public BeamPara(ClassChanpara chanpara, testBlock block, wedge wed, probe pro, position pos) { double xd = 0; double yd = 0; testblock = block; Wedge = wed; Probe = pro; Position = pos; activele = chanpara.activenb[0]; skewflag = GetSkewflag(chanpara.skew); if (chanpara.method == 0) { xd = chanpara.defectX; yd = chanpara.defectY; point = Direct(xd, yd, chanpara.interfaceAngle[0]); index = point.x[1]; } else if (chanpara.method == 1) { xd = chanpara.defectX; yd = 2 * testblock.BlockHeight - chanpara.defectY; point = Reflect(chanpara.defectX, chanpara.defectY, chanpara.interfaceAngle[0]); index = point.x[2]; } centerele = Centerelement(index, chanpara.interfaceAngle[0]); beamfile = Dealytime(xd, yd, centerele, chanpara.interfaceAngle[0]); }
public static int Centerelement(float xi, wedge Wedge, probe Probe, position Position, testBlock testblock) { float xw = 0; float yw = 0; float xc = 0; //c path cross probe float yc = 0; float k1 = 0; float k2 = 0; float[] tmp = new float[Probe.NumOfExcitation]; int i = 0; float probeangle = 0; float reflectangle = 0; float sina = 0; int eleindex = 0; probeangle = TurntoRadian(Wedge.WedgeAngle); reflectangle = TurntoRadian(testblock.VAngle); sina = (float)(Wedge.WedgeVelocity / testblock.TestBlockVelocity * Math.Sin(reflectangle)); k1 = (float)(Math.Tan(probeangle)); k2 = (float)(-1 * (Math.Sqrt(1 - Math.Pow(sina, 2))) / sina); xw = (float)(Position.WedgePosition + (testblock.BlockHeight - testblock.BottomLength) / Math.Tan(reflectangle)); yw = -Wedge.WedgeLeftHeight; xc = (k1 * xw - yw - k2 * xi) / (k1 - k2); yc = k2 * (xc - xi); for (i = 0; i < Probe.NumOfExcitation; i++) { tmp[i] = (float)Math.Abs(xc - (xw + (Position.ProbePosition + Probe.FirstDistance + i * Probe.ElementaryInterSpace) * Math.Cos(probeangle))); } float m = tmp.Min(); eleindex = Array.IndexOf(tmp, m); return(eleindex); }
public static ClassBeamFile Dealytime(float xd, float yd, int centerele, wedge Wedge, probe Probe, position Position, testBlock testblock) { ClassBeamFile beamfile = new ClassBeamFile(); float xw = 0; float yw = 0; float xe = 0; float ye = 0; float tmax = 0; int i = 0; float[] time = new float[32]; float probeangle = 0; float k = 0; int startele = 0; float reflectangle = 0; startele = centerele - 15; probeangle = TurntoRadian(Wedge.WedgeAngle); k = (float)(Math.Tan(probeangle)); reflectangle = TurntoRadian(testblock.VAngle); xw = (float)(Position.WedgePosition + (testblock.BlockHeight - testblock.BottomLength) / Math.Tan(reflectangle)); yw = -Wedge.WedgeLeftHeight; for (i = 0; i < 32; i++) { xe = (float)(xw + (Position.ProbePosition + Probe.FirstDistance + (i + startele) * Probe.ElementaryInterSpace) * Math.Cos(probeangle)); ye = k * (xe - xw) + yw; time[i] = Pathtime(xe, ye, xd, 2 * testblock.BlockHeight - yd, Wedge.WedgeVelocity, testblock.TestBlockVelocity); } tmax = time.Max(); for (i = 0; i < 32; i++) { beamfile.txDelay[i] = tmax - time[i]; beamfile.rxDelay[i] = tmax - time[i]; } beamfile.rxSize = 32; beamfile.txSize = 32; beamfile.txElementBin = beamfileinit(startele, 32); beamfile.rxElementBin = beamfileinit(startele, 32); return(beamfile); }
public ClassCouple(probe pro, wedge wed, int startele) { Probe = pro; Wedge = wed; beamfile = CoupleDelay(startele); }