Exemplo n.º 1
0
        public ChLinkMotorRotationTorque()
        {
            this.c_rz = false;
            SetupLinkMask();

            m_func = new ChFunction_Const(0.0);
        }
Exemplo n.º 2
0
        // This can be used, at each time step, to compute the actual value of torque
        // transmitted to the wheels, according to gas throttle / speed / gear value.
        // The following is a very simplified model (the torque curve of the motor is linear
        // and no latency or inertial or clutch effects in gear train are considered.)
        double ComputeWheelTorque()
        {
            // Assume clutch is never used. Given the kinematics of differential,
            // the speed of the engine transmission shaft is the average of the two wheel speeds,
            // multiplied the conic gear transmission ratio inversed:
            double shaftspeed = (1.0 / this.conic_tau) * 0.5 *
                                (this.link_engineL.Get_mot_rot_dt() + this.link_engineR.Get_mot_rot_dt());
            // The motorspeed is the shaft speed multiplied by gear ratio inversed:
            double motorspeed = (1.0 / this.gear_tau) * shaftspeed;
            // The torque depends on speed-torque curve of the motor: here we assume a
            // very simplified model a bit like in DC motors:
            double motortorque = max_motor_torque - motorspeed * (max_motor_torque / max_motor_speed);

            // Motor torque is linearly modulated by throttle gas value:
            motortorque = motortorque * this.throttle;
            // The torque at motor shaft:
            double shafttorque = motortorque * (1.0 / this.gear_tau);
            // The torque at wheels - for each wheel, given the differential transmission,
            // it is half of the shaft torque  (multiplied the conic gear transmission ratio)
            double singlewheeltorque = 0.5 * shafttorque * (1.0 / this.conic_tau);
            // Set the wheel torque in both 'engine' links, connecting the wheels to the truss;
            ChFunction_Const mfun1 = (ChFunction_Const)link_engineL.Get_tor_funct();
            ChFunction_Const mfun2 = (ChFunction_Const)link_engineR.Get_tor_funct();

            //if (mfun == link_engineL as )
            mfun1.Set_yconst(singlewheeltorque);
            mfun2.Set_yconst(singlewheeltorque);
            // if (mfun = (ChFunction_Const)(link_engineR.Get_tor_funct()))
            // mfun.Set_yconst(singlewheeltorque);
            // debug:print infos on screen:
            // GetLog() << "motor torque="<< motortorque<< "  speed=" << motorspeed << "  wheel torqe=" << singlewheeltorque
            // <<"\n";
            // If needed, return also the value of wheel torque:
            return(singlewheeltorque);
        }
Exemplo n.º 3
0
        public ChLinkMotorRotationSpeed()
        {
            variable.GetMass()[0, 0]    = 1.0;
            variable.GetInvMass()[0, 0] = 1.0;

            m_func = new ChFunction_Const(1.0);

            rot_offset = 0;

            aux_dt   = 0; // used for integrating speed, = rot
            aux_dtdt = 0;

            avoid_angle_drift = true;
        }
Exemplo n.º 4
0
        public ChLinkMotorLinearSpeed()
        {
            variable.GetMass()[0, 0]    = 1.0;
            variable.GetInvMass()[0, 0] = 1.0;

            m_func = new ChFunction_Const(1.0);

            pos_offset = 0;

            aux_dt   = 0; // used for integrating speed, = pos
            aux_dtdt = 0;

            avoid_position_drift = true;
        }
Exemplo n.º 5
0
 public ChLinkMotor()
 {
     m_func = new ChFunction_Const(0); // defaults to no motion.
 }
Exemplo n.º 6
0
 public ChFunction_Const(ChFunction_Const other)
 {
     C = other.C;
 }