private void Prepare_Freq_Sweep1(SweepParams p) { p.SweepType = SweepType.Freq_Sweep; Init_Sweep_Params(p, this.Handle, RFInvolved.Rf_1, 1); p.FrqParam = new FreqSweepParam(); p.FrqParam.P1 = this.settings.Tx; Auto_CAL_Items Cal_Carrier = RL0_Tables.Cal_Carrier(FuncModule.ISO, RFInvolved.Rf_1); //根据隔离度校准表,生成功放1扫描序列 FreqSweepItem[] items = new FreqSweepItem[Cal_Carrier.Length]; for (int i = 0; i < items.Length; i++) { items[i] = new FreqSweepItem(); items[i].Tx1 = Cal_Carrier.GetItem(i).F0; if (App_Configure.Cnfgs.Cal_Use_Table) { items[i].P1 = this.settings.Tx + Tx_Tables.iso_tx1.Offset(items[i].Tx1, this.settings.Tx, Tx_Tables.iso_offset1); } else { items[i].P1 = (float)App_Factors.iso_tx1.ValueWithOffset(items[i].Tx1, this.settings.Tx); } items[i].Rx = Cal_Carrier.GetItem(i).F0; } //将生成的扫描序列赋值给扫描参数对象 p.FrqParam.Items1 = items; }
/// <summary> /// 将当前深度拷贝到目标dest /// </summary> /// <param name="item"></param> public void Clone(FreqSweepItem dest) { if (dest != null) { dest.P1 = this.p1; dest.P2 = this.p2; dest.Tx1 = this.tx1; dest.Tx2 = this.tx2; dest.Rx = this.rx; } }
/// <summary> /// 根据频率步进,生成功放2扫描序列 /// </summary> /// <returns></returns> private FreqSweepItem[] NewSweepItems2(float step) { FreqSweepItem item = null; List <FreqSweepItem> lst = new List <FreqSweepItem>(); int i = 0; float f = 0.0f; do { f = App_Settings.sgn_2.Min_Freq + i * step; if (f >= App_Settings.sgn_2.Max_Freq) { f = App_Settings.sgn_2.Max_Freq; } item = new FreqSweepItem(); item.Tx2 = f; if (App_Configure.Cnfgs.Cal_Use_Table) { item.P2 = this.settings.Tx + Tx_Tables.iso_tx2.Offset(f, this.settings.Tx, Tx_Tables.iso_offset2); } else { item.P2 = (float)App_Factors.iso_tx2.ValueWithOffset(f, this.settings.Tx); } item.Rx = f; lst.Add(item); i++; } while (f < App_Settings.sgn_2.Max_Freq); FreqSweepItem[] items = null; if (lst.Count > 0) { items = new FreqSweepItem[lst.Count]; for (int j = 0; j < lst.Count; j++) { items[j] = new FreqSweepItem(); lst[j].Clone(items[j]); } } return(items); }
/// <summary> /// 获取频谱扫描序列 /// </summary> /// <param name="ObjList">频率校准列表</param> /// <returns>扫描序列</returns> private FreqSweepItem[] GetItemList(List <jcPimSoftware.VswrForm.CalibrationObj> ObjList) { FreqSweepItem[] revItemList = new FreqSweepItem[ObjList.Count]; for (int i = 0; i < revItemList.Length; i++) { FreqSweepItem item = new FreqSweepItem(); if (rf_num == RFInvolved.Rf_1) { item.Tx1 = ObjList[i].Freq; if (!App_Configure.Cnfgs.Cal_Use_Table) { item.P1 = (float)App_Factors.vsw_tx1.ValueWithOffset(item.Tx1, this.settings.Tx); } else { item.P1 = Tx_Tables.vsw_tx1.Offset(item.Tx1, this.settings.Tx, Tx_Tables.vsw_offset1) + this.settings.Tx; } } else { item.Tx2 = ObjList[i].Freq; if (!App_Configure.Cnfgs.Cal_Use_Table) { item.P2 = (float)App_Factors.vsw_tx1.ValueWithOffset(item.Tx2, this.settings.Tx); } else { item.P2 += Tx_Tables.vsw_tx1.Offset(item.Tx2, this.settings.Tx, Tx_Tables.vsw_offset2) + this.settings.Tx; } } item.Rx = ObjList[i].Freq; revItemList[i] = item; } return(revItemList); }
//#region 获取不指定的序列频率扫描数据 ///// <summary> ///// 获取不指定的序列频率扫描数据 ///// </summary> ///// <param name="order"></param> ///// <param name="i"></param> ///// <param name="num"></param> //internal FreqSweepParam FreqSweep(Settings_Pim settings, int order) //{ // int n, m; // m = (order - 1) / 2; // n = m + 1; // FreqSweepParam fsp = new FreqSweepParam(); // float f1Ups = settings.F1s; // float f1Upe = settings.F1e; // float f2Fixed = settings.F2e; // float f1Fixed = settings.F1s; // float f2Ups = settings.F2s; // float f2Upe = settings.F2e; // float value = settings.Setp1; // float value1 = settings.Setp2; // int sn1 = Convert.ToInt32(Math.Ceiling((f1Upe - f1Ups) / value))+1; // int sn2 = Convert.ToInt32(Math.Ceiling((f2Upe - f2Ups) / value1))+1; // FreqSweepItem[] sweepItem1 = new FreqSweepItem[sn1]; // FreqSweepItem[] sweepItem2 = new FreqSweepItem[sn2]; // for (int j = 0; j < sn1; j++) // { // sweepItem1[j] = new FreqSweepItem(); // sweepItem1[j].Tx2 = f2Fixed; // if (j == sn1 - 1) // sweepItem1[j].Tx1 = f1Upe; // else // sweepItem1[j].Tx1 = j * value + f1Ups; // float f3 = n * sweepItem1[j].Tx1 - m * sweepItem1[j].Tx2; // float f4 = n * sweepItem1[j].Tx2 - m * sweepItem1[j].Tx1; // if (f3 > f4 || f3 == f4) // { // sweepItem1[j].Rx = f4; // } // else // sweepItem1[j].Rx = f3; // if (App_Configure.Cnfgs.Cal_Use_Table) // { // //---------------------------------------- // sweepItem1[j].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem1[j].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); // sweepItem1[j].P2 = settings.Tx + Tx_Tables.pim_rev_tx2.Offset(sweepItem1[j].Tx2, settings.Tx, Tx_Tables.pim_rev_offset2); // //---------------------------------------- // } // else // { // sweepItem1[j].P1 = (float)App_Factors.pim_tx1.ValueWithOffset(sweepItem1[j].Tx1, settings.Tx); // sweepItem1[j].P2 = (float)App_Factors.pim_tx2.ValueWithOffset(sweepItem1[j].Tx2, settings.Tx); // } // } // for (int k = 0; k < sn2; k++) // { // sweepItem2[k] = new FreqSweepItem(); // sweepItem2[k].Tx1 = f1Fixed; // if (k == sn2 - 1) // sweepItem2[k].Tx2 = f2Ups; // else // sweepItem2[k].Tx2 = f2Upe - k * value1; // float f5 = n * sweepItem2[k].Tx1 - m * sweepItem2[k].Tx2; // float f6 = n * sweepItem2[k].Tx2 - m * sweepItem2[k].Tx1; // if (f5 > f6 || f5 == f6) // { // sweepItem2[k].Rx = f6; // } // else // sweepItem2[k].Rx = f5; // if (App_Configure.Cnfgs.Cal_Use_Table) // { // //---------------------------------------- // sweepItem2[k].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem2[k].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); // sweepItem2[k].P2 = settings.Tx + Tx_Tables.pim_rev_tx2.Offset(sweepItem2[k].Tx2, settings.Tx, Tx_Tables.pim_rev_offset2); // //---------------------------------------- // } // else // { // sweepItem2[k].P1 = (float)App_Factors.pim_tx1.ValueWithOffset(sweepItem2[k].Tx1, settings.Tx); // sweepItem2[k].P2 = (float)App_Factors.pim_tx2.ValueWithOffset(sweepItem2[k].Tx2, settings.Tx); // } // } // fsp.Items1 = sweepItem1; // fsp.Items2 = sweepItem2; // return fsp; //} // #endregion #region 获取不指定的序列频率扫描数据 /// <summary> /// 获取不指定的序列频率扫描数据 /// </summary> /// <param name="order"></param> /// <param name="i"></param> /// <param name="num"></param> internal FreqSweepParam FreqSweep(Settings_Pim settings, int order, int i) { int n, m; m = (order - 1) / 2; n = m + 1; FreqSweepParam fsp = new FreqSweepParam(); float f1Ups = settings.F1s; float f1Upe = settings.F1e; float f2Fixed = settings.F2e; float f1Fixed = settings.F1s; float f2Ups = settings.F2s; float f2Upe = settings.F2e; float value1 = settings.Setp1; float value2 = settings.Setp2; int sn1 = Convert.ToInt32(Math.Ceiling((f1Upe - f1Ups) / value1)) + 1; int sn2 = Convert.ToInt32(Math.Ceiling((f2Upe - f2Ups) / value2)) + 1; //if (sn1 == 0) // sn1 = 1; //if (sn2 == 0) // sn2 = 1; FreqSweepItem[] sweepItem1 = new FreqSweepItem[sn1]; FreqSweepItem[] sweepItem2 = new FreqSweepItem[sn2]; for (int j = 0; j < sn1; j++) { sweepItem1[j] = new FreqSweepItem(); sweepItem1[j].Tx2 = f2Fixed; if (j == sn1 - 1) { sweepItem1[j].Tx1 = f1Upe; } else { sweepItem1[j].Tx1 = j * value1 + f1Ups; } //float f3 = n * sweepItem1[j].Tx1 - m * sweepItem1[j].Tx2; //float f4 = n * sweepItem1[j].Tx2 - m * sweepItem1[j].Tx1; //ygq float f3 = 0; float f4 = 0; if (App_Configure.Cnfgs.Mode >= 2) { if (PimForm.port1_rev_fwd == 1 || PimForm.port1_rev_fwd == 2) { f3 = n * sweepItem1[j].Tx1 - m * sweepItem1[j].Tx2; //f4 = n * sweepItem1[j].Tx2 - m * sweepItem1[j].Tx1; } else { f3 = n * sweepItem1[j].Tx2 - m * sweepItem1[j].Tx1; } } else { if (App_Configure.Cnfgs.Mode == 1) { f3 = n * sweepItem1[j].Tx1 - m * sweepItem1[j].Tx2; //f4 = n * sweepItem1[j].Tx2 - m * sweepItem1[j].Tx1; } else if (App_Configure.Cnfgs.Mode == 0) { f3 = n * sweepItem1[j].Tx2 - m * sweepItem1[j].Tx1; } else { f3 = n * sweepItem1[j].Tx1 - m * sweepItem1[j].Tx2; } } //ygq //if (f3 > f4 || f3 == f4) //{ // sweepItem1[j].Rx = f4; //} //else sweepItem1[j].Rx = f3; if (App_Configure.Cnfgs.Cal_Use_Table) { //sweepItem1[j].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem1[j].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); //sweepItem1[j].P2 = settings.Tx + Tx_Tables.pim_rev_tx2.Offset(sweepItem1[j].Tx2, settings.Tx, Tx_Tables.pim_rev_offset2); //ygq if (PimForm.port1_rev_fwd == 1 || PimForm.port1_rev_fwd == 2) { sweepItem1[j].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem1[j].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); sweepItem1[j].P2 = settings.Tx2 + Tx_Tables.pim_rev_tx2.Offset(sweepItem1[j].Tx2, settings.Tx2, Tx_Tables.pim_rev_offset2); } else { sweepItem1[j].P1 = settings.Tx + Tx_Tables.pim_rev2_tx1.Offset(sweepItem1[j].Tx1, settings.Tx, Tx_Tables.pim_rev2_offset1); sweepItem1[j].P2 = settings.Tx2 + Tx_Tables.pim_rev2_tx2.Offset(sweepItem1[j].Tx2, settings.Tx2, Tx_Tables.pim_rev2_offset2); } //ygq } else { sweepItem1[j].P1 = (float)App_Factors.pim_tx1.ValueWithOffset(sweepItem1[j].Tx1, settings.Tx); sweepItem1[j].P2 = (float)App_Factors.pim_tx2.ValueWithOffset(sweepItem1[j].Tx2, settings.Tx2); } } for (int k = 0; k < sn2; k++) { sweepItem2[k] = new FreqSweepItem(); sweepItem2[k].Tx1 = f1Fixed; if (k == sn2 - 1) { sweepItem2[k].Tx2 = f2Ups; } else { sweepItem2[k].Tx2 = f2Upe - k * value2; } //float f5 = n * sweepItem2[k].Tx1 - m * sweepItem2[k].Tx2; //float f6 = n * sweepItem2[k].Tx2 - m * sweepItem2[k].Tx1; //ygq float f5 = 0; float f6 = 0; if (App_Configure.Cnfgs.Mode >= 2) { if (PimForm.port1_rev_fwd == 1 || PimForm.port1_rev_fwd == 2) { f5 = n * sweepItem2[k].Tx1 - m * sweepItem2[k].Tx2; //f6 = n * sweepItem2[k].Tx2 - m * sweepItem2[k].Tx1; } else { f5 = n * sweepItem2[k].Tx2 - m * sweepItem2[k].Tx1; } } else { if (App_Configure.Cnfgs.Mode == 1) { f5 = n * sweepItem2[k].Tx1 - m * sweepItem2[k].Tx2; //f6 = n * sweepItem2[k].Tx2 - m * sweepItem2[k].Tx1; } else if (App_Configure.Cnfgs.Mode == 0) { f5 = n * sweepItem2[k].Tx2 - m * sweepItem2[k].Tx1; } else { f5 = n * sweepItem2[k].Tx1 - m * sweepItem2[k].Tx2; } } //ygq //if (f5 > f6 || f5 == f6) //{ // sweepItem2[k].Rx = f6; //} //else sweepItem2[k].Rx = f5; if (App_Configure.Cnfgs.Cal_Use_Table) { //sweepItem2[k].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem2[k].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); //sweepItem2[k].P2 = settings.Tx + Tx_Tables.pim_rev_tx2.Offset(sweepItem2[k].Tx2, settings.Tx, Tx_Tables.pim_rev_offset2); //ygq if (PimForm.port1_rev_fwd == 1 || PimForm.port1_rev_fwd == 2) { sweepItem2[k].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem2[k].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); sweepItem2[k].P2 = settings.Tx2 + Tx_Tables.pim_rev_tx2.Offset(sweepItem2[k].Tx2, settings.Tx2, Tx_Tables.pim_rev_offset2); } else { sweepItem2[k].P1 = settings.Tx + Tx_Tables.pim_rev2_tx1.Offset(sweepItem2[k].Tx1, settings.Tx, Tx_Tables.pim_rev2_offset1); sweepItem2[k].P2 = settings.Tx2 + Tx_Tables.pim_rev2_tx2.Offset(sweepItem2[k].Tx2, settings.Tx2, Tx_Tables.pim_rev2_offset2); } //ygq } else { sweepItem2[k].P1 = (float)App_Factors.pim_tx1.ValueWithOffset(sweepItem2[k].Tx1, settings.Tx); sweepItem2[k].P2 = (float)App_Factors.pim_tx2.ValueWithOffset(sweepItem2[k].Tx2, settings.Tx2); } } fsp.Items1 = sweepItem1; fsp.Items2 = sweepItem2; return(fsp); }
/// <summary> /// 获取不指定的序列频率扫描数据 /// </summary> /// <param name="order"></param> /// <param name="i"></param> /// <param name="num"></param> internal FreqSweepParam FreqSweep(Settings_Pim settings, int order, int i, int num) { int n, m; m = (order - 1) / 2; n = m + 1; FreqSweepParam fsp = new FreqSweepParam(); FreqSweepItem[] sweepItem1 = new FreqSweepItem[num]; FreqSweepItem[] sweepItem2 = new FreqSweepItem[num]; float f1Ups = App_Settings.spfc.ims[i].F1UpS; float f2Fixed = App_Settings.spfc.ims[i].F2fixed; float f1Fixed = App_Settings.spfc.ims[i].F1fixed; float f2Dne = App_Settings.spfc.ims[i].F2DnE; float ime = App_Settings.spfc.ims[i].ImE; float ims = App_Settings.spfc.ims[i].ImS; float value = (float)Math.Round((ime - ims) / (num - 1), 3); for (int j = 0; j < num; j++) { sweepItem1[j] = new FreqSweepItem(); sweepItem2[j] = new FreqSweepItem(); sweepItem1[j].Tx2 = f2Fixed; sweepItem1[j].Rx = ims + j * value; sweepItem1[j].Tx1 = (float)Math.Round((m * sweepItem1[j].Tx2 + sweepItem1[j].Rx) / n, 1, MidpointRounding.AwayFromZero); //sweepItem1[j].Rx = n * sweepItem1[j].Tx1 - m * sweepItem1[j].Tx2; if (settings.IsHigh)//high-pim { sweepItem1[j].Rx = n * sweepItem1[j].Tx2 - m * sweepItem1[j].Tx1; } else { sweepItem1[j].Rx = n * sweepItem1[j].Tx1 - m * sweepItem1[j].Tx2; } sweepItem2[j].Tx1 = f1Fixed; sweepItem2[j].Rx = ims + j * value; sweepItem2[j].Tx2 = (float)Math.Round((n * sweepItem2[j].Tx1 - sweepItem2[j].Rx) / m, 1, MidpointRounding.AwayFromZero); //sweepItem2[j].Rx = n * sweepItem2[j].Tx1 - m * sweepItem2[j].Tx2; if (settings.IsHigh)//high-pim { sweepItem2[j].Rx = n * sweepItem2[j].Tx2 - m * sweepItem2[j].Tx1; } else { sweepItem2[j].Rx = n * sweepItem2[j].Tx1 - m * sweepItem2[j].Tx2; } if (App_Configure.Cnfgs.Cal_Use_Table) { //---------------------------------------- sweepItem1[j].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem1[j].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); sweepItem1[j].P2 = settings.Tx2 + Tx_Tables.pim_rev_tx2.Offset(sweepItem1[j].Tx2, settings.Tx2, Tx_Tables.pim_rev_offset2); sweepItem2[j].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem2[j].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); sweepItem2[j].P2 = settings.Tx2 + Tx_Tables.pim_rev_tx2.Offset(sweepItem2[j].Tx2, settings.Tx2, Tx_Tables.pim_rev_offset2); //if (settings.PimSchema == ImSchema.REV) //{ // sweepItem1[j].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem1[j].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); // sweepItem1[j].P2 = settings.Tx + Tx_Tables.pim_rev_tx2.Offset(sweepItem1[j].Tx2, settings.Tx, Tx_Tables.pim_rev_offset2); // sweepItem2[j].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem2[j].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); // sweepItem2[j].P2 = settings.Tx + Tx_Tables.pim_rev_tx2.Offset(sweepItem2[j].Tx2, settings.Tx, Tx_Tables.pim_rev_offset2); //} //else //{ // sweepItem1[j].P1 = settings.Tx + Tx_Tables.pim_frd_tx1.Offset(sweepItem1[j].Tx1, settings.Tx, Tx_Tables.pim_frd_offset1); // sweepItem1[j].P2 = settings.Tx + Tx_Tables.pim_frd_tx2.Offset(sweepItem1[j].Tx2, settings.Tx, Tx_Tables.pim_frd_offset2); // sweepItem2[j].P1 = settings.Tx + Tx_Tables.pim_frd_tx1.Offset(sweepItem2[j].Tx1, settings.Tx, Tx_Tables.pim_frd_offset1); // sweepItem2[j].P2 = settings.Tx + Tx_Tables.pim_frd_tx2.Offset(sweepItem2[j].Tx2, settings.Tx, Tx_Tables.pim_frd_offset2); //} //---------------------------------------- } else { sweepItem1[j].P1 = (float)App_Factors.pim_tx1.ValueWithOffset(sweepItem1[j].Tx1, settings.Tx); sweepItem1[j].P2 = (float)App_Factors.pim_tx2.ValueWithOffset(sweepItem1[j].Tx2, settings.Tx2); sweepItem2[j].P1 = (float)App_Factors.pim_tx1.ValueWithOffset(sweepItem2[j].Tx1, settings.Tx); sweepItem2[j].P2 = (float)App_Factors.pim_tx2.ValueWithOffset(sweepItem2[j].Tx2, settings.Tx2); } } fsp.Items1 = sweepItem1; fsp.Items2 = sweepItem2; return(fsp); }
/// <summary> /// 获取指定的序列频率扫描数据 /// </summary> /// <param name="filePath">读取的文件地址</param> /// <param name="gsm"></param> /// <param name="mode">REV,FWD</param> /// <param name="imOder">阶数</param> /// <param name="cate">fixed,sweep</param> internal FreqSweepParam GetFreqSweepParam(Settings_Pim settings, string filePath, string gsm, string mode, string cate, int imOrder) { IniFile.SetFileName(filePath); string name = GetName(gsm, mode, imOrder, cate); FreqSweepParam fsp = new FreqSweepParam(); FreqSweepItem[] sweepItem1 = null; FreqSweepItem[] sweepItem2 = null; string tx1_1 = IniFile.GetString(name, "tx1_1", "935"); string tx2_1 = IniFile.GetString(name, "tx2_1", "960"); string rx_1 = IniFile.GetString(name, "rx_1", "910"); string tx1_2 = IniFile.GetString(name, "tx1_2", "935"); string tx2_2 = IniFile.GetString(name, "tx2_2", "960"); string rx_2 = IniFile.GetString(name, "rx_2", "910"); string[] strTx1_1 = tx1_1.Split(char.Parse(",")); string[] strTx2_1 = tx2_1.Split(char.Parse(",")); string[] strRx_1 = rx_1.Split(char.Parse(",")); string[] strTx1_2 = tx1_2.Split(char.Parse(",")); string[] strTx2_2 = tx2_2.Split(char.Parse(",")); string[] strRx_2 = rx_2.Split(char.Parse(",")); sweepItem1 = new FreqSweepItem[strTx1_1.Length]; sweepItem2 = new FreqSweepItem[strTx1_2.Length]; for (int i = 0; i < strTx1_1.Length; i++) { sweepItem1[i] = new FreqSweepItem(); sweepItem1[i].Tx1 = float.Parse(strTx1_1[i]); sweepItem1[i].Tx2 = float.Parse(strTx2_1[i]); sweepItem1[i].Rx = float.Parse(strRx_1[i]); sweepItem2[i] = new FreqSweepItem(); sweepItem2[i].Tx1 = float.Parse(strTx1_2[i]); sweepItem2[i].Tx2 = float.Parse(strTx2_2[i]); sweepItem2[i].Rx = float.Parse(strRx_2[i]); if (App_Configure.Cnfgs.Cal_Use_Table) { //---------------------------------------- sweepItem1[i].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem1[i].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); sweepItem1[i].P2 = settings.Tx2 + Tx_Tables.pim_rev_tx2.Offset(sweepItem1[i].Tx2, settings.Tx2, Tx_Tables.pim_rev_offset2); sweepItem2[i].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem2[i].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); sweepItem2[i].P2 = settings.Tx2 + Tx_Tables.pim_rev_tx2.Offset(sweepItem2[i].Tx2, settings.Tx2, Tx_Tables.pim_rev_offset2); //if (settings.PimSchema == ImSchema.REV) //{ // sweepItem1[i].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem1[i].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); // sweepItem1[i].P2 = settings.Tx + Tx_Tables.pim_rev_tx2.Offset(sweepItem1[i].Tx2, settings.Tx, Tx_Tables.pim_rev_offset2); // sweepItem2[i].P1 = settings.Tx + Tx_Tables.pim_rev_tx1.Offset(sweepItem2[i].Tx1, settings.Tx, Tx_Tables.pim_rev_offset1); // sweepItem2[i].P2 = settings.Tx + Tx_Tables.pim_rev_tx2.Offset(sweepItem2[i].Tx2, settings.Tx, Tx_Tables.pim_rev_offset2); //} //else //{ // sweepItem1[i].P1 = settings.Tx + Tx_Tables.pim_frd_tx1.Offset(sweepItem1[i].Tx1, settings.Tx, Tx_Tables.pim_frd_offset1); // sweepItem1[i].P2 = settings.Tx + Tx_Tables.pim_frd_tx2.Offset(sweepItem1[i].Tx2, settings.Tx, Tx_Tables.pim_frd_offset2); // sweepItem2[i].P1 = settings.Tx + Tx_Tables.pim_frd_tx1.Offset(sweepItem2[i].Tx1, settings.Tx, Tx_Tables.pim_frd_offset1); // sweepItem2[i].P2 = settings.Tx + Tx_Tables.pim_frd_tx2.Offset(sweepItem2[i].Tx2, settings.Tx, Tx_Tables.pim_frd_offset2); //} //---------------------------------------- } else { sweepItem1[i].P1 = (float)App_Factors.pim_tx1.ValueWithOffset(sweepItem1[i].Tx1, settings.Tx); sweepItem1[i].P2 = (float)App_Factors.pim_tx2.ValueWithOffset(sweepItem1[i].Tx2, settings.Tx2); sweepItem2[i].P1 = (float)App_Factors.pim_tx1.ValueWithOffset(sweepItem2[i].Tx1, settings.Tx); sweepItem2[i].P2 = (float)App_Factors.pim_tx2.ValueWithOffset(sweepItem2[i].Tx2, settings.Tx2); } } fsp.Items1 = sweepItem1; fsp.Items2 = sweepItem2; return(fsp); }