/** * Setup all of the configuration parameters. */ public void SetupConfig() { /* Factory Default all hardware to prevent unexpected behaviour */ _talon.ConfigFactoryDefault(); /* specify sensor characteristics */ _talon.ConfigSelectedFeedbackSensor(FeedbackDevice.CTRE_MagEncoder_Relative, 0); _talon.SetSensorPhase(false); /* make sure positive motor output means sensor moves in position direction */ /* brake or coast during neutral */ _talon.SetNeutralMode(NeutralMode.Brake); /* closed-loop and motion-magic parameters */ _talon.Config_kF(kSlotIdx, 0.1153f, kTimeoutMs); // 8874 native sensor units per 100ms at full motor output (+1023) _talon.Config_kP(kSlotIdx, 2.00f, kTimeoutMs); _talon.Config_kI(kSlotIdx, 0f, kTimeoutMs); _talon.Config_kD(kSlotIdx, 20f, kTimeoutMs); _talon.Config_IntegralZone(kSlotIdx, 0, kTimeoutMs); _talon.SelectProfileSlot(kSlotIdx, 0); /* select this slot */ _talon.ConfigNominalOutputForward(0f, kTimeoutMs); _talon.ConfigNominalOutputReverse(0f, kTimeoutMs); _talon.ConfigPeakOutputForward(1.0f, kTimeoutMs); _talon.ConfigPeakOutputReverse(-1.0f, kTimeoutMs); _talon.ConfigMotionCruiseVelocity(8000, kTimeoutMs); // 8000 native units _talon.ConfigMotionAcceleration(16000, kTimeoutMs); // 16000 native units per sec, (0.5s to reach cruise velocity). /* Home the relative sensor, * alternatively you can throttle until limit switch, * use an absolute signal like CtreMagEncoder_Absolute or analog sensor. */ _talon.SetSelectedSensorPosition(0, kTimeoutMs); }
public void Config(int talonId0, int talonId1) { talon0 = new TalonSRX(talonId0); talon1 = new TalonSRX(talonId1); talon0.ConfigSelectedFeedbackSensor(FeedbackDevice.CTRE_MagEncoder_Relative, 0); talon0.SetSensorPhase(false); talon0.SetNeutralMode(NeutralMode.Brake); talon0.Config_kF(kSlotId, 0.1153f, kTimeout); talon0.Config_kP(kSlotId, 2.00f, kTimeout); talon0.Config_kI(kSlotId, 0f, kTimeout); talon0.Config_kD(kSlotId, 20f, kTimeout); talon0.Config_IntegralZone(kSlotId, 0, kTimeout); talon0.SelectProfileSlot(kSlotId, 0); talon0.ConfigNominalOutputForward(0f, kTimeout); talon0.ConfigNominalOutputReverse(0f, kTimeout); talon0.ConfigPeakOutputForward(1.0f, kTimeout); talon0.ConfigPeakOutputReverse(-1.0f, kTimeout); talon0.ConfigMotionCruiseVelocity(8000, kTimeout); talon0.ConfigMotionAcceleration(16000, kTimeout); }
static void Initialize() { // Serial port _uart = new System.IO.Ports.SerialPort(CTRE.HERO.IO.Port1.UART, 115200); _uart.Open(); // Victor SPX Slaves // Left Slave victor1.Set(ControlMode.Follower, 0); // Right Slave victor3.Set(ControlMode.Follower, 2); // Talon SRX Slaves // Feeder Slave feederL.Set(ControlMode.Follower, 0); feederL.SetInverted(true); // Intake Slave intakeLft.Set(ControlMode.Follower, 2); intakeLft.SetInverted(true); // Hood hood.ConfigSelectedFeedbackSensor(FeedbackDevice.Analog, 0, kTimeoutMs); hood.SetSensorPhase(false); hood.Config_kP(0, 30f, kTimeoutMs); /* tweak this first, a little bit of overshoot is okay */ hood.Config_kI(0, 0.0005f, kTimeoutMs); hood.Config_kD(0, 0f, kTimeoutMs); hood.Config_kF(0, 0f, kTimeoutMs); /* use slot0 for closed-looping */ hood.SelectProfileSlot(0, 0); /* set the peak and nominal outputs, 1.0 means full */ hood.ConfigNominalOutputForward(0.0f, kTimeoutMs); hood.ConfigNominalOutputReverse(0.0f, kTimeoutMs); hood.ConfigPeakOutputForward(+1.0f, kTimeoutMs); hood.ConfigPeakOutputReverse(-1.0f, kTimeoutMs); hood.ConfigForwardSoftLimitThreshold(HOOD_LOWER_BOUND_ANALOG, kTimeoutMs); hood.ConfigReverseSoftLimitThreshold(HOOD_UPPER_BOUND_ANALOG, kTimeoutMs); hood.ConfigForwardSoftLimitEnable(true, kTimeoutMs); hood.ConfigReverseSoftLimitEnable(true, kTimeoutMs); /* how much error is allowed? This defaults to 0. */ hood.ConfigAllowableClosedloopError(0, 5, kTimeoutMs); //*********************** // MAY NEED TUNING //*********************** // Turret turret.ConfigSelectedFeedbackSensor(FeedbackDevice.CTRE_MagEncoder_Absolute, 1, kTimeoutMs); int absPos = turret.GetSelectedSensorPosition(1); turret.ConfigSelectedFeedbackSensor(FeedbackDevice.CTRE_MagEncoder_Relative, 0, kTimeoutMs); turret.SetSelectedSensorPosition(0, 0, kTimeoutMs); turret.SetSensorPhase(true); turret.Config_IntegralZone(20); turret.Config_kP(0, 2f, kTimeoutMs); // tweak this first, a little bit of overshoot is okay turret.Config_kI(0, 0f, kTimeoutMs); turret.Config_kD(0, 0f, kTimeoutMs); turret.Config_kF(0, 0f, kTimeoutMs); // use slot0 for closed-looping turret.SelectProfileSlot(0, 0); // set the peak and nominal outputs, 1.0 means full turret.ConfigNominalOutputForward(0.0f, kTimeoutMs); turret.ConfigNominalOutputReverse(0.0f, kTimeoutMs); turret.ConfigPeakOutputForward(+0.5f, kTimeoutMs); turret.ConfigPeakOutputReverse(-0.5f, kTimeoutMs); turret.ConfigReverseSoftLimitThreshold(TURRET_UPPER_BOUND_ANALOG, kTimeoutMs); turret.ConfigForwardSoftLimitThreshold(TURRET_LOWER_BOUND_ANALOG, kTimeoutMs); turret.ConfigReverseSoftLimitEnable(true, kTimeoutMs); turret.ConfigForwardSoftLimitEnable(true, kTimeoutMs); // how much error is allowed? This defaults to 0. turret.ConfigAllowableClosedloopError(0, 5, kTimeoutMs); // Shooter shooterSensorTalon.ConfigSelectedFeedbackSensor(FeedbackDevice.CTRE_MagEncoder_Relative, 0, kTimeoutMs); shooterSensorTalon.SetSensorPhase(false); shooterSensorTalon.ConfigPeakOutputReverse(0.0f, kTimeoutMs); shooterSensorTalon.ConfigPeakOutputForward(1.0f, kTimeoutMs); shooterVESC = new PWMSpeedController(CTRE.HERO.IO.Port3.PWM_Pin7); shooterVESC.Set(0); pcm.SetSolenoidOutput(shooterFeedbackLEDPort, false); }