public frm9513Int() { // This call is required by the Windows Form Designer. InitializeComponent(); // Initiate error handling // activating error handling will trap errors like // bad channel numbers and non-configured conditions. // Parameters: // MccDaq.ErrorReporting.PrintAll :all warnings and errors encountered will be printed // MccDaq.ErrorHandling.StopAll :if an error is encountered, the program will stop MccDaq.ErrorInfo ULStat = MccDaq.MccService.ErrHandling(MccDaq.ErrorReporting.PrintAll, MccDaq.ErrorHandling.StopAll); lblCount = (new Label[] { _lblCount_0, _lblCount_1, _lblCount_3, _lblCount_4 }); lblCounterNum = (new Label[] { _lblCounterNum_0, _lblCounterNum_1, _lblCounterNum_3, _lblCounterNum_4 }); lblIntStatus = (new Label[] { _lblIntStatus_0, _lblIntStatus_1, _lblIntStatus_3, _lblIntStatus_4 }); // Create a new MccBoard object for Board 0 DaqBoard = new MccDaq.MccBoard(0); // Set aside enough memory to hold the data from all counters (whether enable or not) // IntCount interrupts. We use MaxNumCntrs here in case actual NumCntrs had not been // updated; while allocating too much memory is harmless, not enough could crash system. MemHandle = MccDaq.MccService.WinBufAlloc(IntCount * MaxNumCntrs); // Initialize the board level features // Parameters: // ChipNum :chip to be initialized (1 for CTR5, 1 or 2 for CTR10) // FOutDivider:the F-Out divider (0-15) // Source :the signal source for F-Out // Compare1 :status of comparator 1 // Compare2 :status of comparator 2 // TimeOfDayCounting :time of day mode control int FOutDivider = 10; // sets up OSC OUT for 10Hz signal which can MccDaq.CounterSource Source = MccDaq.CounterSource.Freq5; // be used as interrupt source for this example MccDaq.CompareValue Compare1 = MccDaq.CompareValue.Disabled; MccDaq.CompareValue Compare2 = MccDaq.CompareValue.Disabled; MccDaq.TimeOfDay TimeOfDayCounting = MccDaq.TimeOfDay.Disabled; ULStat = DaqBoard.C9513Init(ChipNum, FOutDivider, Source, Compare1, Compare2, TimeOfDayCounting); // Set the configurable operations of the counter // Parameters: // CounterNum :the counter to be configured (1 to 5) // GateControl :gate control value // CounterEdge :which edge to count // CountSource :signal source // SpecialGate :status of special gate // Reload :method of reloading // RecyleMode :recyle mode // BCDMode :counting mode, Binary or BCD // CountDirection :direction for the counting operation (COUNTUP or COUNTDOWN) // OutputControl :output signal type and level // Initialize variables for the first of two counters int CounterNum = 1; // number of counter used MccDaq.GateControl GateControl = MccDaq.GateControl.NoGate; MccDaq.CountEdge CounterEdge = MccDaq.CountEdge.PositiveEdge; MccDaq.CounterSource CountSource = MccDaq.CounterSource.Freq3; MccDaq.OptionState SpecialGate = MccDaq.OptionState.Disabled; MccDaq.Reload Reload = MccDaq.Reload.LoadReg; MccDaq.RecycleMode RecycleMode = MccDaq.RecycleMode.Recycle; MccDaq.BCDMode BCDMode = MccDaq.BCDMode.Disabled; MccDaq.CountDirection CountDirection = MccDaq.CountDirection.CountUp; MccDaq.C9513OutputControl OutputControl = MccDaq.C9513OutputControl.AlwaysLow; ULStat = DaqBoard.C9513Config(CounterNum, GateControl, CounterEdge, CountSource, SpecialGate, Reload, RecycleMode, BCDMode, CountDirection, OutputControl); // Initialize variables for the second counter CounterNum = 2; // number of counter used ULStat = DaqBoard.C9513Config(CounterNum, GateControl, CounterEdge, CountSource, SpecialGate, Reload, RecycleMode, BCDMode, CountDirection, OutputControl); // Load the 2 counters with starting values of zero with MccDaq.MccBoard.CLoad() // Parameters: // RegName :the register for loading the counter with the starting value // LoadValue :the starting value to place in the counter int LoadValue = 0; MccDaq.CounterRegister RegName = MccDaq.CounterRegister.LoadReg1; // name of register in counter 1 ULStat = DaqBoard.CLoad(RegName, LoadValue); RegName = MccDaq.CounterRegister.LoadReg2; // name of register in counter 2 ULStat = DaqBoard.CLoad(RegName, LoadValue); }
private void frm9513Ctr_Load(object sender, EventArgs e) { InitUL(); NumCtrs = CtrProps.FindCountersOfType(DaqBoard, CounterType, out CounterNum); if (NumCtrs == 0) { lblDemoFunction.Text = "Board " + DaqBoard.BoardNum.ToString() + " has no 9513 counters."; lblDemoFunction.ForeColor = Color.Red; } else { // Initialize the board level features // Parameters: // ChipNum :Chip to be initialized (1 for CTR05, 1 or 2 for CTR10) // FOutDivider :the F-Out divider (0-15) // FOutSource :the signal source for F-Out // Compare1 :status of comparator 1 // Compare2 :status of comparator 2 // TimeOfDay :time of day mode control short FOutDivider = 0; int ChipNum = 1; MccDaq.CounterSource FOutSource = MccDaq.CounterSource.Freq4; MccDaq.CompareValue Compare1 = MccDaq.CompareValue.Disabled; MccDaq.CompareValue Compare2 = MccDaq.CompareValue.Disabled; MccDaq.TimeOfDay TimeOfDayCounting = MccDaq.TimeOfDay.Disabled; MccDaq.ErrorInfo ULStat = DaqBoard.C9513Init(ChipNum, FOutDivider, FOutSource, Compare1, Compare2, TimeOfDayCounting); // Set the configurable operations of the counter // Parameters: // CounterNum :the counter to be configured (1 to 5 for CTR05) // GateControl :gate control value // CounterEdge :which edge to count // CountSource :signal source // SpecialGate :status of special gate // Reload :method of reloading // RecyleMode :recyle mode // BCDMode :counting mode, Binary or BCD // CountDirection :direction for the counting operation (COUNTUP or COUNTDOWN) // OutputControl :output signal type and level MccDaq.GateControl GateControl = MccDaq.GateControl.NoGate; MccDaq.CountEdge CounterEdge = MccDaq.CountEdge.PositiveEdge; MccDaq.CounterSource CountSource = MccDaq.CounterSource.Freq4; MccDaq.OptionState SpecialGate = MccDaq.OptionState.Disabled; MccDaq.Reload Reload = MccDaq.Reload.LoadReg; MccDaq.RecycleMode RecycleMode = MccDaq.RecycleMode.Recycle; MccDaq.BCDMode BCDMode = MccDaq.BCDMode.Disabled; MccDaq.CountDirection CountDirection = MccDaq.CountDirection.CountUp; MccDaq.C9513OutputControl OutputControl = MccDaq.C9513OutputControl.AlwaysLow; ULStat = DaqBoard.C9513Config(CounterNum, GateControl, CounterEdge, CountSource, SpecialGate, Reload, RecycleMode, BCDMode, CountDirection, OutputControl); // Send a starting value to the counter with MccDaq.MccBoard.CLoad() // Parameters: // RegName :the register for loading the counter with the starting value // LoadValue :the starting value to place in the counter MccDaq.CounterRegister RegName = MccDaq.CounterRegister.LoadReg1; // name of register in counter 1 int LoadValue = 1000; ULStat = DaqBoard.CLoad(RegName, LoadValue); lblLoadValue.Text = "Value loaded to counter " + CounterNum.ToString() + ":"; lblShowLoadVal.Text = LoadValue.ToString("0"); this.lblDemoFunction.Text = "Demonstration of 9513 Counter Functions using board " + DaqBoard.BoardNum.ToString() + "."; tmrReadCounter.Enabled = true; } }
const short ChipNum = 1; // use chip 1 for CTR05 or for first // chip on CTR10 public frm9513Ctr() { // This call is required by the Windows Form Designer. InitializeComponent(); // Initiate error handling // activating error handling will trap errors like // bad channel numbers and non-configured conditions. // Parameters: // MccDaq.ErrorReporting.PrintAll :all warnings and errors encountered will be printed // MccDaq.ErrorHandling.StopAll :if an error is encountered, the program will stop MccDaq.ErrorInfo ULStat = MccDaq.MccService.ErrHandling(MccDaq.ErrorReporting.PrintAll, MccDaq.ErrorHandling.StopAll); // Create a new MccBoard object for Board 0 DaqBoard = new MccDaq.MccBoard(0); // Initialize the board level features // Parameters: // ChipNum :Chip to be initialized (1 for CTR05, 1 or 2 for CTR10) // FOutDivider :the F-Out divider (0-15) // FOutSource :the signal source for F-Out // Compare1 :status of comparator 1 // Compare2 :status of comparator 2 // TimeOfDay :time of day mode control short FOutDivider = 0; MccDaq.CounterSource FOutSource = MccDaq.CounterSource.Freq4; MccDaq.CompareValue Compare1 = MccDaq.CompareValue.Disabled; MccDaq.CompareValue Compare2 = MccDaq.CompareValue.Disabled; MccDaq.TimeOfDay TimeOfDayCounting = MccDaq.TimeOfDay.Disabled; ULStat = DaqBoard.C9513Init(ChipNum, FOutDivider, FOutSource, Compare1, Compare2, TimeOfDayCounting); // Set the configurable operations of the counter // Parameters: // CounterNum :the counter to be configured (1 to 5 for CTR05) // GateControl :gate control value // CounterEdge :which edge to count // CountSource :signal source // SpecialGate :status of special gate // Reload :method of reloading // RecyleMode :recyle mode // BCDMode :counting mode, Binary or BCD // CountDirection :direction for the counting operation (COUNTUP or COUNTDOWN) // OutputControl :output signal type and level MccDaq.GateControl GateControl = MccDaq.GateControl.NoGate; MccDaq.CountEdge CounterEdge = MccDaq.CountEdge.PositiveEdge; MccDaq.CounterSource CountSource = MccDaq.CounterSource.Freq4; MccDaq.OptionState SpecialGate = MccDaq.OptionState.Disabled; MccDaq.Reload Reload = MccDaq.Reload.LoadReg; MccDaq.RecycleMode RecycleMode = MccDaq.RecycleMode.Recycle; MccDaq.BCDMode BCDMode = MccDaq.BCDMode.Disabled; MccDaq.CountDirection CountDirection = MccDaq.CountDirection.CountUp; MccDaq.C9513OutputControl OutputControl = MccDaq.C9513OutputControl.AlwaysLow; ULStat = DaqBoard.C9513Config(CounterNum, GateControl, CounterEdge, CountSource, SpecialGate, Reload, RecycleMode, BCDMode, CountDirection, OutputControl); // Send a starting value to the counter with MccDaq.MccBoard.CLoad() // Parameters: // RegName :the register for loading the counter with the starting value // LoadValue :the starting value to place in the counter MccDaq.CounterRegister RegName = MccDaq.CounterRegister.LoadReg1; // name of register in counter 1 int LoadValue = 1000; ULStat = DaqBoard.CLoad(RegName, LoadValue); lblLoadValue.Text = "Value loaded to counter:"; lblShowLoadVal.Text = LoadValue.ToString("0"); }
private void frm9513Int_Load(object sender, EventArgs e) { InitUL(); NumCtrs = CtrProps.FindCountersOfType(DaqBoard, CounterType, out CounterNum); if (NumCtrs == 0) { lblInstruction.Text = "Board " + DaqBoard.BoardNum.ToString() + " has no 9513 counters."; cmdStartInt.Enabled = false; } else { // Set aside enough memory to hold the data from all counters (whether enable or not) // IntCount interrupts. We use MaxNumCntrs here in case actual NumCntrs had not been // updated; while allocating too much memory is harmless, not enough could crash system. DataBuffer = new ushort[NumCtrs]; CntrControl = new MccDaq.CounterControl[NumCtrs]; MemHandle = MccDaq.MccService.WinBufAllocEx(IntCount * NumCtrs); // Initialize the board level features // Parameters: // ChipNum :chip to be initialized (1 for CTR5, 1 or 2 for CTR10) // FOutDivider:the F-Out divider (0-15) // Source :the signal source for F-Out // Compare1 :status of comparator 1 // Compare2 :status of comparator 2 // TimeOfDayCounting :time of day mode control int FOutDivider = 10; // sets up OSC OUT for 10Hz signal which can MccDaq.CounterSource Source = MccDaq.CounterSource.Freq5; // be used as interrupt source for this example MccDaq.CompareValue Compare1 = MccDaq.CompareValue.Disabled; MccDaq.CompareValue Compare2 = MccDaq.CompareValue.Disabled; MccDaq.TimeOfDay TimeOfDayCounting = MccDaq.TimeOfDay.Disabled; MccDaq.ErrorInfo ULStat = DaqBoard.C9513Init(ChipNum, FOutDivider, Source, Compare1, Compare2, TimeOfDayCounting); // Set the configurable operations of the counter // Parameters: // CounterNum :the counter to be configured (1 to 5) // GateControl :gate control value // CounterEdge :which edge to count // CountSource :signal source // SpecialGate :status of special gate // Reload :method of reloading // RecyleMode :recyle mode // BCDMode :counting mode, Binary or BCD // CountDirection :direction for the counting operation (COUNTUP or COUNTDOWN) // OutputControl :output signal type and level // Initialize variables for the first of two counters MccDaq.GateControl GateControl = MccDaq.GateControl.NoGate; MccDaq.CountEdge CounterEdge = MccDaq.CountEdge.PositiveEdge; MccDaq.CounterSource CountSource = MccDaq.CounterSource.Freq3; MccDaq.OptionState SpecialGate = MccDaq.OptionState.Disabled; MccDaq.Reload Reload = MccDaq.Reload.LoadReg; MccDaq.RecycleMode RecycleMode = MccDaq.RecycleMode.Recycle; MccDaq.BCDMode BCDMode = MccDaq.BCDMode.Disabled; MccDaq.CountDirection CountDirection = MccDaq.CountDirection.CountUp; MccDaq.C9513OutputControl OutputControl = MccDaq.C9513OutputControl.AlwaysLow; ULStat = DaqBoard.C9513Config(CounterNum, GateControl, CounterEdge, CountSource, SpecialGate, Reload, RecycleMode, BCDMode, CountDirection, OutputControl); // Initialize variables for the second counter int SecondCounter = CounterNum + 1; ULStat = DaqBoard.C9513Config(SecondCounter, GateControl, CounterEdge, CountSource, SpecialGate, Reload, RecycleMode, BCDMode, CountDirection, OutputControl); // Load the 2 counters with starting values of zero with MccDaq.MccBoard.CLoad() // Parameters: // RegName :the register for loading the counter with the starting value // LoadValue :the starting value to place in the counter int LoadValue = 0; RegName = (CounterRegister)Enum.Parse(typeof(CounterRegister), CounterNum.ToString()); ULStat = DaqBoard.CLoad(RegName, LoadValue); RegName = (CounterRegister)Enum.Parse(typeof(CounterRegister), SecondCounter.ToString()); ULStat = DaqBoard.CLoad(RegName, LoadValue); this.lblDemoFunction.Text = "Demonstration of 9513 Counter using Interrupts using board " + DaqBoard.BoardNum.ToString() + "."; tmrReadStatus.Enabled = true; } }