Mercurial > hg > fxanalyse
comparison FXAnalyse.c @ 61:37075b60408b
Fix N2 measurement after cleanup. Further simplification
| author | Daniele Nicolodi <daniele.nicolodi@obspm.fr> |
|---|---|
| date | Thu, 18 Oct 2012 12:24:31 +0200 |
| parents | cd7b5903f168 |
| children | 53dbce5f0745 |
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| 60:cd7b5903f168 | 61:37075b60408b |
|---|---|
| 81 double Frequ_slope_1=0.0,Moy_slope_1=0.0,Slope_slope_1=0.0,Frequ_slope_2=0.0,Moy_slope_2=0.0,Slope_slope_2=0.0,Frequ_slope_3=0.0,Moy_slope_3=0.0,Slope_slope_3=0.0; | 81 double Frequ_slope_1=0.0,Moy_slope_1=0.0,Slope_slope_1=0.0,Frequ_slope_2=0.0,Moy_slope_2=0.0,Slope_slope_2=0.0,Frequ_slope_3=0.0,Moy_slope_3=0.0,Slope_slope_3=0.0; |
| 82 int N_slope_1=0,N_slope_2=0,N_slope_3=0; | 82 int N_slope_1=0,N_slope_2=0,N_slope_3=0; |
| 83 double Beat_slope_2=0.0 ,Moy_Beatslope_2=0.0,Slope_Beatslope_2=0.0; | 83 double Beat_slope_2=0.0 ,Moy_Beatslope_2=0.0,Slope_Beatslope_2=0.0; |
| 84 double Ch4_slope=0.0,Moy_Ch4slope_1=0.0,Slope_Ch4slope_1=0.0,Ch4Slope=0.0; | 84 double Ch4_slope=0.0,Moy_Ch4slope_1=0.0,Slope_Ch4slope_1=0.0,Ch4Slope=0.0; |
| 85 | 85 |
| 86 double FrequencyDDSBes=0.0,FrequencyDDSBesInit=0.0; | 86 double FrequencyDDSBesInit = 0.0; |
| 87 double FrequencyDDS3=0.0,FrequencyDDS3Init=0.0; | 87 double FrequencyDDS3Init = 0.0; |
| 88 | 88 |
| 89 double DeltaDDS3=0.0,Delta10K_Plus=0.0,Delta10K_Minus=0.0; | 89 double DeltaDDS3=0.0,Delta10K_Plus=0.0,Delta10K_Minus=0.0; |
| 90 double Nu1=0.0, Nu2= 200000-147000+282143746.557455e6; | 90 double Nu1=0.0, Nu2= 200000-147000+282143746.557455e6; |
| 91 | 91 |
| 92 double Step1=800000.0,Step2=800000.0; | 92 double Step1=800000.0,Step2=800000.0; |
| 886 Slope_Beatslope_2 = 0.0; | 886 Slope_Beatslope_2 = 0.0; |
| 887 Beat_slope_2 = 0.0; | 887 Beat_slope_2 = 0.0; |
| 888 | 888 |
| 889 // frep positive step | 889 // frep positive step |
| 890 double fDDS1 = FrequDDS1 + DeltakHz_2 * 1000; | 890 double fDDS1 = FrequDDS1 + DeltakHz_2 * 1000; |
| 891 printf("fDDS1 = %g\n", fDDS1); | |
| 891 DDS4xAD9912_FrequencyRampe(&DDS4xAD9912,1, FrequDDS1, fDDS1, Step2/Ndiv); | 892 DDS4xAD9912_FrequencyRampe(&DDS4xAD9912,1, FrequDDS1, fDDS1, Step2/Ndiv); |
| 892 SetCtrlVal(MainPanel, PANEL_DDS1, fDDS1); | 893 SetCtrlVal(MainPanel, PANEL_DDS1, fDDS1); |
| 893 DDS4xAD9912_SetFrequency(&DDS4xAD9912, 1, fDDS1); | 894 DDS4xAD9912_SetFrequency(&DDS4xAD9912, 1, fDDS1); |
| 895 // adjust DDS3 to keep beatnote within the bandpass filter. prediction | |
| 894 DeltaDDS3 = -DeltakHz_2*1000*(-Signe1/Signe2)*Ndiv*(Nu2)/(Nu1) - Beatslope_2*(utc-t1_2); | 896 DeltaDDS3 = -DeltakHz_2*1000*(-Signe1/Signe2)*Ndiv*(Nu2)/(Nu1) - Beatslope_2*(utc-t1_2); |
| 897 printf("deltaDDS3 = %g\n", DeltaDDS3); | |
| 895 SetCtrlVal(MainPanel, PANEL_DDS3, FrequencyDDS3Init + DeltaDDS3); | 898 SetCtrlVal(MainPanel, PANEL_DDS3, FrequencyDDS3Init + DeltaDDS3); |
| 896 DDS4xAD9912_SetFrequency(&DDS4xAD9912, 3, FrequencyDDS3Init + DeltaDDS3); | 899 DDS4xAD9912_SetFrequency(&DDS4xAD9912, 3, FrequencyDDS3Init + DeltaDDS3); |
| 897 | 900 |
| 898 // allow counter to settle | 901 // allow counter to settle |
| 899 settling = 3; | 902 settling = 3; |
| 909 | 912 |
| 910 if (settling > 0) { | 913 if (settling > 0) { |
| 911 settling--; | 914 settling--; |
| 912 break; | 915 break; |
| 913 } | 916 } |
| 914 | 917 |
| 915 double DeltaFrep275 = 275000 - Ch4; | 918 double fDDS2 = DDS4xAD9912.Frequency2 + 275000 - Ch4; |
| 916 double DeltaFrep10 = 10000 - Ch2; | 919 SetCtrlVal(MainPanel, PANEL_DDS2, fDDS2); |
| 917 | 920 DDS4xAD9912_SetFrequency(&DDS4xAD9912, 2, fDDS2); |
| 918 DeltaDDS3 = DeltaDDS3 + DeltaFrep10; | 921 |
| 919 FrequencyDDSBes = FrequencyDDSBes + DeltaFrep275; | 922 double fDDS3 = DDS4xAD9912.Frequency3 + 10000 - Ch2; |
| 920 FrequencyDDS3 = FrequencyDDS3 + DeltaDDS3; | 923 DeltaDDS3 = DeltaDDS3 + 10000 - Ch2; |
| 921 SetCtrlVal(MainPanel, PANEL_DDS2, FrequencyDDSBes); | 924 SetCtrlVal(MainPanel, PANEL_DDS3, fDDS3); |
| 922 DDS4xAD9912_SetFrequency(&DDS4xAD9912,2,FrequencyDDSBes); | 925 DDS4xAD9912_SetFrequency(&DDS4xAD9912, 3, fDDS3); |
| 923 SetCtrlVal(MainPanel, PANEL_DDS3, FrequencyDDS3); | |
| 924 DDS4xAD9912_SetFrequency(&DDS4xAD9912,3,FrequencyDDS3); | |
| 925 | 926 |
| 926 // allow counter to settle | 927 // allow counter to settle |
| 927 settling = 3; | 928 settling = 3; |
| 928 | 929 |
| 929 // next step | 930 // next step |
| 952 | 953 |
| 953 // negative frequency step | 954 // negative frequency step |
| 954 DDS4xAD9912_FrequencyRampe(&DDS4xAD9912,1, (FrequDDS1+DeltakHz_2*1000),(FrequDDS1-DeltakHz_2*1000), Step2/Ndiv); | 955 DDS4xAD9912_FrequencyRampe(&DDS4xAD9912,1, (FrequDDS1+DeltakHz_2*1000),(FrequDDS1-DeltakHz_2*1000), Step2/Ndiv); |
| 955 SetCtrlVal(MainPanel, PANEL_DDS1, (FrequDDS1-DeltakHz_2*1000)); | 956 SetCtrlVal(MainPanel, PANEL_DDS1, (FrequDDS1-DeltakHz_2*1000)); |
| 956 DDS4xAD9912_SetFrequency(&DDS4xAD9912,1, (FrequDDS1-DeltakHz_2*1000)); | 957 DDS4xAD9912_SetFrequency(&DDS4xAD9912,1, (FrequDDS1-DeltakHz_2*1000)); |
| 957 DeltaDDS3 = (FrequencyDDS3Init+DeltakHz_2*1000*(-Signe1/Signe2)*Ndiv*(Nu2)/(Nu1)) - FrequencyDDS3; | 958 double fDDS3 = FrequencyDDS3Init+DeltakHz_2*1000*(-Signe1/Signe2)*Ndiv*(Nu2)/(Nu1); |
| 958 SetCtrlVal(MainPanel, PANEL_DDS3, FrequencyDDS3+DeltaDDS3); | 959 DeltaDDS3 = fDDS3 - DDS4xAD9912.Frequency3; |
| 959 DDS4xAD9912_SetFrequency(&DDS4xAD9912,3, FrequencyDDS3+DeltaDDS3); | 960 SetCtrlVal(MainPanel, PANEL_DDS3, fDDS3); |
| 961 DDS4xAD9912_SetFrequency(&DDS4xAD9912, 3, fDDS3); | |
| 960 | 962 |
| 961 // allow counter to settle | 963 // allow counter to settle |
| 962 settling = 3; | 964 settling = 3; |
| 963 | 965 |
| 964 // next step | 966 // next step |
| 1006 t3_2 = 0.0; | 1008 t3_2 = 0.0; |
| 1007 Frepminus_2 = 0.0; | 1009 Frepminus_2 = 0.0; |
| 1008 Frepplus_2 = 0.0; | 1010 Frepplus_2 = 0.0; |
| 1009 Delta10K_Minus = 0.0; | 1011 Delta10K_Minus = 0.0; |
| 1010 Delta10K_Plus = 0.0; | 1012 Delta10K_Plus = 0.0; |
| 1011 FrequencyDDSBes = 0.0; | |
| 1012 | 1013 |
| 1013 // done | 1014 // done |
| 1014 Measuring_2 = N_MEASUREMENT_NONE; | 1015 Measuring_2 = N_MEASUREMENT_NONE; |
| 1015 } | 1016 } |
| 1016 break; | 1017 break; |