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agc.cpp
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agc.cpp
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// soft AGC and S meter display by Loftur E. Jónasson TF3LJ/VE2LJX 6/14
//
#include <Metro.h>
#include <Audio.h>
#include <Adafruit_GFX.h> // LCD Core graphics library
//#include <Adafruit_QDTech.h> // 1.8" TFT Module using Samsung S6D02A1 chip
#include <Adafruit_ST7735.h> // Hardware-specific library
//extern Adafruit_QDTech tft;
extern Adafruit_ST7735 tft;
extern AudioMixer4 Audioselector_I; // Summer (add inputs)
extern AudioMixer4 Audioselector_Q; // Summer (add inputs)
extern AudioAnalyzePeak AGCpeak; // Measure Audio Peak for AGC use
extern AudioAnalyzePeak Smeter; // Measure Audio Peak for S meter
Metro l_ms = Metro(1); // Set up a 1ms Metro
Metro lcd_upd2=Metro(500); // Set up a Metro for S-meter display
float sample[10]; // A ringbuffer of samples (has to be larger than AGCattack)
float AGCgain=1; // Initial AGC gain. 1 = unity gain, 32768.0 max, 0.00004 min
#define AGCMAX 2
float AGCnomVal = 0.5; // Nominal Output (32768 max)
const int32_t AGCattack = 2; // AGC Hang time (milliseconds) before reducing gain
const int32_t AGChang = 30; // AGC Hang time before increasing gain
const double AGCslope = 1.05; // Relative gain change
//
// Automatic Gain Control function
//
void agc(void)
{
static uint8_t i;
static uint16_t hangtimer;
uint8_t j,k;
float s_sample; // Raw signal strength (max per 1ms)
float samp; // AGC feedback loop sample strength (max per 1ms)
float temp; // yeah, just a temp value
float uv, dbuv, s, v, dbm;// microvolts, db-microvolts, s-units, volts, dbm, sold = old S-meter value, deltas = abs difference between sold and s
char string[80]; // print format stuff
if (l_ms.check() == 1)
{
// R this code is probably broken with the new audio library
// Collect S-meter data
if (Smeter.available()) s_sample = Smeter.read(); // Highest sample within 1 millisecond
// AGC: Collect current 1ms peak at output and feed to a ringbuffer
sample[i++] = samp = AGCpeak.read();
if (i >= AGCattack) i=0;
// Check if we need to reduce gain
for(j=0,k=0;j<AGCattack;j++)
{
if (sample[j] > AGCnomVal) k++;
}
// We need to reduce gain
if ((k == AGCattack) || ((k>0) && (hangtimer>=AGChang))) // Activate AGCattack
{
// find largest value
temp = 0;
for(j=0;j<AGCattack;j++)
{
if (sample[j]> temp) temp = sample[j];
}
// Instant reduction to appropriate value
AGCgain = AGCgain * AGCnomVal/temp;
// Reset hang timer
hangtimer = 0;
}
// Increment hangtimer while level is lower than nominal
else if(samp < AGCnomVal) hangtimer++;
if (hangtimer >= AGChang) // We need to ramp up the gain
{
Audioselector_I.gain(0, AGCgain * AGCslope);
Audioselector_Q.gain(0, AGCgain * AGCslope);
}
if (AGCgain > AGCMAX) AGCgain=AGCMAX; // limit the gain
Audioselector_I.gain(0,AGCgain); // Adjust AGC gain
Audioselector_Q.gain(0,AGCgain); // Adjust AGC gain
//
// Print stuff to LCD
//
if (lcd_upd2.check() == 1)
{
// Calculate S units. 50uV = S9
uv = s_sample*1000; // microvolts, roughly calibrated
v = s_sample / 1000;
dbm = 10 * log10 (v*v*20);
if (v==0) {dbm=-143;};
dbuv = 20.0*log10(uv);
s = 1.0 + (14.0 + dbuv)/6.0;
if (s <0.0) s=0.0;
if (s>9.0)
{
dbuv = dbuv - 34.0;
s = 9.0;
}
else dbuv = 0;
// Print S units
tft.fillRect(0, 105, 70, 7,ST7735_BLACK);
tft.setCursor(0, 105);
if (dbuv == 0) sprintf(string,"S:%1.0f",s);
else {
sprintf(string,"S:9+%02.0f dB",dbuv);
}
tft.print(string);
tft.fillRect(100,105, 50, 7,ST7735_BLACK);
tft.setCursor(100,105);
sprintf(string,"%04.0f dBm",dbm);
tft.print(string);
if(0) // Debug stuff
{
// Print AGC loop parameters
tft.fillRect(0, 105, 159, 7,ST7735_BLACK);
tft.setCursor(0, 105);
sprintf(string,"pk:%f g:%f",Smeter.read(), AGCgain);
tft.print(string);
}
}
}
}