Пример #1
0
        private bool MyInitialize()
        {
            #region 사용자의 초기화 코드 예제
            bool success = true;

            success &= SpiralLab.Core.Initialize();
            var doc = new DocumentDefault();
            this.Document = doc;

            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)
            //var rtc = new Rtc6SyncAxis(0, Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "syncAxis", "syncAXISConfig.xml")); //실험적인 상태 (Scanlab XLSCAN 솔류션)

            float fov            = 60.0f;                                       ///scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;                // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            success &= rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // 스캐너 보정 파일 지정 : correction file
            success &= rtc.CtlFrequency(50 * 1000, 2);                          // laser frequency : 50KHz, pulse width : 2usec
            success &= rtc.CtlSpeed(100, 100);                                  // default jump and mark speed : 100mm/s
            success &= rtc.CtlDelay(10, 100, 200, 200, 0);                      // scanner and laser delays
            this.Rtc = rtc;

            var laser = new LaserVirtual(0, "virtual", 20.0f);
            laser.Rtc  = rtc;
            success   &= laser.Initialize();
            success   &= laser.CtlPower(10);
            this.Laser = laser;

            var marker = new MarkerDefault(0);
            this.Marker = marker;
            #endregion
            return(success);
        }
Пример #2
0
        public MainForm()
        {
            InitializeComponent();

            SpiralLab.Core.Initialize();
            // 신규 문서 생성
            var doc = new DocumentDefault();

            // 문서 지정
            siriusEditorForm1.Document = doc;

            // 기본 펜 생성후 문서에 추가
            var pen = new CustomPen();

            doc.Action.ActEntityAdd(pen);

            // 내부 데이타(IDocument) 가 변경될경우 이를 이벤트 통지를 받는 핸들러 등록
            siriusEditorForm1.OnDocumentSourceChanged += SiriusEditorForm1_OnDocumentSourceChanged;

            #region RTC 초기화
            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)
            //var rtc = new Rtc6SyncAxis(0, Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "syncAxis", "syncAXISConfig.xml")); //실험적인 상태 (Scanlab XLSCAN 솔류션)

            float fov            = 60.0f;                            ///scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // 스캐너 보정 파일 지정 : correction file
            rtc.CtlFrequency(50 * 1000, 2);                          // laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);                                  // default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0);                      // scanner and laser delays
            #endregion
            this.siriusEditorForm1.Rtc = rtc;

            #region 레이저 소스 초기화
            var laser = new LaserVirtual(0, "virtual", 20);  // virtual laser source with max 20W power (최대 출력 20W 의 가상 레이저 소스 생성)
            //var laser = new IPGYLP(0, "IPG YLP", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(2);
            #endregion

            this.siriusEditorForm1.Laser = laser;

            #region 마커 지정
            var marker = new MarkerDefault(0);
            #endregion
            this.siriusEditorForm1.Marker = marker;

            this.siriusEditorForm1.OnDocumentPenNew += SiriusEditorForm1_OnDocumentPenNew;
        }
Пример #3
0
        public MainForm()
        {
            InitializeComponent();

            //라이브러리 초기화
            SpiralLab.Core.Initialize();
            //문서 생성
            var doc = new DocumentDefault();

            siriusEditorForm1.Document = doc;
            // 내부 데이타(IDocument) 가 변경될경우 이를 이벤트 통지를 받는 핸들러 등록
            siriusEditorForm1.OnDocumentSourceChanged += SiriusEditorForm1_OnDocumentSourceChanged;

            #region RTC 초기화
            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)
            //var rtc = new Rtc6SyncAxis(0, Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "configuration", "syncAXISConfig.xml")); //실험적인 상태 (Scanlab XLSCAN 솔류션)

            float fov            = 60.0f;                            // scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // 스캐너 보정 파일 지정 : correction file
            rtc.CtlFrequency(50 * 1000, 2);                          // laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);                                  // default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0);                      // scanner and laser delays

            var rtcMOTF = rtc as IRtcMOTF;
            //엔코더 스케일 설정 (단축 MOTF)
            rtcMOTF.EncXCountsPerMm = 2000;  //단위 mm 이동시 발생되는 엔코더 펄스의 수
            rtcMOTF.EncYCountsPerMm = 0;

            #endregion
            this.siriusEditorForm1.Rtc = rtc;

            #region 레이저 소스 초기화
            var laser = new LaserVirtual(0, "virtual", 20.0f);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(10);
            #endregion

            this.siriusEditorForm1.Laser = laser;

            #region 마커 지정
            var marker = new MotfMarker(0);
            #endregion
            this.siriusEditorForm1.Marker = marker;

            timer1.Enabled = true;
        }
Пример #4
0
        public MainWindow()
        {
            InitializeComponent();

            SpiralLab.Core.Initialize();
            var siriusEditorForm = (siriusEditor.Child as SiriusEditorForm);

            //펜 집합 기능 사용
            siriusEditorForm.EnablePens = true;

            var doc = new DocumentDefault();

            siriusEditorForm.Document = doc;

            #region RTC 초기화
            //var rtc = new RtcVirtual(0); //create Rtc for dummy (가상 RTC 카드)
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //Rtc6 Ethernet
            //var rtc = new Rtc6SyncAxis(0, Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "syncAxis", "syncAXISConfig.xml")); //Scanlab XLSCAN

            float fov            = 60.0f;                            ///scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = System.IO.Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // 스캐너 보정 파일 지정 : correction file
            rtc.CtlFrequency(50 * 1000, 2);                          // laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);                                  // default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0);                      // scanner and laser delays
            #endregion
            siriusEditorForm.Rtc = rtc;

            #region initialize Laser (virtual)
            var laser = new LaserVirtual(0, "virtual", 20);  // virtual laser source with max 20W power (최대 출력 20W 의 가상 레이저 소스 생성)
            //var laser = new IPGYLP(0, "IPG YLP", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(2);
            #endregion

            siriusEditorForm.Laser = laser;

            #region 마커 지정
            var marker = new MarkerDefault(0);
            #endregion
            siriusEditorForm.Marker = marker;
        }
Пример #5
0
        private void button8_Click(object sender, EventArgs e)
        {
            uint index = 0;
            var  rtc   = new Rtc5(index); //create Rtc5 controller
            //var rtc = new Rtc6(index); //create Rtc6 controller

            float fov            = 60.0f;                        // scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov; // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");

            bool success = true;

            success &= rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // correction file (스캐너 보정 파일)
            success &= rtc.CtlFrequency(50 * 1000, 2);                          // laser frequency : 50KHz, pulse width : 2usec (주파수 50KHz, 펄스폭 2usec)
            success &= rtc.CtlSpeed(500, 500);                                  // jump and mark speed : 500mm/s (점프, 마크 속도 500mm/s)
            success &= rtc.CtlDelay(10, 100, 200, 200, 0);                      // scanner and laser delays (스캐너/레이저 지연값 설정)

            var laser = new DemoIPGYLPTypeE(index, "YLP TYPE E", 1, 20);

            laser.Rtc = rtc;


            var rtcDInExt1 = new RtcDInput(rtc, index, "DIN RTC EXT1");

            success &= rtcDInExt1.Initialize();
            var rtcDOutExt1 = new RtcDOutputExt1(rtc, index, "DOUT RTC EXT1");

            success &= rtcDOutExt1.Initialize();
            var rtcDOutExt2 = new RtcDOutputExt2(rtc, index, "DIN RTC EXT2");

            success &= rtcDOutExt2.Initialize();

            laser.RtcDInExt1  = rtcDInExt1;
            laser.RtcDOutExt1 = rtcDOutExt1;
            laser.RtcDOutExt2 = rtcDOutExt2;

            success &= laser.Initialize();
            var form = new SpiralLab.Sirius.Laser.LaserForm();

            form.AliasName = "TYPE E";
            form.Laser     = laser;
            form.ShowDialog(this);

            laser.Dispose();
            rtcDInExt1.Dispose();
            rtcDOutExt1.Dispose();
            rtcDOutExt2.Dispose();
            rtc.Dispose();
        }
Пример #6
0
        static void Main(string[] args)
        {
            SpiralLab.Core.Initialize();

            #region initialize RTC
            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)
            //var rtc = new Rtc6SyncAxis(0, Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "syncAxis", "syncAXISConfig.xml")); //실험적인 상태 (Scanlab XLSCAN 솔류션)

            float fov            = 60.0f;                            // scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); //default correction file
            rtc.CtlFrequency(50 * 1000, 2);                          //laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);                                  // default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0);                      //scanner and laser delays
            #endregion

            #region initialize Laser (virtual)
            var laser = new LaserVirtual(0, "virtual", 20);  // virtual laser source with max 20W power (최대 출력 20W 의 가상 레이저 소스 생성)
            //var laser = new IPGYLP(0, "IPG YLP", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(2);
            #endregion

            #region create entity at 0,0 location
            var doc = new DocumentDefault("3x3 scanner field correction");
            // 레이어 생성
            var layer = new Layer("default");
            // 나선 개체 추가
            layer.Add(new Spiral(0.0f, 0.0f, 0.5f, 2.0f, 5, true));
            // 레이어의 모든 개채들 내부 데이타 계산및 갱신
            layer.Regen();
            // 문서에 레이어 추가
            doc.Layers.Add(layer);
            // 문서 저장
            DocumentSerializer.Save(doc, "test.sirius");
            #endregion

            ConsoleKeyInfo key;
            do
            {
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("Testcase for spirallab.sirius. powered by [email protected] (http://spirallab.co.kr)");
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("'M' : draw entities by marker");
                Console.WriteLine("'O' : draw entities by marker with offsets");
                Console.WriteLine("'Q' : quit");
                Console.WriteLine($"{Environment.NewLine}");
                Console.Write("select your target : ");
                key = Console.ReadKey(false);
                if (key.Key == ConsoleKey.Q)
                {
                    break;
                }
                Console.WriteLine($"{Environment.NewLine}");
                switch (key.Key)
                {
                case ConsoleKey.M:
                    Console.WriteLine("WARNING !!! LASER IS BUSY ...");
                    DrawByMarker(doc, rtc, laser);
                    break;

                case ConsoleKey.O:
                    Console.WriteLine("WARNING !!! LASER IS BUSY ...");
                    DrawByMarkerWithOffset(doc, rtc, laser);
                    break;
                }
            } while (true);

            rtc.Dispose();
        }
Пример #7
0
        static void Main(string[] args)
        {
            SpiralLab.Core.Initialize();

            #region initialize RTC
            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)
            //var rtc = new Rtc6SyncAxis(0, Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "syncAxis", "syncAXISConfig.xml")); //실험적인 상태 (Scanlab XLSCAN 솔류션)

            float fov            = 60.0f;                            // scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); //default correction file
            rtc.CtlFrequency(50 * 1000, 2);                          //laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);                                  // default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0);                      //scanner and laser delays
            #endregion

            #region initialize Laser (virtual)
            var laser = new LaserVirtual(0, "virtual", 20);  // virtual laser source with max 20W power (최대 출력 20W 의 가상 레이저 소스 생성)
            //var laser = new IPGYLP(0, "IPG YLP", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(2);
            #endregion

            #region create entities
            // 문서 생성
            var doc = new DocumentDefault("Unnamed");
            // 레이어 생성및 문서에 추가
            var layer = new Layer("default");
            // 펜 개체(Entity) 생성및 레이어에 추가
            var pen = new PenDefault()
            {
                Frequency           = 100 * 1000, //주파수 Hz
                PulseWidth          = 2,          //펄스폭 usec
                LaserOnDelay        = 0,          // 레이저 시작 지연 usec
                LaserOffDelay       = 0,          // 레이저 끝 지연 usec
                ScannerJumpDelay    = 100,        // 스캐너 점프 지연 usec
                ScannerMarkDelay    = 200,        // 스캐너 마크 지연 usec
                ScannerPolygonDelay = 0,          // 스캐너 폴리곤 지연 usec
                JumpSpeed           = 500,        // 스캐너 점프 속도 mm/s
                MarkSpeed           = 500,        // 스캐너 마크 속도 mm/s
            };
            layer.Add(pen);
            // 선 개체 레이어에 추가
            layer.Add(new Line(0, 0, 10, 20));
            // 원 개체 레이어에 추가
            layer.Add(new Circle(0, 0, 10));
            // 나선 개체 레이어에 추가
            layer.Add(new Spiral(-20.0f, 0.0f, 0.5f, 2.0f, 5, true));
            //레이어의 모든 개채들 내부 데이타 계산및 갱신
            layer.Regen();
            // 문서에 레이어 추가
            doc.Layers.Add(layer);

            // 문서를 지정된 파일에 저장
            DocumentSerializer.Save(doc, "test.sirius");
            #endregion

            ConsoleKeyInfo key;
            do
            {
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("Testcase for spirallab.sirius. powered by [email protected] (http://spirallab.co.kr)");
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("'D' : draw entities by pen");
                Console.WriteLine("'Q' : quit");
                Console.WriteLine($"{Environment.NewLine}");
                Console.Write("select your target : ");
                key = Console.ReadKey(false);
                if (key.Key == ConsoleKey.Q)
                {
                    break;
                }
                Console.WriteLine($"{Environment.NewLine}");
                switch (key.Key)
                {
                case ConsoleKey.D:
                    Console.WriteLine("WARNING !!! LASER IS BUSY ...");
                    var timer = Stopwatch.StartNew();
                    DrawForFieldCorrection(laser, rtc, doc);
                    Console.WriteLine($"processing time = {timer.ElapsedMilliseconds / 1000.0:F3}s");
                    break;
                }
            } while (true);

            rtc.Dispose();
        }
Пример #8
0
        static void Main(string[] args)
        {
            SpiralLab.Core.Initialize();

            #region initialize RTC
            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)

            float fov            = 60.0f;                            // scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // 스캐너 보정 파일 지정 : correction file
            rtc.CtlFrequency(50 * 1000, 2);                          // laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);                                  // default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0);                      // scanner and laser delays

            var rtcMOTF = rtc as IRtcMOTF;
            //엔코더 스케일 설정
            rtcMOTF.EncXCountsPerMm = 67;
            rtcMOTF.EncYCountsPerMm = 67;

            #endregion

            #region initialize Laser (virtual)
            var laser = new LaserVirtual(0, "virtual", 20);  // virtual laser source with max 20W power (최대 출력 20W 의 가상 레이저 소스 생성)
            //var laser = new IPGYLP(0, "IPG YLP", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(2);
            #endregion

            ConsoleKeyInfo key;
            do
            {
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("Testcase for spirallab.sirius. powered by [email protected] (http://spirallab.co.kr)");
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("'R' : encoder reset");
                Console.WriteLine("'N' : MOTF With Follow Only");
                Console.WriteLine("'C' : MOTF With Circle And Wait Encoder");
                Console.WriteLine("'Q' : quit");
                Console.WriteLine($"{Environment.NewLine}");
                Console.Write("select your target : ");
                key = Console.ReadKey(false);
                if (key.Key == ConsoleKey.Q)
                {
                    break;
                }
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("WARNING !!! LASER IS BUSY ...");
                var timer = Stopwatch.StartNew();
                switch (key.Key)
                {
                case ConsoleKey.R:
                    // X,Y 엔코더값을 0,0 으로 리셋합니다.
                    rtcMOTF.CtlEncoderReset();
                    // 가상 엔코더를 100mm/s 으로 동작시킵니다.
                    //rtcMOTF.CtlEncoderSpeed(100, 100);
                    break;

                case ConsoleKey.N:
                    MotfWithFollowOnly(laser, rtc, false);
                    break;

                case ConsoleKey.C:
                    MotfWithCircleAndWaitEncoder(laser, rtc, false);
                    break;
                }
                Console.WriteLine($"Processing time = {timer.ElapsedMilliseconds / 1000.0:F3}s");
            } while (true);

            rtc.Dispose();
        }
Пример #9
0
        static void Main3(string[] args)
        {
            SpiralLab.Core.Initialize();

            #region initialize RTC
            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)

            float fov            = 60.0f;                            // scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // 스캐너 보정 파일 지정 : correction file
            rtc.CtlFrequency(50 * 1000, 2);                          // laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);                                  // default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0);                      // scanner and laser delays
            #endregion

            #region initialize Laser (virtual)
            var laser = new LaserVirtual(0, "virtual", 20);  // virtual laser source with max 20W power (최대 출력 20W 의 가상 레이저 소스 생성)
            //var laser = new IPGYLP(0, "IPG YLP", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(2);
            #endregion

            var rtcCharSet = rtc as IRtcCharacterSet;

            ConsoleKeyInfo key;
            do
            {
                Console.WriteLine("Testcase for spirallab.sirius. powered by [email protected] (http://spirallab.co.kr)");
                Console.WriteLine("");
                Console.WriteLine("'D' : mark to date");
                Console.WriteLine("'I' : mark to time");
                Console.WriteLine("'S' : mark to serial number");
                Console.WriteLine("'R' : reset serial number");
                Console.WriteLine("'Q' : quit");
                Console.WriteLine("");
                Console.Write("select your target : ");
                key = Console.ReadKey(false);
                if (key.Key == ConsoleKey.Q)
                {
                    break;
                }
                Console.WriteLine("");
                var timer = Stopwatch.StartNew();
                switch (key.Key)
                {
                case ConsoleKey.D:
                    RtcCharacterSetHelper.Clear(rtc);
                    MarkToDate(laser, rtc);
                    break;

                case ConsoleKey.I:
                    RtcCharacterSetHelper.Clear(rtc);
                    MarkToTime(laser, rtc);
                    break;

                case ConsoleKey.S:
                    RtcCharacterSetHelper.Clear(rtc);
                    MarkToSerial(laser, rtc);
                    break;

                case ConsoleKey.R:
                    RtcCharacterSetHelper.Clear(rtc);
                    rtcCharSet.CtlSerialReset(1000, 1);
                    break;
                }
                Console.WriteLine($"Processing time = {timer.ElapsedMilliseconds / 1000.0:F3}s");
            } while (true);

            rtc.Dispose();
        }
Пример #10
0
        static void Main2(string[] args)
        {
            SpiralLab.Core.Initialize();

            #region initialize RTC
            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)

            float fov            = 60.0f;                            // scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // 스캐너 보정 파일 지정 : correction file
            rtc.CtlFrequency(50 * 1000, 2);                          // laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);                                  // default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0);                      // scanner and laser delays

            //이미 table1 에 로드 및 선택 완료 (initialize 의 인자에서 처리됨)
            //var correctionFile1 = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            //rtc.CtlLoadCorrectionFile(CorrectionTableIndex.Table1, correctionFile1);
            var correctionFile2 = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.CtlLoadCorrectionFile(CorrectionTableIndex.Table2, correctionFile2);
            rtc.CtlSelectCorrection(CorrectionTableIndex.Table1, CorrectionTableIndex.Table2);
            #endregion

            #region initialize Laser (virtual)
            var laser = new LaserVirtual(0, "virtual", 20);  // virtual laser source with max 20W power (최대 출력 20W 의 가상 레이저 소스 생성)
            //var laser = new IPGYLP(0, "IPG YLP", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(2);
            #endregion

            ConsoleKeyInfo key;
            do
            {
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("Testcase for spirallab.sirius. powered by [email protected] (http://spirallab.co.kr)");
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("'D' : draw circle with dual head offset");
                Console.WriteLine("'Q' : quit");
                Console.WriteLine($"{Environment.NewLine}");
                Console.Write("select your target : ");
                key = Console.ReadKey(false);
                if (key.Key == ConsoleKey.Q)
                {
                    break;
                }
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("WARNING !!! LASER IS BUSY ...");
                var timer = Stopwatch.StartNew();
                switch (key.Key)
                {
                case ConsoleKey.D:
                    //개별 헤드에 오프셋 및 회전 처리
                    var rtcDualHead = rtc as IRtcDualHead;
                    rtcDualHead.CtlHeadOffset(ScannerHead.Primary, new Vector2(5, 0), 0);
                    rtcDualHead.CtlHeadOffset(ScannerHead.Secondary, new Vector2(-5, 0), 0);
                    DrawCircle(laser, rtc);
                    // 원복
                    rtcDualHead.CtlHeadOffset(ScannerHead.Primary, Vector2.Zero, 0);
                    rtcDualHead.CtlHeadOffset(ScannerHead.Secondary, Vector2.Zero, 0);
                    break;
                }

                Console.WriteLine($"Processing time = {timer.ElapsedMilliseconds / 1000.0:F3}s");
            } while (true);

            rtc.Dispose();
        }
Пример #11
0
        static void Main(string[] args)
        {
            SpiralLab.Core.Initialize();

            #region create entities
            //신규 문서(Document) 생성
            var doc1 = new DocumentDefault("Unnamed");
            // 레이어 생성
            var layer = new Layer("default");
            //레이어에 선 형상 개체(Entity) 생성및 추가
            layer.Add(new Line(0, 10, 20, 20));
            //레이어에 원 형상 개체(Entity) 생성및 추가
            layer.Add(new Circle(0, 0, 10));
            //레이어에 나선 형상 개체(Entity) 생성및 추가
            layer.Add(new Spiral(-20.0f, 0.0f, 0.5f, 2.0f, 5, true));
            // 레이어를 문서에 추가
            doc1.Layers.Add(layer);
            #endregion

            Console.WriteLine("press any key to save ...");
            Console.ReadKey(false);
            string filename = "default.sirius";

            // 문서(Document) 저장하기
            DocumentSerializer.Save(doc1, filename);

            Console.WriteLine("press any key to open ...");
            Console.ReadKey(false);
            // 문서(Document) 불러오기
            var doc2 = DocumentSerializer.OpenSirius(filename);

            Console.WriteLine("press any key to rtc initialize ...");
            Console.ReadKey(false);

            #region initialize RTC
            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0, "output.txt"); //create Rtc5 controller with list commands output file
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)
            //var rtc = new Rtc6SyncAxis(0, Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "syncAxis", "syncAXISConfig.xml")); //실험적인 상태 (Scanlab XLSCAN 솔류션)

            float fov            = 60.0f;                            // scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // 스캐너 보정 파일 지정 : correction file
            rtc.CtlFrequency(50 * 1000, 2);                          // laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);                                  // default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0);                      // scanner and laser delays
            #endregion

            #region initialize Laser (virtual)
            var laser = new LaserVirtual(0, "virtual", 20);  // virtual laser source with max 20W power (최대 출력 20W 의 가상 레이저 소스 생성)
            //var laser = new IPGYLP(0, "IPG YLP", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(2);
            #endregion

            Console.WriteLine("press any key to laser processing ...WARNING !!!  LASER EMISSION");
            Console.ReadKey(false);
            DoBegin(laser, rtc, doc2);

            Console.WriteLine("press any key to terminate program");
            Console.ReadKey(false);
        }
Пример #12
0
        static void Main(string[] args)
        {
            SpiralLab.Core.Initialize();

            #region initialize RTC
            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)
            //var rtc = new Rtc6SyncAxis(0, Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "syncAxis", "syncAXISConfig.xml")); //실험적인 상태 (Scanlab XLSCAN 솔류션)

            float fov            = 60.0f;                            // scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // 스캐너 보정 파일 지정 : correction file
            //signal level : if active low
            //var ctrlSignal = new Rtc5LaserControlSignal();
            //ctrlSignal.Add(Rtc5LaserControlSignal.Bit.Laser12SignalLevelLow);
            //ctrlSignal.Add(Rtc5LaserControlSignal.Bit.LaserOnSignalLevelLow);
            //rtc.CtlLaserSignalLevel(ctrlSignal);
            rtc.CtlFrequency(50 * 1000, 2);     // laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);             // default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0); // scanner and laser delays
            #endregion

            #region initialize Laser (virtual)
            var laser = new LaserVirtual(0, "virtual", 20);  // virtual laser source with max 20W power (최대 출력 20W 의 가상 레이저 소스 생성)
            //var laser = new IPGYLP(0, "IPG YLP", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(2);
            #endregion

            ConsoleKeyInfo key;
            do
            {
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("Testcase for spirallab.sirius. powered by [email protected] (http://spirallab.co.kr)");
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("'R' : draw rectangle with rotate");
                Console.WriteLine("'L' : draw lines with rotate");
                Console.WriteLine("'F' : pop up laser source form");
                Console.WriteLine("'Q' : quit");
                Console.WriteLine("");
                Console.Write("select your target : ");
                key = Console.ReadKey(false);
                if (key.Key == ConsoleKey.Q)
                {
                    break;
                }
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("WARNING !!! LASER IS BUSY ...");
                Console.WriteLine($"{Environment.NewLine}");
                var timer = Stopwatch.StartNew();
                switch (key.Key)
                {
                case ConsoleKey.R:      // 회전하는 사각형 모양 가공 (가로 10, 세로 10 크기, 0 ~360 각도의 회전 형상)
                    DrawRectangle(laser, rtc, 10, 10, 0, 360);
                    break;

                case ConsoleKey.L:      //회전하는 직선 모양 가공
                    DrawLinesWithRotate(laser, rtc, 0, 360);
                    break;

                case ConsoleKey.F:
                    SpiralLab.Sirius.Laser.LaserForm laerForm = new SpiralLab.Sirius.Laser.LaserForm();
                    laerForm.Laser = laser;
                    laerForm.ShowDialog();
                    break;
                }
                Console.WriteLine($"Processing time = {timer.ElapsedMilliseconds / 1000.0:F3}s");
            } while (true);

            rtc.Dispose();
        }
Пример #13
0
        static void Main(string[] args)
        {
            SpiralLab.Core.Initialize();

            #region initialize RTC
            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)
            //var rtc = new Rtc6SyncAxis(0, Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "syncAxis", "syncAXISConfig.xml")); //실험적인 상태 (Scanlab XLSCAN 솔류션)

            float fov            = 60.0f;                            /// scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     /// k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); ///default correction file
            rtc.CtlFrequency(50 * 1000, 2);                          ///laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);                                  /// default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0);                      ///scanner and laser delays
            #endregion

            #region initialize Laser source
            //var laser = new LaserVirtual(0, "Virtual", 20);
            var laser = new IPGYLPTypeD(0, "IPG YLP Type D", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            //var laser = new YourCustomLaser(0, "custom laser", 20.0f);
            //var laser = new YourCustomLaser2(0, "custom laser", 20.0f, 1);

            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(10);
            #endregion

            #region motor z axis
            IMotor motorZ = new MotorZ();
            motorZ.Initialize();
            motorZ.CtlHomeSearch();
            #endregion

            #region prepare your marker
            // 사용자 정의 마커 생성
            var marker = new YourCustomMarker(0);
            marker.Name = "custom marker";
            //가공 완료 이벤트 핸들러 등록
            marker.OnFinished += Marker_OnFinished;
            #endregion

            ConsoleKeyInfo key;
            do
            {
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("Testcase for spirallab.sirius. powered by [email protected] (http://spirallab.co.kr)");
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("'M' : mark by your custom marker");
                Console.WriteLine("'F' : laser form");
                Console.WriteLine("'Q' : quit");
                Console.WriteLine($"{Environment.NewLine}");
                Console.Write("select your target : ");
                key = Console.ReadKey(false);
                if (key.Key == ConsoleKey.Q)
                {
                    break;
                }
                Console.WriteLine($"{Environment.NewLine}");
                switch (key.Key)
                {
                case ConsoleKey.M:
                    Console.WriteLine("WARNING !!! LASER IS BUSY ...");
                    DrawByMarker(rtc, laser, marker, motorZ);
                    break;

                case ConsoleKey.F:
                    SpiralLab.Sirius.Laser.LaserForm laerForm = new SpiralLab.Sirius.Laser.LaserForm();
                    laerForm.Laser = laser;
                    laerForm.ShowDialog();
                    break;
                }
            } while (true);

            rtc.Dispose();
        }
Пример #14
0
        static void Main(string[] args)
        {
            SpiralLab.Core.Initialize();

            #region initialize RTC
            //var rtc = new RtcVirtual(0); //create Rtc for dummy
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //실험적인 상태 (Scanlab Rtc6 Ethernet 제어기)
            //var rtc = new Rtc6SyncAxis(0, Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "syncAxis", "syncAXISConfig.xml")); //실험적인 상태 (Scanlab XLSCAN 솔류션)

            float fov            = 60.0f;                            // scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // 스캐너 보정 파일 지정 : correction file
            rtc.CtlFrequency(50 * 1000, 2);                          // laser frequency : 50KHz, pulse width : 2usec
            rtc.CtlSpeed(100, 100);                                  // default jump and mark speed : 100mm/s
            rtc.CtlDelay(10, 100, 200, 200, 0);                      // scanner and laser delays
            #endregion

            #region initialize Laser (virtual)
            var laser = new LaserVirtual(0, "virtual", 20);  // virtual laser source with max 20W power (최대 출력 20W 의 가상 레이저 소스 생성)
            //var laser = new IPGYLP(0, "IPG YLP", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(2);
            #endregion

            ConsoleKeyInfo key;
            do
            {
                Console.WriteLine("Testcase for spirallab.sirius. powered by [email protected] (http://spirallab.co.kr)");
                Console.WriteLine("");
                Console.WriteLine("'S' : get status");
                Console.WriteLine("'A' : 지령 속도(Set Velocity) 기반 레이저 신호 (아나로그) 제어");
                Console.WriteLine("'B' : 위치 의존적(Position Dependent) + 지령 속도(Set Velocity) 기반 레이저 신호 (아나로그 ~10V) 제어");
                Console.WriteLine("'C' : 실제 속도(Actual Velocity) 기반 레이저 신호 (주파수 변조) 제어");
                Console.WriteLine("'D' : 벡터 위치(Vector Defined) 기반 레이저 신호(아나로그) 제어");
                Console.WriteLine("'Q' : quit");
                Console.WriteLine("");
                Console.Write("select your target : ");
                key = Console.ReadKey(false);
                Console.WriteLine("");
                if (key.Key == ConsoleKey.Q)
                {
                    break;
                }
                var timer = Stopwatch.StartNew();
                switch (key.Key)
                {
                case ConsoleKey.S:      //RTC의 상태 확인
                    if (rtc.CtlGetStatus(RtcStatus.Busy))
                    {
                        Console.WriteLine($"\r\nRtc is busy!");
                    }
                    else if (!rtc.CtlGetStatus(RtcStatus.PowerOK))
                    {
                        Console.WriteLine($"\r\nScanner power is not ok");
                    }
                    else if (!rtc.CtlGetStatus(RtcStatus.PositionAckOK))
                    {
                        Console.WriteLine($"\r\nScanner position is not acked");
                    }
                    else if (!rtc.CtlGetStatus(RtcStatus.NoError))
                    {
                        Console.WriteLine($"\r\nRtc status has an error");
                    }
                    else
                    {
                        Console.WriteLine($"\r\nIt's okay");
                    }
                    break;

                case ConsoleKey.A:
                    Console.WriteLine("\r\nWARNING !!! LASER IS BUSY ...");
                    DrawLine1(laser, rtc, -10, -10, 10, 10);
                    break;

                case ConsoleKey.B:
                    Console.WriteLine("\r\nWARNING !!! LASER IS BUSY ...");
                    DrawLine2(laser, rtc, -10, -10, 10, 10);
                    break;

                case ConsoleKey.C:
                    Console.WriteLine("\r\nWARNING !!! LASER IS BUSY ...");
                    DrawLine3(laser, rtc, -10, -10, 10, 10);
                    break;

                case ConsoleKey.D:
                    Console.WriteLine("\r\nWARNING !!! LASER IS BUSY ...");
                    DrawLine4(laser, rtc, -10, -10, 10, 10);
                    break;
                }
                Console.WriteLine($"Processing time = {timer.ElapsedMilliseconds / 1000.0:F3}s");
            } while (true);

            rtc.Dispose();
        }
Пример #15
0
        static void Main(string[] args)
        {
            SpiralLab.Core.Initialize();    //initializing spirallab.sirius library engine (시리우스 라이브러리 초기화)

            #region initialize RTC
            //var rtc = new RtcVirtual(0); //create Rtc for dummy (가상 RTC 카드)
            var rtc = new Rtc5(0); //create Rtc5 controller
            //var rtc = new Rtc6(0); //create Rtc6 controller
            //var rtc = new Rtc6Ethernet(0, "192.168.0.100", "255.255.255.0"); //Rtc6 Ethernet
            //var rtc = new Rtc6SyncAxis(0, Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "syncAxis", "syncAXISConfig.xml")); //Scanlab XLSCAN

            float fov            = 60.0f;                            // scanner field of view : 60mm
            float kfactor        = (float)Math.Pow(2, 20) / fov;     // k factor (bits/mm) = 2^20 / fov
            var   correctionFile = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "correction", "cor_1to1.ct5");
            rtc.Initialize(kfactor, LaserMode.Yag1, correctionFile); // correction file (스캐너 보정 파일)
            rtc.CtlFrequency(50 * 1000, 2);                          // laser frequency : 50KHz, pulse width : 2usec (주파수 50KHz, 펄스폭 2usec)
            rtc.CtlSpeed(500, 500);                                  // jump and mark speed : 500mm/s (점프, 마크 속도 500mm/s)
            rtc.CtlDelay(10, 100, 200, 200, 0);                      // scanner and laser delays (스캐너/레이저 지연값 설정)
            #endregion

            #region initialize Laser (virtual)
            var laser = new LaserVirtual(0, "virtual", 20);  // virtual laser source with max 20W power (최대 출력 20W 의 가상 레이저 소스 생성)
            //var laser = new IPGYLP(0, "IPG YLP", 1, 20);
            //var laser = new JPTTypeE(0, "JPT Type E", 1, 20);
            //var laser = new SPIG4(0, "SPI G3/4", 1, 20);
            //var laser = new PhotonicsIndustryDX(0, "PI", 1, 20);
            //var laser = new AdvancedOptoWaveFotia(0, "Fotia", 1, 20);
            //var laser = new CoherentAviaLX(0, "Avia LX", 1, 20);
            laser.Rtc = rtc;
            laser.Initialize();
            laser.CtlPower(2);
            #endregion

            ConsoleKeyInfo key;
            do
            {
                Console.WriteLine($"{Environment.NewLine}");
                Console.WriteLine("Testcase for spirallab.sirius. powered by [email protected] (http://spirallab.co.kr)");
                Console.WriteLine($"----------------------------------------------------------------------------------------");
                Console.WriteLine("'S' : get status");
                Console.WriteLine("'L' : draw line");
                Console.WriteLine("'C' : draw circle");
                Console.WriteLine("'R' : draw rectangle");
                Console.WriteLine("'D' : draw circle with dots");
                Console.WriteLine("'P' : draw square area with pixel operation");
                Console.WriteLine("'H' : draw heavy and slow job with thread");
                Console.WriteLine("'A' : abort to mark and finish the thread");
                Console.WriteLine("'F' : pop up laser source form");
                Console.WriteLine("'Q' : quit");
                Console.Write("Select your target : ");
                key = Console.ReadKey(false);
                Console.WriteLine($"{Environment.NewLine}");
                if (key.Key == ConsoleKey.Q)
                {
                    break;
                }
                switch (key.Key)
                {
                case ConsoleKey.S:      //RTC's status (상태 확인)
                    if (rtc.CtlGetStatus(RtcStatus.Busy))
                    {
                        Console.WriteLine($"Rtc is busy!");
                    }
                    if (!rtc.CtlGetStatus(RtcStatus.PowerOK))
                    {
                        Console.WriteLine($"Scanner power is not ok");
                    }
                    if (!rtc.CtlGetStatus(RtcStatus.PositionAckOK))
                    {
                        Console.WriteLine($"Scanner position is not acked");
                    }
                    if (!rtc.CtlGetStatus(RtcStatus.NoError))
                    {
                        Console.WriteLine($"Rtc status has an error");
                    }
                    break;

                case ConsoleKey.L:      // draw line (선 모양 가공)
                    DrawLine(laser, rtc, -10, -10, 10, 10);
                    break;

                case ConsoleKey.C:      // draw circle (원 모양 가공)
                    DrawCircle(laser, rtc, 10);
                    break;

                case ConsoleKey.R:      // draw rectangle (사각형 모양 가공)
                    DrawRectangle(laser, rtc, 10, 10);
                    break;

                case ConsoleKey.D:      // draw dotted circle (점으로 이루어진 원 모양 가공)
                    DrawCircleWithDots(laser, rtc, 10, 1.0f);
                    break;

                case ConsoleKey.P:      // draw filled rectangle with raster (사각 영역을 픽셀(Raster)로 채우기
                    DrawSquareAreaWithPixels(laser, rtc, 10, 0.2f);
                    break;

                case ConsoleKey.H:      // draw with heavy works (시간이 오래 걸리는 모양을 가공 -별도 가공 쓰레드 생성하여 처리)
                    DrawTooHeavyAndSlowJob(laser, rtc);
                    break;

                case ConsoleKey.A:      // abort operation (강제 가공 중지)
                    StopMarkAndReset(laser, rtc);
                    break;

                case ConsoleKey.F:
                    SpiralLab.Sirius.Laser.LaserForm laerForm = new SpiralLab.Sirius.Laser.LaserForm();
                    laerForm.Laser = laser;
                    laerForm.ShowDialog();
                    break;
                }
            } while (true);

            if (rtc.CtlGetStatus(RtcStatus.Busy))
            {
                rtc.CtlAbort();
                rtc.CtlBusyWait();
            }
            rtc.Dispose();
        }