Beispiel #1
0
        //void Refine

        void DipoleAnalyseOneStepOnly()
        {
            if (!CheckForCalibration() || !bDeviceConnected)
            {
                return;
            }
            Int64 nFrequencyStep;

            float[] fSweepResult = null;
            Int64   nFrequencyBase;
            int     nCaptureCount;

            // first scan
            MyNotifier.SetProgressBar(SweepProgressBar);
            LOGDraw("Start dipole detection...");
            nFrequencyBase = nFrequencyDetectionStart;
            nCaptureCount  = Convert.ToInt32(SamplesTextBox.Text);
            nFrequencyStep = ((nFrequencyDetectionEnd - nFrequencyDetectionStart) + (nCaptureCount - 1)) / nCaptureCount;


            if (nFrequencyStep == 0)
            {
                nFrequencyStep      = 1;
                nCaptureCount       = (int)(nFrequencyDetectionEnd - nFrequencyDetectionStart);
                SamplesTextBox.Text = nCaptureCount.ToString();
            }

            fSweepResult = RunSweep(nFrequencyBase,
                                    nFrequencyStep,
                                    nCaptureCount,
                                    MyNotifier,
                                    (NWTDevice.DetectorUsed)DetectorCombobox.SelectedItem);


            SingleCurveDisplay(nFrequencyBase, nFrequencyStep, fSweepResult);

            DipoleProcessAnalyseOnFinalRange(fSweepResult, nFrequencyBase, nFrequencyStep);
            RefreshQERFilterEstimator();
        }
Beispiel #2
0
        void DipoleAnalyse()
        {
            if (!CheckForCalibration() || !bDeviceConnected)
            {
                return;
            }
            Int64 nFrequencyStep;

            float[] fSweepResult = null;
            Int64   nFrequencyBase;
            int     nCaptureCount;
            int     nserieIndex;
            Int64   nserieFrequency;


            // first scan
            MyNotifier.SetProgressBar(SweepProgressBar);
            LOGDraw("Start dipole detection...");
            nFrequencyBase = nFrequencyDetectionStart;
            nCaptureCount  = 9999;
            nFrequencyStep = ((nFrequencyDetectionEnd - nFrequencyDetectionStart) + (nCaptureCount - 1)) / nCaptureCount;


            if (nFrequencyStep == 0)
            {
                nFrequencyStep      = 1;
                nCaptureCount       = (int)(nFrequencyDetectionEnd - nFrequencyDetectionStart);
                SamplesTextBox.Text = nCaptureCount.ToString();
            }

            fSweepResult = RunSweep(nFrequencyBase, nFrequencyStep, nCaptureCount, MyNotifier);


            SingleCurveDisplay(nFrequencyBase, nFrequencyStep, fSweepResult);

            // check if the precision will be acceptable


            {
                nserieIndex     = Utility.RetrieveMaxValueIndex(fSweepResult);
                nserieFrequency = nFrequencyBase + nserieIndex * nFrequencyStep;
                LOGDraw("first estimation serie resonance :" + Utility.GetStringWithSeparators(nserieFrequency / 1000, " ") + "kHz");

                int nStepFromFrequencyFactor = (int)((nserieFrequency * 6) / 30000000);

                if (nStepFromFrequencyFactor > 5)
                {
                    nStepFromFrequencyFactor = 5;
                }

                nFrequencyStep = (nStepFromFrequencyFactor) + 1;


                if (!ParallelCheckBox.Checked)
                {
                    nFrequencyBase = nserieFrequency - nFrequencyStep * 5000;
                }
                else
                {
                    nFrequencyBase = nserieFrequency - nFrequencyStep * 3300;
                }

                nCaptureCount = 9999;
                LOGDraw("dipole accurate analyse...");
                fSweepResult = RunSweep(nFrequencyBase, nFrequencyStep, nCaptureCount, MyNotifier);

                SingleCurveDisplay(nFrequencyBase, nFrequencyStep, fSweepResult);
            }

            float nParralelLeveldB    = 0.0f;
            float fParrallelFrequency = 0.0f;

            if (ParallelCheckBox.Checked)
            {
                int nParrallelIndex = Utility.RetrieveMinValueIndex(fSweepResult);

                while (nParrallelIndex > 9500)
                {
                    nFrequencyStep += nFrequencyStep;
                    LOGDraw("parrallel mode resonance not found, we broaden the scan...");
                    fSweepResult = RunSweep(nFrequencyBase, nFrequencyStep, nCaptureCount, MyNotifier);

                    SingleCurveDisplay(nFrequencyBase, nFrequencyStep, fSweepResult);

                    nParrallelIndex = Utility.RetrieveMinValueIndex(fSweepResult);
                }
                nParralelLeveldB    = fSweepResult[nParrallelIndex];
                fParrallelFrequency = nFrequencyBase + nParrallelIndex * nFrequencyStep;
            }


            DipoleProcessAnalyseOnFinalRange(fSweepResult, nFrequencyBase, nFrequencyStep);
            RefreshQERFilterEstimator();
        }
Beispiel #3
0
        public Form1()
        {
            InitializeComponent();
            SweepModeCurvesList.Clear();
            SweepModeCurvesList.Add(new CCurve());

            CurveListComboBox.DataSource           = null;
            CurveListComboBox.DataSource           = SweepModeCurvesList;
            CurveListComboBox.SelectedItem         = SweepModeCurvesList[0];
            CurveConfigPropertyGrid.SelectedObject = SweepModeCurvesList[0];


            AutodetectCOMcheckBox.Checked = Program.Save.SerialPortAutodetectAtLaunch;
            RawCaptureCheckBox.Checked    = Program.Save.RawCapture;

            //SerialPortComboBox.SelectedValueChanged -= DevicesComboBox_SelectedValueChanged;
            RefreshCOMPortList();
            //SerialPortComboBox.SelectedValueChanged += DevicesComboBox_SelectedValueChanged;


            Text = Program.Version;
            OutputModeComboBox.DataSource   = Enum.GetValues(typeof(OutputMode));
            FilterComboBox.DataSource       = Enum.GetValues(typeof(FilterMode));
            OutputModeComboBox.SelectedItem = Program.Save.Output;
            FilterComboBox.SelectedItem     = Program.Save.Filter;


            AttLevelcomboBox.SelectedIndexChanged -= AttLevelcomboBox_SelectedIndexChanged;
            AttLevelcomboBox.DataSource            = Enum.GetValues(typeof(AttLevel));
            AttLevelcomboBox.SelectedIndexChanged += AttLevelcomboBox_SelectedIndexChanged;

            DetectorCombobox.DataSource = Enum.GetValues(typeof(NWTDevice.DetectorUsed));
            MyNotifier.SetProgressBar(SweepProgressBar);
            MyNotifier.SetForm(this);

            DeviceManagerInit();
            //SerialPortComboBox.Items.AddRange(SerialPort.GetPortNames());
            //AutoDetectserialPort();
            DeviceListMenuRefresh();

            bMuteDeviceComboBoxEvent = true;

            int nDeviceIndex = GetDeviceIndex(Program.Save.LastUsedDevice);

            if (nDeviceIndex >= 0)
            {
                SelectecDeviceComboBox.SelectedIndex = nDeviceIndex;
            }
            else
            {
                SelectecDeviceComboBox.SelectedIndex = 0;
            }

            bMuteDeviceComboBoxEvent = false;

            SetAnalyzer(SelectecDeviceComboBox.SelectedIndex, true);


            if (Program.Save.LastUsedCOMPort != null)
            {
                // we try to initalize this com port
                bool bSuccess = SerialPortInitialize(Program.Save.LastUsedCOMPort);

                if (bSuccess)
                {
                    SerialPortComboBox.SelectedItem = Program.Save.LastUsedCOMPort;
                }


                if (!bSuccess && Program.Save.SerialPortAutodetectAtLaunch)
                {
                    AutoDetectSerialPort();
                }
            }
            else
            {
                if (Program.Save.SerialPortAutodetectAtLaunch)
                {
                    AutoDetectSerialPort();
                }
            }

            AttCalCheckBox.Checked = Program.Save.AttCal;
            SpectrumPictureBox.SetOwnedForm(this);

            SetSampleCount(Program.Save.SampleCount);

            if (DeviceInterface.GetDevice().Attenuator)
            {
                if (Program.Save.AttCal)
                {
                    DeviceInterface.SetAttenuatorLevel((AttLevel)AttLevelcomboBox.SelectedItem, (AttLevel)AttLevelcomboBox.SelectedItem);
                }
                else
                {
                    DeviceInterface.SetAttenuatorLevel((AttLevel)AttLevelcomboBox.SelectedItem, AttLevel._0dB);
                }
            }

            VFOFrequencyTextBox.Text = Utility.GetStringWithSeparators(Program.Save.LastVFOFrequency, " ");
        }