Expansion SW library to control a bipolar stepper motor using X-NUCLEO-IHM05A1 expansion board based on L6208.
Dependencies: ST_INTERFACES
Dependents: HelloWorld_IHM05A1 TAU_ROTATING_PLATFORM_IHM05A1 Amaldi_13_Exercise_IHM05A1 Amaldi_13_Exercise_IHM05A1motore ... more
Fork of X-NUCLEO-IHM05A1 by
Motor Control Library
Library to handle the X-NUCLEO-IHM05A1 Motor Control Expansion Board based on the L6208 component.
It features the:
- Read and write of device parameters
- Configuration of GPIOs and IRQs (for enabling, direction, current decay and microstepping)
- Control of position, speed, acceleration and deceleration
- Command locking until the device completes movement
- Handling of overcurrent and thermal alarms (flag interrupt handling)
The API allows to easily:
- perform various positioning, moves and stops
- get/set or monitor the motor positions
- set home position and mark another position
- get/set minimum and maximum speed
- get current speed
- get/set acceleration and deceleration
- get/set the step mode (up to 1/16)
Board configuration
Platform compatibility
Compatible platforms have been tested with the configurations provided by the HelloWorld_IHM05A1 example.
Diff: Components/L6208/L6208.cpp
- Revision:
- 6:c73faac7197f
- Parent:
- 4:0b52159554b5
diff -r f0856e278c08 -r c73faac7197f Components/L6208/L6208.cpp --- a/Components/L6208/L6208.cpp Mon May 08 15:42:20 2017 +0000 +++ b/Components/L6208/L6208.cpp Fri Jul 28 13:06:36 2017 +0000 @@ -216,8 +216,14 @@ **********************************************************/ motorDecayMode_t L6208::L6208_get_decay_mode(void) { - if (L6208_IsSysFlag(fastdecaymode)) return (FAST_DECAY); - else return (SLOW_DECAY); + if (L6208_IsSysFlag(fastdecaymode)) + { + return (FAST_DECAY); + } + else + { + return (SLOW_DECAY); + } } /******************************************************//** @@ -1532,7 +1538,10 @@ devicePrm.stepMode = pInitDevicePrm->stepMode; L6208_SetDecayMode(pInitDevicePrm->decayMode); devicePrm.moveDwellTime = pInitDevicePrm->moveDwellTime; - if (L6208_CONF_PARAM_AUTO_HIZ_STOP) L6208_SetSysFlag(pInitDevicePrm->autoHiZstop); + if (L6208_CONF_PARAM_AUTO_HIZ_STOP) + { + L6208_SetSysFlag(pInitDevicePrm->autoHiZstop); + } devicePrm.vrefPwmFreq = pInitDevicePrm->vrefPwmFreq; devicePrm.vrefPwmPeriod = (uint16_t)((1000000<<8)/pInitDevicePrm->vrefPwmFreq); /* Initialize current stepper state machine index */ @@ -1561,7 +1570,10 @@ devicePrm.stepMode = (motorStepMode_t) L6208_CONF_PARAM_STEP_MODE; L6208_SetDecayMode(L6208_CONF_PARAM_DECAY_MODE); devicePrm.moveDwellTime = L6208_CONF_PARAM_DWELL_TIME; - if (L6208_CONF_PARAM_AUTO_HIZ_STOP) L6208_SetSysFlag(HiZstop); + if (L6208_CONF_PARAM_AUTO_HIZ_STOP) + { + L6208_SetSysFlag(HiZstop); + } devicePrm.vrefPwmFreq = L6208_CONF_VREF_PWM_FREQUENCY; devicePrm.vrefPwmPeriod = (uint16_t)((1000000<<8)/L6208_CONF_VREF_PWM_FREQUENCY); /* Initialize current stepper state machine index */ @@ -1815,7 +1827,10 @@ { if(valueIsPwmDutyCycle) { - if (value > 100) value = 100; + if (value > 100) + { + value = 100; + } value = (uint16_t)(((uint32_t)devicePrm.vrefPwmPeriod * (uint32_t)value) / 100); } if (bridgeId == 0)