static void Main(string[] args) { TCubeDCServo.RegisterDevice(); KCubeDCServo.RegisterDevice(); // get parameters from command line int argc = args.Count(); if (argc < 1) { Console.WriteLine("Usage = DC_Console_net_managed [serial_no] [position: optional (0 - 50)] [velocity: optional (0 - 5)]"); Console.ReadKey(); return; } decimal position = 0m; if (argc > 1) { position = decimal.Parse(args[1]); } decimal velocity = 0m; if (argc > 2) { velocity = decimal.Parse(args[2]); } string serialNo = args[0]; try { // build device list DeviceManagerCLI.BuildDeviceList(); } catch (Exception ex) { Console.WriteLine("Exception raised by BuildDeviceList {0}", ex); Console.ReadKey(); return; } // get available KCube DC Servos and check our serial number is correct List <string> serialNumbers = DeviceManagerCLI.GetDeviceList(new List <int> { KCubeDCServo.DevicePrefix, TCubeDCServo.DevicePrefix }); if (!serialNumbers.Contains(serialNo)) { if (serialNumbers.Count > 0) { serialNo = serialNumbers[0]; Console.WriteLine("using serial number {0}", serialNo); } else { Console.WriteLine("{0} is not a valid serial number", serialNo); Console.ReadKey(); return; } } // create the device IGenericCoreDeviceCLI device = DeviceFactory.CreateDevice(serialNo); IGenericAdvancedMotor motor = device as IGenericAdvancedMotor; if (motor == null) { Console.WriteLine("{0} is not a DCServo", serialNo); Console.ReadKey(); return; } // connect device try { Console.WriteLine("Opening device {0}", serialNo); device.Connect(serialNo); if (!motor.IsSettingsInitialized()) { motor.WaitForSettingsInitialized(5000); } // display info about device DeviceInfo di = device.GetDeviceInfo(); Console.WriteLine("Device {0} = {1}", di.SerialNumber, di.Name); // start the device polling motor.StartPolling(250); } catch (DeviceException ex) { Console.WriteLine("Failed to open device {0} - {1}", ex.DeviceID, ex.Message); Console.ReadKey(); return; } DeviceUnitConverter deviceUnitConverter; try { // call GetMotorConfiguration on the device to initialize the DeviceUnitConverter object required for real unit parameters MotorConfiguration motorSettings = motor.GetMotorConfiguration(serialNo); motorSettings.DeviceSettingsName = "PRM1-Z8"; motorSettings.UpdateCurrentConfiguration(); MotorDeviceSettings motorDeviceSettings = motor.MotorDeviceSettings; motor.SetSettings(motorDeviceSettings, true, false); // test code to test get / sert of parameters using real world units TestVelocityParameters(motor); TestJogParameters(motor); TestHomingParameters(motor); TestLimitParameters(motor); if (device is TCubeDCServo) { TestPotentiometerParameters(device as TCubeDCServo); // TDC Only } motorSettings.UpdateCurrentConfiguration(); deviceUnitConverter = motor.UnitConverter; } catch (DeviceException ex) { Console.WriteLine("Failed prepare settings {0} - {1}", ex.DeviceID, ex.Message); Console.ReadKey(); return; } try { if (!Home_1(motor)) { Console.WriteLine("Failed to home device"); Console.ReadKey(); return; } } catch (DeviceException ex) { Console.WriteLine("Failed to Home device settings {0} - {1}", ex.DeviceID, ex.Message); Console.ReadKey(); return; } try { // if position is set if (position != 0) { // update velocity if required using real world methods if (velocity != 0) { VelocityParameters velPars = motor.GetVelocityParams(); velPars.MaxVelocity = velocity; motor.SetVelocityParams(velPars); } if (!MoveTo_1(motor, position, deviceUnitConverter)) { Console.WriteLine("Failed to set position"); Console.ReadKey(); } } else { char c = '\0'; do { do { Console.WriteLine("Press a key"); Console.WriteLine("0 to exit"); Console.WriteLine("1 to test StopImmediate()"); Console.WriteLine("2 to test Stop(5000)"); Console.WriteLine("3 to test Stop(WaitEvent)"); c = Console.ReadKey().KeyChar; } while (c < '0' || c > '3'); if (c != '0') { motor.MoveContinuous(MotorDirection.Forward); Console.WriteLine("Press any key to stop"); Console.ReadKey(); StatusBase status; if (c == '1') { motor.Stop(5000); } if (c == '2') { motor.StopImmediate(); } if (c == '3') { ManualResetEvent waitEvent = new ManualResetEvent(false); waitEvent.Reset(); motor.Stop(p => { Console.WriteLine("Message Id {0}", p); waitEvent.Set(); }); if (!waitEvent.WaitOne(5000)) { Console.WriteLine("Failed to Stop"); } } do { status = motor.Status; Console.WriteLine("Status says {0} ({1:X})", status.IsInMotion ? "Moving" : "Stopped", status.Status); Thread.Sleep(50); } while (status.IsInMotion); } } while (c != '0'); } } catch (DeviceException ex) { Console.WriteLine("Failed to Move device settings {0} - {1}", ex.DeviceID, ex.Message); Console.ReadKey(); return; } try { device.Disconnect(true); } catch (DeviceException ex) { Console.WriteLine("Failed to Disconnect {0} - {1}", ex.DeviceID, ex.Message); } Console.ReadKey(); }