Expansion SW library to control high power stepper motor(s) using IHM03A1 expansion board(s) with Powerstep01 driver.
Dependencies: X_NUCLEO_COMMON ST_INTERFACES
Dependents: IHM03A1_ExampleFor1Motor HelloWorld_IHM03A1 IHM03A1_ExampleFor3Motors KYPHOS_Stepper_Motor_Control
Fork of X_NUCLEO_IHM03A1 by
Motor Control Library
Library to handle the X-NUCLEO-IHM03A1 Motor Control Expansion Board based on the Powerstep01 component.
It features the:
- read and write of Powerstep01 registers
- Nucleo and expansion board configuration (GPIOs, PWMs, IRQs, etc.)
- Powerstep01 application commands handling
- FLAG and BUSY interrupt handling (alarm reporting)
- Daisy chain 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 1/128)
- get/set the control method
- get/set parameters for voltage mode driving
- get/set parameters for current mode driving
- get/set parameters for gate driving
- configure various protections such as overcurrent detection
- enable/disable alarms
- handle step-clock
- get system status
Daisy-Chain Configuration
The IHM03A1 board can be stacked up to three times so that the Powerstep01 components will be connected in daisy-chain configuration. For this purpose, some resistors must be correctly connected on the boards as depicted here below:
Platform compatibility
Compatible platforms have been tested with the default configuration provided by the HelloWorld_IHM03A1 example.
Components/Common/motor_def.h
- Committer:
- davide.aliprandi@st.com
- Date:
- 2017-03-24
- Revision:
- 4:f48e8d87553e
File content as of revision 4:f48e8d87553e:
/** ****************************************************************************** * @file motor_def.h * @author IPC Rennes * @version V1.6.0 * @date April 7th, 2016 * @brief This file contains all the functions prototypes for motor drivers. ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2> * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. Neither the name of STMicroelectronics nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************** */ /* Define to prevent recursive inclusion -------------------------------------*/ #ifndef __MOTOR_H #define __MOTOR_H #ifdef __cplusplus extern "C" { #endif /* Includes ------------------------------------------------------------------*/ #include <stdint.h> #include "component_def.h" /* Definitions ---------------------------------------------------------------*/ /// boolean for false condition #ifndef FALSE #define FALSE (0) #endif /// boolean for true condition #ifndef TRUE #define TRUE (1) #endif /* Types ---------------------------------------------------------------------*/ /** @addtogroup BSP * @{ */ /** @addtogroup Components * @{ */ /** @defgroup Motor Motor * @{ */ /** @defgroup Motor_Exported_Types Motor Exported Types * @{ */ /** @defgroup Device_Direction_Options Device Direction Options * @{ */ /// Direction options typedef enum { BACKWARD = 0, FORWARD = 1, UNKNOW_DIR = ((uint8_t)0xFF) } motorDir_t; /** * @} */ /** @defgroup Device_Action_Options Device Action Options * @{ */ /// Action options typedef enum { ACTION_RESET = ((uint8_t)0x00), ACTION_COPY = ((uint8_t)0x08) } motorAction_t; /** * @} */ /** @defgroup Device_States Device States * @{ */ /// Device states typedef enum { ACCELERATING = 0, DECELERATINGTOSTOP = 1, DECELERATING = 2, STEADY = 3, INDEX_ACCEL = 4, INDEX_RUN = 5, INDEX_DECEL = 6, INDEX_DWELL = 7, INACTIVE = 8, STANDBY = 9, STANDBYTOINACTIVE = 10 } motorState_t; /** * @} */ /** @defgroup Device_Step_mode Device Step mode * @{ */ /// Stepping options typedef enum { STEP_MODE_FULL = ((uint8_t)0x00), STEP_MODE_HALF = ((uint8_t)0x01), STEP_MODE_1_4 = ((uint8_t)0x02), STEP_MODE_1_8 = ((uint8_t)0x03), STEP_MODE_1_16 = ((uint8_t)0x04), STEP_MODE_1_32 = ((uint8_t)0x05), STEP_MODE_1_64 = ((uint8_t)0x06), STEP_MODE_1_128 = ((uint8_t)0x07), STEP_MODE_1_256 = ((uint8_t)0x08), STEP_MODE_UNKNOW = ((uint8_t)0xFE), STEP_MODE_WAVE = ((uint8_t)0xFF) } motorStepMode_t; /** * @} */ /** @defgroup Decay_mode Decay mode * @{ */ /// Decay Mode typedef enum { SLOW_DECAY = 0, FAST_DECAY = 1, UNKNOW_DECAY = ((uint8_t)0xFF) } motorDecayMode_t; /** * @} */ /** @defgroup Stop_mode Stop mode * @{ */ /// Stop mode typedef enum { HOLD_MODE = 0, HIZ_MODE = 1, STANDBY_MODE = 2, UNKNOW_STOP_MODE = ((uint8_t)0xFF) } motorStopMode_t; /** * @} */ /** @defgroup Torque_mode Torque mode * @{ */ /// Torque mode typedef enum { ACC_TORQUE = 0, DEC_TORQUE = 1, RUN_TORQUE = 2, HOLD_TORQUE = 3, CURRENT_TORQUE = 4, UNKNOW_TORQUE = ((uint8_t)0xFF) } motorTorqueMode_t; /** * @} */ /** @defgroup Dual_Full_Bridge_Configuration Dual Full Bridge Configuration * @{ */ ///Dual full bridge configurations for brush DC motors typedef enum { PARALLELING_NONE___1_BIDIR_MOTOR_BRIDGE_A__1_BIDIR_MOTOR_BRIDGE_B = 0, PARALLELING_NONE___1_BIDIR_MOTOR_BRIDGE_A__2_UNDIR_MOTOR_BRIDGE_B = 1, PARALLELING_NONE___2_UNDIR_MOTOR_BRIDGE_A__1_BIDIR_MOTOR_BRIDGE_B = 2, PARALLELING_NONE___2_UNDIR_MOTOR_BRIDGE_A__2_UNDIR_MOTOR_BRIDGE_B = 3, PARALLELING_IN1A_IN2A__1_UNDIR_MOTOR_BRIDGE_A__1_BIDIR_MOTOR_BRIDGE_B = 4, PARALLELING_IN1A_IN2A__1_UNDIR_MOTOR_BRIDGE_A__2_UNDIR_MOTOR_BRIDGE_B = 5, PARALLELING_IN1B_IN2B__1_BIDIR_MOTOR_BRIDGE_A__1_UNDIR_MOTOR_BRIDGE_B = 6, PARALLELING_IN1B_IN2B__2_UNDIR_MOTOR_BRIDGE_A__1_UNDIR_MOTOR_BRIDGE_B = 7, PARALLELING_IN1A_IN2A__IN1B_IN2B__1_UNDIR_MOTOR_BRIDGE_A__1_UNDIR_MOTOR_BRIDGE_B = 8, PARALLELING_IN1A_IN2A__IN1B_IN2B__1_BIDIR_MOTOR = 9, PARALLELING_IN1A_IN1B__IN2A_IN2B__1_UNDIR_MOTOR_BRIDGE_1A__1_UNDIR_MOTOR_BRIDGE_2A = 10, PARALLELING_IN1A_IN1B__IN2A_IN2B__1_BIDIR_MOTOR = 11, PARALLELING_ALL_WITH_IN1A___1_UNDIR_MOTOR = 12, PARALLELING_END_ENUM = 13 } dualFullBridgeConfig_t; /** * @} */ /** @defgroup Motor_Driver_Structure Motor Driver Structure * @{ */ /** * @brief MOTOR driver virtual table structure definition. */ typedef struct { /* ACTION ----------------------------------------------------------------* * Declare here the component's generic functions. * * Tag this group of functions with the " Generic " C-style comment. * * A component's interface has to define at least the two generic * * functions provided here below within the "Example" section, as the * * first and second functions of its Virtual Table. They have to be * * specified exactly in the given way. * * * * Example: * * status_t (*init) (void *handle, void *init); * * status_t (*read_id) (void *handle, uint8_t *id); * *------------------------------------------------------------------------*/ /* Generic */ status_t (*init)(void *handle, void *init); status_t (*read_id)(void *handle, uint8_t *id); /* ACTION ----------------------------------------------------------------* * Declare here the component's interrupts related functions. * * Tag this group of functions with the " Interrupts " C-style comment. * * Do not specify any function if not required. * * * * Example: * * void (*ConfigIT) (void *handle, int a); * *------------------------------------------------------------------------*/ /* Interrupts */ /// Function pointer to attach_error_handler void (*attach_error_handler)(void *handle, void (*callback)(void *handle, uint16_t error)); /// Function pointer to attach_flag_interrupt void (*attach_flag_interrupt)(void *handle, void (*callback)(void *handle)); /// Function pointer to AttachBusyInterrupt void (*AttachBusyInterrupt)(void *handle, void (*callback)(void *handle)); /// Function pointer to FlagInterruptHandler void (*FlagInterruptHandler)(void *handle); /* ACTION ----------------------------------------------------------------* * Declare here the component's specific functions. * * Tag this group of functions with the " Specific " C-style comment. * * Do not specify any function if not required. * * * * Example: * * status_t (*GetValue) (void *handle, float *f); * *------------------------------------------------------------------------*/ /* Specific */ /// Function pointer to get_acceleration uint16_t (*get_acceleration)(void *handle); /// Function pointer to GetCurrentSpeed uint16_t (*GetCurrentSpeed)(void *handle); /// Function pointer to get_deceleration uint16_t (*get_deceleration)(void *handle); /// Function pointer to get_device_state motorState_t(*get_device_state)(void *handle); /// Function pointer to get_fw_version uint32_t (*get_fw_version)(void *handle); /// Function pointer to get_mark int32_t (*get_mark)(void *handle); /// Function pointer to get_max_speed uint16_t (*get_max_speed)(void *handle); /// Function pointer to get_min_speed uint16_t (*get_min_speed)(void *handle); /// Function pointer to get_position int32_t (*get_position)(void *handle); /// Function pointer to go_home void (*go_home)(void *handle); /// Function pointer to go_mark void (*go_mark)(void *handle); /// Function pointer to go_to void (*go_to)(void *handle, int32_t targetPosition); /// Function pointer to hard_stop void (*hard_stop)(void *handle); /// Function pointer to move void (*move)(void *handle, motorDir_t direction, uint32_t stepCount); /// Function pointer to ResetAllDevices //void (*ResetAllDevices)(void *handle); /// Function pointer to run void (*run)(void *handle, motorDir_t direction); /// Function pointer to set_acceleration bool (*set_acceleration)(void *handle, uint16_t newAcc); /// Function pointer to set_deceleration bool (*set_deceleration)(void *handle, uint16_t newDec); /// Function pointer to set_home void (*set_home)(void *handle); /// Function pointer to set_mark void (*set_mark)(void *handle); /// Function pointer to set_max_speed bool (*set_max_speed)(void *handle, uint16_t newMaxSpeed); /// Function pointer to set_min_speed bool (*set_min_speed)(void *handle, uint16_t newMinSpeed); /// Function pointer to soft_stop bool (*soft_stop)(void *handle); /// Function pointer to StepClockHandler void (*StepClockHandler)(void *handle); /// Function pointer to wait_while_active void (*wait_while_active)(void *handle); /// Function pointer to CmdDisable void (*CmdDisable)(void *handle); /// Function pointer to CmdEnable void (*CmdEnable)(void *handle); /// Function pointer to CmdGetParam uint32_t (*CmdGetParam)(void *handle, uint32_t param); /// Function pointer to CmdGetStatus uint16_t (*CmdGetStatus)(void *handle); /// Function pointer to CmdNop void (*CmdNop)(void *handle); /// Function pointer to CmdSetParam void (*CmdSetParam)(void *handle, uint32_t param, uint32_t value); /// Function pointer to read_status_register uint16_t (*read_status_register)(void *handle); /// Function pointer to release_reset void (*release_reset)(void *handle); /// Function pointer to Reset void (*Reset)(void *handle); /// Function pointer to SelectStepMode bool (*SelectStepMode)(void *handle, motorStepMode_t); /// Function pointer to set_direction void (*set_direction)(void *handle, motorDir_t direction); /// Function pointer to CmdGoToDir void (*CmdGoToDir)(void *handle, motorDir_t direction, int32_t targetPosition); /// Function pointer to check_busy_hw uint8_t (*check_busy_hw)(void *handle); /// Function pointer to check_status_hw uint8_t (*check_status_hw)(void *handle); /// Function pointer to CmdGoUntil void (*CmdGoUntil)(void *handle, motorAction_t action, motorDir_t direction, uint32_t targetPosition); /// Function pointer to CmdHardHiZ void (*CmdHardHiZ)(void *handle); /// Function pointer to CmdReleaseSw void (*CmdReleaseSw)(void *handle, motorAction_t action, motorDir_t direction); /// Function pointer to CmdResetDevice void (*CmdResetDevice)(void *handle); /// Function pointer to CmdResetPos void (*CmdResetPos)(void *handle); /// Function pointer to CmdRun void (*CmdRun)(void *handle, motorDir_t direction, uint32_t targetPosition); /// Function pointer to CmdSoftHiZ void (*CmdSoftHiZ)(void *handle); /// Function pointer to CmdStepClock void (*CmdStepClock)(void *handle, motorDir_t direction); /// Function pointer to fetch_and_clear_all_status void (*fetch_and_clear_all_status)(void *handle); /// Function pointer to get_fetched_status uint16_t (*get_fetched_status)(void *handle); /// Function pointer to get_nb_devices uint8_t (*get_nb_devices)(void *handle); /// Function pointer to is_device_busy bool (*is_device_busy)(void *handle); /// Function pointer to send_queued_commands void (*send_queued_commands)(void *handle); /// Function pointer to queue_commands void (*queue_commands)(void *handle, uint8_t command, int32_t value); /// Function pointer to WaitForAllDevicesNotBusy void (*WaitForAllDevicesNotBusy)(void *handle); /// Function pointer to error_handler void (*error_handler)(void *handle, uint16_t error); /// Function pointer to BusyInterruptHandler void (*BusyInterruptHandler)(void *handle); /// Function pointer to CmdSoftStop void (*CmdSoftStop)(void *handle); /// Function pointer to StartStepClock void (*StartStepClock)(void *handle, uint16_t newFreq); /// Function pointer to StopStepClock void (*StopStepClock)(void *handle); /// Function pointer to set_dual_full_bridge_config void (*set_dual_full_bridge_config)(void *handle, uint8_t config); /// Function pointer to get_bridge_input_pwm_freq uint32_t (*get_bridge_input_pwm_freq)(void *handle); /// Function pointer to set_bridge_input_pwm_freq void (*set_bridge_input_pwm_freq)(void *handle, uint32_t newFreq); /// Function pointer to set_stop_mode void (*set_stop_mode)(void *handle, motorStopMode_t stopMode); /// Function pointer to get_stop_mode motorStopMode_t (*get_stop_mode)(void *handle); /// Function pointer to set_decay_mode void (*set_decay_mode)(void *handle, motorDecayMode_t decayMode); /// Function pointer to get_decay_mode motorDecayMode_t (*get_decay_mode)(void *handle); /// Function pointer to get_step_mode motorStepMode_t (*get_step_mode)(void *handle); /// Function pointer to get_direction motorDir_t (*get_direction)(void *handle); /// Function pointer to ExitDeviceFromReset void (*ExitDeviceFromReset)(void *handle); /// Function pointer to set_torque void (*set_torque)(void *handle, motorTorqueMode_t torqueMode, uint8_t torqueValue); /// Function pointer to get_torque uint8_t (*get_torque)(void *handle, motorTorqueMode_t torqueMode); /// Function pointer to SetVRefFreq void (*SetRefFreq)(void *handle, uint32_t newFreq); /// Function pointer to GetVRefFreq uint32_t (*GetRefFreq)(void *handle); /// Function pointer to SetVRefDc void (*SetRefDc)(void *handle, uint8_t newDc); /// Function pointer to GetVRefDc uint8_t (*GetRefDc)(void *handle); /// Function pointer to set_nb_devices bool (*set_nb_devices)(void *handle, uint8_t nbDevices); /// Function pointer to set a parameter bool (*set_analog_value)(void *handle, uint32_t param, float value); /// Function pointer to get a parameter float (*get_analog_value)(void *handle, uint32_t param); } MOTOR_VTable_t; /** * @} */ /** * @} */ /** * @} */ /** * @} */ /** * @} */ #ifdef __cplusplus } #endif #endif /* __MOTOR_H */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/