AFBR-S50 API Reference Manual
v1.5.6
AFBR-S50 Time-of-Flight Sensor SDK for Embedded Software
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01_simple_example.c
/*************************************************************************/
#include "
argus.h
"
// additional #includes ...
/*!***************************************************************************
* @brief Creates and initializes a new device instance.
*
* @param slave The SPI slave identifier number that is passed to the S2PI
* layers by the API whenever it calls a function.
*
* @return The pointer to the handle of the created device instance. Used to
* identify the calling instance in case of multiple devices.
*****************************************************************************/
static
argus_hnd_t
* InitializeDevice(
s2pi_slave_t
slave)
{
/* The API module handle that contains all data definitions that is
* required within the API module for the corresponding hardware device.
* Every call to an API function requires the passing of a pointer to this
* data structure. */
argus_hnd_t
* device =
Argus_CreateHandle
();
HandleError
(device ?
STATUS_OK
:
ERROR_FAIL
,
true
,
"Argus_CreateHandle failed!"
);
/* Initialize the API with the dedicated default measurement mode.
* This implicitly calls the initialization functions
* of the underlying API modules.
*
* The second parameter is stored and passed to all function calls
* to the S2PI module. This piece of information can be utilized in
* order to determine the addressed SPI slave and enabled the usage
* of multiple devices on a single SPI peripheral.
*
* Also note the #Argus_InitMode alternative that uses a third
* parameter to choose the measurement mode: see the #argus_mode_t
* enumeration for more information on available measurement modes. */
status_t
status
=
Argus_Init
(device, slave);
HandleError
(
status
,
true
,
"Argus_Init failed!"
);
/* Adjust additional configuration parameters by invoking the dedicated API methods.
* Note: The maximum frame rate is limited by the amount of data sent via UART.
* See #PrintResults function for more information. */
status
=
Argus_SetConfigurationFrameTime
(device, 100000);
// 0.1 second = 10 Hz
HandleError
(
status
,
true
,
"Argus_SetConfigurationFrameTime failed!"
);
return
device;
}
/*!***************************************************************************
* @brief Triggers a measurement cycle in blocking manner.
*
* @param device The pointer to the handle of the calling API instance. Used to
* identify the calling instance in case of multiple devices.
*
* @param res The pointer to the results data structure where the final
* measurement results are stored.
*****************************************************************************/
static
void
TriggerMeasurementBlocking(
argus_hnd_t
* device,
argus_results_t
* res)
{
status_t
status
=
STATUS_OK
;
/* Triggers a single measurement.
*
* Note that due to the laser safety algorithms, the method might refuse
* to restart a measurement when the appropriate time has not been elapsed
* right now. The function returns with status #STATUS_ARGUS_POWERLIMIT and
* the function must be called again later. Use the frame time configuration
* in order to adjust the timing between two measurement frames.
*
* The callback can be null for the trigger function if the #Argus_GetStatus
* function is used to await the measurement cycle to finish. Otherwise, the
* callback should be set to receive the measurement ready event. See the
* advanced example on how to use the callback. */
do
{
status
=
Argus_TriggerMeasurement
(device, 0);
}
while
(
status
==
STATUS_ARGUS_POWERLIMIT
);
HandleError
(
status
,
false
,
"Argus_TriggerMeasurement failed!"
);
/* Wait until measurement data is ready by polling the #Argus_GetStatus
* function until the status is not #STATUS_BUSY any more. Note that
* the actual measurement is performed asynchronously in the background
* (i.e. on the device, in DMA transfers and in interrupt service routines).
* Thus, one could do more useful stuff while waiting here... */
do
{
status
=
Argus_GetStatus
(device);
}
while
(
status
==
STATUS_BUSY
);
HandleError
(
status
,
false
,
"Waiting for measurement data ready (Argus_GetStatus) failed!"
);
/* Evaluate the raw measurement results by calling the #Argus_EvaluateData function. */
status
=
Argus_EvaluateData
(device, res);
HandleError
(
status
,
false
,
"Argus_EvaluateData failed!"
);
}
/*!***************************************************************************
* @brief Prints measurement results via UART.
*
* @details Prints some measurement data via UART in the following format:
*
* ```
* 123.456789 s; Range: 123456 mm; Amplitude: 1234 LSB; Quality: 100; Status: 0
* ```
*
* @param res A pointer to the latest measurement results structure.
*****************************************************************************/
static
void
PrintResults(
argus_results_t
const
* res)
{
/* Print the recent measurement results:
* 1. Time stamp in seconds since the last MCU reset.
* 2. Range in mm (converting the Q9.22 value to mm).
* 3. Amplitude in LSB (converting the UQ12.4 value to LSB).
* 4. Signal Quality in % (100% = good signal).
* 5. Status (0: OK, <0: Error, >0: Warning.
*
* Note: Sending data via UART creates a large delay which might prevent
* the API from reaching the full frame rate. This example sends
* approximately 80 characters per frame at 115200 bps which limits
* the max. frame rate of 144 fps:
* 115200 bps / 10 [bauds-per-byte] / 80 [bytes-per-frame] = 144 fps */
print
(
"%4d.%06d s; Range: %5d mm; Amplitude: %4d LSB; Quality: %3d; Status: %d\n"
,
res->
TimeStamp
.
sec
,
res->
TimeStamp
.
usec
,
res->
Bin
.
Range
/ (
Q9_22_ONE
/ 1000),
res->
Bin
.
Amplitude
/
UQ12_4_ONE
,
res->
Bin
.
SignalQuality
,
res->
Status
);
}
/*!***************************************************************************
* @brief Prints information about the initialized devices.
*
* @param device The pointer to the device handler.
*****************************************************************************/
static
void
PrintDeviceInfo(
argus_hnd_t
* device)
{
/* Print some information about current API and connected device. */
const
uint32_t value =
Argus_GetAPIVersion
();
const
uint8_t a = (uint8_t)((value >> 24) & 0xFFU);
const
uint8_t b = (uint8_t)((value >> 16) & 0xFFU);
const
uint8_t c = (uint8_t)(value & 0xFFFFU);
const
uint32_t
id
=
Argus_GetChipID
(device);
const
char
* m =
Argus_GetModuleName
(device);
print
(
"\n##### AFBR-S50 API - Simple Example ###########################\n"
" API Version: v%d.%d.%d\n"
" Chip ID: %d\n"
" Module: %s\n"
"###############################################################\n\n"
,
a, b, c,
id
, m);
}
/*!***************************************************************************
* @brief Application entry point for the simple example.
*
* @details The main function of the simple example, called after startup code
* and hardware initialization.
*
* This function will never be exited!
*****************************************************************************/
void
main
(
void
)
{
HardwareInit();
// defined elsewhere
/* Instantiate and initialize the device handlers. */
argus_hnd_t
* device = InitializeDevice(
SPI_SLAVE
);
/* Print a device information message. */
PrintDeviceInfo(device);
/* The program loop ... */
for
(;;)
{
/* The measurement data structure. */
argus_results_t
res;
/* Trigger a measurement for the current device. */
TriggerMeasurementBlocking(device, &res);
/* Use the obtain results, e.g. print via UART. */
PrintResults(&res);
}
}
main
int main(void)
Application entry point.
Definition
main.c:48
argus.h
This file is part of the AFBR-S50 API.
Argus_GetModuleName
char const * Argus_GetModuleName(argus_hnd_t *hnd)
Gets the name string of the module.
Argus_Init
status_t Argus_Init(argus_hnd_t *hnd, s2pi_slave_t spi_slave)
Initializes the device with default measurement mode.
Argus_GetChipID
uint32_t Argus_GetChipID(argus_hnd_t *hnd)
Gets the unique identification number of the chip.
Argus_CreateHandle
argus_hnd_t * Argus_CreateHandle(void)
Creates a new device data handle object to store all internal states.
argus_hnd_t
struct argus_hnd_t argus_hnd_t
Definition
argus_def.h:284
s2pi_slave_t
int32_t s2pi_slave_t
Definition
argus_api.h:67
Argus_GetAPIVersion
uint32_t Argus_GetAPIVersion(void)
Gets the version number of the current API library.
Argus_SetConfigurationFrameTime
status_t Argus_SetConfigurationFrameTime(argus_hnd_t *hnd, uint32_t value)
Sets the frame time to a specified device.
UQ12_4_ONE
#define UQ12_4_ONE
Definition
fp_def.h:237
Q9_22_ONE
#define Q9_22_ONE
Definition
fp_def.h:547
print
status_t print(const char *fmt_s,...)
A printf-like function to print formatted data to an debugging interface.
Definition
sci_log.c:106
Argus_EvaluateData
status_t Argus_EvaluateData(argus_hnd_t *hnd, argus_results_t *res)
Evaluates measurement data from the raw sensor readout data.
Argus_TriggerMeasurement
status_t Argus_TriggerMeasurement(argus_hnd_t *hnd, argus_measurement_ready_callback_t cb)
Triggers a single measurement frame asynchronously.
Argus_GetStatus
status_t Argus_GetStatus(argus_hnd_t *hnd)
Checks the state of the device/driver.
status_t
int32_t status_t
Type used for all status and error return values.
Definition
argus_status.h:70
STATUS_BUSY
@ STATUS_BUSY
Definition
argus_status.h:89
STATUS_ARGUS_POWERLIMIT
@ STATUS_ARGUS_POWERLIMIT
Definition
argus_status.h:167
STATUS_OK
@ STATUS_OK
Definition
argus_status.h:80
ERROR_FAIL
@ ERROR_FAIL
Definition
argus_status.h:95
status
static status_t status
Definition
argus_xtalk_cal_cli.c:140
HandleError
void HandleError(status_t status, bool stop, char const *msg)
A callback function from the example code whenever an error occurs.
Definition
main.c:62
SPI_SLAVE
#define SPI_SLAVE
Definition
examples.h:102
argus_results_bin_t::SignalQuality
uint8_t SignalQuality
Definition
argus_res.h:87
argus_results_bin_t::Range
q9_22_t Range
Definition
argus_res.h:75
argus_results_bin_t::Amplitude
uq12_4_t Amplitude
Definition
argus_res.h:81
argus_results_t
The measurement results data structure.
Definition
argus_res.h:216
argus_results_t::TimeStamp
ltc_t TimeStamp
Definition
argus_res.h:225
argus_results_t::Status
status_t Status
Definition
argus_res.h:221
argus_results_t::Bin
argus_results_bin_t Bin
Definition
argus_res.h:269
ltc_t::usec
uint32_t usec
Definition
time.h:77
ltc_t::sec
uint32_t sec
Definition
time.h:73
Broadcom Inc.