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Separate NG gain from external amp

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multi_trace
erikkaashoek 5 years ago
parent 31dea26076
commit 5f13d6e097
5 changed files with 25 additions and 19 deletions
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1
nanovna.h
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@ -1190,6 +1190,7 @@ void clear_all_config_prop_data(void);
extern void ui_init(void); extern void ui_init(void);
extern void ui_process(void); extern void ui_process(void);
int current_menu_is_form(void); int current_menu_is_form(void);
extern float nf_gain;
void ui_mode_normal(void); void ui_mode_normal(void);
void ui_mode_menu(void); void ui_mode_menu(void);

8
plot.c
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@ -1602,10 +1602,10 @@ static void cell_draw_marker_info(int x0, int y0)
aNP = marker_to_value(0); aNP = marker_to_value(0);
#endif #endif
float mNF = aNP - logf(actual_rbw_x10*100.0) * (10.0/logf(10.0)) + 173.93 + SI4463_noise_correction_x10/10.0; // measured noise figure at 20C float mNF = aNP - logf(actual_rbw_x10*100.0) * (10.0/logf(10.0)) + 173.93 + SI4463_noise_correction_x10/10.0; // measured noise figure at 20C
if (setting.external_gain != 0) { if (nf_gain != 0) {
float mnf = expf(mNF/10 * logf(10)); // measure noise factor float mnf = expf((mNF - nf_gain)/10 * logf(10)); // measure noise factor
float tnf = expf(config.noise_figure/10 * logf(10)); // tinySA noise factor float tnf = expf(config.noise_figure/10 * logf(10)); // tinySA noise factor
float amp_gain = expf(setting.external_gain/10 * logf(10)); float amp_gain = expf(nf_gain/10 * logf(10));
float anf = mnf - (tnf - 1.0)/amp_gain; float anf = mnf - (tnf - 1.0)/amp_gain;
mNF = 10*logf(anf)/logf(10); mNF = 10*logf(anf)/logf(10);
} }
@ -1617,7 +1617,7 @@ static void cell_draw_marker_info(int x0, int y0)
// j = 1; // j = 1;
int xpos = 1 + (j%2)*(WIDTH/2) + CELLOFFSETX - x0; int xpos = 1 + (j%2)*(WIDTH/2) + CELLOFFSETX - x0;
int ypos = 1 + (j/2)*(16) - y0; int ypos = 1 + (j/2)*(16) - y0;
cell_printf(xpos, ypos, FONT_b"NF: %4.1f", mNF); cell_printf(xpos, ypos, FONT_b"GAIN: %4.1fdB NF: %4.1f", nf_gain, mNF);
break; break;
#endif #endif
} else } else

6
sa_core.c
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@ -4780,7 +4780,7 @@ enum {
#ifdef TINYSA4 #ifdef TINYSA4
//#define CAL_LEVEL -23.5 //#define CAL_LEVEL -23.5
#define CAL_LEVEL -23 #define CAL_LEVEL -23.1
#else #else
#define CAL_LEVEL (has_esd ? -26.2 : -25) #define CAL_LEVEL (has_esd ? -26.2 : -25)
#endif #endif
@ -4833,8 +4833,8 @@ const test_case_t test_case [] =
#define TEST_SPUR 23 #define TEST_SPUR 23
TEST_CASE_STRUCT(TC_BELOW, TP_SILENT, 144, 8, -95, 0, 0), // 22 Measure 48MHz spur TEST_CASE_STRUCT(TC_BELOW, TP_SILENT, 144, 8, -95, 0, 0), // 22 Measure 48MHz spur
#define TEST_LEVEL 24 #define TEST_LEVEL 24
TEST_CASE_STRUCT(TC_LEVEL, TP_30MHZ, 30, 0, CAL_LEVEL, 145, -55), // 23 Measure level TEST_CASE_STRUCT(TC_LEVEL, TP_30MHZ, 30.01, 0, CAL_LEVEL, 145, -55), // 23 Measure level
TEST_CASE_STRUCT(TC_LEVEL, TP_30MHZ_LNA, 30, 0, CAL_LEVEL, 145, -55), // 23 Measure level TEST_CASE_STRUCT(TC_LEVEL, TP_30MHZ_LNA, 30.01, 0, CAL_LEVEL, 145, -55), // 23 Measure level
TEST_CASE_STRUCT(TC_LEVEL, TPH_30MHZ, 150, 0, CAL_LEVEL-30, 145, -55), // 23 Measure level TEST_CASE_STRUCT(TC_LEVEL, TPH_30MHZ, 150, 0, CAL_LEVEL-30, 145, -55), // 23 Measure level
}; };

16
si4468.c
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@ -1524,14 +1524,14 @@ static const RBW_t RBW_choices[] =
{ {
// BW register corr freq // BW register corr freq
{SI4463_RBW_02kHz, 18,3,42}, {SI4463_RBW_02kHz, 18,3,42},
{SI4463_RBW_1kHz, 18,10,22}, {SI4463_RBW_1kHz, 18,10,29},
{SI4463_RBW_3kHz, 12,30,21}, {SI4463_RBW_3kHz, 12,30,28},
{SI4463_RBW_10kHz, 7,100,20}, {SI4463_RBW_10kHz, 7,100,26},
{SI4463_RBW_30kHz, 10,300,20}, {SI4463_RBW_30kHz, 10,300,22},
{SI4463_RBW_100kHz,2,1000,26}, {SI4463_RBW_100kHz,2,1000,19},
{SI4463_RBW_300kHz,2,3000,19}, {SI4463_RBW_300kHz,2,3000,7},
{SI4463_RBW_600kHz,3,6000,18}, {SI4463_RBW_600kHz,3,6000,-1},
{SI4463_RBW_850kHz,12,8500,15}, {SI4463_RBW_850kHz,12,8500,-9},
}; };
const uint8_t SI4432_RBW_count = ((int)(sizeof(RBW_choices)/sizeof(RBW_t))); const uint8_t SI4432_RBW_count = ((int)(sizeof(RBW_choices)/sizeof(RBW_t)));

13
ui_sa.c
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@ -1151,6 +1151,7 @@ static UI_FUNCTION_CALLBACK(menu_clearconfig_cb)
ui_mode_normal(); ui_mode_normal();
} }
float nf_gain;
const char * const averageText[] = { "OFF", "MIN", "MAX", "MAXD", " A 4", "A 16", "AVER", "QUASI", "DECONV"}; const char * const averageText[] = { "OFF", "MIN", "MAX", "MAXD", " A 4", "A 16", "AVER", "QUASI", "DECONV"};
static UI_FUNCTION_ADV_CALLBACK(menu_measure_acb) static UI_FUNCTION_ADV_CALLBACK(menu_measure_acb)
@ -1348,13 +1349,17 @@ static UI_FUNCTION_ADV_CALLBACK(menu_measure_acb)
markers[0].mtype = M_NOISE; // Not tracking markers[0].mtype = M_NOISE; // Not tracking
set_extra_lna(true); set_extra_lna(true);
kp_help_text = "Amplifier Gain "; kp_help_text = "Amplifier Gain ";
float old_gain = setting.external_gain;
ui_mode_keypad(KM_EXT_GAIN); ui_mode_keypad(KM_EXT_GAIN);
kp_help_text = "Noise frequency"; nf_gain = setting.external_gain;
setting.external_gain = old_gain;
kp_help_text = "Noise center frequency";
ui_mode_keypad(KM_CENTER); ui_mode_keypad(KM_CENTER);
set_marker_frequency(0, uistat.value); set_marker_frequency(0, uistat.value);
// kp_help_text = "Noise width"; kp_help_text = "Noise span";
// ui_mode_keypad(KM_SPAN); ui_mode_keypad(KM_SPAN);
set_sweep_frequency(ST_SPAN, 0); set_RBW(get_sweep_frequency(ST_SPAN)/100 / 100);
// set_sweep_frequency(ST_SPAN, 0);
set_average(AV_100); set_average(AV_100);
break; break;
#endif #endif

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