271 lines
8.1 KiB
C
271 lines
8.1 KiB
C
/*
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µ×ÅÌÄ£×é
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*/
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#include "cmsis_os2.h"
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#include <stdlib.h>
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#include "bsp/mm.h"
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#include "bsp/can.h"
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#include "component/ahrs.h"
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#include "device/motor_rm.h"
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#include "device/motor.h"
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#include "module/chassis.h"
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#define CHASSIS_ROTOR_WZ_MIN 0.6f
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#define CHASSIS_ROTOR_WZ_MAX 0.8f
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#define M_7OVER72PI (M_2PI * 7.0f / 72.0f)
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#define CHASSIS_ROTOR_OMEGA 0.001f
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static int8_t Chassis_SetMode(Chassis_t *c, Chassis_Mode_t mode, uint32_t now) {
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if (!c)
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return CHASSIS_ERR_NULL;
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if (mode == c->mode)
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return CHASSIS_OK;
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if (mode == CHASSIS_MODE_ROTOR && c->mode != CHASSIS_MODE_ROTOR) {
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srand(now);
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c->wz_multi = (rand() % 2) ? -1 : 1;
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}
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for (uint8_t i = 0; i < c->num_wheel; i++) {
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PID_Reset(&c->pid.motor[i]);
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LowPassFilter2p_Reset(&c->filter.in[i], 0.0f);
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LowPassFilter2p_Reset(&c->filter.out[i], 0.0f);
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}
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c->mode = mode;
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return CHASSIS_OK;
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}
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static float Chassis_CalcWz(const float min, const float max, uint32_t now) {
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float wz_vary = fabsf(0.2f * sinf(CHASSIS_ROTOR_OMEGA * (float)now)) + min;
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return (wz_vary > max) ? max : wz_vary;
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}
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int8_t Chassis_Init(Chassis_t *c, const Chassis_Params_t *param,
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AHRS_Eulr_t *mech_zero, float target_freq) {
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if (!c) return CHASSIS_ERR_NULL;
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c->param = param;
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c->mode = CHASSIS_MODE_RELAX;
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c->mech_zero = *mech_zero;
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c->feedback.imu.eulr = *mech_zero;
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if (param->reverse.yaw) {
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CircleReverse(&(c->mech_zero.yaw));
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c->feedback.imu.eulr.yaw = -c->feedback.imu.eulr.yaw + M_2PI;
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}
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c->limit.vx.max = param->limit.max_vx;
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c->limit.vx.min = -param->limit.max_vx;
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c->limit.vy.max = param->limit.max_vy;
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c->limit.vy.min = -param->limit.max_vy;
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c->limit.wz.max = param->limit.max_wz;
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c->limit.wz.min = -param->limit.max_wz;
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Mixer_Mode_t mixer_mode;
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switch (param->type) {
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case CHASSIS_TYPE_MECANUM:
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c->num_wheel = 4;
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mixer_mode = MIXER_MECANUM;
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break;
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case CHASSIS_TYPE_PARLFIX4:
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c->num_wheel = 4;
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mixer_mode = MIXER_PARLFIX4;
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break;
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case CHASSIS_TYPE_PARLFIX2:
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c->num_wheel = 2;
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mixer_mode = MIXER_PARLFIX2;
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break;
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case CHASSIS_TYPE_OMNI_CROSS:
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c->num_wheel = 4;
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mixer_mode = MIXER_OMNICROSS;
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break;
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case CHASSIS_TYPE_OMNI_PLUS:
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c->num_wheel = 4;
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mixer_mode = MIXER_OMNIPLUS;
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break;
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case CHASSIS_TYPE_SINGLE:
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c->num_wheel = 1;
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mixer_mode = MIXER_SINGLE;
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break;
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default:
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return CHASSIS_ERR_TYPE;
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}
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c->last_wakeup = 0;
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c->dt = 0.0f;
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for (uint8_t i = 0; i < c->num_wheel; i++) {
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PID_Init(&c->pid.motor[i], KPID_MODE_NO_D, target_freq, ¶m->pid.motor_pid_param);
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LowPassFilter2p_Init(&c->filter.in[i], target_freq, param->low_pass_cutoff_freq.in);
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LowPassFilter2p_Init(&c->filter.out[i], target_freq, param->low_pass_cutoff_freq.out);
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c->feedback.motor[i].rotor_speed = 0;
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c->feedback.motor[i].torque_current = 0;
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c->feedback.motor[i].rotor_abs_angle = 0;
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c->feedback.motor[i].temp = 0;
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}
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PID_Init(&c->pid.follow, KPID_MODE_NO_D, target_freq, ¶m->pid.follow_pid_param);
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Mixer_Init(&c->mixer, mixer_mode);
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c->move_vec.vx = c->move_vec.vy = c->move_vec.wz = 0.0f;
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for (uint8_t i = 0; i < c->num_wheel; i++) {
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c->out.motor[i] = 0.0f;
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}
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for (int i = 0; i < c->num_wheel; i++) {
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MOTOR_RM_Register(&(c->param->motor_param[i]));
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}
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return CHASSIS_OK;
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}
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int8_t Chassis_UpdateFeedback(Chassis_t *c, const Chassis_Feedback_t *feedback) {
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if (!c || !feedback) return CHASSIS_ERR_NULL;
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float yaw = c->param->reverse.yaw ? -feedback->imu.eulr.yaw : feedback->imu.eulr.yaw;
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while (yaw > M_PI) yaw -= M_2PI;
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while (yaw < -M_PI) yaw += M_2PI;
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c->feedback.imu.eulr.yaw = yaw;
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for (uint8_t i = 0; i < c->num_wheel; i++) {
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MOTOR_RM_Update(&(c->param->motor_param[i]));
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// MOTOR_RM_t *rm_motor = c->motors[i];
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// if (rm_motor) {
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// c->feedback.motor[i] = rm_motor->feedback;
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// }
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// else
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// {
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// return CHASSIS_ERR_NULL;
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// }
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MOTOR_RM_t *rm_motor = MOTOR_RM_GetMotor(&(c->param->motor_param[i]));
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if (rm_motor != NULL) {
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c->feedback.motor[i] = rm_motor->feedback;
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}
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}
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return CHASSIS_OK;
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}
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int8_t Chassis_Control(Chassis_t *c, const ChassisCmd_t *c_cmd, uint32_t now) {
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if (!c || !c_cmd) return CHASSIS_ERR_NULL;
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c->dt = (float)(now - c->last_wakeup) / 1000.0f;
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c->last_wakeup = now;
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if (!isfinite(c->dt) || c->dt <= 0.0f) {
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c->dt = 0.001f;
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}
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if (c->dt < 0.0005f) c->dt = 0.0005f;
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if (c->dt > 0.050f) c->dt = 0.050f;
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Chassis_SetMode(c, c_cmd->mode, now);
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Clip(&c->move_vec.vx, c->limit.vx.min, c->limit.vx.max);
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Clip(&c->move_vec.vy, c->limit.vy.min, c->limit.vy.max);
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Clip(&c->move_vec.wz, c->limit.wz.min, c->limit.wz.max);
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switch (c->mode) {
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case CHASSIS_MODE_BREAK:
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c->move_vec.vx = c->move_vec.vy = 0.0f;
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break;
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case CHASSIS_MODE_INDEPENDENT:
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c->move_vec.vx = c_cmd->ctrl_vec.vx;
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c->move_vec.vy = c_cmd->ctrl_vec.vy;
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break;
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default: {
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float beta = c->feedback.imu.eulr.yaw - c->mech_zero.yaw;
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float cosb = cosf(beta);
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float sinb = sinf(beta);
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c->move_vec.vx = cosb * c_cmd->ctrl_vec.vx - sinb * c_cmd->ctrl_vec.vy;
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c->move_vec.vy = sinb * c_cmd->ctrl_vec.vx + cosb * c_cmd->ctrl_vec.vy;
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break;
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}
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}
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switch (c->mode) {
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case CHASSIS_MODE_RELAX:
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case CHASSIS_MODE_BREAK:
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case CHASSIS_MODE_INDEPENDENT:
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c->move_vec.wz = 0.0f;
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break;
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case CHASSIS_MODE_OPEN:
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c->move_vec.wz = c_cmd->ctrl_vec.wz;
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case CHASSIS_MODE_FOLLOW_GIMBAL:
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c->move_vec.wz = PID_Calc(&c->pid.follow, c->mech_zero.yaw, c->feedback.imu.eulr.yaw, 0.0f, c->dt);
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break;
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case CHASSIS_MODE_FOLLOW_GIMBAL_35:
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c->move_vec.wz = PID_Calc(&c->pid.follow,c->mech_zero.yaw +M_7OVER72PI, c->feedback.imu.eulr.yaw, 0.0f, c->dt);
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break;
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case CHASSIS_MODE_ROTOR:
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c->move_vec.wz = c->wz_multi * Chassis_CalcWz(CHASSIS_ROTOR_WZ_MIN,
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CHASSIS_ROTOR_WZ_MAX, now);
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break;
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}
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Mixer_Apply(&c->mixer, &c->move_vec, c->setpoint.motor_rpm, c->num_wheel, 7000.0f);
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for (uint8_t i = 0; i < c->num_wheel; i++) {
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float rf = c->setpoint.motor_rpm[i];
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float fb = LowPassFilter2p_Apply(&c->filter.in[i], (float)c->feedback.motor[i].rotor_speed);
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//float out_current = 0.0f;
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float out_current = PID_Calc(&c->pid.motor[i], rf, fb, 0.0f, c->dt);
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switch (c->mode) {
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case CHASSIS_MODE_BREAK:
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case CHASSIS_MODE_FOLLOW_GIMBAL:
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case CHASSIS_MODE_FOLLOW_GIMBAL_35:
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case CHASSIS_MODE_ROTOR:
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case CHASSIS_MODE_INDEPENDENT:
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out_current = PID_Calc(&c->pid.motor[i], c->setpoint.motor_rpm[i], fb, 0.0f, c->dt);
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break;
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case CHASSIS_MODE_OPEN:
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out_current = c->setpoint.motor_rpm[i] / 7000.0f;
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break;
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case CHASSIS_MODE_RELAX:
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out_current = 0.0f;
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break;
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}
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c->out.motor[i] = LowPassFilter2p_Apply(&c->filter.out[i], out_current);
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Clip(&c->out.motor[i], -c->param->limit.max_current, c->param->limit.max_current);
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}
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return CHASSIS_OK;
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}
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void Chassis_Output(Chassis_t *c) {
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if (!c)
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return;
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//ÿ¸öµç»úÄ¿±êÊä³ö
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for (uint8_t i = 0; i < c->num_wheel; i++) {
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MOTOR_RM_t *rm = c->motors[i];
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if (!rm) continue;
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MOTOR_RM_SetOutput(&rm->param, c->out.motor[i]);
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}
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//µ÷ÓÃctrl
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for (uint8_t i = 0; i < c->num_wheel; i++) {
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MOTOR_RM_t *rm = c->motors[i];
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if (rm) {
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MOTOR_RM_Ctrl(&rm->param);
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}
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}
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}
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void Chassis_ResetOutput(Chassis_t *c) {
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if (!c) return;
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for (uint8_t i = 0; i < c->num_wheel; i++) {
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MOTOR_RM_t *m = c->motors[i];
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if (m) {
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MOTOR_RM_Relax(&(m->param));
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}
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}
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}
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