private void WorkTest_OutTestResult(byte[] result) { OutTestResult(result); ViewSources vs = new ViewSources(result); this.TestFre = vs.TestFre; this.In = NumericsConverter.Value2Text(vs.TestIn, 4, -13, "", SCEEC.Numerics.Quantities.QuantityName.Capacitance); this.Ix1 = NumericsConverter.Value2Text(vs.TestIx1, 4, -13, "", SCEEC.Numerics.Quantities.QuantityName.Current); this.AG1 = vs.TestPh1.ToString("F6"); //NumericsConverter.Value2Text(vs.TestPh1, 4, -6, "", SCEEC.Numerics.Quantities.QuantityName.None); this.Ix2 = NumericsConverter.Value2Text(vs.TestIx2, 4, -13, "", SCEEC.Numerics.Quantities.QuantityName.Current); this.AG2 = vs.TestPh2.ToString("F6"); //NumericsConverter.Value2Text(vs.TestPh2, 4, -6, "", SCEEC.Numerics.Quantities.QuantityName.None); this.Ix3 = NumericsConverter.Value2Text(vs.TestIx3, 4, -13, "", SCEEC.Numerics.Quantities.QuantityName.Current); this.AG3 = vs.TestPh3.ToString("F6"); //NumericsConverter.Value2Text(vs.TestPh3, 4, -6, "", SCEEC.Numerics.Quantities.QuantityName.None); this.Ix4 = NumericsConverter.Value2Text(vs.TestIx4, 4, -13, "", SCEEC.Numerics.Quantities.QuantityName.Current); this.AG4 = vs.TestPh4.ToString("F6"); //NumericsConverter.Value2Text(vs.TestPh4, 4, -6, "", SCEEC.Numerics.Quantities.QuantityName.None); this.OneStata = NumericsConverter.Value2Text(vs.OneVolate, 4, -13, "", SCEEC.Numerics.Quantities.QuantityName.Voltage); this.Alarm = vs.AlarmStata.ToString(); StandardCapacitance = Cn.ToString(); StandardCapacitanceDissipationFactor = NumericsConverter.Value2Text(Math.Tan(pnv(AGn.value)), 4, -5, "", SCEEC.Numerics.Quantities.QuantityName.None, percentage: true).Trim(); HVFrequency = NumericsConverter.Value2Text(vs.TestFre, 4, -3, "", SCEEC.Numerics.Quantities.QuantityName.Frequency); HVVoltage = calcVolt(HVFrequency, Cn, In); Capacitance1 = calcCap(Ix1, AG1).ToString(); Capacitance2 = calcCap(Ix2, AG2).ToString(); Capacitance3 = calcCap(Ix3, AG3).ToString(); Capacitance4 = calcCap(Ix4, AG4).ToString(); Current1 = Ix1.ToString(); Current2 = Ix2.ToString(); Current3 = Ix3.ToString(); Current4 = Ix4.ToString(); DissipationFactor1 = calcDF(AG1); DissipationFactor2 = calcDF(AG2); DissipationFactor3 = calcDF(AG3); DissipationFactor4 = calcDF(AG4); Power1 = calcPower(Ix1, AG1); Power2 = calcPower(Ix2, AG2); Power3 = calcPower(Ix3, AG3); Power4 = calcPower(Ix4, AG4); }