F,
0,
0);
pdata->nvm__laser_safety_vcsel_trim_ll =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY__VCSEL_TRIM_LL,
0x00000007,
0,
0);
pdata->nvm__laser_safety_vcsel_selion_ll =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY__VCSEL_SELION_LL,
0x0000003F,
0,
0);
pdata->nvm__laser_safety_vcsel_selion_max_ll =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY__VCSEL_SELION_MAX_LL,
0x0000003F,
0,
0);
pdata->nvm__laser_safety_mult_ll =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY__MULT_LL,
0x0000003F,
0,
0);
pdata->nvm__laser_safety_clip_ll =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY__CLIP_LL,
0x0000003F,
0,
0);
pdata->nvm__laser_safety_vcsel_trim_ld =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY__VCSEL_TRIM_LD,
0x00000007,
0,
0);
pdata->nvm__laser_safety_vcsel_selion_ld =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY__VCSEL_SELION_LD,
0x0000003F,
0,
0);
pdata->nvm__laser_safety_vcsel_selion_max_ld =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY__VCSEL_SELION_MAX_LD,
0x0000003F,
0,
0);
pdata->nvm__laser_safety_mult_ld =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY__MULT_LD,
0x0000003F,
0,
0);
pdata->nvm__laser_safety_clip_ld =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY__CLIP_LD,
0x0000003F,
0,
0);
pdata->nvm__laser_safety_lock_byte =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY_LOCK_BYTE,
0x000000FF,
0,
0);
pdata->nvm__laser_safety_unlock_byte =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__LASER_SAFETY_UNLOCK_BYTE,
0x000000FF,
0,
0);
ptmp = pbuffer + VL53L1_NVM__EWS__SPAD_ENABLES_RTN_0_;
for (i = 0 ; i < VL53L1_RTN_SPAD_BUFFER_SIZE ; i++)
pdata->nvm__ews__spad_enables_rtn[i] = *ptmp++;
ptmp = pbuffer + VL53L1_NVM__EWS__SPAD_ENABLES_REF__LOC1_0_;
for (i = 0 ; i < VL53L1_REF_SPAD_BUFFER_SIZE ; i++)
pdata->nvm__ews__spad_enables_ref__loc1[i] = *ptmp++;
ptmp = pbuffer + VL53L1_NVM__EWS__SPAD_ENABLES_REF__LOC2_0_;
for (i = 0 ; i < VL53L1_REF_SPAD_BUFFER_SIZE ; i++)
pdata->nvm__ews__spad_enables_ref__loc2[i] = *ptmp++;
ptmp = pbuffer + VL53L1_NVM__EWS__SPAD_ENABLES_REF__LOC3_0_;
for (i = 0 ; i < VL53L1_REF_SPAD_BUFFER_SIZE ; i++)
pdata->nvm__ews__spad_enables_ref__loc3[i] = *ptmp++;
ptmp = pbuffer + VL53L1_NVM__FMT__SPAD_ENABLES_RTN_0_;
for (i = 0 ; i < VL53L1_RTN_SPAD_BUFFER_SIZE ; i++)
pdata->nvm__fmt__spad_enables_rtn[i] = *ptmp++;
ptmp = pbuffer + VL53L1_NVM__FMT__SPAD_ENABLES_REF__LOC1_0_;
for (i = 0 ; i < VL53L1_REF_SPAD_BUFFER_SIZE ; i++)
pdata->nvm__fmt__spad_enables_ref__loc1[i] = *ptmp++;
ptmp = pbuffer + VL53L1_NVM__FMT__SPAD_ENABLES_REF__LOC2_0_;
for (i = 0 ; i < VL53L1_REF_SPAD_BUFFER_SIZE ; i++)
pdata->nvm__fmt__spad_enables_ref__loc2[i] = *ptmp++;
ptmp = pbuffer + VL53L1_NVM__FMT__SPAD_ENABLES_REF__LOC3_0_;
for (i = 0 ; i < VL53L1_REF_SPAD_BUFFER_SIZE ; i++)
pdata->nvm__fmt__spad_enables_ref__loc3[i] = *ptmp++;
pdata->nvm__fmt__roi_config__mode_roi_centre_spad =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer +
VL53L1_NVM__FMT__ROI_CONFIG__MODE_ROI_CENTRE_SPAD,
0x000000FF,
0,
0);
pdata->nvm__fmt__roi_config__mode_roi_x_size =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer +
VL53L1_NVM__FMT__ROI_CONFIG__MODE_ROI_XY_SIZE,
0x000000F0,
4,
0);
pdata->nvm__fmt__roi_config__mode_roi_y_size =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__ROI_CONFIG__MODE_ROI_XY_SIZE,
0x0000000F,
0,
0);
pdata->nvm__fmt__ref_spad_apply__num_requested_ref_spad =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer +
VL53L1_NVM__FMT__REF_SPAD_APPLY__NUM_REQUESTED_REF_SPAD,
0x000000FF,
0,
0);
pdata->nvm__fmt__ref_spad_man__ref_location =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__REF_SPAD_MAN__REF_LOCATION,
0x00000003,
0,
0);
pdata->nvm__fmt__mm_config__inner_offset_mm =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__FMT__MM_CONFIG__INNER_OFFSET_MM,
0x0000FFFF,
0,
0);
pdata->nvm__fmt__mm_config__outer_offset_mm =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__FMT__MM_CONFIG__OUTER_OFFSET_MM,
0x0000FFFF,
0,
0);
pdata->nvm__fmt__algo_part_to_part_range_offset_mm =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer +
VL53L1_NVM__FMT__ALGO__PART_TO_PART_RANGE_OFFSET_MM,
0x00000FFF,
0,
0);
pdata->nvm__fmt__algo__crosstalk_compensation_plane_offset_kcps =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer +
VL53L1_NVM__FMT__ALGO__CROSSTALK_COMPENSATION_PLANE_OFFSET_KCPS,
0x0000FFFF,
0,
0);
pdata->nvm__fmt__algo__crosstalk_compensation_x_plane_gradient_kcps =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer +
VL53L1_NVM__FMT__ALGO__CROSSTALK_COMPENSATION_X_PLANE_GRADIENT_KCPS,
0x0000FFFF,
0,
0);
pdata->nvm__fmt__algo__crosstalk_compensation_y_plane_gradient_kcps =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer +
VL53L1_NVM__FMT__ALGO__CROSSTALK_COMPENSATION_Y_PLANE_GRADIENT_KCPS,
0x0000FFFF,
0,
0);
pdata->nvm__fmt__spare__host_config__nvm_config_spare_0 =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer +
VL53L1_NVM__FMT__SPARE_HOST_CONFIG__NVM_CONFIG_SPARE_0,
0x000000FF,
0,
0);
pdata->nvm__fmt__spare__host_config__nvm_config_spare_1 =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer +
VL53L1_NVM__FMT__SPARE_HOST_CONFIG__NVM_CONFIG_SPARE_1,
0x000000FF,
0,
0);
pdata->nvm__customer_space_programmed =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__CUSTOMER_NVM_SPACE_PROGRAMMED,
0x000000FF,
0,
0);
pdata->nvm__cust__i2c_device_address =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__CUST__I2C_SLAVE__DEVICE_ADDRESS,
0x000000FF,
0,
0);
pdata->nvm__cust__ref_spad_apply__num_requested_ref_spad =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer +
VL53L1_NVM__CUST__REF_SPAD_APPLY__NUM_REQUESTED_REF_SPAD,
0x000000FF,
0,
0);
pdata->nvm__cust__ref_spad_man__ref_location =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__CUST__REF_SPAD_MAN__REF_LOCATION,
0x00000003,
0,
0);
pdata->nvm__cust__mm_config__inner_offset_mm =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__CUST__MM_CONFIG__INNER_OFFSET_MM,
0x0000FFFF,
0,
0);
pdata->nvm__cust__mm_config__outer_offset_mm =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__CUST__MM_CONFIG__OUTER_OFFSET_MM,
0x0000FFFF,
0,
0);
pdata->nvm__cust__algo_part_to_part_range_offset_mm =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer +
VL53L1_NVM__CUST__ALGO__PART_TO_PART_RANGE_OFFSET_MM,
0x00000FFF,
0,
0);
pdata->nvm__cust__algo__crosstalk_compensation_plane_offset_kcps =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer +
VL53L1_NVM__CUST__ALGO__CROSSTALK_COMPENSATION_PLANE_OFFSET_KCPS,
0x0000FFFF,
0,
0);
pdata->nvm__cust__algo__crosstalk_compensation_x_plane_gradient_kcps =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer +
VL53L1_NVM__CUST__ALGO__CROSSTALK_COMPENSATION_X_PLANE_GRADIENT_KCPS,
0x0000FFFF,
0,
0);
pdata->nvm__cust__algo__crosstalk_compensation_y_plane_gradient_kcps =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer +
VL53L1_NVM__CUST__ALGO__CROSSTALK_COMPENSATION_Y_PLANE_GRADIENT_KCPS,
0x0000FFFF,
0,
0);
pdata->nvm__cust__spare__host_config__nvm_config_spare_0 =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__CUST__SPARE_HOST_CONFIG__NVM_CONFIG_SPARE_0,
0x000000FF,
0,
0);
pdata->nvm__cust__spare__host_config__nvm_config_spare_1 =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer +
VL53L1_NVM__CUST__SPARE_HOST_CONFIG__NVM_CONFIG_SPARE_1,
0x000000FF,
0,
0);
if (status == VL53L1_ERROR_NONE)
status =
VL53L1_nvm_decode_optical_centre(
buf_size,
pbuffer + VL53L1_NVM__FMT__OPTICAL_CENTRE_DATA_INDEX,
&(pdata->fmt_optical_centre));
if (status == VL53L1_ERROR_NONE)
status =
VL53L1_nvm_decode_cal_peak_rate_map(
buf_size,
pbuffer + VL53L1_NVM__FMT__CAL_PEAK_RATE_MAP_DATA_INDEX,
&(pdata->fmt_peak_rate_map));
if (status == VL53L1_ERROR_NONE)
status =
VL53L1_nvm_decode_additional_offset_cal_data(
buf_size,
pbuffer +
VL53L1_NVM__FMT__ADDITIONAL_OFFSET_CAL_DATA_INDEX,
&(pdata->fmt_add_offset_data));
pptmp[0] = VL53L1_NVM__FMT__RANGE_RESULTS__140MM_MM_PRE_RANGE;
pptmp[1] = VL53L1_NVM__FMT__RANGE_RESULTS__140MM_DARK;
pptmp[2] = VL53L1_NVM__FMT__RANGE_RESULTS__400MM_DARK;
pptmp[3] = VL53L1_NVM__FMT__RANGE_RESULTS__400MM_AMBIENT;
for (i = 0 ; i < VL53L1_NVM_MAX_FMT_RANGE_DATA ; i++) {
if (status == VL53L1_ERROR_NONE)
status =
VL53L1_nvm_decode_fmt_range_results_data(
buf_size,
pbuffer + pptmp[i],
&(pdata->fmt_range_data[i]));
}
if (status == VL53L1_ERROR_NONE)
status =
VL53L1_nvm_decode_fmt_info(
buf_size,
pbuffer,
&(pdata->fmt_info));
if (status == VL53L1_ERROR_NONE)
status =
VL53L1_nvm_decode_ews_info(
buf_size,
pbuffer,
&(pdata->ews_info));
LOG_FUNCTION_END(status);
return status;
}
VL53L1_Error VL53L1_nvm_decode_optical_centre(
uint16_t buf_size,
uint8_t *pbuffer,
VL53L1_optical_centre_t *pdata)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
uint16_t tmp = 0;
if (buf_size < VL53L1_NVM__FMT__OPTICAL_CENTRE_DATA_SIZE)
return VL53L1_ERROR_BUFFER_TOO_SMALL;
tmp = 0x0100;
tmp -= (uint16_t)*(pbuffer + 2);
if (tmp > 0x0FF)
tmp = 0;
pdata->x_centre = (uint8_t)tmp;
pdata->y_centre = *(pbuffer + 3);
return status;
}
VL53L1_Error VL53L1_nvm_decode_cal_peak_rate_map(
uint16_t buf_size,
uint8_t *pbuffer,
VL53L1_cal_peak_rate_map_t *pdata)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
uint8_t *ptmp = NULL;
uint8_t i = 0;
if (buf_size < VL53L1_NVM__FMT__CAL_PEAK_RATE_MAP_DATA_SIZE)
return VL53L1_ERROR_BUFFER_TOO_SMALL;
pdata->cal_distance_mm =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer);
pdata->cal_reflectance_pc =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer + 2);
pdata->cal_reflectance_pc =
pdata->cal_reflectance_pc >> 6;
pdata->max_samples = VL53L1_NVM_PEAK_RATE_MAP_SAMPLES;
pdata->width = VL53L1_NVM_PEAK_RATE_MAP_WIDTH;
pdata->height = VL53L1_NVM_PEAK_RATE_MAP_HEIGHT;
ptmp = pbuffer + 4;
for (i = 0 ; i < VL53L1_NVM_PEAK_RATE_MAP_SAMPLES ; i++) {
pdata->peak_rate_mcps[i] =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, ptmp);
ptmp += 2;
}
return status;
}
VL53L1_Error VL53L1_nvm_decode_additional_offset_cal_data(
uint16_t buf_size,
uint8_t *pbuffer,
VL53L1_additional_offset_cal_data_t *pdata)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
if (buf_size < VL53L1_NVM__FMT__ADDITIONAL_OFFSET_CAL_DATA_SIZE)
return VL53L1_ERROR_BUFFER_TOO_SMALL;
pdata->result__mm_inner_actual_effective_spads =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer);
pdata->result__mm_outer_actual_effective_spads =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer + 2);
pdata->result__mm_inner_peak_signal_count_rtn_mcps =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer + 4);
pdata->result__mm_outer_peak_signal_count_rtn_mcps =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer + 6);
return status;
}
VL53L1_Error VL53L1_nvm_decode_fmt_range_results_data(
uint16_t buf_size,
uint8_t *pbuffer,
VL53L1_decoded_nvm_fmt_range_data_t *pdata)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
if (buf_size < VL53L1_NVM__FMT__RANGE_RESULTS__SIZE_BYTES)
return VL53L1_ERROR_BUFFER_TOO_SMALL;
pdata->result__actual_effective_rtn_spads =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer);
pdata->ref_spad_array__num_requested_ref_spads =
*(pbuffer+2);
pdata->ref_spad_array__ref_location =
*(pbuffer+3);
pdata->result__peak_signal_count_rate_rtn_mcps =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer + 4);
pdata->result__ambient_count_rate_rtn_mcps =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer + 6);
pdata->result__peak_signal_count_rate_ref_mcps =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer + 8);
pdata->result__ambient_count_rate_ref_mcps =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer + 10);
pdata->measured_distance_mm =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer + 12);
pdata->measured_distance_stdev_mm =
(uint16_t)VL53L1_i2c_decode_uint16_t(2, pbuffer + 14);
return status;
}
VL53L1_Error VL53L1_nvm_decode_fmt_info(
uint16_t buf_size,
uint8_t *pbuffer,
VL53L1_decoded_nvm_fmt_info_t *pdata)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
if (buf_size < VL53L1_NVM_SIZE_IN_BYTES)
return VL53L1_ERROR_BUFFER_TOO_SMALL;
pdata->nvm__fmt__fgc[0] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_0,
0x000000FE,
1,
0);
pdata->nvm__fmt__fgc[1] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_1,
0x000001FC,
2,
0);
pdata->nvm__fmt__fgc[2] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_2 - 1,
0x000003F8,
3,
0);
pdata->nvm__fmt__fgc[3] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_3 - 1,
0x000007F0,
4,
0);
pdata->nvm__fmt__fgc[4] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_4 - 1,
0x00000FE0,
5,
0);
pdata->nvm__fmt__fgc[5] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_5 - 1,
0x00001FC0,
6,
0);
pdata->nvm__fmt__fgc[6] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_6 - 1,
0x00003F80,
7,
0);
pdata->nvm__fmt__fgc[7] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_6,
0x0000007F,
0,
0);
pdata->nvm__fmt__fgc[8] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_7,
0x000000FE,
1,
0);
pdata->nvm__fmt__fgc[9] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_8,
0x000001FC,
2,
0);
pdata->nvm__fmt__fgc[10] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_9 - 1,
0x000003F8,
3,
0);
pdata->nvm__fmt__fgc[11] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_10 - 1,
0x000007F0,
4,
0);
pdata->nvm__fmt__fgc[12] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_11 - 1,
0x00000FE0,
5,
0);
pdata->nvm__fmt__fgc[13] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_12 - 1,
0x00001FC0,
6,
0);
pdata->nvm__fmt__fgc[14] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_13 - 1,
0x00003F80,
7,
0);
pdata->nvm__fmt__fgc[15] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_13,
0x0000007F,
0,
0);
pdata->nvm__fmt__fgc[16] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_14,
0x000000FE,
1,
0);
pdata->nvm__fmt__fgc[17] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__FGC__BYTE_15,
0x000001FC,
2,
0);
pdata->nvm__fmt__fgc[18] = 0x00;
pdata->nvm__fmt__test_program_major =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__TEST_PROGRAM_MAJOR_MINOR,
0x000000E0,
5,
0);
pdata->nvm__fmt__test_program_minor =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__TEST_PROGRAM_MAJOR_MINOR,
0x0000001F,
0,
0);
pdata->nvm__fmt__map_major =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__MAP_MAJOR_MINOR,
0x000000E0,
5,
0);
pdata->nvm__fmt__map_minor =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__MAP_MAJOR_MINOR,
0x0000001F,
0,
0);
pdata->nvm__fmt__year =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__YEAR_MONTH,
0x000000F0,
4,
0);
pdata->nvm__fmt__month =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__YEAR_MONTH,
0x0000000F,
0,
0);
pdata->nvm__fmt__day =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__DAY_MODULE_DATE_PHASE,
0x000000F8,
3,
0);
pdata->nvm__fmt__module_date_phase =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__DAY_MODULE_DATE_PHASE,
0x00000007,
0,
0);
pdata->nvm__fmt__time =
(uint16_t)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__FMT__TIME,
0x0000FFFF,
0,
0);
pdata->nvm__fmt__tester_id =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__TESTER_ID,
0x000000FF,
0,
0);
pdata->nvm__fmt__site_id =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__FMT__SITE_ID,
0x000000FF,
0,
0);
return status;
}
VL53L1_Error VL53L1_nvm_decode_ews_info(
uint16_t buf_size,
uint8_t *pbuffer,
VL53L1_decoded_nvm_ews_info_t *pdata)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
if (buf_size < VL53L1_NVM_SIZE_IN_BYTES)
return VL53L1_ERROR_BUFFER_TOO_SMALL;
pdata->nvm__ews__test_program_major =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__TEST_PROGRAM_MAJOR_MINOR,
0x000000E0,
5,
0);
pdata->nvm__ews__test_program_minor =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__TEST_PROGRAM_MAJOR_MINOR,
0x0000001F,
0,
0);
pdata->nvm__ews__probe_card_major =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__PROBE_CARD_MAJOR_MINOR,
0x000000F0,
4,
0);
pdata->nvm__ews__probe_card_minor =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__PROBE_CARD_MAJOR_MINOR,
0x0000000F,
0,
0);
pdata->nvm__ews__tester_id =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__TESTER_ID,
0x000000FF,
0,
0);
pdata->nvm__ews__lot[0] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__LOT__BYTE_0,
0x000000FC,
2,
32);
pdata->nvm__ews__lot[1] =
(char)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__EWS__LOT__BYTE_1 - 1,
0x000003F0,
4,
32);
pdata->nvm__ews__lot[2] =
(char)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__EWS__LOT__BYTE_2 - 1,
0x00000FC0,
6,
32);
pdata->nvm__ews__lot[3] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__LOT__BYTE_2,
0x0000003F,
0,
32);
pdata->nvm__ews__lot[4] =
(char)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__LOT__BYTE_3,
0x000000FC,
2,
32);
pdata->nvm__ews__lot[5] =
(char)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__EWS__LOT__BYTE_4 - 1,
0x000003F0,
4,
32);
pdata->nvm__ews__lot[6] =
(char)VL53L1_i2c_decode_with_mask(
2,
pbuffer + VL53L1_NVM__EWS__LOT__BYTE_5 - 1,
0x00000FC0,
6,
32);
pdata->nvm__ews__lot[7] = 0x00;
pdata->nvm__ews__wafer =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__WAFER,
0x0000001F,
0,
0);
pdata->nvm__ews__xcoord =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__XCOORD,
0x000000FF,
0,
0);
pdata->nvm__ews__ycoord =
(uint8_t)VL53L1_i2c_decode_with_mask(
1,
pbuffer + VL53L1_NVM__EWS__YCOORD,
0x000000FF,
0,
0);
return status;
}
void VL53L1_nvm_format_encode(
VL53L1_decoded_nvm_data_t *pnvm_info,
uint8_t *pnvm_data)
{
SUPPRESS_UNUSED_WARNING(pnvm_info);
SUPPRESS_UNUSED_WARNING(pnvm_data);
}
VL53L1_Error VL53L1_read_nvm_raw_data(
VL53L1_DEV Dev,
uint8_t start_address,
uint8_t count,
uint8_t *pnvm_raw_data)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
LOG_FUNCTION_START("");
if (status == VL53L1_ERROR_NONE)
status = VL53L1_nvm_enable(
Dev,
0x0004,
VL53L1_NVM_POWER_UP_DELAY_US);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_nvm_read(
Dev,
start_address,
count,
pnvm_raw_data);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_nvm_disable(Dev);
LOG_FUNCTION_END(status);
return status;
}
VL53L1_Error VL53L1_read_nvm(
VL53L1_DEV Dev,
uint8_t nvm_format,
VL53L1_decoded_nvm_data_t *pnvm_info)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
uint8_t nvm_data[VL53L1_NVM_SIZE_IN_BYTES];
LOG_FUNCTION_START("");
SUPPRESS_UNUSED_WARNING(nvm_format);
status = VL53L1_read_nvm_raw_data(
Dev,
0,
VL53L1_NVM_SIZE_IN_BYTES >> 2,
nvm_data);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_nvm_format_decode(
VL53L1_NVM_SIZE_IN_BYTES,
nvm_data,
pnvm_info);
LOG_FUNCTION_END(status);
return status;
}
VL53L1_Error VL53L1_read_nvm_optical_centre(
VL53L1_DEV Dev,
VL53L1_optical_centre_t *pcentre)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
uint8_t nvm_data[VL53L1_NVM__FMT__OPTICAL_CENTRE_DATA_SIZE];
LOG_FUNCTION_START("");
status =
VL53L1_read_nvm_raw_data(
Dev,
(uint8_t)(VL53L1_NVM__FMT__OPTICAL_CENTRE_DATA_INDEX
>> 2),
(uint8_t)(VL53L1_NVM__FMT__OPTICAL_CENTRE_DATA_SIZE
>> 2),
nvm_data);
if (status == VL53L1_ERROR_NONE)
status =
VL53L1_nvm_decode_optical_centre(
VL53L1_NVM__FMT__OPTICAL_CENTRE_DATA_SIZE,
nvm_data,
pcentre);
LOG_FUNCTION_END(status);
return status;
}
VL53L1_Error VL53L1_read_nvm_cal_peak_rate_map(
VL53L1_DEV Dev,
VL53L1_cal_peak_rate_map_t *pcal_data)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
uint8_t nvm_data[VL53L1_NVM__FMT__CAL_PEAK_RATE_MAP_DATA_SIZE];
LOG_FUNCTION_START("");
status =
VL53L1_read_nvm_raw_data(
Dev,
(uint8_t)(VL53L1_NVM__FMT__CAL_PEAK_RATE_MAP_DATA_INDEX
>> 2),
(uint8_t)(VL53L1_NVM__FMT__CAL_PEAK_RATE_MAP_DATA_SIZE
>> 2),
nvm_data);
if (status == VL53L1_ERROR_NONE)
status =
VL53L1_nvm_decode_cal_peak_rate_map(
VL53L1_NVM__FMT__CAL_PEAK_RATE_MAP_DATA_SIZE,
nvm_data,
pcal_data);
LOG_FUNCTION_END(status);
return status;
}
VL53L1_Error VL53L1_read_nvm_additional_offset_cal_data(
VL53L1_DEV Dev,
VL53L1_additional_offset_cal_data_t *pcal_data)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
uint8_t nvm_data[VL53L1_NVM__FMT__ADDITIONAL_OFFSET_CAL_DATA_SIZE];
LOG_FUNCTION_START("");
status =
VL53L1_read_nvm_raw_data(
Dev,
(uint8_t)(
VL53L1_NVM__FMT__ADDITIONAL_OFFSET_CAL_DATA_INDEX >> 2),
(uint8_t)(
VL53L1_NVM__FMT__ADDITIONAL_OFFSET_CAL_DATA_SIZE >> 2),
nvm_data);
if (status == VL53L1_ERROR_NONE)
status = VL53L1_nvm_decode_additional_offset_cal_data(
VL53L1_NVM__FMT__ADDITIONAL_OFFSET_CAL_DATA_SIZE,
nvm_data,
pcal_data);
LOG_FUNCTION_END(status);
return status;
}
VL53L1_Error VL53L1_read_nvm_fmt_range_results_data(
VL53L1_DEV Dev,
uint16_t range_results_select,
VL53L1_decoded_nvm_fmt_range_data_t *prange_data)
{
VL53L1_Error status = VL53L1_ERROR_NONE;
uint8_t nvm_data[VL53L1_NVM__FMT__RANGE_RESULTS__SIZE_BYTES];
LOG_FUNCTION_START("");
status = VL53L1_read_nvm_raw_data(
Dev,
(uint8_t)(range_results_select >> 2),
(uint8_t)(VL53L1_NVM__FMT__RANGE_RESULTS__SIZE_BYTES >> 2),
nvm_data);
if (status == VL53L1_ERROR_NONE)
status =
VL53L1_nvm_decode_fmt_range_results_data(
VL53L1_NVM__FMT__RANGE_RESULTS__SIZE_BYTES,
nvm_data,
prange_data);
LOG_FUNCTION_END(status);
return status;
}