Beispiel #1
0
        // Function to set a maximum torque to the motor and to create lists for
        // values to be read from motor controller.
        public MotorControl(ModbusCommunication modCom)
        {
            ModCom = modCom;

            // Create empty lists to store values that should be logged from the motor controller
            LoggedVelocities      = new List <Double>();
            LoggedTargets         = new List <Double>();
            LoggedPressures       = new List <Double>();
            LoggedLinearPositions = new List <Double>();
            LoggedSensorValues    = new List <int>();
            // Create empty list to store the time vector corresponding to logged values
            LoggedTime = new List <Double>();

            // Create event reading the maximum torque status register
            CreateEvent((ushort)0,
                        (Int16)(0B000000000100000),                         // Bitmask to get torque from status register
                        (Int16)(MotorControl.Register.Status),
                        (ushort)0XF007,                                     // Logical 'and' between bitmask and status register
                        (Int16)(MotorControl.Register.Mode),
                        (ushort)0,
                        (Int16)0);                                          // No source register

            // Set a maximum allowed torque
            ModCom.RunModbus(MotorControl.Register.MotorTorqueMax, Hardware.MaxTorque);
        }
        // The main program that runs everything
        public static void Main(string[] args)
        {
            // Get the COM-port that the motor is connected to
            String portName = ModbusCommunication.GetSerialPortName();

            // Create an instance of the ModbusCommunication
            ModbusCommunication modCom = new ModbusCommunication(portName);

            // Reset all running data and then enter Off-mode for the motor
            modCom.RunModbus(Register.Mode, (Int16)1);

            // Set the target to 0
            modCom.RunModbus(Register.TargetInput, 0);

            // Set the mode to position ramp (closed control of position with ramp)
            //modCom.RunModbus(Register.Mode, (Int16)21);

            //modCom.RunModbus(Register.TargetInput,4096);
            //modCom.RunModbus(Register.Mode,(Int16)33);
            //modCom.RunModbus(Register.TargetInput,100);
            //Thread.Sleep(2000);
            //modCom.RunModbus(Register.TargetInput,2000);
            //Thread.Sleep(2000);
            //modCom.RunModbus(Register.TargetInput,8000);
            //Thread.Sleep(2000);
            //modCom.RunModbus(Register.TargetInput,30000);
            //Thread.Sleep(2000);
            //modCom.RunModbus(Register.TargetInput,2000);
            //Thread.Sleep(2000);
            //modCom.RunModbus(Register.TargetInput,0);
            //modCom.RunModbus(Register.Mode,(Int16)1);

            // Create an instance o´f MotorControl
            MotorControl motCon = new MotorControl(modCom);

            // Test of event safety function
            int currentTorque = modCom.ReadModbus(Register.Torque, (ushort)1, false);

            Console.WriteLine("current Torque:");
            Console.WriteLine(currentTorque);

            // Create event that gets the torque
            motCon.CreateEvent((ushort)0,
                               (Int16)(0B000000000100000),  // Bitmask to get torque from status register
                               (Int16)(Register.Status),
                               (ushort)0XF007,              // AND between bitmask and status register
                               (Int16)(Register.Mode),
                               (ushort)0,
                               (Int16)0);                   // No source register

            // Set the max torque to 100 nNm
            modCom.RunModbus(Register.MotorTorqueMax, (Int16)300);

            // Variable for dummie read
            int dummieRead;

            // Lists for recorded values
            Double[] RecordedTimes1     = new Double[100];
            Double[] RecordedTimes2     = new Double[100];
            Double[] RecordedTimesRead  = new Double[100];
            Double[] RecordedTimesWrite = new Double[100];

            // Start to measure time
            Stopwatch stopWatch = new Stopwatch();

            stopWatch.Start();

            // The two loops below checks how long time it takes to read from the motor controller
            for (int i = 0; i < 99; i++)
            {
                RecordedTimes1[i] = stopWatch.Elapsed.TotalSeconds;
                dummieRead        = modCom.ReadModbus(Register.Position, 2, true);
                RecordedTimes2[i] = stopWatch.Elapsed.TotalSeconds;
            }
            for (int i = 0; i < 100; i++)
            {
                RecordedTimesRead[i] = RecordedTimes2[i] - RecordedTimes1[i];
            }

            // The two loops below checks how long time it takes to write from the motor controller
            for (int i = 0; i < 100; i++)
            {
                RecordedTimes1[i] = stopWatch.Elapsed.TotalSeconds;
                modCom.RunModbus((ushort)450, (int)0);
                RecordedTimes2[i] = stopWatch.Elapsed.TotalSeconds;
            }
            for (int i = 0; i < 100; i++)
            {
                RecordedTimesWrite[i] = RecordedTimes2[i] - RecordedTimes1[i];
            }

            // Write the recorded read and write times to the console
            //Console.WriteLine("Read: Max: {0}, Min: {1}, Avr: {2}", RecordedTimesRead.Max(), RecordedTimesRead.Min(), RecordedTimesRead.Average());
            //Console.WriteLine("Write: Max: {0}, Min: {1}, Avr: {2}", RecordedTimesWrite.Max(), RecordedTimesWrite.Min(), RecordedTimesWrite.Average());

            // Define a test sequence
            //List<Int32> ticks = new List<Int32>() { 0, 100, 1000, 2000, 3000, 2000, 1000, 100, 0 };
            //List<Int32> ticks = new List<Int32>() {0,2000,4000,8000,4000,500,-2000,-2000,0};
            //List<double> times = new List<double>() { 0, 1, 2, 3, 4, 5, 6, 7, 8 };

            // Run the test sequence
            //motCon.RunTickSequence(ticks, times, Mode.PositionRamp);
            //motCon.ManualControl();
            //Console.ReadLine();

            double currentTime = stopWatch.Elapsed.TotalSeconds;
            double lastTime    = stopWatch.Elapsed.TotalSeconds;

            //List<Double> times = new List<Double>() {0, 1.0, 2.0, 3.0, 4.0, 5.0}; ;
            //int test = motCon.createTimeVector(times, times.Count());
            //Console.Write("RegLogFactor: ");
            //Console.Write(test);

            //motCon.testLinearSensor();

            //motCon.testLinearSensor();
            motCon.goToHome();
            motCon.volumeTest();
            //Console.WriteLine("Changing baudrate");
            //modCom.RunModbus(52, (Int16)260);

            // Tune the regulator
            //modCom.RunModbus(300, (Int16)100); //P
            //modCom.RunModbus(301, 0); //I
            //modCom.RunModbus(302, 0); //D

            //Console.Write("P-parameter:");
            //Console.WriteLine(modCom.ReadModbus(300, 1, false));
            //Console.Write("I-parameter:");
            //Console.WriteLine(modCom.ReadModbus(301, 1, false));
            //Console.Write("D-parameter:");
            //Console.WriteLine(modCom.ReadModbus(302, 1, false));
            //Console.Write("Friction-parameter:");
            //Console.WriteLine(modCom.ReadModbus(305, 1, false));

            modCom.EndModbus();

            Console.ReadLine();
        }