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480e41e68a
| Author | SHA1 | Date | |
|---|---|---|---|
| 480e41e68a | |||
| ec3d36ff08 | |||
| d933c59ae8 | |||
| 467567fae6 |
@ -158,7 +158,7 @@ int8_t CAN_TX_SuperCapData(CAN_SuperCapTXDataTypeDef * TX_Temp)
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/*******balance特供*******/
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/**
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* @brief 限制功率不超过power_limit(超电测量功率版本)
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* @brief 限制功率不超过power_limit(out[i]版本)(未完成)
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*
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* @param power_limit 最大功率
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* @param motor_out 电机输出值
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@ -174,7 +174,7 @@ int8_t PowerLimit_Output_by_cap(float power_limit, float *motor_out, uint32_t le
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float ChassisPower = CAN_SuperCapRXData.ChassisPower ;
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/* 保持每个电机输出值缩小时比例不变 */
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if (ChassisPower > power_limit) {
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if (ChassisPower > power_limit - 1) {
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for (uint32_t i = 0; i < len; i++) {
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motor_out[i] *= power_limit / ChassisPower;
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}
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@ -183,17 +183,17 @@ int8_t PowerLimit_Output_by_cap(float power_limit, float *motor_out, uint32_t le
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return 0;
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}
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/**
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* @brief 限制功率不超过power_limit(out[i]版本)(未完成)
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* @brief 限制功率不超过power_limit(超电测量功率版本)
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*/
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int8_t PowerLimit_Output(float power_limit, float *motor_out, uint32_t len)
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{
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/* power_limit小于0时不进行限制 */
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if (motor_out == NULL || power_limit < 0) return -1;
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if (power_limit < 0 ) return 0;
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float ChassisPower = CAN_SuperCapRXData.ChassisPower ;
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/* 保持每个电机输出值缩小时比例不变 */
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if (ChassisPower > power_limit) {
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if (ChassisPower > power_limit - 1) {
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for (uint32_t i = 0; i < len; i++) {
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motor_out[i] *= power_limit / ChassisPower;
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}
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@ -1042,7 +1042,7 @@ int8_t Chassis_LQRControl(Chassis_t *c, const Chassis_CMD_t *c_cmd) {
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c->chassis_state.target_velocity_x = -world_vx * sinf(gimbal_offset) + world_vy * cosf(gimbal_offset);
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c->chassis_state.last_target_velocity_x = c->chassis_state.target_velocity_x;
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} else {
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c->chassis_state.target_velocity_x = c_cmd->move_vec.vx * 2.0f;
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c->chassis_state.target_velocity_x = c_cmd->move_vec.vx * 3.0f;
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c->chassis_state.last_target_velocity_x = c->chassis_state.target_velocity_x;
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}
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@ -1050,7 +1050,7 @@ int8_t Chassis_LQRControl(Chassis_t *c, const Chassis_CMD_t *c_cmd) {
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* 无速度指令时:位移+速度双环控制,积分保持位置锁定
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* 位移误差钳位到±2m,防止积分漂移过大 */
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if (fabsf(c->chassis_state.target_velocity_x) > 0.01f) {
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c->chassis_state.target_x = c->chassis_state.position_x;
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c->chassis_state.target_x = c->chassis_state.position_x+0.8f; /* 直接锁定在当前位置,消除位移误差 */
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} else {
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c->chassis_state.target_x += c->chassis_state.target_velocity_x * c->dt;
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}
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@ -27,8 +27,9 @@ extern Chassis_t chassis;
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void Cap_Control(CAN_SuperCapRXDataTypeDef *cap, const Referee_ForCap_t *referee)
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{
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if (CAN_SuperCapRXData.SuperCapEnergy<=35)chassis.power_limit = referee->chassis_power_limit ;
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if (CAN_SuperCapRXData.SuperCapEnergy<=100)chassis.power_limit = referee->chassis_power_limit ;
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else chassis.power_limit = -1;
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/*
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if (referee->ref_status != REF_STATUS_RUNNING) {
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//当裁判系统离线时,依然使用裁判系统进程传来的数据
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@ -5,6 +5,7 @@
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/* Includes ----------------------------------------------------------------- */
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#include "module/config.h"
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#include "module/balance_chassis.h"
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#include "module/gimbal.h"
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#include <stdbool.h>
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@ -72,18 +73,37 @@ Config_RobotParam_t robot_config = {
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.d_cutoff_freq = -1.0f,
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.range = M_2PI,
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},
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.recover = {
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.yaw_angle = {
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.k = 2.0f,
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.p = 1.0f,
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.i = 0.0f,
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.d = 0.0f,
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.i_limit = 0.0f,
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.out_limit = 5.0f,
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.d_cutoff_freq = -1.0f,
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.range = M_2PI,
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},
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.pit_angle = {
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.k = 1.5f,
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.p = 1.0f,
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.i = 0.0f,
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.d = 0.0f,
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.i_limit = 0.0f,
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.out_limit = 5.0f,
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.d_cutoff_freq = -1.0f,
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.range = M_2PI,
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},
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},
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},
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.mech_zero = {
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.yaw = 0.0f,
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.yaw = 2.96925735f, /* 机械零点 */
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.pit = 3.23056364f,
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},
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.travel = {
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.yaw = -1.0f,
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.pit = 0.85f,
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},
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.recover = {
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.yaw_mech_zero = 0.0f, /* yaw编码器机械零点,需要实测标定 */
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},
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.low_pass_cutoff_freq = {
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.out = -1.0f,
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.gyro = 1000.0f,
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@ -502,13 +522,15 @@ Config_RobotParam_t robot_config = {
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.rc_mode_map = {
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#if CMD_ENABLE_MODULE_GIMBAL
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.gimbal_sw_up = GIMBAL_MODE_RELAX,
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.gimbal_sw_mid = GIMBAL_MODE_RELATIVE,
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// .gimbal_sw_mid = GIMBAL_MODE_ABSOLUTE,
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.gimbal_sw_mid = GIMBAL_MODE_RECOVER,
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.gimbal_sw_down = GIMBAL_MODE_RELATIVE,
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#endif
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#if CMD_ENABLE_MODULE_BALANCE_CHASSIS
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.balance_sw_up = CHASSIS_MODE_RELAX,
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.balance_sw_mid = CHASSIS_MODE_WHELL_LEG_BALANCE,
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.balance_sw_down = CHASSIS_MODE_BALANCE_ROTOR,
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// .balance_sw_mid = CHASSIS_MODE_WHELL_LEG_BALANCE,
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.balance_sw_mid = CHASSIS_MODE_RELAX, // 先关闭轮腿平衡,避免不熟悉操作导致摔倒
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.balance_sw_down = CHASSIS_MODE_WHELL_LEG_BALANCE,
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#endif
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},
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},
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@ -46,6 +46,8 @@ static int8_t Gimbal_SetMode(Gimbal_t *g, Gimbal_Mode_t mode) {
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PID_Reset(&g->pid.aimbot.yaw_omega);
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PID_Reset(&g->pid.aimbot.pit_angle);
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PID_Reset(&g->pid.aimbot.pit_omega);
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PID_Reset(&g->pid.recover.yaw_angle);
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PID_Reset(&g->pid.recover.pit_angle);
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LowPassFilter2p_Reset(&g->filter_out.yaw, 0.0f);
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LowPassFilter2p_Reset(&g->filter_out.pit, 0.0f);
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@ -105,6 +107,12 @@ int8_t Gimbal_Init(Gimbal_t *g, const Gimbal_Params_t *param,
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PID_Init(&(g->pid.aimbot.pit_omega), KPID_MODE_SET_D, target_freq,
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&(g->param->pid.aimbot.pit_omega));
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/* Recover模式PID(单环,编码器反馈) */
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PID_Init(&(g->pid.recover.yaw_angle), KPID_MODE_NO_D, target_freq,
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&(g->param->pid.recover.yaw_angle));
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PID_Init(&(g->pid.recover.pit_angle), KPID_MODE_NO_D, target_freq,
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&(g->param->pid.recover.pit_angle));
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LowPassFilter2p_Init(&g->filter_out.yaw, target_freq,
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g->param->low_pass_cutoff_freq.out);
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LowPassFilter2p_Init(&g->filter_out.pit, target_freq,
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@ -211,14 +219,24 @@ int8_t Gimbal_Control(Gimbal_t *g, Gimbal_CMD_t *g_cmd, Gimbal_AI_t *g_ai) {
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/* AI 模式:直接从指令获取角度设定值(每周期刷新) */
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g->setpoint.eulr.yaw = g_cmd->setpoint_yaw;
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g->setpoint.eulr.pit = g_cmd->setpoint_pit;
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} else if (g_cmd->mode == GIMBAL_MODE_RECOVER) {
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/* 双零点选近:mech_zero 和 mech_zero+π,选离当前编码器角度最近的 */
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float yaw_enc = g->feedback.motor.yaw.rotor_abs_angle;
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float zero0 = g->param->mech_zero.yaw;
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float zero1 = zero0 + M_PI;
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if (zero1 >= M_2PI) zero1 -= M_2PI;
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float err0 = fabsf(CircleError(zero0, yaw_enc, M_2PI));
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float err1 = fabsf(CircleError(zero1, yaw_enc, M_2PI));
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g->setpoint.eulr.yaw = (err0 <= err1) ? zero0 : zero1;
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g->setpoint.eulr.pit = 0.5f * (g->limit.pit.max + g->limit.pit.min);
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}
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/* 控制相关逻辑 */
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float yaw_omega_set_point, pit_omega_set_point;
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switch (g->mode) {
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case GIMBAL_MODE_RELAX:
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g->out.yaw = 0.0f;
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g->out.pit = 0.0f;
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/* fallthrough - AI控制模式也需要执行PID计算 */
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break;
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case GIMBAL_MODE_ABSOLUTE:
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case GIMBAL_MODE_RELATIVE:
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@ -233,7 +251,6 @@ int8_t Gimbal_Control(Gimbal_t *g, Gimbal_CMD_t *g_cmd, Gimbal_AI_t *g_ai) {
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g->feedback.imu.gyro.y, 0.f, g->dt);
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break;
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break;
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case GIMBAL_MODE_AI_CONTROL:
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/* --- YAW --- */
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// 位置环: Kp * (pos_ref - pos_fdb)
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@ -246,44 +263,22 @@ int8_t Gimbal_Control(Gimbal_t *g, Gimbal_CMD_t *g_cmd, Gimbal_AI_t *g_ai) {
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g->feedback.imu.gyro.z, 0.0f, g->dt)
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+ g_cmd->ff_accl_yaw * GIMBAL_YAW_INERTIA; // 加速度前馈: J * acc
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/* --- PITCH --- */
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/* --- PITCH --- (反馈轴与 ABSOLUTE 模式一致: eulr.rol / gyro.y) */
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pit_omega_set_point = PID_Calc(&(g->pid.aimbot.pit_angle),
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g->setpoint.eulr.pit,
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g->feedback.imu.eulr.pit, 0.0f, g->dt);
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g->feedback.imu.eulr.rol, 0.0f, g->dt);
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g->out.pit = PID_Calc(&(g->pid.aimbot.pit_omega),
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pit_omega_set_point + g_cmd->ff_vel_pit,
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g->feedback.imu.gyro.x, 0.0f, g->dt)
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g->feedback.imu.gyro.y, 0.0f, g->dt)
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+ g_cmd->ff_accl_pit * GIMBAL_PIT_INERTIA; // 加速度前馈: J * acc
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break;
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case GIMBAL_MODE_RECOVER: {
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/* --- YAW: 编码器双环PID,双零点选近 --- */
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float yaw_enc = g->feedback.motor.yaw.rotor_abs_angle;
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float zero0 = g->param->recover.yaw_mech_zero;
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float zero1 = zero0 + M_PI;
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if (zero1 >= M_2PI) zero1 -= M_2PI;
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/* 计算到两个零点的圆周距离,选近的 */
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float err0 = fabsf(CircleError(zero0, yaw_enc, M_2PI));
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float err1 = fabsf(CircleError(zero1, yaw_enc, M_2PI));
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float yaw_target = (err0 <= err1) ? zero0 : zero1;
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yaw_omega_set_point = PID_Calc(&(g->pid.yaw_angle), yaw_target,
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yaw_enc, 0.0f, g->dt);
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g->out.yaw = PID_Calc(&(g->pid.yaw_omega), yaw_omega_set_point,
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g->feedback.motor.yaw.rotor_speed, 0.0f, g->dt);
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/* --- PITCH: 编码器双环PID,锁定限位中心 --- */
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float pit_center = 0.5f * (g->limit.pit.max + g->limit.pit.min);
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float pit_enc = g->feedback.motor.pit.rotor_abs_angle;
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pit_omega_set_point = PID_Calc(&(g->pid.pit_angle), pit_center,
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pit_enc, 0.0f, g->dt);
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g->out.pit = PID_Calc(&(g->pid.pit_omega), pit_omega_set_point,
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g->feedback.motor.pit.rotor_speed, 0.0f, g->dt);
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case GIMBAL_MODE_RECOVER:
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g->out.yaw = PID_Calc(&(g->pid.recover.yaw_angle), g->setpoint.eulr.yaw,
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g->feedback.motor.yaw.rotor_abs_angle, 0.0f, g->dt);
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g->out.pit = PID_Calc(&(g->pid.recover.pit_angle), g->setpoint.eulr.pit,
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g->feedback.motor.pit.rotor_abs_angle, 0.0f, g->dt);
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break;
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}
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}
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/* 输出滤波 */
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g->out.yaw = LowPassFilter2p_Apply(&g->filter_out.yaw, g->out.yaw);
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@ -31,7 +31,7 @@ typedef enum {
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GIMBAL_MODE_ABSOLUTE, /* 绝对坐标系控制,控制在空间内的绝对姿态 */
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GIMBAL_MODE_RELATIVE, /* 相对坐标系控制,控制相对于底盘的姿态 */
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GIMBAL_MODE_AI_CONTROL, /* AI控制模式,直接接受AI下发的目标角度 */
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GIMBAL_MODE_RECOVER /* 回中模式,使用编码器双环PID控制yaw回零点,pitch锁定限位中心 */
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GIMBAL_MODE_RECOVER /* 自起模式,底盘翻倒后自动恢复到正常姿态 */
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} Gimbal_Mode_t;
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/* UI 导出结构(供 referee 系统绘制) */
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@ -80,6 +80,10 @@ typedef struct {
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KPID_Params_t pit_angle; /* pitch轴角位置环PID参数 */
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KPID_Params_t pit_omega; /* pitch轴角速度环PID参数 */
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} aimbot;
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struct {
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KPID_Params_t yaw_angle; /* recover yaw位置环PID参数 */
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KPID_Params_t pit_angle; /* recover pitch位置环PID参数 */
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} recover;
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} pid;
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/* 低通滤波器截止频率 */
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@ -98,11 +102,6 @@ typedef struct {
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float pit; /* pitch轴机械限位行程 -1表示无限位*/
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} travel;
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/* Recover模式参数 */
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struct {
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float yaw_mech_zero; /* yaw机械零点(编码器角度) */
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} recover;
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} Gimbal_Params_t;
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/* 云台反馈数据的结构体,包含反馈控制用的反馈数据 */
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@ -153,6 +152,10 @@ typedef struct {
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KPID_t pit_angle; /* pitch轴角位置环PID */
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KPID_t pit_omega; /* pitch轴角速度环PID */
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} aimbot;
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struct {
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KPID_t yaw_angle; /* recover yaw位置环PID */
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KPID_t pit_angle; /* recover pitch位置环PID */
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} recover;
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} pid;
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struct {
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@ -49,7 +49,8 @@ void Task_cap(void *argument) {
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while (1) {
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tick += delay_tick; /* 计算下一个唤醒时刻 */
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/* USER CODE BEGIN */
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//osMessageQueueGet(task_runtime.msgq.referee.ui.tocap, , NULL, 0);
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osMessageQueueGet(task_runtime.msgq.referee.tocmd.cap, &referee_cap , NULL, 0);
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power_limit = referee_cap.chassis_power_limit;
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cap_online = get_supercap_online_state();
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@ -57,6 +58,7 @@ void Task_cap(void *argument) {
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/* 根据裁判系统数据计算输出功率 */
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SuperCap_CanTX.Powerlimit = power_limit;
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Cap_Control(&CAN_SuperCapRXData, &referee_cap);
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SuperCap_Update();
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CAN_TX_SuperCapData(&SuperCap_CanTX);
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// osKernelUnlock();
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