#include "rotate_servo.h" #include "speed_to_servoMotor.h" #ifdef PTZ_MEDIUM_WORM_SERVO_MOTOR_24V static BSP_OS_SEM ptz_hori_stop_mutex;//共享资源锁 static BSP_OS_SEM ptz_vert_stop_mutex; static char ptz_hori_stop_count;//水平停止计数,防止多次停止多次延时 static char ptz_vert_stop_count;//垂直停止计数,防止多次停止多次延时 float ptz_vert_break_angle() { //云台水平轴加速度(°/s²) const float a = 1000.0f * 6.0f / ((float)(PTZ_VERT_MOTOR_DecelerationTimeConstant / 1000.0f)) / PTZ_VERT_RATIO; const float tmp = a / 2.0f; //平稳运行角度,以最低转速运行1秒 const float s1 = PTZ_VERT_BREAK_SPEED * 1; //当前云台水平轴转速(°/s) float Vnow = g_ptz.hori_speed_actual * 6.0f; return (Vnow - PTZ_VERT_BREAK_SPEED) * (Vnow + PTZ_VERT_BREAK_SPEED) / tmp + s1; } float ptz_hori_break_angle() { //云台水平轴加速度(°/s²) const float a = 1000.0f * 6.0f / ((float)(PTZ_HORI_MOTOR_DecelerationTimeConstant / 1000.0f)) / PTZ_HORI_RATIO; const float tmp = a / 2.0f; //平稳运行角度,以最低转速运行1秒 const float s1 = PTZ_HORI_BREAK_SPEED * 1; //当前云台水平轴转速(°/s) float Vnow = g_ptz.hori_speed_actual * 6.0f; return (Vnow - PTZ_HORI_BREAK_SPEED) * (Vnow + PTZ_HORI_BREAK_SPEED) / tmp + s1; } void ptz_sem_post_stop_mutex() { BSP_OS_SemPost(&ptz_hori_stop_mutex); BSP_OS_SemPost(&ptz_vert_stop_mutex); } /*! \brief 设置伺服电机速度 \param[in] data:储存发送数据的链表 \param[out] none \retval none */ void set_speed_to_servoMotor(uint8_t motorType, float speed) { /*水平电机*/ if ( motorType == horiMotorType )//水平电机 { //转换为电机端的r/min speed = speed * PTZ_HORI_RATIO; //设置速度,电机的r/min范围-6000~6000 servoSendData(horiMotorType, WriteMotorOneReg(H_MOTOR, H06_SPEED_COMMU_SET_VALUE, (int16_t)speed) , WRITE_ONE_REG_FRAME_NUM, lowPriority); } /*垂直电机*/ else { //转换为电机端的r/min speed = speed * PTZ_VERT_RATIO; //设置速度,电机的r/min范围-6000~6000 servoSendData(vertMotorType, WriteMotorOneReg(V_MOTOR, H06_SPEED_COMMU_SET_VALUE, (int16_t)speed) , WRITE_ONE_REG_FRAME_NUM, lowPriority); } } void ptz_hori_start(char direction, float speed)//输入参数的speed是云台末端的r/min { BSP_OS_SemWait(&ptz_hori_stop_mutex, 0u); static float speedTemp; switch ( direction ) { case PTZ_HORI_DIR_RIGHT://伺服电机默认速度为正使云台右转 speedTemp = speed; break; case PTZ_HORI_DIR_LEFT: speedTemp = -speed; break; default: break; } /* -------------------------------------add speed change to here-------------------------------------- */ //设定转动速度 // servoSendData(horiMotorType, WriteMotorOneReg(H_MOTOR, H06_SPEED_COMMU_SET_VALUE, speed)//设置速度,电机的r/min范围-6000~6000 // , WRITE_ONE_REG_FRAME_NUM, lowPriority); set_speed_to_servoMotor(horiMotorType, speedTemp); g_ptz.hori_speed_set = speedTemp; //设定转动方向 g_ptz.hori_direction_last = g_ptz.hori_direction_set; g_ptz.hori_direction_set = direction; g_ptz.hori_direction_actual = g_ptz.hori_direction_set; //启动电机 g_ptz.hori_start_stop_set = PTZ_HORI_START; g_ptz.hori_start_stop_actual = g_ptz.hori_start_stop_set; ptz_hori_stop_count = 0; servoSendData(horiMotorType, WriteMotorOneReg(H_MOTOR, H03_DI1_LOGICAL_SELEC, 1) , WRITE_ONE_REG_FRAME_NUM, lowPriority); //使能电机 BSP_OS_SemPost(&ptz_hori_stop_mutex); } void ptz_hori_stop(unsigned short int time) { BSP_OS_SemWait(&ptz_hori_stop_mutex, 0u); //停止电机 g_ptz.hori_start_stop_set = PTZ_HORI_STOP; g_ptz.hori_start_stop_actual = g_ptz.hori_start_stop_set; g_ptz.hori_direction_actual = PTZ_HORI_DIR_STOP; g_ptz.hori_speed_set = 0; g_ptz.hori_speed_actual = 0; // 设置速度为0 set_speed_to_servoMotor(horiMotorType, 0); if(ptz_hori_stop_count <= 0) { OSTimeDlyHMSM(0u, 0u, 0u, time); ptz_hori_stop_count = 0; servoSendData(horiMotorType, WriteMotorOneReg(H_MOTOR, H03_DI1_LOGICAL_SELEC, 0) , WRITE_ONE_REG_FRAME_NUM, highPriority); //失能电机 } ptz_hori_stop_count ++; //电子稳定 #ifdef PTZ_ELECTRIC_STABLE_L6235D ptz_hori_electric_stable_init(); #endif BSP_OS_SemPost(&ptz_hori_stop_mutex); } void ptz_vert_start(char direction, float speed)//输入参数的speed是云台末端的r/min { BSP_OS_SemWait(&ptz_vert_stop_mutex, 0u); static float speedTemp; switch ( direction ) { case PTZ_VERT_DIR_UP://伺服电机默认速度为正使云台向上 speedTemp = speed; break; case PTZ_VERT_DIR_DOWN: speedTemp = -speed; break; case PTZ_VERT_DIR_STOP: break; default: break; } /* -------------------------------------add speed change to here-------------------------------------- */ //设定转动速度 set_speed_to_servoMotor(vertMotorType, speedTemp); servoSendData(vertMotorType, WriteMotorOneReg(V_MOTOR, H03_DI1_LOGICAL_SELEC, 1) , WRITE_ONE_REG_FRAME_NUM, lowPriority); //使能电机 g_ptz.vert_speed_set = speedTemp; //设定转动方向 g_ptz.vert_direction_last = g_ptz.vert_direction_set; g_ptz.vert_direction_set = direction; g_ptz.vert_direction_actual = g_ptz.vert_direction_set; //启动电机 g_ptz.vert_start_stop_set = PTZ_VERT_START; g_ptz.vert_start_stop_actual = g_ptz.vert_start_stop_set; ptz_vert_stop_count = 0; BSP_OS_SemPost(&ptz_vert_stop_mutex); } void ptz_vert_stop(unsigned short int time) { BSP_OS_SemWait(&ptz_vert_stop_mutex, 0u); set_speed_to_servoMotor(vertMotorType, 0); //停止电机 g_ptz.vert_start_stop_set = PTZ_VERT_STOP; g_ptz.vert_start_stop_actual = g_ptz.vert_start_stop_set; g_ptz.vert_direction_actual = PTZ_VERT_DIR_STOP; g_ptz.vert_speed_set = 0; g_ptz.vert_speed_actual = 0; if(ptz_vert_stop_count <= 0) { OSTimeDlyHMSM(0u, 0u, 0u, time); ptz_vert_stop_count = 0; servoSendData(vertMotorType, WriteMotorOneReg(V_MOTOR, H03_DI1_LOGICAL_SELEC, 0) , WRITE_ONE_REG_FRAME_NUM, highPriority); //失能电机 } ptz_vert_stop_count ++; //电子稳定 #ifdef PTZ_ELECTRIC_STABLE_L6235D ptz_hori_electric_stable_init(); #endif BSP_OS_SemPost(&ptz_vert_stop_mutex); } static char ptz_hori_rotate_monitor_task() { static float BNP_D;//刹车最近点与当前位置的距离 static float BFP_D;//刹车最远点与当前位置的距离 static unsigned int k; switch(g_ptz.hori_rotate_monitor_switch) { case 0://关闭 OSTimeDlyHMSM(0u, 0u, 0u, 10u); break; case PTZ_HORI_RIGHT_KEEP://向右转动,不刹车 //关闭转动监控 g_ptz.hori_rotate_monitor_switch = 0; //首先判断云台是否在转动 if(g_ptz.hori_start_stop_set == PTZ_HORI_START) { //判断转动方向是否相同 //如果转向相同,则直接修改设置的转速 if(g_ptz.hori_direction_set == PTZ_HORI_DIR_RIGHT) { if ( g_ptz.hori_speed_set != g_ptz.hori_rotate_plan.max_speed ) { g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else//如果转向不同 { //则先刹车 ptz_hori_stop(PTZ_HORI_STOP_TIME); //再启动 g_ptz.hori_direction_set = PTZ_HORI_DIR_RIGHT; g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(PTZ_HORI_DIR_RIGHT, g_ptz.hori_speed_set); } } else//没有转动 { g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(PTZ_HORI_DIR_RIGHT, g_ptz.hori_speed_set); } break; case PTZ_HORI_LEFT_KEEP://向左转动,不刹车 //关闭转动监控 g_ptz.hori_rotate_monitor_switch = 0; //首先判断云台是否在转动 if(g_ptz.hori_start_stop_set == PTZ_HORI_START) { //判断转动方向是否相同 //如果转向相同,则直接修改设置的转速 if(g_ptz.hori_direction_set == PTZ_HORI_DIR_LEFT) { if ( g_ptz.hori_speed_set != g_ptz.hori_rotate_plan.max_speed ) { g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else//如果转向不同 { //则先刹车 ptz_hori_stop(PTZ_HORI_STOP_TIME); //再启动 g_ptz.hori_direction_set = PTZ_HORI_DIR_LEFT; g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(PTZ_HORI_DIR_LEFT, g_ptz.hori_speed_set); } } else//没有转动 { g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(PTZ_HORI_DIR_LEFT, g_ptz.hori_speed_set); } break; case PTZ_HORI_GO_TO_ANGLE_A://角度定位 case PTZ_HORI_MIN_DISTANCE: case PTZ_HORI_MAX_DISTANCE: case PTZ_HORI_RIGHT_ANGLE: case PTZ_HORI_LEFT_ANGLE: //首先判断是否需要转动,如果转动距离为0,即同一个位置则不需要转动 if(g_ptz.hori_rotate_plan.rotate_switch == 1) { g_ptz.hori_rotate_monitor_switch = PTZ_HORI_GO_TO_ANGLE_B; //如果不是处于同一个位置 //判断是否转动 //处于转动 if(g_ptz.hori_start_stop_set == PTZ_HORI_START) { //判断转向是否相同 //如果转向相同 if(g_ptz.hori_direction_set == g_ptz.hori_rotate_plan.direction) { g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } else//转向不同,则直接修改设置的转速 { //则先刹车 ptz_hori_stop(PTZ_HORI_STOP_TIME); //再启动 g_ptz.hori_direction_set = g_ptz.hori_rotate_plan.direction; g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(g_ptz.hori_direction_set, g_ptz.hori_speed_set); } } else//没有转动 { g_ptz.hori_direction_set = g_ptz.hori_rotate_plan.direction; g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(g_ptz.hori_direction_set, g_ptz.hori_speed_set); } //如果离最近刹车距离小于一定程度,则以最小转速转动 if(g_ptz.hori_direction_set == PTZ_HORI_DIR_LEFT) { if(g_ptz.hori_angle_actual >= g_ptz.hori_rotate_plan.stop_near_angle) { if(fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else { if((fabs(360.0 - g_ptz.hori_rotate_plan.stop_near_angle) + g_ptz.hori_angle_actual) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } } if(g_ptz.hori_direction_set == PTZ_HORI_DIR_RIGHT) { if(g_ptz.hori_angle_actual <= g_ptz.hori_rotate_plan.stop_near_angle) { if(fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else { if((fabs(360.0 - g_ptz.hori_angle_actual) + g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } } } else//g_ptz.hori_rotate_plan.rotate_switch == 0; { g_ptz.hori_rotate_monitor_switch = 0; //不需要转动则刹车停止,关闭监控 g_ptz.hori_arrive_flag = 0;//转动到指定位置 ptz_location_return_return(LOCATION_HORI);//定位回传 ptz_preset_bit_location_return_return();//预置位到位回传 if(g_ptz.hori_start_stop_set == PTZ_HORI_START) { ptz_hori_stop(PTZ_HORI_STOP_TIME); } } break; case PTZ_HORI_RIGHT_CYCLE: case PTZ_HORI_LEFT_CYCLE: if(g_ptz.hori_start_stop_set == PTZ_HORI_START) { //判断转向是否相同 //如果转向相同 if(g_ptz.hori_direction_set == g_ptz.hori_rotate_plan.direction) { g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } else//转向不同,则直接修改设置的转速 { //则先刹车 ptz_hori_stop(PTZ_HORI_STOP_TIME); //再启动 g_ptz.hori_direction_set = g_ptz.hori_rotate_plan.direction; g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(g_ptz.hori_direction_set, g_ptz.hori_speed_set); } } else//没有转动 { g_ptz.hori_direction_set = g_ptz.hori_rotate_plan.direction; g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(g_ptz.hori_direction_set, g_ptz.hori_speed_set); } g_ptz.hori_rotate_monitor_switch = PTZ_HORI_CYCLE; break; case PTZ_HORI_CYCLE: BNP_D = fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle); if(BNP_D > 360.0 / 2.0) { BNP_D = 360.0 - BNP_D; } BFP_D = fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_far_angle); if(BFP_D > 360.0 / 2.0) { BFP_D = 360.0 - BFP_D; } /*定位*/ if(BNP_D + BFP_D > (g_ptz.hori_rotate_plan.stop_angle_range + 2.0)) { g_ptz.hori_rotate_monitor_switch = PTZ_HORI_GO_TO_ANGLE_B; } break; case PTZ_HORI_GO_TO_ANGLE_B: BNP_D = fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle); if(BNP_D > 360.0 / 2.0) { BNP_D = 360.0 - BNP_D; } BFP_D = fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_far_angle); if(BFP_D > 360.0 / 2.0) { BFP_D = 360.0 - BFP_D; } /*定位*/ if(BNP_D + BFP_D <= (g_ptz.hori_rotate_plan.stop_angle_range + 0.01)) { if(g_ptz.hori_repeat_locate_switch == 0)//重复定位关闭 { g_ptz.hori_arrive_flag = 0;//转到指定位置 ptz_location_return_return(LOCATION_HORI);//定位回传 ptz_preset_bit_location_return_return();//预置位到位回传 } g_ptz.hori_rotate_monitor_switch = 0; if(g_ptz.hori_repeat_locate_switch == 1)//重复定位打开 { g_ptz.hori_rotate_monitor_switch = PTZ_HORI_REPEAT_LOCATE_A; } ptz_hori_stop(PTZ_HORI_STOP_TIME); } //如果离最近刹车距离小于一定程度,则以最小转速转动 if(g_ptz.hori_direction_set == PTZ_HORI_DIR_LEFT) { if(g_ptz.hori_angle_actual >= g_ptz.hori_rotate_plan.stop_near_angle) { if(fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else { if((fabs(360.0 - g_ptz.hori_rotate_plan.stop_near_angle) + g_ptz.hori_angle_actual) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } } if(g_ptz.hori_direction_set == PTZ_HORI_DIR_RIGHT) { if(g_ptz.hori_angle_actual <= g_ptz.hori_rotate_plan.stop_near_angle) { if(fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else { if((fabs(360.0 - g_ptz.hori_angle_actual) + g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } } break; case PTZ_HORI_BRAKE://停止转动 g_ptz.hori_rotate_monitor_switch = 0; ptz_hori_stop(PTZ_HORI_STOP_TIME); break; case PTZ_HORI_DEC_BRAKE_A://减速刹车 g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR g_ptz.hori_rotate_monitor_switch = PTZ_HORI_DEC_BRAKE_B; k = 0; break; case PTZ_HORI_DEC_BRAKE_B: k++;//K增加1,时间增加1ms if(g_ptz.hori_speed_actual <= PTZ_HORI_MIN_SPEED * 2 || k >= 500) { k = 0; g_ptz.hori_rotate_monitor_switch = 0; ptz_hori_stop(PTZ_HORI_STOP_TIME); } break; //重复定位路径规划 case PTZ_HORI_REPEAT_LOCATE_A: ptz_hori_rotate_plan(PTZ_HORI_MIN_DISTANCE); g_ptz.hori_rotate_monitor_switch = PTZ_HORI_REPEAT_LOCATE_B; break; //重复定位启动控制 case PTZ_HORI_REPEAT_LOCATE_B: //首先判断是否需要转动,如果转动距离为0,即同一个位置则不需要转动 if(g_ptz.hori_rotate_plan.rotate_switch == 1) { g_ptz.hori_rotate_monitor_switch = PTZ_HORI_REPEAT_LOCATE_C; //如果不是处于同一个位置 //判断是否转动 //处于转动 if(g_ptz.hori_start_stop_set == PTZ_HORI_START) { //判断转向是否相同 //如果转向相同 if(g_ptz.hori_direction_set == g_ptz.hori_rotate_plan.direction) { g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } else//转向不同,则直接修改设置的转速 { //则先刹车 ptz_hori_stop(PTZ_HORI_STOP_TIME); //再启动 g_ptz.hori_direction_set = g_ptz.hori_rotate_plan.direction; g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(g_ptz.hori_direction_set, g_ptz.hori_speed_set); } } else//没有转动 { g_ptz.hori_direction_set = g_ptz.hori_rotate_plan.direction; g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(g_ptz.hori_direction_set, g_ptz.hori_speed_set); } //如果离最近刹车距离小于一定程度,则以最小转速转动 if(g_ptz.hori_direction_set == PTZ_HORI_DIR_LEFT) { if(g_ptz.hori_angle_actual >= g_ptz.hori_rotate_plan.stop_near_angle) { if(fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else { if((fabs(360.0 - g_ptz.hori_rotate_plan.stop_near_angle) + g_ptz.hori_angle_actual) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } } if(g_ptz.hori_direction_set == PTZ_HORI_DIR_RIGHT) { if(g_ptz.hori_angle_actual <= g_ptz.hori_rotate_plan.stop_near_angle) { if(fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else { if((fabs(360.0 - g_ptz.hori_angle_actual) + g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } } } else//g_ptz.hori_rotate_plan.rotate_switch == 0; { g_ptz.hori_rotate_monitor_switch = 0; //不需要转动则刹车停止,关闭监控 g_ptz.hori_arrive_flag = 0;//转到指定预位置 ptz_location_return_return(LOCATION_HORI);//定位回传 ptz_preset_bit_location_return_return();//预置位到位回传 if(g_ptz.hori_start_stop_set == PTZ_HORI_START) { ptz_hori_stop(PTZ_HORI_STOP_TIME); } } break; //重复定位判断是否达到定位位置 case PTZ_HORI_REPEAT_LOCATE_C: BNP_D = fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle); if(BNP_D > 360.0 / 2.0) { BNP_D = 360.0 - BNP_D; } BFP_D = fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_far_angle); if(BFP_D > 360.0 / 2.0) { BFP_D = 360.0 - BFP_D; } /*定位*/ if(BNP_D + BFP_D <= (g_ptz.hori_rotate_plan.stop_angle_range + 0.01)) { g_ptz.hori_arrive_flag = 0;//转到指定位置 ptz_location_return_return(LOCATION_HORI);//定位回传 ptz_preset_bit_location_return_return();//预置位到位回传 g_ptz.hori_rotate_monitor_switch = 0; ptz_hori_stop(PTZ_HORI_STOP_TIME); } //如果离最近刹车距离小于一定程度,则以最小转速转动 if(g_ptz.hori_direction_set == PTZ_HORI_DIR_LEFT) { if(g_ptz.hori_angle_actual >= g_ptz.hori_rotate_plan.stop_near_angle) { if(fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else { if((fabs(360.0 - g_ptz.hori_rotate_plan.stop_near_angle) + g_ptz.hori_angle_actual) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } } if(g_ptz.hori_direction_set == PTZ_HORI_DIR_RIGHT) { if(g_ptz.hori_angle_actual <= g_ptz.hori_rotate_plan.stop_near_angle) { if(fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else { if((fabs(360.0 - g_ptz.hori_angle_actual) + g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } } break; case PTZ_HORI_RIGHT_ANGLE_INC: //首先判断是否需要转动,如果转动距离为0,即同一个位置则不需要转动 if(g_ptz.hori_rotate_plan.rotate_switch == 1) { g_ptz.hori_rotate_monitor_switch = PTZ_HORI_GO_TO_ANGLE_B; //如果不是处于同一个位置 //判断是否转动 //处于转动 if(g_ptz.hori_start_stop_set == PTZ_HORI_START) { //判断转向是否相同 //如果转向相同 if(g_ptz.hori_direction_set == g_ptz.hori_rotate_plan.direction) { g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } else//转向不同,则直接修改设置的转速 { //则先刹车 ptz_hori_stop(PTZ_HORI_STOP_TIME); //再启动 g_ptz.hori_direction_set = g_ptz.hori_rotate_plan.direction; g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(g_ptz.hori_direction_set, g_ptz.hori_speed_set); } } else//没有转动 { g_ptz.hori_direction_set = g_ptz.hori_rotate_plan.direction; g_ptz.hori_speed_set = g_ptz.hori_rotate_plan.max_speed; ptz_hori_start(g_ptz.hori_direction_set, g_ptz.hori_speed_set); } //如果离最近刹车距离小于一定程度,则以最小转速转动 if(g_ptz.hori_direction_set == PTZ_HORI_DIR_LEFT) { if(g_ptz.hori_angle_actual >= g_ptz.hori_rotate_plan.stop_near_angle) { if(fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else { if((fabs(360.0 - g_ptz.hori_rotate_plan.stop_near_angle) + g_ptz.hori_angle_actual) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } } if(g_ptz.hori_direction_set == PTZ_HORI_DIR_RIGHT) { if(g_ptz.hori_angle_actual <= g_ptz.hori_rotate_plan.stop_near_angle) { if(fabs(g_ptz.hori_angle_actual - g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } else { if((fabs(360.0 - g_ptz.hori_angle_actual) + g_ptz.hori_rotate_plan.stop_near_angle) <= PTZ_HORI_BREAK_SPEED_ANGLE) { g_ptz.hori_speed_set = PTZ_HORI_MIN_SPEED; // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR } } } } else//g_ptz.hori_rotate_plan.rotate_switch == 0; { g_ptz.hori_rotate_monitor_switch = 0; //不需要转动则刹车停止,关闭监控 g_ptz.hori_arrive_flag = 0;//转动到指定位置 ptz_location_return_return(LOCATION_HORI);//定位回传 ptz_preset_bit_location_return_return();//预置位到位回传 if(g_ptz.hori_start_stop_set == PTZ_HORI_START) { ptz_hori_stop(PTZ_HORI_STOP_TIME); } } break; case PTZ_HORI_LEFT_ANGLE_INC: break; } // if ( last_hori_rotate_monitor_swicth != now_hori_rotate_monitor_swicth ) // { // set_speed_to_servoMotor(horiMotorType, g_ptz.hori_speed_set);//XR // } return 1; } static char ptz_vert_rotate_monitor_task() { static float BNP_D;//刹车最近点与当前位置的距离 static float BFP_D;//刹车最远点与当前位置的距离 static char cmd_type; static unsigned int k; switch(g_ptz.vert_rotate_monitor_switch) { case 0://关闭 OSTimeDlyHMSM(0u, 0u, 0u, 10u); break; case PTZ_VERT_GO_TO_ANGLE_A://转动到指定角度启动 case PTZ_VERT_ANGLE: case PTZ_VERT_UP_KEEP: case PTZ_VERT_DOWN_KEEP: cmd_type = g_ptz.vert_rotate_monitor_switch; g_ptz.vert_rotate_monitor_switch = PTZ_VERT_GO_TO_ANGLE_B; if(g_ptz.vert_rotate_plan.rotate_switch == 1) { //首先判断是否转动 //处于转动 if(g_ptz.vert_start_stop_set == PTZ_VERT_START) { //判断转向是否相同 //如果转向相同 if(g_ptz.vert_direction_set == g_ptz.vert_rotate_plan.direction) { g_ptz.vert_speed_set = g_ptz.vert_rotate_plan.max_speed; // set_speed_to_servoMotor(vertMotorType, g_ptz.vert_speed_set);//XR } else//转向不同,则直接修改设置的转速 { //则先刹车 ptz_vert_stop(PTZ_VERT_STOP_TIME); //再启动 g_ptz.vert_direction_set = g_ptz.vert_rotate_plan.direction; g_ptz.vert_speed_set = g_ptz.vert_rotate_plan.max_speed; ptz_vert_start(g_ptz.vert_direction_set, g_ptz.vert_speed_set); } } else//没有转动 { g_ptz.vert_direction_set = g_ptz.vert_rotate_plan.direction; g_ptz.vert_speed_set = g_ptz.vert_rotate_plan.max_speed; ptz_vert_start(g_ptz.vert_direction_set, g_ptz.vert_speed_set); } //如果离最近刹车距离小于一定程度,则以最小转速转动 if(fabs(g_ptz.vert_angle_actual - g_ptz.vert_rotate_plan.stop_near_angle) <= PTZ_VERT_BREAK_SPEED_ANGLE) { g_ptz.vert_speed_set = PTZ_VERT_MIN_SPEED; // set_speed_to_servoMotor(vertMotorType, g_ptz.vert_speed_set);//XR } } else//g_ptz.vert_rotate_plan.rotate_switch == 0 { //刹车关闭转动 g_ptz.vert_arrive_flag = 0;//转到指定预位置 ptz_location_return_return(LOCATION_VERT);//定位回传 ptz_preset_bit_location_return_return();//预置位到位回传 g_ptz.vert_rotate_monitor_switch = 0; if(g_ptz.vert_start_stop_set == PTZ_VERT_START) { ptz_vert_stop(PTZ_VERT_STOP_TIME); } } break; case PTZ_VERT_GO_TO_ANGLE_B://转动到指定角度定位 BNP_D = fabs(g_ptz.vert_angle_actual - g_ptz.vert_rotate_plan.stop_near_angle); BFP_D = fabs(g_ptz.vert_angle_actual - g_ptz.vert_rotate_plan.stop_far_angle); /*定位*/ if(BNP_D + BFP_D <= (g_ptz.vert_rotate_plan.stop_angle_range + 0.01)) { if(g_ptz.vert_repeat_locate_switch == 0 && cmd_type != PTZ_VERT_UP_KEEP && cmd_type != PTZ_VERT_DOWN_KEEP) { g_ptz.vert_arrive_flag = 0;//转到指定预位置 ptz_location_return_return(LOCATION_VERT);//定位回传 ptz_preset_bit_location_return_return();//预置位到位回传 } g_ptz.vert_rotate_monitor_switch = 0; if(g_ptz.vert_repeat_locate_switch == 1 && cmd_type != PTZ_VERT_UP_KEEP && cmd_type != PTZ_VERT_DOWN_KEEP) { g_ptz.vert_rotate_monitor_switch = PTZ_VERT_REPEAT_LOCATE_A; } ptz_vert_stop(PTZ_VERT_STOP_TIME); } //如果离最近刹车距离小于一定程度,则以最小转速转动 if(fabs(g_ptz.vert_angle_actual - g_ptz.vert_rotate_plan.stop_near_angle) <= PTZ_VERT_BREAK_SPEED_ANGLE) { g_ptz.vert_speed_set = PTZ_VERT_MIN_SPEED; // set_speed_to_servoMotor(vertMotorType, g_ptz.vert_speed_set);//XR } break; case PTZ_VERT_BRAKE://刹车 g_ptz.vert_rotate_monitor_switch = 0; ptz_vert_stop(PTZ_VERT_STOP_TIME); break; case PTZ_VERT_DEC_BRAKE_A://垂直减速刹车 g_ptz.vert_speed_set = PTZ_VERT_MIN_SPEED; g_ptz.vert_rotate_monitor_switch = PTZ_VERT_DEC_BRAKE_B; k = 0; break; case PTZ_VERT_DEC_BRAKE_B: k ++;//K增加1,时间增加1ms if(g_ptz.vert_speed_actual <= PTZ_VERT_MIN_SPEED * 2 || k >= 500) { k = 0; g_ptz.vert_rotate_monitor_switch = 0; ptz_vert_stop(PTZ_VERT_STOP_TIME); } break; //重复定位路径规划 case PTZ_VERT_REPEAT_LOCATE_A: ptz_vert_rotate_plan(PTZ_VERT_ANGLE); g_ptz.vert_rotate_monitor_switch = PTZ_VERT_REPEAT_LOCATE_B; break; //重复定位转动启动 case PTZ_VERT_REPEAT_LOCATE_B: if(g_ptz.vert_rotate_plan.rotate_switch == 1) { g_ptz.vert_rotate_monitor_switch = PTZ_VERT_REPEAT_LOCATE_C; //首先判断是否转动 //处于转动 if(g_ptz.vert_start_stop_set == PTZ_VERT_START) { //判断转向是否相同 //如果转向相同 if(g_ptz.vert_direction_set == g_ptz.vert_rotate_plan.direction) { g_ptz.vert_speed_set = g_ptz.vert_rotate_plan.max_speed; // set_speed_to_servoMotor(vertMotorType, g_ptz.vert_speed_set);//XR } else//转向不同,则直接修改设置的转速 { //则先刹车 ptz_vert_stop(PTZ_VERT_STOP_TIME); //再启动 g_ptz.vert_direction_set = g_ptz.vert_rotate_plan.direction; g_ptz.vert_speed_set = g_ptz.vert_rotate_plan.max_speed; ptz_vert_start(g_ptz.vert_direction_set, g_ptz.vert_speed_set); } } else//没有转动 { g_ptz.vert_direction_set = g_ptz.vert_rotate_plan.direction; g_ptz.vert_speed_set = g_ptz.vert_rotate_plan.max_speed; ptz_vert_start(g_ptz.vert_direction_set, g_ptz.vert_speed_set); } //如果离最近刹车距离小于一定程度,则以最小转速转动 if(fabs(g_ptz.vert_angle_actual - g_ptz.vert_rotate_plan.stop_near_angle) <= PTZ_VERT_BREAK_SPEED_ANGLE) { g_ptz.vert_speed_set = PTZ_VERT_MIN_SPEED; // set_speed_to_servoMotor(vertMotorType, g_ptz.vert_speed_set);//XR } } else//g_ptz.vert_rotate_plan.rotate_switch == 0 { //刹车关闭转动 g_ptz.vert_arrive_flag = 0;//转到指定位置 ptz_location_return_return(LOCATION_VERT);//定位回传 ptz_preset_bit_location_return_return();//预置位到位回传 g_ptz.vert_rotate_monitor_switch = 0; if(g_ptz.vert_start_stop_set == PTZ_VERT_START) { ptz_vert_stop(PTZ_VERT_STOP_TIME); } } break; case PTZ_VERT_REPEAT_LOCATE_C: BNP_D = fabs(g_ptz.vert_angle_actual - g_ptz.vert_rotate_plan.stop_near_angle); BFP_D = fabs(g_ptz.vert_angle_actual - g_ptz.vert_rotate_plan.stop_far_angle); /*定位*/ if(BNP_D + BFP_D <= (g_ptz.vert_rotate_plan.stop_angle_range + 0.01)) { g_ptz.vert_arrive_flag = 0;//预置位扫描,转到指定预置位 ptz_location_return_return(LOCATION_VERT);//定位回传 ptz_preset_bit_location_return_return();//预置位到位回传 g_ptz.vert_rotate_monitor_switch = 0; ptz_vert_stop(PTZ_VERT_STOP_TIME); } //如果离最近刹车距离小于一定程度,则以最小转速转动 if(fabs(g_ptz.vert_angle_actual - g_ptz.vert_rotate_plan.stop_near_angle) <= PTZ_VERT_BREAK_SPEED_ANGLE) { g_ptz.vert_speed_set = PTZ_VERT_MIN_SPEED; // set_speed_to_servoMotor(vertMotorType, g_ptz.vert_speed_set);//XR } break; } //当云台垂直方向处于极限位置时,防止垂直方向角度越界 #ifdef PTZ_PHOTOELECTRIC_SWITCH if(g_ptz.vert_ps_sw1_state == PS_COVER)//下俯极限位置 { if(g_ptz.vert_start_stop_set == PTZ_VERT_START && g_ptz.vert_direction_set == PTZ_VERT_DIR_DOWN) { g_ptz.vert_arrive_flag = 0; g_ptz.vert_rotate_monitor_switch = 0; ptz_vert_stop(PTZ_VERT_STOP_TIME);//停止延时为0 OSTimeDlyHMSM(0u, 0u, 0u, 5u); } } if(g_ptz.vert_ps_sw2_state == PS_COVER)//上仰极限位置 { if(g_ptz.vert_start_stop_set == PTZ_VERT_START && g_ptz.vert_direction_set == PTZ_VERT_DIR_UP) { g_ptz.vert_arrive_flag = 0; g_ptz.vert_rotate_monitor_switch = 0; ptz_vert_stop(PTZ_VERT_STOP_TIME); OSTimeDlyHMSM(0u, 0u, 0u, 5u); } } #endif return 1; } static void ptz_hori_rotate_task() { while(1) { ptz_hori_rotate_monitor_task(); OSTimeDlyHMSM(0u, 0u, 0u, 2u); } } static void ptz_vert_rotate_task() { while(1) { ptz_vert_rotate_monitor_task(); OSTimeDlyHMSM(0u, 0u, 0u, 2u); } } static OS_STK task_hori_rotate_stk[TASK_HORI_ROATE_MONITOR_STK_SIZE]; static void creat_task_hori_rotate(void) { CPU_INT08U task_err; CPU_INT08U name_err; task_err = OSTaskCreateExt((void (*)(void *)) ptz_hori_rotate_task, (void *) 0, (OS_STK *)&task_hori_rotate_stk[TASK_HORI_ROATE_MONITOR_STK_SIZE - 1], (INT8U ) TASK_HORI_ROATE_MONITOR_PRIO, (INT16U ) TASK_HORI_ROATE_MONITOR_PRIO, (OS_STK *)&task_hori_rotate_stk[0], (INT32U ) TASK_HORI_ROATE_MONITOR_STK_SIZE, (void *) 0, (INT16U )(OS_TASK_OPT_STK_CHK | OS_TASK_OPT_STK_CLR)); #if (OS_TASK_NAME_EN > 0) OSTaskNameSet(TASK_HORI_ROATE_MONITOR_PRIO, "ptz_hori_rotate_task", &name_err); #endif if ((task_err == OS_ERR_NONE) && (name_err == OS_ERR_NONE)) { pdebug(DEBUG_LEVEL_INFO,"create ptz_hori_rotate_task success...\n\r"); } else { pdebug(DEBUG_LEVEL_FATAL,"create ptz_hori_rotate_task failed...\n\r"); } } static OS_STK task_vert_rotate_stk[TASK_VERT_ROATE_MONITOR_STK_SIZE]; static void creat_task_vert_rotate(void) { CPU_INT08U task_err; CPU_INT08U name_err; task_err = OSTaskCreateExt((void (*)(void *)) ptz_vert_rotate_task, (void *) 0, (OS_STK *)&task_vert_rotate_stk[TASK_VERT_ROATE_MONITOR_STK_SIZE - 1], (INT8U ) TASK_VERT_ROATE_MONITOR_PRIO, (INT16U ) TASK_VERT_ROATE_MONITOR_PRIO, (OS_STK *)&task_vert_rotate_stk[0], (INT32U ) TASK_VERT_ROATE_MONITOR_STK_SIZE, (void *) 0, (INT16U )(OS_TASK_OPT_STK_CHK | OS_TASK_OPT_STK_CLR)); #if (OS_TASK_NAME_EN > 0) OSTaskNameSet(TASK_VERT_ROATE_MONITOR_PRIO, "ptz_vert_rotate_task", &name_err); #endif if ((task_err == OS_ERR_NONE) && (name_err == OS_ERR_NONE)) { pdebug(DEBUG_LEVEL_INFO,"create ptz_vert_rotate_task success...\n\r"); } else { pdebug(DEBUG_LEVEL_FATAL,"create ptz_vert_rotate_task failed...\n\r"); } } void init_rotate_monitor_module(void) { BSP_OS_SemCreate(&ptz_hori_stop_mutex,1u,"ptz_hori_stop_mutex"); BSP_OS_SemCreate(&ptz_vert_stop_mutex,1u,"ptz_vert_stop_mutex"); creat_task_hori_rotate(); creat_task_vert_rotate(); } #endif