Mercurial > hg > fxanalyse
changeset 111:8bdd7e38715f
Fix N3 measurement
author | Daniele Nicolodi <daniele.nicolodi@obspm.fr> |
---|---|
date | Tue, 02 Jul 2013 12:58:01 +0200 |
parents | ce9ecc761bc5 |
children | e501896c0e7c |
files | FXAnalyse.c |
diffstat | 1 files changed, 26 insertions(+), 4 deletions(-) [+] |
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line diff
--- a/FXAnalyse.c Fri Jun 28 14:46:34 2013 +0200 +++ b/FXAnalyse.c Tue Jul 02 12:58:01 2013 +0200 @@ -106,6 +106,8 @@ double DeltaDDS3=0.0,Delta10K_Plus=0.0,Delta10K_Minus=0.0; double Nu1=0.0, Nu2= 200000-147000+282143746.557455e6; +double f_beat_Sr_plus, f_beat_Sr_minus; + double Step1=800000.0,Step2=800000.0; double Ch4Plus=0.0,Ch4Minus=0.0; @@ -183,7 +185,7 @@ s->previous = value; } -struct stat stat_math1, stat_ch2, stat_ch4, freq; +struct stat stat_math1, stat_ch2, stat_ch4, stat_ch3, freq; #define MIN(x, y) (x) < (y) ? (x) : (y) @@ -1035,6 +1037,9 @@ t1_3 = utc; stat_zero(&stat_ch2); + stat_zero(&stat_ch3); + f_beat_Sr_plus = 0.0; + f_beat_Sr_minus = 0.0; // record current DDS3 frequency GetCtrlVal(MainPanel, PANEL_DDS3, &FrequencyDDS3Init); @@ -1052,6 +1057,7 @@ } stat_accumulate(&stat_ch2, Ch2); + stat_accumulate(&stat_ch3, Ch3); if (utc - t1_3 > SlopeTime3) { // slope measurement @@ -1059,6 +1065,7 @@ t2_3 = utc; stat_zero(&stat_ch2); + stat_zero(&stat_ch3); // frep positive step SetCtrlVal(MainPanel, PANEL_DDS4, FrequDDS4 + DeltakHz_3 * 1000); @@ -1106,11 +1113,13 @@ } n_3++; - Frepplus_3 += Ch2 - Slope_3 * (utc - t2_3); + Frepplus_3 += Math1 + 250000000 - Slope_3 * (utc - t3_2); + f_beat_Sr_plus += Ch3; if (utc - t2_3 > DeltaT_3) { // positive step measurement Frepplus_3 = Frepplus_3 / n_3; + f_beat_Sr_plus = f_beat_Sr_plus / n_3; n_3 = 0; t3_3 = utc; @@ -1142,13 +1151,22 @@ n_3++; Frepminus_3 += Ch2 - Slope_3 * (utc - t3_3); + f_beat_Sr_minus += Ch3; if (utc - t3_3 > DeltaT_3) { - // positive step measurement + // negative step measurement Frepminus_3 = Frepminus_3 / n_3; + f_beat_Sr_minus = f_beat_Sr_plus / n_3; + + // check delta frep + double delta_f_rep = Frepplus_3 - Frepplus_3; + double expected = N1 / Ndiv * 2.0 * DeltakHz_3 * 1000.0; + logmsg("delta frep=%g expected=%g", delta_f_rep, expected); // compute N3 - N_3 = 1000.0 * DeltakHz_3 / (Frepplus_3 - Frepminus_3 + (2 * N3/N1 * Ndiv * DeltakHz_3 * 1000)); + double delta_f_beat_Sr = f_beat_Sr_plus - f_beat_Sr_minus + 2.0 * N3/N1 * Ndiv * DeltakHz_3 * 1000; + logmsg("delta fbeat=%g", delta_f_beat_Sr); + N_3 = delta_f_beat_Sr / delta_f_rep; SetCtrlVal(CalcNPanel, CALCN_N, N_3); t1_3=0.0; @@ -1164,6 +1182,10 @@ // back to initial DDS3 frequency SetCtrlVal(MainPanel, PANEL_DDS3, FrequencyDDS3Init); DDS4xAD9912_SetFrequency(&DDS4xAD9912, 3, FrequencyDDS3Init); + // adjust DDS frequency to keep 55 MHz tracker oscillator locked + double fDDS2 = DDS4xAD9912.Frequency2 + 275000 - Ch4; + SetCtrlVal(MainPanel, PANEL_DDS2, fDDS2); + DDS4xAD9912_SetFrequency(&DDS4xAD9912, 2, fDDS2); // done Measuring_3 = N_MEASUREMENT_NONE;