添加了电机调试模式,可以测试电机能否正常运行。

master
zrg 2021-12-30 19:57:00 +08:00
parent 69203aa697
commit f4ab3f8f0c
1 changed files with 62 additions and 107 deletions

View File

@ -17,7 +17,6 @@ AS5600霍尔传感器 SDA-23 SCL-5 MPU6050六轴传感器 SDA-19 SCL-18
#include "EEPROM.h"
Kalman kalmanZ;
#define gyroZ_OFF -0.19
#define FLAG_V 0
/* ----IMU Data---- */
double accX, accY, accZ;
@ -50,14 +49,6 @@ TwoWire I2Ctwo = TwoWire(1);
LowPassFilter lpf_throttle{0.00};
//倒立摆参数
float LQR_K1_1 = 4; //摇摆到平衡
float LQR_K1_2 = 1.5; //
float LQR_K1_3 = 0.30; //
float LQR_K2_1 = 3.49; //平衡态
float LQR_K2_2 = 0.26; //
float LQR_K2_3 = 0.15; //
float LQR_K3_1 = 10; //摇摆到平衡
float LQR_K3_2 = 1.7; //
float LQR_K3_3 = 1.75; //
@ -81,27 +72,35 @@ float v_p_2 = 0.2;
//命令设置
Command comm;
bool Motor_enable_flag = 0;
int test_flag = 0;
void do_TA(char* cmd) { comm.scalar(&target_angle, cmd);EEPROM.writeFloat(0, target_angle); }
void do_SV(char* cmd) { comm.scalar(&swing_up_voltage, cmd); EEPROM.writeFloat(4, swing_up_voltage); }
void do_SA(char* cmd) { comm.scalar(&swing_up_angle, cmd);EEPROM.writeFloat(8, swing_up_angle); }
void do_START(char* cmd) { wifi_flag = !wifi_flag; }
void do_MOTOR(char* cmd)
{
if(Motor_enable_flag)
digitalWrite(22,HIGH);
motor.enable();
else
digitalWrite(22,LOW);
motor.disable();
Motor_enable_flag = !Motor_enable_flag;
}
#if FLAG_V
void do_K11(char* cmd) { comm.scalar(&LQR_K1_1, cmd); }
void do_K12(char* cmd) { comm.scalar(&LQR_K1_2, cmd); }
void do_K13(char* cmd) { comm.scalar(&LQR_K1_3, cmd); }
void do_K21(char* cmd) { comm.scalar(&LQR_K2_1, cmd); }
void do_K22(char* cmd) { comm.scalar(&LQR_K2_2, cmd); }
void do_K23(char* cmd) { comm.scalar(&LQR_K2_3, cmd); }
#else
void do_TVQ(char* cmd)
{
if(test_flag == 1)
test_flag = 0;
else
test_flag = 1;
}
void do_TVV(char* cmd)
{
if(test_flag == 2)
test_flag = 0;
else
test_flag = 2;
}
void do_VV(char* cmd) { comm.scalar(&target_velocity, cmd); }
void do_VQ(char* cmd) { comm.scalar(&target_voltage, cmd); }
void do_vp1(char* cmd) { comm.scalar(&v_p_1, cmd); EEPROM.writeFloat(12, v_p_1);}
void do_vi1(char* cmd) { comm.scalar(&v_i_1, cmd);EEPROM.writeFloat(16, v_i_1); }
void do_vp2(char* cmd) { comm.scalar(&v_p_2, cmd); EEPROM.writeFloat(20, v_p_2);}
@ -113,8 +112,6 @@ void do_K33(char* cmd) { comm.scalar(&LQR_K3_3, cmd); }
void do_K41(char* cmd) { comm.scalar(&LQR_K4_1, cmd); }
void do_K42(char* cmd) { comm.scalar(&LQR_K4_2, cmd); }
void do_K43(char* cmd) { comm.scalar(&LQR_K4_3, cmd); }
#endif
void onPacketCallBack(AsyncUDPPacket packet)
{
@ -171,15 +168,11 @@ if(j == 0)
comm.add("MOTOR",do_MOTOR);
comm.add("SV",do_SV);
comm.add("SA",do_SA);
#if FLAG_V //电压模式
comm.add("K11",do_K11);
comm.add("K12",do_K12);
comm.add("K13",do_K13);
comm.add("K21",do_K21);
comm.add("K22",do_K22);
comm.add("K23",do_K23);
#else //速度模式
comm.add("TVQ",do_TVQ);
comm.add("TVV",do_TVV);
comm.add("VV",do_VV);
comm.add("VQ",do_VQ);
//速度环参数
comm.add("VP1",do_vp1);
comm.add("VI1",do_vi1);
comm.add("VP2",do_vp2);
@ -191,8 +184,8 @@ if(j == 0)
comm.add("K41",do_K41);
comm.add("K42",do_K42);
comm.add("K43",do_K43);
#endif
// kalman mpu6050 init
// kalman mpu6050 init
Wire.begin(19, 18,400000);// Set I2C frequency to 400kHz
i2cData[0] = 7; // Set the sample rate to 1000Hz - 8kHz/(7+1) = 1000Hz
i2cData[1] = 0x00; // Disable FSYNC and set 260 Hz Acc filtering, 256 Hz Gyro filtering, 8 KHz sampling
@ -202,7 +195,6 @@ if(j == 0)
; // Write to all four registers at once
while (i2cWrite(0x6B, 0x01, true))
; // PLL with X axis gyroscope reference and disable sleep mode
while (i2cRead(0x75, i2cData, 1))
;
if (i2cData[0] != 0x68)
@ -211,9 +203,7 @@ if(j == 0)
while (1)
;
}
delay(100); // Wait for sensor to stabilize
/* Set kalman and gyro starting angle */
while (i2cRead(0x3B, i2cData, 6))
;
@ -221,10 +211,8 @@ if(j == 0)
accY = (int16_t)((i2cData[2] << 8) | i2cData[3]);
accZ = (int16_t)((i2cData[4] << 8) | i2cData[5]);
double pitch = acc2rotation(accX, accY);
kalmanZ.setAngle(pitch);
gyroZangle = pitch;
timer = micros();
Serial.println("kalman mpu6050 init");
@ -254,21 +242,16 @@ if(j == 0)
motor.foc_modulation = FOCModulationType::SpaceVectorPWM;
//运动控制模式设置
#if FLAG_V
motor.controller = MotionControlType::torque;
#else
motor.controller = MotionControlType::velocity;
//速度PI环设置
motor.PID_velocity.P = 0.5;
motor.PID_velocity.I = 20;
#endif
motor.PID_velocity.P = v_p_1;
motor.PID_velocity.I = v_i_1;
//最大电机限制电机
motor.voltage_limit = 12;
//速度低通滤波时间常数
motor.LPF_velocity.Tf = 0.01;
motor.LPF_velocity.Tf = 0.02;
//设置最大速度限制
motor.velocity_limit = 40;
@ -284,7 +267,6 @@ if(j == 0)
Serial.println(F("Motor ready."));
Serial.println(F("Set the target velocity using serial terminal:"));
//digitalWrite(22,LOW);
}
char buf[255];
long loop_count = 0;
@ -322,65 +304,50 @@ void loop() {
gyroZangle = kalAngleZ;
float pendulum_angle = constrainAngle(fmod(kalAngleZ,120)-target_angle);
// FLAG_V为1时使用电压控制为0时候速度控制
#if FLAG_V
if (abs(pendulum_angle) < swing_up_angle) // if angle small enough stabilize 0.5~30°,1.5~90°
{
target_voltage = controllerLQR(pendulum_angle, gyroZrate, motor.shaftVelocity());
// limit the voltage set to the motor
if (abs(target_voltage) > motor.voltage_limit * 0.7)
target_voltage = _sign(target_voltage) * motor.voltage_limit * 0.7;
}
else // else do swing-up
{ // sets 1.5V to the motor in order to swing up
target_voltage = -_sign(gyroZrate) * swing_up_voltage;
}
// set the target voltage to the motor
if (accZ < -13000 && ((accX * accX + accY * accY) > (14000 * 14000)))
{
motor.move(0);
}
else
{
motor.move(lpf_throttle(target_voltage));
}
#else
if (abs(pendulum_angle) < swing_up_angle) // if angle small enough stabilize 0.5~30°,1.5~90°
{
target_velocity = controllerLQR(pendulum_angle, gyroZrate, motor.shaftVelocity());
if (abs(target_velocity) > 140)
target_velocity = _sign(target_velocity) * 140;
motor.controller = MotionControlType::velocity;
motor.move(target_velocity);
}
else // else do swing-up
{ // sets 1.5V to the motor in order to swing up
motor.controller = MotionControlType::torque;
target_voltage = -_sign(gyroZrate) * swing_up_voltage;
motor.move(target_voltage);
}
#endif
// pendulum_angle当前角度与期望角度差值在差值大的时候进行摇摆差值小的时候LQR控制电机保持平衡
if(test_flag == 0)//正常控制
{
if (abs(pendulum_angle) < swing_up_angle) // if angle small enough stabilize 0.5~30°,1.5~90°
{
target_velocity = controllerLQR(pendulum_angle, gyroZrate, motor.shaftVelocity());
if (abs(target_velocity) > 140)
target_velocity = _sign(target_velocity) * 140;
motor.controller = MotionControlType::velocity;
motor.move(target_velocity);
}
else // else do swing-up
{ // sets swing_up_voltage to the motor in order to swing up
motor.controller = MotionControlType::torque;
target_voltage = -_sign(gyroZrate) * swing_up_voltage;
motor.move(target_voltage);
}
}
else if(test_flag == 1)
{
motor.controller = MotionControlType::torque;
motor.move(target_voltage);
}
else
{
motor.controller = MotionControlType::velocity;
motor.move(target_velocity);
}
//串口输出数据部分不需要的情况可以改为0
#if 1
//Serial.print(gyroZangle);Serial.print("\t");
Serial.print(pitch);Serial.print("\t");
Serial.print(kalAngleZ);Serial.print("\t");
Serial.print(target_voltage);Serial.print("\t");
// Serial.print(target_velocity);Serial.print("\t");
Serial.print(motor.shaft_velocity);Serial.print("\t");
Serial.print(motor.voltage.q);Serial.print("\t");
Serial.print(target_angle);Serial.print("\t");
Serial.print(pendulum_angle);Serial.print("\t");
Serial.print(gyroZrate);Serial.print("\t");
Serial.print("\r\n");
#endif
// motor.move(target_velocity);
//可以使用该方法广播信息
//可以使用该方法wifi发送udp信息
if(wifi_flag)
{
memset(buf, 0, strlen(buf));
@ -453,19 +420,7 @@ float controllerLQR(float p_angle, float p_vel, float m_vel)
stable = 1;
}
//Serial.println(stable);
float u;
#if FLAG_V
if (!stable)
{
u = LQR_K1_1 * p_angle + LQR_K1_2 * p_vel + LQR_K1_3 * m_vel;
}
else
{
//u = LQR_K1 * p_angle + LQR_K2 * p_vel + LQR_K3 * m_vel;
u = LQR_K2_1 * p_angle + LQR_K2_2 * p_vel + LQR_K2_3 * m_vel;
}
#else
if (!stable)
{
motor.PID_velocity.P = v_p_1;
@ -479,7 +434,7 @@ float controllerLQR(float p_angle, float p_vel, float m_vel)
//u = LQR_K1 * p_angle + LQR_K2 * p_vel + LQR_K3 * m_vel;
u = LQR_K4_1 * p_angle + LQR_K4_2 * p_vel + LQR_K4_3 * m_vel;
}
#endif
return u;
}
void wifi_print(char * s,double num)