/// <summary> /// The main function: instant Agilent, MPQ class, and textboxes. /// </summary> public MainForm() { InitializeComponent(); agilentDevice = new Agilent(); mpqDevice = new MPQ(); dutTextBoxWellA = new TextBox[] { this.textBoxDUT1, this.textBoxDUT2, this.textBoxDUT3, this.textBoxDUT4, this.textBoxDUT5, this.textBoxDUT6, this.textBoxDUT7, this.textBoxDUT8 }; dutTextBoxWellB = new TextBox[] { this.textBoxDUT9, this.textBoxDUT10, this.textBoxDUT11, this.textBoxDUT12, this.textBoxDUT13, this.textBoxDUT14, this.textBoxDUT15, this.textBoxDUT16 }; }
/// <summary> /// The main function: instant Agilent, MPQ class, and textboxes. /// </summary> public MainForm() { InitializeComponent(); agilentDevice = new Agilent(); mpqDevice = new MPQ(); dutTextBoxWell = new TextBox[]{ this.textBoxDUT1, this.textBoxDUT2, this.textBoxDUT3, this.textBoxDUT4, this.textBoxDUT5, this.textBoxDUT6, this.textBoxDUT7, this.textBoxDUT8, this.textBoxDUT9, this.textBoxDUT10, this.textBoxDUT11, this.textBoxDUT12, this.textBoxDUT13, this.textBoxDUT14, this.textBoxDUT15, this.textBoxDUT16}; }
public void Save(string path) { this.path = path; if (Directory.Exists(path)) { string filename = path + @"\" + this.station + ".xml"; XDocument doc; try { doc = new XDocument( new XDeclaration("1.0", "utf-8", "yes"), new XElement(informationTag, new XElement(ipTag, GetIP()), new XElement(computerNameTag, this.station), new XElement(lastUpdate, DateTime.Now), new XElement(versionTag, GetVersion()), new XElement(typeTag, GetType()), new XElement(serialNumberTag, Agilent.GetSN()) ) ); doc.Save(filename); } catch { Console.Write("Error"); } } }
// //---------------------------------------------------------------------------------------- // /// <summary> /// Construction of TestWell Class /// </summary> /// <param name="Agilent"></param>Agilent Class, define the method of Agilent equipments. /// <param name="MPQ"></param>MPQ Class, define the method of MPQ programmer. /// <param name="wellNumber"></param>Well number, 1 for WellA, 2 for WellB /// <param name="serialNumber"></param>Serialnumber of 1 DUT on panel, 19 digits. public TestWell(Agilent Agilent, MPQ MPQ, string serialNumber, TrackpadConfig tpConfig) { m_Agilent = Agilent; m_MPQ = MPQ; m_DeviceConfig = tpConfig; serialNumber = serialNumber.Remove(18); //remove last digit m_DUTArray = new DUT[] { DUT1, DUT2, DUT3, DUT4, DUT5, DUT6, DUT7, DUT8 }; int i = 1; foreach (DUT dut in m_DUTArray) { dut.SerailNumber = serialNumber + i.ToString(); dut.RawCount = new List<int>(); dut.Noise = new List<int>(); dut.IDAC = new List<int>(); dut.Global_IDAC = new List<int>(); dut.IDACGain = new List<byte>(); dut.Local_IDAC = new List<int>(); dut.IDAC_Erased = new List<int>(); i++; } DUT14_PortEnables = 0xF; //Enable all DUTs DUT58_PortEnalbes = 0xF; }
static void Main() { a = new Agilent(); Application.EnableVisualStyles(); Application.SetCompatibleTextRenderingDefault(false); Application.Run(new Form1()); Properties.Settings.Default.Save(); }
public Agilent Initialize_U2751A(string connectstring) { if (connectstring != "") { Agilent sw_A = new Agilent(); sw_A.InitializeU2751A_WELLA(connectstring); return(sw_A); } return(null); }
private void GoogleGlass_Load(object sender, EventArgs e) { Config.read(); agilentDevice = new Agilent(); m_SFCS = new SFCS(); buttonStart.Enabled = false; bridge = new USB_I2C(); bridge.DeviceAddress = Config.I2C_ADDRESS; Manufacture.operatorID = "google"; Manufacture.testStation = "ALS"; Manufacture.testSite = "Sigma"; }
public static void ConnectSwitch() { try { sw = new Agilent(); SwConnected = sw.InitializeU2751A_WELLA(SW_alias); //sw.InitializeU2651A(SW_alias); } catch (Exception ex) { //Logger.PrintLog(this, "Fail to Connect Switch: " + SW_alias, LogDetailLevel.LogRelevant); } }
private void button1_Click(object sender, EventArgs e) { string s; Agilent.Open(); //Opens the socket //Agilent.WriteLine("SYST:REM"); //System.Threading.Thread.Sleep(2000); Agilent.WriteLine("*IDN?"); //Write the command *IDN? to the device. System.Threading.Thread.Sleep(1000); //Sleep to help have command reach the device s = Agilent.ReadLine(); //Stores data found as a response System.Threading.Thread.Sleep(4000); //Sleep to help have command reach the device response.Text = s; //Sets the label to the return value from the socket Agilent.Close(); //Closes the socket }
public Form1() { InitializeComponent(); channelBox1.Text = "CH1"; channelBox2.Text = "CH2"; channelBox3.Text = "CH3"; channelBox4.Text = "CH4"; channelBox5.Text = "CH5"; channelBox6.Text = "CH6"; channelBox7.Text = "CH7"; channelBox8.Text = "CH8"; DMM = Initialize_U3606A(DmmX8_Plus.Properties.Settings.Default.DMM_Alias); if (MultiMeter.devReadyStatus.Contains("Connect to U3606A Successfully!!!")) { dmm_status.Text = "Ready"; dmm_status.ForeColor = Color.DarkGreen; devReady = true; checkBox1.Checked = true; } else { MessageBox.Show("Connect to U3606A failed on " + DmmX8_Plus.Properties.Settings.Default.DMM_Alias, "Instrument Initializaion Error"); checkBox1.Checked = false; } SW_A = Initialize_U2751A(DmmX8_Plus.Properties.Settings.Default.Switch_Alias); if (Agilent.devReadyStatus == true) { sw_status.Text = "Ready"; sw_status.ForeColor = Color.DarkGreen; devReady = true; checkBox2.Checked = true; } else { MessageBox.Show("Connect to U2751A failed on " + DmmX8_Plus.Properties.Settings.Default.Switch_Alias, "Instrument Initializaion Error"); checkBox2.Checked = false; } serialnumberbox1.Focus(); }
private void button2_Click(object sender, EventArgs e) { Agilent.Open(); //Opens Serial Port to Waveform Generator Agilent.WriteLine("SYST:REM");//Sets the device to remote System.Threading.Thread.Sleep(1000); //Sets the operation mode to Remote sineGen = "APPL:SIN " + freqBox.Text + ", " + ampBox.Text; //Generates command to send using user chosen values Agilent.WriteLine(sineGen); System.Threading.Thread.Sleep(1000); //Generates sine wave with specific freq and amp chosen by user Agilent.Close(); //Closes the serial port }
public MTKInstruments(LogManager logger) { try { dmm = new MultiMeter(); sw = new Agilent(); logger = new LogManager(); Logger = logger; } catch (Exception) { //throw; } }
private static double PerformVoltageTest(MultiMeter dmm, Agilent sw, int channel) { double value = -1.0; MultiMeter.volt volt_meas; sw.SetRelayWellA_byCH(channel, true); volt_meas = dmm.MeasureChannelVoltage(500, 500); value = volt_meas.average; Console.WriteLine(string.Format("Obtain the average result of PerformVoltageTest: {0} V on CH{1}", Math.Round(value, 4), channel)); return(value); }
// //---------------------------------------------------------------------------------------- // /// <summary> /// Construction of TestWell Class /// </summary> /// <param name="Agilent"></param>Agilent Class, define the method of Agilent equipments. /// <param name="MPQ"></param>MPQ Class, define the method of MPQ programmer. /// <param name="wellNumber"></param>Well number, 1 for WellA, 2 for WellB /// <param name="serialNumber"></param>Serialnumber of 1 DUT on panel, 19 digits. public TestWell(Agilent Agilent, MPQ MPQ, byte wellNumber, string serialNumber) { m_Agilent = Agilent; m_MPQ = MPQ; currWell = wellNumber; serialNumber = serialNumber.Remove(18); m_DUTArray = new DUT[] { DUT1, DUT2, DUT3, DUT4, DUT5, DUT6, DUT7, DUT8 }; int i = 1; foreach (DUT dut in m_DUTArray) { dut.SerailNumber = serialNumber + i.ToString(); dut.RawCountX = new List <int>(); dut.NoiseX = new List <int>(); dut.RawCountY = new List <int>(); dut.NoiseY = new List <int>(); dut.IDAC = new List <int>(); dut.Global_IDAC = new List <int>(); dut.IDACGain = new List <byte>(); dut.IDAC_Erased = new List <int>(); i++; } DUT14_PortEnables = 0xF; //Enable all DUTs DUT58_PortEnalbes = 0xF; if (wellNumber == 1) //WELLA { MPQ_ADDRESS1 = 1; MPQ_ADDRESS2 = 2; } else //WELLB { MPQ_ADDRESS1 = 3; MPQ_ADDRESS2 = 4; } }
static void Main() { a = new Agilent(); m = new Multiplexer(false); // ustaw ustaw miejsce dla pliku bool force_new = false; if (String.IsNullOrEmpty(Properties.Settings.Default.meas_file_name)) { force_new = true; } else { string path = Path.GetDirectoryName(Properties.Settings.Default.meas_file_name); if (!Directory.Exists(path)) { force_new = true; } } if (force_new) { string p = Path.GetDirectoryName(Application.ExecutablePath); Properties.Settings.Default.meas_file_name = Path.Combine(p, "pomiary.txt"); } Application.EnableVisualStyles(); Application.SetCompatibleTextRenderingDefault(false); Application.Run(new MainForm()); Properties.Settings.Default.Save(); }
// //---------------------------------------------------------------------------------------- // /// <summary> /// Construction of TestWell Class /// </summary> /// <param name="Agilent"></param>Agilent Class, define the method of Agilent equipments. /// <param name="MPQ"></param>MPQ Class, define the method of MPQ programmer. /// <param name="wellNumber"></param>Well number, 1 for WellA, 2 for WellB /// <param name="serialNumber"></param>Serialnumber of 1 DUT on panel, 19 digits. public TestWell(Agilent Agilent, MPQ MPQ, byte wellNumber, string serialNumber) { m_Agilent = Agilent; m_MPQ = MPQ; currWell = wellNumber; serialNumber = serialNumber.Remove(18); m_DUTArray = new DUT[] { DUT1, DUT2, DUT3, DUT4, DUT5, DUT6, DUT7, DUT8 }; int i = 1; foreach (DUT dut in m_DUTArray) { dut.SerailNumber = serialNumber + i.ToString(); dut.RawCountX = new List<int>(); dut.NoiseX = new List<int>(); dut.RawCountY = new List<int>(); dut.NoiseY = new List<int>(); dut.IDAC = new List<int>(); dut.Global_IDAC = new List<int>(); dut.IDACGain = new List<byte>(); dut.IDAC_Erased = new List<int>(); i++; } DUT14_PortEnables = 0xF; //Enable all DUTs DUT58_PortEnalbes = 0xF; if (wellNumber == 1) //WELLA { MPQ_ADDRESS1 = 1; MPQ_ADDRESS2 = 2; } else //WELLB { MPQ_ADDRESS1 = 3; MPQ_ADDRESS2 = 4; } }
private void exitTPT() { try { RegistryKey saveKey = Registry.LocalMachine.CreateSubKey(@"software\Cypress\TrackpadTest"); saveKey.SetValue("Total Tested", totalTestedNumber.ToString()); saveKey.SetValue("Total Failed", totalFailedNumber.ToString()); saveKey.SetValue("Yield Rate", yieldRate.ToString()); saveKey.SetValue("Test ID", testID); saveKey.SetValue("Test Station", testStation); saveKey.SetValue("Test Site", testSite); agilentDevice = null; mpqDevice = null; testWellA = null; GC.Collect(0); System.Threading.Thread.Sleep(100); } catch (Exception ex) { Log.error(ex.Message); } }
public bool UpdateVisaAlias(Agilent.ACE2.Shared.ModelDevice beforeUpdate, Agilent.ACE2.Shared.ModelDevice afterUpdate) { return false; }
private void exitTPT() { try { RegistryKey saveKey = Registry.LocalMachine.CreateSubKey(@"software\Cypress\TrackpadTest"); saveKey.SetValue("Total Tested", totalTestedNumber.ToString()); saveKey.SetValue("Total Failed", totalFailedNumber.ToString()); saveKey.SetValue("Yield Rate", yieldRate.ToString()); saveKey.SetValue("Test ID", testID); saveKey.SetValue("Test Station", testStation); saveKey.SetValue("Test Site", testSite); agilentDevice = null; mpqDevice = null; testWellA = null; GC.Collect(0); System.Threading.Thread.Sleep(100); } catch(Exception ex) { Log.error(ex.Message); } }
public void RequestPublishServerMessage(Agilent.ACE2.Shared.MessageRecord record) { }
public void RequestVerify(Agilent.ACE2.Shared.ModelElement element) { }
public void RequestDiscovery(Agilent.ACE2.Shared.Discovery.WorkItem work) { }
public void RequestDiscovery(Agilent.ACE2.Shared.ModelElement element) { }
public void RequestDataUpdate(Agilent.ACE2.Shared.Discovery.WorkItem item) { }
public void RequestAutoConfig(Agilent.ACE2.Shared.IInterfaceAgent agent) { }
private void button3_Click(object sender, EventArgs e) { Agilent.Open(); //Opens the socket Agilent.WriteLine("SYST:REM"); //Sets the device to remote Agilent.Close(); //Close the socket }
public FormCh1Voltage() { InitializeComponent(); agilentDevice = new Agilent(); }
static void Main(string[] args) { MultiMeter dmm = new MultiMeter(); Agilent sw = new Agilent(); bool dmmConnected = false; bool swConnected = false; try { dmmConnected = dmm.InitializeU3606A("dmm"); swConnected = sw.InitializeU2751A_WELLA("swA"); } catch (Exception ex) { Console.WriteLine(ex.Message); } if (!dmmConnected && swConnected) { if (!dmmConnected) { Console.WriteLine("U3606A is not connected. Please check the connection..."); } if (!swConnected) { Console.WriteLine("U2751A is not connected. Please check the connection..."); } } else { Console.WriteLine("U3606A/U2751A are connected successfully!"); Console.WriteLine(""); try { Console.WriteLine("Perform Current Test on CH1 to CH8"); //Perform Current Test on CH1 to CH8 for (int i = 0; i < 8; i++) { PerformCurrentTest(dmm, sw, i + 1); } Console.WriteLine(""); Console.WriteLine("Perform Voltage Test on CH1 to CH8"); //Perform Voltage Test on CH1 to CH8 for (int i = 0; i < 8; i++) { PerformVoltageTest(dmm, sw, i + 1); } } catch (Exception ex) { Console.WriteLine(ex.Message); } } Console.ReadKey(); }