private List <SignalPath> GetAllSignalPathData()
{
var signalPaths = new List <SignalPath>();
Log.log.Info("Start The Calibration.");
VNA.SetMarkerActive();
VNA.SetMarkerX(Matrix.Frequency * 1000000);
//关闭Vertex所有通道,后面用哪个打开哪个
foreach (var v in Vertexs)
{
v.CloseAllChannel(v.APortNum, v.BPortNum);
}
//for (int c = 1; c <= vertex.BPortNum; c++)
//{
for (int b = 1; b <= Matrix.BPortConnectNum; b++)
{
//下行
var vertexID = (b - 1) / Vertexs[0].APortConnectNum;
var inPortID = (b - 1) % Vertexs[0].APortConnectNum + 1;
var outPortID = 1;
Vertexs[vertexID].OpenChannel(inPortID, outPortID, UpDown.DOWN);
if (Log.log.IsInfoEnabled)
{
Log.log.InfoFormat("第{0}台Vertex响应。打开通道{1}{2},方向{3}。", vertexID, inPortID, outPortID, UpDown.DOWN);
}
for (int a = 1; a <= Matrix.APortConnectNum; a++)
{
var calBoxAPortID = a;
var calBoxBPortID = ((b - 1) / Vertexs[0].APortConnectNum) * Vertexs[0].BPortConnectNum + 1;
SwitchAdapter.DoSwitch(calBoxAPortID, calBoxBPortID);
//_calBoxToMatrix.Set64B16Switch(calBoxAPortID, calBoxBPortID, 1, 1);
//_calBoxToMatrix.SetSwitch(calBoxAPortID);
//_calBoxToVertex.SetSwitch(calBoxBPortID);
if (Log.log.IsInfoEnabled)
{
Log.log.InfoFormat("衰减校准阶段切开关 {0}{1} OK。", calBoxAPortID, calBoxBPortID);
}
var signalPath = new SignalPath(SwitchAdapter.CalBoxData, Matrix.PhaseStepShiftDirection)
{
APortID = a,
BPortID = b,
CPortID = 1,
Attenuation = VNA.GetMarkerY(VNA.AttMarkPoint),
};
signalPaths.Add(signalPath);
}
Vertexs[vertexID].CloseChannel(inPortID, outPortID, UpDown.DOWN);
if (Log.log.IsInfoEnabled)
{
Log.log.InfoFormat("第{0}台Vertex响应。关闭通道{1}{2},方向{3}。", vertexID, inPortID, outPortID, UpDown.DOWN);
}
}
return(signalPaths);
}
public override void DisConnectAll()
{
try
{
Matrix.Close();
Vertexs.ForEach(v => v.Close());
CalBoxToMatrix.Close();
CalBoxToVertex.Close();
CalBoxWhole.Close();
VNA.Close();
}
catch (Exception ex)
{
Log.log.ErrorFormat("{0}", ex);
throw ex;
}
}
public override void Calibrate()
{
try
{
var signalPaths = new List <SignalPath>();
TaskFactory taskFactory = new TaskFactory();
Task[] tasks = new Task[]
{
taskFactory.StartNew(SwitchAdapter.GetCalBoxData),
taskFactory.StartNew(Matrix.ResetAttAndPha)
};
taskFactory.ContinueWhenAll(tasks, TasksEnded);
#region used Thread
//Thread getCalBoxDatasThread = new Thread((calBoxToMatrix) =>
//{
// (calBoxToMatrix as CalBoxToMatrix).GetCalBoxData();
//})
//{
// CurrentCulture = Globalization.CultureInfo.InvariantCulture,
// Name = "子线程:获取校准盒子数据。",
// IsBackground = true
//};
////获取校准盒子数据
//getCalBoxDatasThread.Start(CalBoxToMatrix);
//Thread resetMatrixThread = new Thread((matrix) =>
//{
// var m = matrix as Matrix;
// m.ResetAttAndPha();
//})
//{
// CurrentCulture = Globalization.CultureInfo.InvariantCulture,
// Name = "子线程:设置MCS衰减相位归零。",
// IsBackground = true
//};
////相位衰减置零
//resetMatrixThread.Start(Matrix);
////等待子线程完成任务
//getCalBoxDatasThread.Join();
//resetMatrixThread.Join();
#endregion
int attCalFre = Matrix.AttCalFre;
int phaCalFre = Matrix.PhaCalFre;
int maxCalCount = attCalFre > phaCalFre ? attCalFre : phaCalFre;
for (int i = 1; i <= maxCalCount; i++)
{
if (i <= attCalFre)
{
//开始获取通道衰减
signalPaths = GetAllSignalPathData();
if (Log.log.IsInfoEnabled)
{
Log.log.InfoFormat("通道总数量为{0}。Vertex台数为{1}。", signalPaths.Count, Vertex.Quantity);
}
//找到衰减最小值
SignalPath.ExpectAttStandard = signalPaths.Select(s => s.Attenuation).Min();
Task taskSetMatrixAtt = new Task(() => { Matrix.SetAtt(signalPaths.Select(s => s.ChannelToMatrix).ToList(), true); });
taskSetMatrixAtt.Start();
taskSetMatrixAtt.Wait();
#region used Thread
//Thread setMatrixAttThread = new Thread((matrix) =>
//{
// var m = matrix as Matrix;
// m.SetAtt(_signalPaths.Select(s => s.ChannelToMatrix).ToList(), true);
//})
//{
// CurrentCulture = Globalization.CultureInfo.InvariantCulture,
// Name = "子线程:设置MCS补偿衰减。",
// IsBackground = true
//};
//setMatrixAttThread.Start(Matrix);
//setMatrixAttThread.Join();
#endregion
if (Log.log.IsInfoEnabled)
{
Log.log.InfoFormat("第{0}次衰减校准完成。", i);
}
}
if (i <= phaCalFre)
{
//取相位
for (int b = 1; b <= Matrix.BPortConnectNum; b++)
{
//下行
var vertexID = (b - 1) / Vertexs[0].APortConnectNum;
var inPortID = (b - 1) % Vertexs[0].APortConnectNum + 1;
var outPortID = 1;
Vertexs[vertexID].OpenChannel(inPortID, outPortID, UpDown.DOWN);
if (Log.log.IsInfoEnabled)
{
Log.log.InfoFormat("第{0}台Vertex响应。打开通道{1}{2},方向{3}。", vertexID, inPortID, outPortID, UpDown.DOWN);
}
for (int a = 1 + (b - 1) * (Matrix.APortNum / Matrix.BPortNum); a <= 2 * (b - 1) * (Matrix.APortNum / Matrix.BPortNum); a++)
{
var calBoxAPortID = a;
var calBoxBPortID = ((b - 1) / Vertexs[0].APortConnectNum) * Vertexs[0].BPortConnectNum + 1;
//(CalBoxToMatrix as CalBoxToMatrix).Set64B16Switch(calBoxAPortID, calBoxBPortID, 1, 1);
//Switch.DoSwitch(calBoxAPortID, calBoxBPortID);
SwitchAdapter.DoSwitch(calBoxAPortID, calBoxBPortID);
if (Log.log.IsInfoEnabled)
{
Log.log.InfoFormat("相位校准阶段切开关 {0}{1} OK。", calBoxAPortID, calBoxBPortID);
}
signalPaths.Find(s => s.Index.Equals($"{a}:{b}:1")).Phase = VNA.GetMarkerY(VNA.PhaMarkPoint);
}
Vertexs[vertexID].CloseChannel(inPortID, outPortID, UpDown.DOWN);
if (Log.log.IsInfoEnabled)
{
Log.log.InfoFormat("第{0}台Vertex响应。关闭通道{1}{2},方向{3}。", vertexID, inPortID, outPortID, UpDown.DOWN);
}
}
Task taskSetMatrixPha = new Task(() => { Matrix.SetPha(signalPaths.Select(s => s.ChannelToMatrix).ToList(), true); });
taskSetMatrixPha.Start();
taskSetMatrixPha.Wait();
#region used Thread
//Thread setMatrixPhaThread = new Thread((matrix) =>
//{
// var m = matrix as Matrix;
// m.SetPha(_signalPaths.Select(s => s.ChannelToMatrix).ToList(), true);
//})
//{
// CurrentCulture = Globalization.CultureInfo.InvariantCulture,
// Name = "子线程:设置MCS补偿相位。",
// IsBackground = true,
//};
//setMatrixPhaThread.Start(Matrix);
//setMatrixPhaThread.Join();
#endregion
if (Log.log.IsInfoEnabled)
{
Log.log.InfoFormat("第{0}次相位校准完成。", i);
}
}
}
OutputResult(Device.CALIBRATE_OFFSET_DATA_PATH);
Log.log.Info("MCS Calibrate Successfully! Please Start Vertex Self Calibrate!");
}
catch (Exception ex)
{
Log.log.ErrorFormat("{0}", ex);
throw ex;
}
}
