private void CheckPCBACommunication() { if (boolPass) { Log.Info("Prompt", "1.) Checking PCBA Communication\n\n"); TestProbeAPICommand APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_get_firmware_version_Message_ID, TestProbeAPICommand.HST_get_firmware_version_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); bool commandSentToMicroprocessor = constructAndSendWriteDataBuffer(); Delay(1000); UIUtility.BeginInvoke(this, () => { if (PCBACommunicationStatusFlag) { this.picTestStatus1.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.PASS, new System.Drawing.Size(36, 36))); } else { this.picTestStatus1.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.FAIL, new System.Drawing.Size(36, 36))); boolPass = false; } this.picTestStatus1.Visible = true; }); } }
private void PCBASettingParameter() { Delay(1000); if (boolPass) { Log.Info("Prompt", "2.) SettingPCBAParameter\n"); btnConfigurationSaveConfiguration_Click(this, new EventArgs()); disableAllAPIButtons(); UIUtility.BeginInvoke(this, () => { if (PCBAParameterSettingsStatusFlag) { this.picTestStatus2.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.PASS, new System.Drawing.Size(36, 36))); } else { this.picTestStatus2.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.FAIL, new System.Drawing.Size(36, 36))); boolPass = false; } this.picTestStatus2.Visible = true; }); } }
private void PCBADisablePricisorCompensation() { Delay(1000); if (boolPass) { Log.Info("Prompt", "5.) Disable Precisor Compensation\n"); for (int index = 1; index < 3; index++) { // Read the Precisor Capaciatnce Compensation Value //TestProbe53SetGetPrecisorCapacitanceCompensation.PrecisorIndex = (byte)index; //byte[] ByteArrayFromStructure = CommonFunctions.Instance.StructureToByteArray(TestProbe53SetGetPrecisorCapacitanceCompensation); //TestProbeAPICommand APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_get_precisor_cap_compensation_Message_ID, TestProbeAPICommand.HST_get_precisor_cap_compensation_Message_Size, ByteArrayFromStructure); //CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); //bool commandSentToMicroprocessor = constructAndSendWriteDataBuffer(); //Delay(3000); //------------------------------- // Write the Precisor Capaciatnce Compensation Value if (index == 1) { TestProbe52SetPrecisorCapacitanceCompensation.PrecisorIndex = 1; } else { TestProbe52SetPrecisorCapacitanceCompensation.PrecisorIndex = 2; } TestProbe52SetPrecisorCapacitanceCompensation.EnableFlag = 0; //Disable the compensation byte[] ByteArrayFromStructure = CommonFunctions.Instance.StructureToByteArray(TestProbe52SetPrecisorCapacitanceCompensation); TestProbeAPICommand APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_set_precisor_cap_compensation_Message_ID, TestProbeAPICommand.HST_set_precisor_cap_compensation_Message_Size, ByteArrayFromStructure); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); bool commandSentToMicroprocessor = constructAndSendWriteDataBuffer(); Delay(1000); } //Delay(1000); UIUtility.BeginInvoke(this, () => { if (PCBADisablePrecisorCompensationStatusFlag) { this.picTestStatus5.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.PASS, new System.Drawing.Size(36, 36))); } else { this.picTestStatus5.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.FAIL, new System.Drawing.Size(36, 36))); boolPass = false; } this.picTestStatus5.Visible = true; }); } }
private void PCBAFunctionalTest() { Delay(1000); if (boolPass) { Log.Info("Prompt", "7.) PCBA Functional Test\n"); Delay(1000); ClearDisplay(); TestProbe9SetStartMeasurement.FlexCableIndex = 1; byte[] ByteArrayFromStructure = CommonFunctions.Instance.StructureToByteArray(TestProbe9SetStartMeasurement); TestProbeAPICommand APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_start_meas_Message_ID, TestProbeAPICommand.HST_start_meas_Message_Size, ByteArrayFromStructure); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_get_short_detection_Message_ID, TestProbeAPICommand.HST_get_short_detection_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_get_res_results_Message_ID, TestProbeAPICommand.HST_get_res_results_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_get_cap_results_Message_ID, TestProbeAPICommand.HST_get_cap_results_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_get_cap_secondary_results_Message_ID, TestProbeAPICommand.HST_get_cap_secondary_results_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); bool commandSentToMicroprocessor = constructAndSendWriteDataBuffer(); Delay(12000); UIUtility.BeginInvoke(this, () => { if (PCBAFunctionalTestStatusFlag) { this.picTestStatus7.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.PASS, new System.Drawing.Size(36, 36))); } else { this.picTestStatus7.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.FAIL, new System.Drawing.Size(36, 36))); boolPass = false; } this.picTestStatus7.Visible = true; }); } }
private void InBit_Click(object sender, EventArgs e) { LEDButton led = sender as LEDButton; if (led == null || led.ReadOnly) { return; } int bitNum = Convert.ToInt32(led.Tag) + _bitGroup * NUM_IO_DISPLAY; if (bitNum >= _io.DIBits.Count) { return; } DIBit bit = _io.DIBits[bitNum]; if (bit == null) { return; } bool prevState = led.Checked; led.Enabled = false; Task.Factory.StartNew <bool>(() => { // toggle the value bool value = !bit.Get(); bit.Set(value); return(value); }) .ContinueWith(t => { UIUtility.BeginInvoke(this, () => { led.Checked = t.Result; led.Enabled = true; }); if (t.IsFaulted) { Notify.PopUpError(String.Format("Failed to Set {0}", bit.Name), t.Exception.InnerException); } }); }
private void PCBAAutoCalibration() { Delay(1000); if (boolPass) { Delay(1000); Log.Info("Prompt", "3.) Perform PCBA Auto Calibration\n"); TestProbe17CalibrationEnable.EnableFlag = 1; byte[] ByteArrayFromStructure = CommonFunctions.Instance.StructureToByteArray(TestProbe17CalibrationEnable); TestProbeAPICommand APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_calibration_enable_Message_ID, TestProbeAPICommand.HST_calibration_enable_Message_Size, ByteArrayFromStructure); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_start_auto_calibration_Message_ID, TestProbeAPICommand.HST_start_auto_calibration_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_save_calibration_data_Message_ID, TestProbeAPICommand.HST_save_calibration_data_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); bool commandSentToMicroprocessor = constructAndSendWriteDataBuffer(); Delay(12000); UIUtility.BeginInvoke(this, () => { if (PCBAAutoCalibrationStatusFlag) { this.picTestStatus3.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.PASS, new System.Drawing.Size(36, 36))); } else { this.picTestStatus3.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.FAIL, new System.Drawing.Size(36, 36))); boolPass = false; } this.picTestStatus3.Visible = true; }); } // chkPCBACalibrationCalibrationEnable.Checked = false; }
private void PCBASetShortCircuitParameter() { Delay(1000); if (boolPass) { Log.Info("Prompt", "4.) Set Short Circuit Parameter\n"); // TestProbe47SetShortDetectionThreshold byte[] ByteArray = BitConverter.GetBytes(string.IsNullOrEmpty(txtCableCalibrationShortDetectionThreshold.Text) ? 0 : 40); TestProbe47SetShortDetectionThreshold.ThresholdVoltageLSBLow = ByteArray[0]; TestProbe47SetShortDetectionThreshold.ThresholdVoltageLSBMid = ByteArray[1]; TestProbe47SetShortDetectionThreshold.ThresholdVoltageMSBLow = ByteArray[2]; TestProbe47SetShortDetectionThreshold.ThresholdVoltageMSBHigh = ByteArray[3]; byte[] ByteArrayFromStructure = CommonFunctions.Instance.StructureToByteArray(TestProbe47SetShortDetectionThreshold); TestProbeAPICommand APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_set_short_detection_threshold_Message_ID, TestProbeAPICommand.HST_set_short_detection_threshold_Message_Size, ByteArrayFromStructure); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); bool commandSentToMicroprocessor = constructAndSendWriteDataBuffer(); Delay(1000); UIUtility.BeginInvoke(this, () => { if (PCBAShortCircuitSettingsStatusFlag) { this.picTestStatus4.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.PASS, new System.Drawing.Size(36, 36))); } else { this.picTestStatus4.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.FAIL, new System.Drawing.Size(36, 36))); boolPass = false; } this.picTestStatus4.Visible = true; }); } }
private void btnDesktopTestsMultipleMeasure_Click(object sender, EventArgs e) { int MeasurementCount = int.Parse(txtDesktopTestsMeasurementCount.Text); int CycleCount = int.Parse(txtDesktopTestsCycleCount.Text); if (CycleCount < 0) { Notify.PopUpError("Invalid Cycle Count Value", "Unable to start multiple measurement due to invalid value of cycle count entered."); return; } if (MeasurementCount < 0) { Notify.PopUpError("Invalid Measurement Count Value", "Unable to start multiple measurement due to invalid value of measurement count entered."); return; } if (CycleCount == 0 && MeasurementCount == 0) { Notify.PopUpError("Unable to Run Test", "Unable to start multiple measurement due to both cycle count and measurement count being 0."); return; } if (String.IsNullOrEmpty(txtDesktopTestsFileName.Text)) { Notify.PopUpError("Missing Output File Name", "Unable to start multiple measurement due to no output file name entered."); return; } string OQCTestReportFilePath = string.Format("{0}{1}.txt", CommonFunctions.Instance.MeasurementTestFileDirectory, txtDesktopTestsFileName.Text); if (!Directory.Exists(CommonFunctions.Instance.MeasurementTestFileDirectory)) { Directory.CreateDirectory(CommonFunctions.Instance.MeasurementTestFileDirectory); } if (File.Exists(OQCTestReportFilePath)) { using (StreamWriter WriteToFile = new StreamWriter(OQCTestReportFilePath, true)) { WriteToFile.WriteLine(""); WriteToFile.WriteLine(""); WriteToFile.WriteLine("**********************************************************************************************************************************"); WriteToFile.WriteLine(""); WriteToFile.WriteLine(""); } } CommonFunctions.Instance.DesktopTestsMultiple = true; using (StreamWriter WriteToFile = new StreamWriter(OQCTestReportFilePath, true)) { WriteToFile.WriteLine(" Measurement Tests"); WriteToFile.WriteLine(""); WriteToFile.WriteLine(""); } if (CycleCount == 0 && MeasurementCount != 0) { // No Precisor Nest movement } Task t = Task.Factory.StartNew(() => { for (int j = 0; j < CycleCount; j++) { if (String.Compare(cboDesktopTestsUpDownTabSelection.Text, "UP", true) == 0) { TestProbe91SetDesktopLoadHGA.UpDownTabIndex = 1; } else { TestProbe91SetDesktopLoadHGA.UpDownTabIndex = 2; } byte[] ByteArrayFromStructure = CommonFunctions.Instance.StructureToByteArray(TestProbe91SetDesktopLoadHGA); TestProbeAPICommand APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_desktop_tester_load_hga_Message_ID, TestProbeAPICommand.HST_desktop_tester_load_hga_Message_Size, ByteArrayFromStructure); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); bool commandSentToMicroprocessor = constructAndSendWriteDataBuffer(); HGAsLoaded = false; while (!HGAsLoaded) { Thread.Sleep(100); } using (StreamWriter WriteToFile = new StreamWriter(OQCTestReportFilePath, true)) { WriteToFile.WriteLine(""); WriteToFile.WriteLine("Cycle {0}", (j + 1)); WriteToFile.WriteLine("========="); WriteToFile.WriteLine("Cycle #, Test #, HGA#, Short, , , , Resistance (Ω), , , , , Capacitance"); WriteToFile.WriteLine(", , , Detection, Ch1, Ch2, Ch3, Ch4, Ch5, Ch6, , C1, , C2"); WriteToFile.WriteLine(", , , , , , , , , , C (pF), ESR (mΩ), C (pF), ESR (mΩ)"); } UIUtility.BeginInvoke(this, () => { txtDesktopTestsCycleCountingDown.Text = (CycleCount - j).ToString(); txtDesktopTestsMeasurementCountingDown.Text = MeasurementCount.ToString(); }); for (int i = 0; i < MeasurementCount; i++) { if (CommonFunctions.Instance.DesktopTestsMultiple == false) { break; } if (String.Compare(cboDesktopTestsUpDownTabSelection.Text, "UP", true) == 0) { TestProbe9SetStartMeasurement.FlexCableIndex = 1; } else { TestProbe9SetStartMeasurement.FlexCableIndex = 2; } ByteArrayFromStructure = CommonFunctions.Instance.StructureToByteArray(TestProbe9SetStartMeasurement); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_start_meas_Message_ID, TestProbeAPICommand.HST_start_meas_Message_Size, ByteArrayFromStructure); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_get_short_detection_Message_ID, TestProbeAPICommand.HST_get_short_detection_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_get_res_results_Message_ID, TestProbeAPICommand.HST_get_res_results_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_get_cap_results_Message_ID, TestProbeAPICommand.HST_get_cap_results_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_get_cap_secondary_results_Message_ID, TestProbeAPICommand.HST_get_cap_secondary_results_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); commandSentToMicroprocessor = constructAndSendWriteDataBuffer(); UIUtility.BeginInvoke(this, () => { txtDesktopTestsMeasurementCountingDown.Text = (MeasurementCount - i).ToString(); }); DataReceived = false; while (!DataReceived) { Thread.Sleep(100); } using (StreamWriter WriteToFile = new StreamWriter(OQCTestReportFilePath, true)) { WriteToFile.WriteLine("{0}, {1}, 1, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}, {11}, {12}", (j + 1), (i + 1), txtDesktopTestsHGA1Short.Text, txtDesktopTestsHGA1Ch1Res.Text, txtDesktopTestsHGA1Ch2Res.Text, txtDesktopTestsHGA1Ch3Res.Text, txtDesktopTestsHGA1Ch4Res.Text, txtDesktopTestsHGA1Ch5Res.Text, txtDesktopTestsHGA1Ch6Res.Text, txtDesktopTestsHGA1Ch1Capa.Text, txtDesktopTestsHGA1Ch1ESR.Text, txtDesktopTestsHGA1Ch2Capa.Text, txtDesktopTestsHGA1Ch2ESR.Text); WriteToFile.WriteLine(", 2, {0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}", txtDesktopTestsHGA2Short.Text, txtDesktopTestsHGA2Ch1Res.Text, txtDesktopTestsHGA2Ch2Res.Text, txtDesktopTestsHGA2Ch3Res.Text, txtDesktopTestsHGA2Ch4Res.Text, txtDesktopTestsHGA2Ch5Res.Text, txtDesktopTestsHGA2Ch6Res.Text, txtDesktopTestsHGA2Ch1Capa.Text, txtDesktopTestsHGA2Ch1ESR.Text, txtDesktopTestsHGA2Ch2Capa.Text, txtDesktopTestsHGA2Ch2ESR.Text); WriteToFile.WriteLine(", 3, {0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}", txtDesktopTestsHGA3Short.Text, txtDesktopTestsHGA3Ch1Res.Text, txtDesktopTestsHGA3Ch2Res.Text, txtDesktopTestsHGA3Ch3Res.Text, txtDesktopTestsHGA3Ch4Res.Text, txtDesktopTestsHGA3Ch5Res.Text, txtDesktopTestsHGA3Ch6Res.Text, txtDesktopTestsHGA3Ch1Capa.Text, txtDesktopTestsHGA3Ch1ESR.Text, txtDesktopTestsHGA3Ch2Capa.Text, txtDesktopTestsHGA3Ch2ESR.Text); WriteToFile.WriteLine(", 4, {0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}", txtDesktopTestsHGA4Short.Text, txtDesktopTestsHGA4Ch1Res.Text, txtDesktopTestsHGA4Ch2Res.Text, txtDesktopTestsHGA4Ch3Res.Text, txtDesktopTestsHGA4Ch4Res.Text, txtDesktopTestsHGA4Ch5Res.Text, txtDesktopTestsHGA4Ch6Res.Text, txtDesktopTestsHGA4Ch1Capa.Text, txtDesktopTestsHGA4Ch1ESR.Text, txtDesktopTestsHGA4Ch2Capa.Text, txtDesktopTestsHGA4Ch2ESR.Text); WriteToFile.WriteLine(", 5, {0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}", txtDesktopTestsHGA5Short.Text, txtDesktopTestsHGA5Ch1Res.Text, txtDesktopTestsHGA5Ch2Res.Text, txtDesktopTestsHGA5Ch3Res.Text, txtDesktopTestsHGA5Ch4Res.Text, txtDesktopTestsHGA5Ch5Res.Text, txtDesktopTestsHGA5Ch6Res.Text, txtDesktopTestsHGA5Ch1Capa.Text, txtDesktopTestsHGA5Ch1ESR.Text, txtDesktopTestsHGA5Ch2Capa.Text, txtDesktopTestsHGA5Ch2ESR.Text); WriteToFile.WriteLine(", 5, {0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}", txtDesktopTestsHGA6Short.Text, txtDesktopTestsHGA6Ch1Res.Text, txtDesktopTestsHGA6Ch2Res.Text, txtDesktopTestsHGA6Ch3Res.Text, txtDesktopTestsHGA6Ch4Res.Text, txtDesktopTestsHGA6Ch5Res.Text, txtDesktopTestsHGA6Ch6Res.Text, txtDesktopTestsHGA6Ch1Capa.Text, txtDesktopTestsHGA6Ch1ESR.Text, txtDesktopTestsHGA6Ch2Capa.Text, txtDesktopTestsHGA6Ch2ESR.Text); WriteToFile.WriteLine(", 7, {0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}", txtDesktopTestsHGA7Short.Text, txtDesktopTestsHGA7Ch1Res.Text, txtDesktopTestsHGA7Ch2Res.Text, txtDesktopTestsHGA7Ch3Res.Text, txtDesktopTestsHGA7Ch4Res.Text, txtDesktopTestsHGA7Ch5Res.Text, txtDesktopTestsHGA7Ch6Res.Text, txtDesktopTestsHGA7Ch1Capa.Text, txtDesktopTestsHGA7Ch1ESR.Text, txtDesktopTestsHGA7Ch2Capa.Text, txtDesktopTestsHGA7Ch2ESR.Text); WriteToFile.WriteLine(", 8, {0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}", txtDesktopTestsHGA8Short.Text, txtDesktopTestsHGA8Ch1Res.Text, txtDesktopTestsHGA8Ch2Res.Text, txtDesktopTestsHGA8Ch3Res.Text, txtDesktopTestsHGA8Ch4Res.Text, txtDesktopTestsHGA8Ch5Res.Text, txtDesktopTestsHGA8Ch6Res.Text, txtDesktopTestsHGA8Ch1Capa.Text, txtDesktopTestsHGA8Ch1ESR.Text, txtDesktopTestsHGA8Ch2Capa.Text, txtDesktopTestsHGA8Ch2ESR.Text); WriteToFile.WriteLine(", 9, {0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}", txtDesktopTestsHGA9Short.Text, txtDesktopTestsHGA9Ch1Res.Text, txtDesktopTestsHGA9Ch2Res.Text, txtDesktopTestsHGA9Ch3Res.Text, txtDesktopTestsHGA9Ch4Res.Text, txtDesktopTestsHGA9Ch5Res.Text, txtDesktopTestsHGA9Ch6Res.Text, txtDesktopTestsHGA9Ch1Capa.Text, txtDesktopTestsHGA9Ch1ESR.Text, txtDesktopTestsHGA9Ch2Capa.Text, txtDesktopTestsHGA9Ch2ESR.Text); WriteToFile.WriteLine(", 10, {0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}", txtDesktopTestsHGA10Short.Text, txtDesktopTestsHGA10Ch1Res.Text, txtDesktopTestsHGA10Ch2Res.Text, txtDesktopTestsHGA10Ch3Res.Text, txtDesktopTestsHGA10Ch4Res.Text, txtDesktopTestsHGA10Ch5Res.Text, txtDesktopTestsHGA10Ch6Res.Text, txtDesktopTestsHGA10Ch1Capa.Text, txtDesktopTestsHGA10Ch1ESR.Text, txtDesktopTestsHGA10Ch2Capa.Text, txtDesktopTestsHGA10Ch2ESR.Text); WriteToFile.WriteLine(""); WriteToFile.WriteLine(""); } } UIUtility.BeginInvoke(this, () => { txtDesktopTestsMeasurementCountingDown.Text = "0"; }); TestProbeAPICommand EjectHGAsAPICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_desktop_tester_eject_hga_Message_ID, TestProbeAPICommand.HST_desktop_tester_eject_hga_Message_Size, null); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(EjectHGAsAPICommand); bool EjectHGAsCommandSentToMicroprocessor = constructAndSendWriteDataBuffer(); HGAsEjected = false; while (!HGAsEjected) { Thread.Sleep(100); } Thread.Sleep(1000); } if (CommonFunctions.Instance.DesktopTestsMultiple == false) { Notify.PopUp("Multiple Measurements Aborted", "Could not complete multiple measurements due to user interruption.", "", "OK"); } CommonFunctions.Instance.DesktopTestsMultiple = false; UIUtility.BeginInvoke(this, () => { txtDesktopTestsCycleCountingDown.Text = "0"; txtDesktopTestsMeasurementCountingDown.Text = "0"; }); }); }
private void ClearDisplay() { UIUtility.BeginInvoke(this, () => { txtBenchTestsHGA1Short.Text = ""; txtBenchTestsHGA1Ch1Res.Text = ""; txtBenchTestsHGA1Ch2Res.Text = ""; txtBenchTestsHGA1Ch3Res.Text = ""; txtBenchTestsHGA1Ch4Res.Text = ""; txtBenchTestsHGA1Ch5Res.Text = ""; txtBenchTestsHGA1Ch6Res.Text = ""; txtBenchTestsHGA1Ch1Capa.Text = ""; txtBenchTestsHGA1Ch1ESR.Text = ""; txtBenchTestsHGA1Ch2Capa.Text = ""; txtBenchTestsHGA1Ch2ESR.Text = ""; txtBenchTestsHGA2Short.Text = ""; txtBenchTestsHGA2Ch1Res.Text = ""; txtBenchTestsHGA2Ch2Res.Text = ""; txtBenchTestsHGA2Ch3Res.Text = ""; txtBenchTestsHGA2Ch4Res.Text = ""; txtBenchTestsHGA2Ch5Res.Text = ""; txtBenchTestsHGA2Ch6Res.Text = ""; txtBenchTestsHGA2Ch1Capa.Text = ""; txtBenchTestsHGA2Ch1ESR.Text = ""; txtBenchTestsHGA2Ch2Capa.Text = ""; txtBenchTestsHGA2Ch2ESR.Text = ""; txtBenchTestsHGA3Short.Text = ""; txtBenchTestsHGA3Ch1Res.Text = ""; txtBenchTestsHGA3Ch2Res.Text = ""; txtBenchTestsHGA3Ch3Res.Text = ""; txtBenchTestsHGA3Ch4Res.Text = ""; txtBenchTestsHGA3Ch5Res.Text = ""; txtBenchTestsHGA3Ch6Res.Text = ""; txtBenchTestsHGA3Ch1Capa.Text = ""; txtBenchTestsHGA3Ch1ESR.Text = ""; txtBenchTestsHGA3Ch2Capa.Text = ""; txtBenchTestsHGA3Ch2ESR.Text = ""; txtBenchTestsHGA4Short.Text = ""; txtBenchTestsHGA4Ch1Res.Text = ""; txtBenchTestsHGA4Ch2Res.Text = ""; txtBenchTestsHGA4Ch3Res.Text = ""; txtBenchTestsHGA4Ch4Res.Text = ""; txtBenchTestsHGA4Ch5Res.Text = ""; txtBenchTestsHGA4Ch6Res.Text = ""; txtBenchTestsHGA4Ch1Capa.Text = ""; txtBenchTestsHGA4Ch1ESR.Text = ""; txtBenchTestsHGA4Ch2Capa.Text = ""; txtBenchTestsHGA4Ch2ESR.Text = ""; txtBenchTestsHGA5Short.Text = ""; txtBenchTestsHGA5Ch1Res.Text = ""; txtBenchTestsHGA5Ch2Res.Text = ""; txtBenchTestsHGA5Ch3Res.Text = ""; txtBenchTestsHGA5Ch4Res.Text = ""; txtBenchTestsHGA5Ch5Res.Text = ""; txtBenchTestsHGA5Ch6Res.Text = ""; txtBenchTestsHGA5Ch1Capa.Text = ""; txtBenchTestsHGA5Ch1ESR.Text = ""; txtBenchTestsHGA5Ch2Capa.Text = ""; txtBenchTestsHGA5Ch2ESR.Text = ""; txtBenchTestsHGA6Short.Text = ""; txtBenchTestsHGA6Ch1Res.Text = ""; txtBenchTestsHGA6Ch2Res.Text = ""; txtBenchTestsHGA6Ch3Res.Text = ""; txtBenchTestsHGA6Ch4Res.Text = ""; txtBenchTestsHGA6Ch5Res.Text = ""; txtBenchTestsHGA6Ch6Res.Text = ""; txtBenchTestsHGA6Ch1Capa.Text = ""; txtBenchTestsHGA6Ch1ESR.Text = ""; txtBenchTestsHGA6Ch2Capa.Text = ""; txtBenchTestsHGA6Ch2ESR.Text = ""; txtBenchTestsHGA7Short.Text = ""; txtBenchTestsHGA7Ch1Res.Text = ""; txtBenchTestsHGA7Ch2Res.Text = ""; txtBenchTestsHGA7Ch3Res.Text = ""; txtBenchTestsHGA7Ch4Res.Text = ""; txtBenchTestsHGA7Ch5Res.Text = ""; txtBenchTestsHGA7Ch6Res.Text = ""; txtBenchTestsHGA7Ch1Capa.Text = ""; txtBenchTestsHGA7Ch1ESR.Text = ""; txtBenchTestsHGA7Ch2Capa.Text = ""; txtBenchTestsHGA7Ch2ESR.Text = ""; txtBenchTestsHGA8Short.Text = ""; txtBenchTestsHGA8Ch1Res.Text = ""; txtBenchTestsHGA8Ch2Res.Text = ""; txtBenchTestsHGA8Ch3Res.Text = ""; txtBenchTestsHGA8Ch4Res.Text = ""; txtBenchTestsHGA8Ch5Res.Text = ""; txtBenchTestsHGA8Ch6Res.Text = ""; txtBenchTestsHGA8Ch1Capa.Text = ""; txtBenchTestsHGA8Ch1ESR.Text = ""; txtBenchTestsHGA8Ch2Capa.Text = ""; txtBenchTestsHGA8Ch2ESR.Text = ""; txtBenchTestsHGA9Short.Text = ""; txtBenchTestsHGA9Ch1Res.Text = ""; txtBenchTestsHGA9Ch2Res.Text = ""; txtBenchTestsHGA9Ch3Res.Text = ""; txtBenchTestsHGA9Ch4Res.Text = ""; txtBenchTestsHGA9Ch5Res.Text = ""; txtBenchTestsHGA9Ch6Res.Text = ""; txtBenchTestsHGA9Ch1Capa.Text = ""; txtBenchTestsHGA9Ch1ESR.Text = ""; txtBenchTestsHGA9Ch2Capa.Text = ""; txtBenchTestsHGA9Ch2ESR.Text = ""; txtBenchTestsHGA10Short.Text = ""; txtBenchTestsHGA10Ch1Res.Text = ""; txtBenchTestsHGA10Ch2Res.Text = ""; txtBenchTestsHGA10Ch3Res.Text = ""; txtBenchTestsHGA10Ch4Res.Text = ""; txtBenchTestsHGA10Ch5Res.Text = ""; txtBenchTestsHGA10Ch6Res.Text = ""; txtBenchTestsHGA10Ch1Capa.Text = ""; txtBenchTestsHGA10Ch1ESR.Text = ""; txtBenchTestsHGA10Ch2Capa.Text = ""; txtBenchTestsHGA10Ch2ESR.Text = ""; }); }
private void PCBATemperatureCalibrationCH2() { string message = "Connect CH 2 to 100 ohm resistor"; string caption = "Temperature Calibarition for CH 2"; MessageBoxButtons buttons = MessageBoxButtons.OKCancel; DialogResult result; TestProbeAPICommand APICommand; bool commandSentToMicroprocessor; byte[] ByteArrayFromStructure; Delay(1000); if (boolPass) { Log.Info("Prompt", "6.) PCBA Temperature Calibration Test\n"); Delay(1000); result = MessageBox.Show(message, caption, buttons); if (result == System.Windows.Forms.DialogResult.OK) { // Enable calibration mode ByteArrayFromStructure = CommonFunctions.Instance.StructureToByteArray(TestProbe17CalibrationEnable); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_calibration_enable_Message_ID, TestProbeAPICommand.HST_calibration_enable_Message_Size, ByteArrayFromStructure); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); commandSentToMicroprocessor = constructAndSendWriteDataBuffer(); Delay(1000); int TemperatureChannel = 2; //TestProbe31SetTemperatureCalibration TestProbe31SetTemperatureCalibration.ChannelNumber = Convert.ToByte(TemperatureChannel); TestProbe31SetTemperatureCalibration.Temperature = Convert.ToByte(5); // the firmware accept 5, 10 , and so on .. up to 100 ByteArrayFromStructure = CommonFunctions.Instance.StructureToByteArray(TestProbe31SetTemperatureCalibration); APICommand = new TestProbeAPICommand(TestProbeAPICommand.HST_set_temp_calibration_Message_ID, TestProbeAPICommand.HST_set_temp_calibration_Message_Size, ByteArrayFromStructure); CommonFunctions.Instance.OutgoingTestProbeDataAPIs.Enqueue(APICommand); commandSentToMicroprocessor = constructAndSendWriteDataBuffer(); } PCBATemperatureCalibrationCH3(); Delay(3000); UIUtility.BeginInvoke(this, () => { if (PCBATemperatureCalibrationStatusFlag) { this.picTestStatus6.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.PASS, new System.Drawing.Size(36, 36))); } else { this.picTestStatus6.Image = (System.Drawing.Image)(new System.Drawing.Bitmap(ManufacturingTestTool.Properties.Resources.FAIL, new System.Drawing.Size(36, 36))); boolPass = false; } this.picTestStatus6.Visible = true; }); } }
private void enableAllAPIButtons() { UIUtility.BeginInvoke(this, () => { Cursor.Current = Cursors.Default; btnBenchTestsContinuousMeasure.Enabled = true; btnBenchTestsMultipleMeasure.Enabled = true; btnBenchTestsSingleMeasure.Enabled = true; btnBenchTestsStopMeasure.Enabled = true; btnBenchTestsClearDisplay.Enabled = true; btnFunctionalTestsStartSelfTests.Enabled = true; btnFunctionalTestsSaveTestRecord.Enabled = true; btnFunctionalTestsClearDisplay.Enabled = true; btnConfigurationSaveConfiguration.Enabled = true; btnPCBACalibrationStartAutoCalibration.Enabled = true; btnPCBACalibrationGetCalibrationData.Enabled = true; btnPCBACalibrationClearDisplay.Enabled = true; btnPCBACalibrationSaveCalibrationData.Enabled = true; btnPCBACalibrationManualCalibration0Ohm.Enabled = true; btnPCBACalibrationManualCalibration10Ohm.Enabled = true; btnPCBACalibrationManualCalibration100Ohm.Enabled = true; btnPCBACalibrationManualCalibration500Ohm.Enabled = true; btnPCBACalibrationManualCalibration1000Ohm.Enabled = true; btnPCBACalibrationManualCalibration10000Ohm.Enabled = true; btnPCBACalibrationManualCalibration100pF.Enabled = true; btnPCBACalibrationManualCalibration270pF.Enabled = true; btnPCBACalibrationManualCalibration470pF.Enabled = true; btnPCBACalibrationManualCalibration680pF.Enabled = true; btnPCBACalibrationManualCalibration820pF.Enabled = true; btnPCBACalibrationManualCalibration10nF.Enabled = true; btnPCBACalibrationTemperatureCalibration5Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration10Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration15Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration20Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration25Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration30Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration35Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration40Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration45Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration50Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration55Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration60Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration65Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration70Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration75Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration80Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration85Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration90Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration95Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration100Celcius.Enabled = true; btnPCBACalibrationManualCalibrationCalibrateOffset.Enabled = true; btnPCBACalibrationManualCalibrationGetCalibrationOffset.Enabled = true; btnCableCalibrationGetCableCalibrationData.Enabled = true; btnCableCalibrationSaveCalibrationData.Enabled = true; btnCableCalibrationStartCableCalibration.Enabled = true; btnClearCableCalibrationResults.Enabled = true; btnCableCalibrationSetCableCompensationResistanceCapacitance.Enabled = true; btnPrecisorCompensationGetPrecisorCapacitanceCompensation.Enabled = true; btnPrecisorCompensationSavePrecisorCapacitanceCompensation.Enabled = true; btnPrecisorCompensationSetPrecisorCapacitanceCompensation.Enabled = true; btnDebugEEPROMWrite.Enabled = true; btnDebugEEPROMRead.Enabled = true; btnDebugDACWrite.Enabled = true; btnDebugDACRead.Enabled = true; btnDebugADCWrite.Enabled = true; btnDebugADCRead.Enabled = true; btnDebugMUXSetMUXSwitch.Enabled = true; btnDebugMUXGetCapacitanceReading.Enabled = true; btnDebugMUXGetProcessorStatus.Enabled = true; btnDebugTemperatureGetTemperatures.Enabled = true; btnDebugTemperatureStop.Enabled = true; btnDebugADCVoltageGetADCVoltages.Enabled = true; btnDebugADCVoltageStop.Enabled = true; btnDebugBiasSensingGetBiasVoltages.Enabled = true; btnDebugBiasSensingGetSensingVoltages.Enabled = true; btnDebugResistanceCapacitanceGetResults.Enabled = true; btnStartManufacturingTest.Enabled = true; }); }
private void UserChanged(object sender, EventArgs e) { try { UIUtility.BeginInvoke(this, () => { btnLogout.Enabled = (_userAccess.getCurrentUser() != _userAccess.DefaultUser); txtUserName.Text = _userAccess.getCurrentUser().Name; UserLevel level = _userAccess.getCurrentUser().Level; XyratexOSC.Logging.Log.Info(this, "User:{0} from user group:{1} has logged in.", _userAccess.getCurrentUser().Name, level.ToString()); TabPage tabPageApplicationSettings = MainForm.getTabControl().TabPages[9] as TabPage; TabControl tabControlApplicationSettings = tabPageApplicationSettings.Controls.Find("tabControlApplicationSettings", true).FirstOrDefault() as TabControl; (MainForm.getTabControl().TabPages[0] as Control).Enabled = true; // Bench Tests tab (MainForm.getTabControl().TabPages[1] as Control).Enabled = true; // Functional Tests tab (MainForm.getTabControl().TabPages[8] as Control).Enabled = true; // Desktop Tests tab switch (level) { case UserLevel.Monitor: case UserLevel.Operator: userIcon.Image = Properties.Resources.UserOperator; (MainForm.getTabControl().TabPages[2] as Control).Enabled = false; // Configurwtion & Setup tab (MainForm.getTabControl().TabPages[3] as Control).Enabled = false; // PCBA Calibration tab (MainForm.getTabControl().TabPages[4] as Control).Enabled = false; // Cable Calibration tab (MainForm.getTabControl().TabPages[5] as Control).Enabled = false; // Precisor Compensation tab (MainForm.getTabControl().TabPages[6] as Control).Enabled = false; // Debug tab (MainForm.getTabControl().TabPages[7] as Control).Enabled = false; // ServoCalibration tab (MainForm.getTabControl().TabPages[9] as Control).Enabled = false; // Application Settings tab (tabControlApplicationSettings.TabPages[0] as Control).Enabled = false; // COM Port tab (tabControlApplicationSettings.TabPages[1] as Control).Enabled = false; // User Accounts tab break; case UserLevel.Engineer: userIcon.Image = Properties.Resources.UserEngineer; (MainForm.getTabControl().TabPages[2] as Control).Enabled = true; // Configurwtion & Setup tab (MainForm.getTabControl().TabPages[3] as Control).Enabled = true; // PCBA Calibration tab (MainForm.getTabControl().TabPages[4] as Control).Enabled = true; // Cable Calibration tab (MainForm.getTabControl().TabPages[5] as Control).Enabled = true; // Precisor Compensation tab (MainForm.getTabControl().TabPages[6] as Control).Enabled = true; // Debug tab (MainForm.getTabControl().TabPages[7] as Control).Enabled = true; // ServoCalibration tab (MainForm.getTabControl().TabPages[9] as Control).Enabled = true; // Application Settings tab (tabControlApplicationSettings.TabPages[0] as Control).Enabled = true; // COM Port tab (tabControlApplicationSettings.TabPages[1] as Control).Enabled = false; // User Accounts tab break; case UserLevel.Administrator: userIcon.Image = Properties.Resources.UserAdministrator; (MainForm.getTabControl().TabPages[2] as Control).Enabled = true; // Configurwtion & Setup tab (MainForm.getTabControl().TabPages[3] as Control).Enabled = true; // PCBA Calibration tab (MainForm.getTabControl().TabPages[4] as Control).Enabled = true; // Cable Calibration tab (MainForm.getTabControl().TabPages[5] as Control).Enabled = true; // Precisor Compensation tab (MainForm.getTabControl().TabPages[6] as Control).Enabled = true; // Debug tab (MainForm.getTabControl().TabPages[7] as Control).Enabled = true; // ServoCalibration tab (MainForm.getTabControl().TabPages[9] as Control).Enabled = true; // Application Settings tab (tabControlApplicationSettings.TabPages[0] as Control).Enabled = true; // COM Port tab (tabControlApplicationSettings.TabPages[1] as Control).Enabled = true; // User Accounts tab break; } }); } catch { } }
private void enableAllAPIButtons() { UIUtility.BeginInvoke(this, () => { Cursor.Current = Cursors.Default; btnBenchTestsContinuousMeasure.Enabled = true; btnBenchTestsMultipleMeasure.Enabled = true; btnBenchTestsSingleMeasure.Enabled = true; btnBenchTestsStopMeasure.Enabled = true; btnBenchTestsClearDisplay.Enabled = true; btnFunctionalTestsStartSelfTests.Enabled = true; btnFunctionalTestsSaveTestRecord.Enabled = true; btnFunctionalTestsClearDisplay.Enabled = true; btnConfigurationSaveConfiguration.Enabled = true; btnPCBACalibrationStartAutoCalibration.Enabled = true; btnPCBACalibrationGetCalibrationData.Enabled = true; btnPCBACalibrationClearDisplay.Enabled = true; btnPCBACalibrationSaveCalibrationData.Enabled = true; btnPCBACalibrationManualCalibration0Ohm.Enabled = true; btnPCBACalibrationManualCalibration10Ohm.Enabled = true; btnPCBACalibrationManualCalibration100Ohm.Enabled = true; btnPCBACalibrationManualCalibration500Ohm.Enabled = true; btnPCBACalibrationManualCalibration1000Ohm.Enabled = true; btnPCBACalibrationManualCalibration10000Ohm.Enabled = true; btnPCBACalibrationManualCalibration100pF.Enabled = true; btnPCBACalibrationManualCalibration270pF.Enabled = true; btnPCBACalibrationManualCalibration470pF.Enabled = true; btnPCBACalibrationManualCalibration680pF.Enabled = true; btnPCBACalibrationManualCalibration820pF.Enabled = true; btnPCBACalibrationManualCalibration10nF.Enabled = true; btnPCBACalibrationTemperatureCalibration5Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration10Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration15Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration20Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration25Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration30Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration35Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration40Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration45Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration50Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration55Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration60Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration65Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration70Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration75Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration80Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration85Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration90Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration95Celcius.Enabled = true; btnPCBACalibrationTemperatureCalibration100Celcius.Enabled = true; btnPCBACalibrationManualCalibrationCalibrateOffset.Enabled = true; btnPCBACalibrationManualCalibrationGetCalibrationOffset.Enabled = true; btnCableCalibrationGetCableCalibrationData.Enabled = true; btnCableCalibrationSaveCalibrationData.Enabled = true; btnCableCalibrationStartCableCalibration.Enabled = true; btnClearCableCalibrationResults.Enabled = true; btnCableCalibrationSetCableCompensationResistanceCapacitance.Enabled = true; btnPrecisorCompensationGetPrecisorCapacitanceCompensation.Enabled = true; btnPrecisorCompensationSavePrecisorCapacitanceCompensation.Enabled = true; btnPrecisorCompensationSetPrecisorCapacitanceCompensation.Enabled = true; btnDebugEEPROMWrite.Enabled = true; btnDebugEEPROMRead.Enabled = true; btnDebugDACWrite.Enabled = true; btnDebugDACRead.Enabled = true; btnDebugADCWrite.Enabled = true; btnDebugADCRead.Enabled = true; btnDebugMUXSetMUXSwitch.Enabled = true; btnDebugMUXGetCapacitanceReading.Enabled = true; btnDebugMUXGetProcessorStatus.Enabled = true; btnDebugTemperatureGetTemperatures.Enabled = true; btnDebugTemperatureStop.Enabled = true; btnDebugADCVoltageGetADCVoltages.Enabled = true; btnDebugADCVoltageStop.Enabled = true; btnDebugBiasSensingGetBiasVoltages.Enabled = true; btnDebugBiasSensingGetSensingVoltages.Enabled = true; btnDebugResistanceCapacitanceGetResults.Enabled = true; btnServoCalibrationAllMoveToStandbyPosition.Enabled = true; btnServoCalibrationDesktopTesterConnect.Enabled = true; btnServoCalibrationDesktopTesterDisconnect.Enabled = true; btnServoCalibrationDownTabOff.Enabled = true; btnServoCalibrationDownTabOn.Enabled = true; btnServoCalibrationFlattenerExtend1.Enabled = true; btnServoCalibrationFlattenerRetract1.Enabled = true; btnServoCalibrationFlattenerExtend2.Enabled = true; btnServoCalibrationFlattenerRetract2.Enabled = true; btnServoCalibrationGetAllCurrentPositions.Enabled = true; btnServoCalibrationGetAllInputs.Enabled = true; btnServoCalibrationHomeAll.Enabled = true; btnServoCalibrationHomePrecisor.Enabled = true; btnServoCalibrationHomeTestProbe.Enabled = true; btnServoCalibrationJogCCW.Enabled = true; btnServoCalibrationJogCW.Enabled = true; btnServoCalibrationJogDown.Enabled = true; btnServoCalibrationJogToInside.Enabled = true; btnServoCalibrationJogToLeft.Enabled = true; btnServoCalibrationJogToOutside.Enabled = true; btnServoCalibrationJogToRight.Enabled = true; btnServoCalibrationJogUp.Enabled = true; btnServoCalibrationLoadHGAs.Enabled = true; btnServoCalibrationMovePrecisorToFlatDownTabPosition.Enabled = true; btnServoCalibrationMovePrecisorToFlatUpTabPosition.Enabled = true; btnServoCalibrationMovePrecisorToLoadUnloadPosition.Enabled = true; btnServoCalibrationMovePrecisorToStandbyPosition.Enabled = true; btnServoCalibrationMovePrecisorToTargetPosition.Enabled = true; btnServoCalibrationMovePrecisorToTestDownTabPosition.Enabled = true; btnServoCalibrationMovePrecisorToTestUpTabPosition.Enabled = true; btnServoCalibrationMoveProbeToDownTabPosition.Enabled = true; btnServoCalibrationMoveProbeToStandbyPosition.Enabled = true; btnServoCalibrationMoveProbeToTargetPosition.Enabled = true; btnServoCalibrationMoveProbeToUpTabPosition.Enabled = true; btnServoCalibrationEjectHGAs.Enabled = true; btnServoCalibrationSaveAndDownloadCalibrationData.Enabled = true; btnServoCalibrationServoOff.Enabled = true; btnServoCalibrationTeachPrecisorFlatDownTabPosition.Enabled = true; btnServoCalibrationTeachPrecisorFlatUpTabPosition.Enabled = true; btnServoCalibrationTeachPrecisorLoadUnloadPosition.Enabled = true; btnServoCalibrationTeachPrecisorStandbyPosition.Enabled = true; btnServoCalibrationTeachPrecisorTestDownTabPosition.Enabled = true; btnServoCalibrationTeachPrecisorTestUpTabPosition.Enabled = true; btnServoCalibrationTeachProbeDownTabPosition.Enabled = true; btnServoCalibrationTeachProbeStandbyPosition.Enabled = true; btnServoCalibrationTeachProbeUpTabPosition.Enabled = true; btnServoCalibrationUpTabOff.Enabled = true; btnServoCalibrationUpTabOn.Enabled = true; btnDesktopTestsClearDisplay.Enabled = true; btnDesktopTestsConnectDesktopTester.Enabled = true; btnDesktopTestsContinuousMeasure.Enabled = true; btnDesktopTestsDisconnectDesktopTester.Enabled = true; btnDesktopTestsMultipleMeasure.Enabled = true; btnDesktopTestsSingleMeasure.Enabled = true; btnDesktopTestsStopMeasure.Enabled = true; }); }