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@ -635,9 +635,15 @@ static const int spur_table[] =
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420000,
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490000,
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510000,
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1600000,
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1840000,
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2960000,
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1592000,
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1834000,
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2734000,
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2942000,
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4914000,
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7371000,
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8236000,
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8928000,
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18928000,
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/*
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870000,
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970000,
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@ -711,12 +717,11 @@ char age[POINTS_COUNT];
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float perform(bool break_on_operation, int i, int32_t f, int tracking)
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{
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// long local_IF = (MODE_LOW(setting_mode)?frequency_IF + (int)(actual_rbw < 300.0?setting_spur * 1000 * actual_rbw :0):0);
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int was_avoiding_spur = false;
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// long local_IF = (MODE_LOW(setting_mode)?frequency_IF + (int)(actual_rbw < 300.0?setting_spur * 1000 * actual_rbw :0):0);
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long local_IF;
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if (MODE_HIGH(setting_mode))
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local_IF = 0;
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else if (setting_mode == M_LOW && avoid_spur(f))
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local_IF = spur_alternate_IF;
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else
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local_IF = frequency_IF;
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@ -725,9 +730,6 @@ float perform(bool break_on_operation, int i, int32_t f, int tracking)
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scandirty = true;
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dirty = false;
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}
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if (local_IF) {
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setFreq (0, local_IF);
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}
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if (MODE_OUTPUT(setting_mode) && setting_modulation == MO_AM) {
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int p = setting_attenuate * 2 + modulation_counter;
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PE4302_Write_Byte(p);
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@ -759,8 +761,17 @@ float perform(bool break_on_operation, int i, int32_t f, int tracking)
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int t = 0;
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do {
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int lf = (uint32_t)(f + (int)(t * 500 * actual_rbw));
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if (MODE_INPUT(setting_mode) && tracking)
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setFreq (0, local_IF + lf - reffer_freq[setting_refer]); // Offset so fundamental of reffer is visible
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if (setting_mode == M_LOW && tracking) {
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setFreq (0, frequency_IF + lf - reffer_freq[setting_refer]); // Offset so fundamental of reffer is visible
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} else if (MODE_LOW(setting_mode)) {
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if (setting_mode == M_LOW && avoid_spur(f)) {
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local_IF = spur_alternate_IF;
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} else
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local_IF = frequency_IF ;
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} else
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local_IF= 0;
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if (local_IF)
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setFreq (0, local_IF);
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#if 0
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if (lf >11000000 || lf < 9000000) {
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lf = lf;
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@ -1184,11 +1195,11 @@ static const struct {
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{TC_FLAT, TP_10MHZEXTRA, 10, 4, -25, 20, -70}, // 8 BPF pass band flatness
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{TC_BELOW, TP_30MHZ, 430, 60, -75, 0, -85}, // 9 LPF cutoff
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{TC_END, 0, 0, 0, 0, 0, 0},
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{TC_MEASURE, TP_30MHZ, 30, 7, -25, 30, -80 }, // 11 Measure power level and noise
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{TC_MEASURE, TP_30MHZ, 30, 7, -30, 30, -80 }, // 11 Measure power level and noise
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{TC_MEASURE, TP_30MHZ, 270, 4, -50, 30, -85 }, // 12 Measure powerlevel and noise
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{TC_MEASURE, TPH_30MHZ, 270, 4, -35, 30, -50 }, // 13 Calibrate power high mode
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{TC_END, 0, 0, 0, 0, 0, 0},
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{TC_MEASURE, TP_30MHZ, 30, 1, -25, 30, -80 }, // 15 Measure RBW step time
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{TC_MEASURE, TP_30MHZ, 30, 1, -30, 30, -80 }, // 15 Measure RBW step time
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{TC_END, 0, 0, 0, 0, 0, 0},
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};
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erikkaashoek
6 years ago