mirror of https://github.com/rusefi/bldc.git
180 lines
6.0 KiB
C
180 lines
6.0 KiB
C
/*
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Copyright 2012-2014 Benjamin Vedder benjamin@vedder.se
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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* mc_pwm.h
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*
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* Created on: 13 okt 2012
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* Author: benjamin
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*/
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#ifndef MCPWM_H_
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#define MCPWM_H_
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#include "conf_general.h"
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typedef enum {
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MC_STATE_OFF = 0,
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MC_STATE_DETECTING,
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MC_STATE_RUNNING,
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MC_STATE_FULL_BRAKE,
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} mc_state;
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typedef enum {
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PWM_MODE_NONSYNCHRONOUS_HISW, // This mode is not recommended
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PWM_MODE_SYNCHRONOUS, // The recommended and most tested mode
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PWM_MODE_BIPOLAR // Some glitches occasionally, can kill MOSFETs
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} mc_pwm_mode;
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typedef enum {
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FAULT_CODE_NONE = 0,
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FAULT_CODE_OVER_VOLTAGE,
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FAULT_CODE_UNDER_VOLTAGE,
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FAULT_CODE_DRV8302,
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FAULT_CODE_ABS_OVER_CURRENT
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} mc_fault_code;
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typedef enum {
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CONTROL_MODE_DUTY = 0,
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CONTROL_MODE_SPEED,
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CONTROL_MODE_CURRENT,
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CONTROL_MODE_CURRENT_BRAKE,
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CONTROL_MODE_NONE
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} mc_control_mode;
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// Functions
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void mcpwm_init(void);
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void mcpwm_init_hall_table(int dir, int fwd_add, int rev_add);
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void mcpwm_set_duty(float dutyCycle);
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void mcpwm_set_pid_speed(float rpm);
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void mcpwm_set_current(float current);
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void mcpwm_set_brake_current(float current);
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void mcpwm_brake_now(void);
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void mcpwm_release_motor(void);
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int mcpwm_get_comm_step(void);
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float mcpwm_get_duty_cycle_set(void);
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float mcpwm_get_duty_cycle_now(void);
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float mcpwm_get_switching_frequency_now(void);
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float mcpwm_get_rpm(void);
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mc_state mcpwm_get_state(void);
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mc_fault_code mcpwm_get_fault(void);
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float mcpwm_get_kv(void);
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float mcpwm_get_kv_filtered(void);
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int mcpwm_get_tachometer_value(int reset);
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float mcpwm_get_tot_current(void);
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float mcpwm_get_tot_current_filtered(void);
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float mcpwm_get_tot_current_in(void);
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float mcpwm_get_tot_current_in_filtered(void);
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void mcpwm_set_detect(void);
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float mcpwm_get_detect_pos(void);
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signed int mcpwm_read_hall_phase(void);
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float mcpwm_read_reset_avg_motor_current(void);
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float mcpwm_read_reset_avg_input_current(void);
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float mcpwm_get_last_adc_isr_duration(void);
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float mcpwm_get_last_inj_adc_isr_duration(void);
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// Interrupt handlers
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void mcpwm_adc_inj_int_handler(void);
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void mcpwm_adc_int_handler(void *p, uint32_t flags);
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// External variables
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extern volatile uint16_t ADC_Value[];
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extern volatile int ADC_curr_norm_value[];
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extern volatile float mcpwm_detect_currents[];
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extern volatile float mcpwm_detect_currents_diff[];
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extern volatile int mcpwm_vzero;
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#ifdef MCCONF_OUTRUNNER1
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#include "mcconf_outrunner1.h"
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#elif defined MCCONF_OUTRUNNER2
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#include "mcconf_outrunner2.h"
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#elif defined MCCONF_OUTRUNNER_OR
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#include "mcconf_outrunner_or.h"
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#elif defined MCCONF_OUTRUNNER_BL
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#include "mcconf_outrunner_bl.h"
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#elif defined MCCONF_RCCAR1
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#include "mcconf_rccar1.h"
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#elif defined MCCONF_RCCAR2
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#include "mcconf_rccar2.h"
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#elif defined MCCONF_STEN
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#include "mcconf_sten.h"
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#elif defined MCCONF_GURGALOF
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#include "mcconf_gurgalof.h"
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#elif defined MCCONF_HDD
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#include "mcconf_hdd.h"
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#endif
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/*
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* Parameters
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*/
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#define MCPWM_SWITCH_FREQUENCY_MIN 3000 // The lowest switching frequency in Hz
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#define MCPWM_SWITCH_FREQUENCY_MAX 35000 // The highest switching frequency in Hz
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#define MCPWM_DEAD_TIME_CYCLES 80 // Dead time
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#define MCPWM_RPM_TIMER_FREQ 1000000.0 // Frequency of the RPM measurement timer
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#define MCPWM_MIN_DUTY_CYCLE 0.005 // Minimum duty cycle
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#define MCPWM_MAX_DUTY_CYCLE 0.95 // Maximum duty cycle
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#define MCPWM_RAMP_STEP 0.01 // Ramping step (1000 times/sec) at maximum duty cycle
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#define MCPWM_RAMP_STEP_CURRENT_MAX 0.04 // Maximum ramping step (1000 times/sec) for the current control
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#define MCPWM_RAMP_STEP_RPM_LIMIT 0.0005 // Ramping step when limiting the RPM
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#define MCPWM_CURRENT_LIMIT_GAIN 1.0 // The error gain of the current limiting algorithm
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#define MCPWM_FAULT_STOP_TIME 3000 // Ignore commands for this duration in msec when faults occur
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#define MCPWM_CMD_STOP_TIME 0 // Ignore commands for this duration in msec after a stop has been sent
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#define MCPWM_DETECT_STOP_TIME 500 // Ignore commands for this duration in msec after a detect command
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// Speed PID parameters
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#define MCPWM_PID_TIME_K 0.001 // Pid controller sample time in seconds
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// Parameters that can be overridden
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#ifndef MCPWM_PWM_MODE
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#define MCPWM_PWM_MODE PWM_MODE_SYNCHRONOUS // Default PWM mode
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#endif
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#ifndef MCPWM_HALL_DIR
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#define MCPWM_HALL_DIR 0 // Hall sensor direction [0 or 1]
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#endif
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#ifndef MCPWM_HALL_FWD_ADD
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#define MCPWM_HALL_FWD_ADD 0 // Hall sensor offset fwd [0 to 5]
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#endif
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#ifndef MCPWM_HALL_REV_ADD
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#define MCPWM_HALL_REV_ADD 0 // Hall sensor offset rev [0 to 5]
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#endif
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#ifndef MCPWM_MIN_VOLTAGE
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#define MCPWM_MIN_VOLTAGE 8.0 // Minimum input voltage
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#endif
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#ifndef MCPWM_MAX_VOLTAGE
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#define MCPWM_MAX_VOLTAGE 50.0 // Maximum input voltage
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#endif
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#ifndef MCPWM_RPM_MAX
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#define MCPWM_RPM_MAX 100000.0 // The motor speed limit (Upper)
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#endif
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#ifndef MCPWM_RPM_MIN
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#define MCPWM_RPM_MIN -100000.0 // The motor speed limit (Lower)
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#endif
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#ifndef MCPWM_CURRENT_STARTUP_BOOST
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#define MCPWM_CURRENT_STARTUP_BOOST 0.01 // The lowest duty cycle to use in current control mode (has to be > MCPWM_MIN_DUTY_CYCLE)
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#endif
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#ifndef MCPWM_RPM_LIMIT_NEG_TORQUE
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#define MCPWM_RPM_LIMIT_NEG_TORQUE 1 // Use negative torque to limit the RPM
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#endif
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#ifndef MCPWM_CURR_MIN_RPM_FBRAKE
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#define MCPWM_CURR_MIN_RPM_FBRAKE 1500 // Minimum electrical RPM to use full brake at
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#endif
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#ifndef MCPWM_SLOW_ABS_OVERCURRENT
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#define MCPWM_SLOW_ABS_OVERCURRENT 0 // Use the filtered (and hence slower) current for the overcurrent fault detection
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#endif
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#endif /* MC_PWM_H_ */
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