TDA7433

liman324 · 2021-08-26 23:58:46

liman324
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Тема: TDA7433

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TDA7433.h

// liman324@yandex.ru rcl-radio.ru


#ifndef TDA7433_H
#define TDA7433_H

#define TDA7433_address 0b1000101

#define INPUT      0b00000000
#define VOLUME     0b00000001
#define BASS_TREB  0b00000010
#define ATT_LF     0b00000011
#define ATT_LR     0b00000100
#define ATT_RF     0b00000101
#define ATT_RR     0b00000110


#include <Arduino.h>
class TDA7433
{
  public:
    TDA7433();
        void setInput(byte in, byte bass_cut, byte bass_range, int bass); 
// in >>> 0=in2, 1=in1, 2=mono, 3=mute
// bass_cut >>> 0=non-symmetrical bass cut, 1=symmetrical bass cut
// bass_range >>> 0=extended bass range, 1=standard bass range ±14dB
// bass >>> -18...+18 (-18...+18 dB)
        void setVolume(int vol);
// vol >>> -79...+32 (-79...+32 dB)
        void setBass_Treb(int bass, int treb);
// bass >>> -18...+18 (-18...+18 dB)
// treb >>> -14...+14 (-14...+14 dB)
        void setAtt_LF(int lf);
// lf >>> 0...31 (0...-31 dB), 32=mute
        void setAtt_LR(int lr);
// lr >>> 0...31 (0...-31 dB), 32=mute
        void setAtt_RF(int rf);
// rf >>> 0...31 (0...-31 dB), 32=mute
        void setAtt_RR(int rr);
// rr >>> 0...31 (0...-31 dB), 32=mute
		
 private:
	void writeWire(byte a, byte b);
};
	
#endif //TDA7433_H

TDA7433.cpp

#include <Arduino.h>
#include <Wire.h>
#include "TDA7433.h"

TDA7433::TDA7433(){
	Wire.begin();
}

void TDA7433::setInput(byte in, byte bass_cut, byte bass_range, int bass){
  if(bass>-16&&bass<16){bass_range = 1;}else{bass_range = 0;}
  writeWire(INPUT, in + (bass_cut << 3) + (bass_range << 4));	
} 

void TDA7433::setVolume(int vol){
  byte vol_digit;
  if(vol<=0){vol_digit = abs(vol)+32;}
  if(vol>0){vol_digit = 32-vol;}
  writeWire(VOLUME, vol_digit);
}

void TDA7433::setBass_Treb(int bass, int treb){
  switch(treb){
   case -14: treb = 0b00000000;break;
   case -12: treb = 0b00000001;break;
   case -10: treb = 0b00000010;break;
   case -8 : treb = 0b00000011;break;
   case -6 : treb = 0b00000100;break;
   case -4 : treb = 0b00000101;break;
   case -2 : treb = 0b00000110;break;
   case  0 : treb = 0b00000111;break;
   case  2 : treb = 0b00001110;break;
   case  4 : treb = 0b00001101;break;
   case  6 : treb = 0b00001100;break;
   case  8 : treb = 0b00001011;break;
   case  10: treb = 0b00001010;break;
   case  12: treb = 0b00001001;break;
   case  14: treb = 0b00001000;break;
}
  switch(bass){
   case -18: bass = 0b00000001;break;
   case -16: bass = 0b00000000;break;
   case -14: bass = 0b00000000;break;
   case -12: bass = 0b00000001;break;
   case -10: bass = 0b00000010;break;
   case -8 : bass = 0b00000011;break;
   case -6 : bass = 0b00000100;break;
   case -4 : bass = 0b00000101;break;
   case -2 : bass = 0b00000110;break;
   case  0 : bass = 0b00000111;break;
   case  2 : bass = 0b00001110;break;
   case  4 : bass = 0b00001101;break;
   case  6 : bass = 0b00001100;break;
   case  8 : bass = 0b00001011;break;
   case 10 : bass = 0b00001010;break;
   case 12 : bass = 0b00001001;break;
   case 14 : bass = 0b00001000;break;
   case 16 : bass = 0b00001000;break;
   case 18 : bass = 0b00001001;break;
}
  writeWire(BASS_TREB, treb + (bass << 4));
}

void TDA7433::setAtt_LF(int lf){
  writeWire(ATT_LF, lf);
}
void TDA7433::setAtt_LR(int lr){
  writeWire(ATT_LR, lr);
}
void TDA7433::setAtt_RF(int rf){
  writeWire(ATT_RF, rf);
}
void TDA7433::setAtt_RR(int rr){
  writeWire(ATT_RR, rr);
}

void TDA7433::writeWire(byte a, byte b){
  Wire.beginTransmission(TDA7433_address);
  Wire.write (a);
  Wire.write (b);
  Wire.endTransmission();
}

test.ino

#include <TDA7433.h>

TDA7433 tda;

void setup(){
  audio();
  }

void loop(){
  
  }
void audio(){
        tda.setInput(1, 0, 0, 0); 
// in >>> 0=in2, 1=in1, 2=mono, 3=mute
// bass_cut >>> 0=non-symmetrical bass cut, 1=symmetrical bass cut
// bass_range >>> 0=extended bass range, 1=standard bass range ±14dB
// bass >>> -18...+18 (-18...+18 dB) step 2
        tda.setVolume(0);
// vol >>> -79...+32 (-79...+32 dB)
        tda.setBass_Treb(0, 0);
// bass >>> -18...+18 (-18...+18 dB) step 2
// treb >>> -14...+14 (-14...+14 dB) step 2
        tda.setAtt_LF(0);
// lf >>> 0...31 (0...-31 dB), 32=mute 
        tda.setAtt_LR(0);
// lr >>> 0...31 (0...-31 dB), 32=mute
        tda.setAtt_RF(0);
// rf >>> 0...31 (0...-31 dB), 32=mute
        tda.setAtt_RR(0);
// rr >>> 0...31 (0...-31 dB), 32=mute
  }

liman324 · 2021-08-28 23:04:14

liman324
Administrator
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Зарегистрирован: 2019-08-21
Сообщений: 4,376

Re: TDA7433

Доработка

#define UP    0x33B810EF
#define DOWN  0x33B8E01F
#define MENU  0x33B820DF
#define MUTE  0x33B8946B
#define IN    0x33B8C03F 
#define POWER 0x33B800FF

#define BRIG_L 50
#define BRIG_H 250

#include <TDA7433.h>           // http://rcl-radio.ru/wp-content/uploads/2021/08/TDA7433.zip
#include <Wire.h>              // Входит в состав Arduino IDE
#include <Encoder.h>           // http://rcl-radio.ru/wp-content/uploads/2019/05/Encoder.zip
#include <MsTimer2.h>          // http://rcl-radio.ru/wp-content/uploads/2018/11/MsTimer2.zip
#include <EEPROM.h>            // Входит в состав Arduino IDE
#include <LiquidCrystal_I2C.h> // http://forum.rcl-radio.ru/misc.php?action=pan_download&item=45&download=1
#include <boarddefs.h>         // Входит в состав библиотеки IRremote
#include <IRremote.h>          // http://rcl-radio.ru/wp-content/uploads/2019/06/IRremote.zip 
#include <DS3231.h>            // https://github.com/jarzebski/Arduino-DS3231/archive/master.zip
 LiquidCrystal_I2C lcd(0x27,16,2);  // Устанавливаем дисплей 
 TDA7433 tda;
 Encoder myEnc(9, 8);//CLK, DT подключение энкодера
 decode_results ir;
 IRrecv irrecv(12); // указываем вывод модуля IR приемника
 DS3231 clock;
 RTCDateTime DateTime;
 byte v1[8] = {0x07,0x07,0x07,0x07,0x07,0x07,0x07,0x07};
 byte v2[8] = {0x07,0x07,0x00,0x00,0x00,0x00,0x00,0x00};      
 byte v3[8] = {0x00,0x00,0x00,0x00,0x00,0x00,0x1F,0x1F};
 byte v4[8] = {0x1F,0x1F,0x00,0x00,0x00,0x00,0x1F,0x1F};
 byte v5[8] = {0x1C,0x1C,0x00,0x00,0x00,0x00,0x1C,0x1C};
 byte v6[8] = {0x1C,0x1C,0x1C,0x1C,0x1C,0x1C,0x1C,0x1C};
 byte v7[8] = {0x00,0x00,0x00,0x00,0x00,0x00,0x07,0x07};
 byte v8[8] = {0x1F,0x1F,0x00,0x00,0x00,0x00,0x00,0x00}; 
 unsigned long time,oldPosition  = -999,newPosition;
 byte i,d1,d2,d3,d4,d5,d6,e1,e2,e3,w,w1,gr1,gr2,power=0;
 int a[6],menu,fun_d,vol,in,bass,treb,menu_set=100,mute;
 int lf,rf,lr,rr,lf_old,rf_old,lr_old,rr_old;
 int hour,secon,minut,x;

   

void setup(){
  Wire.begin();Serial.begin(9600);irrecv.enableIRIn();
  MsTimer2::set(3, to_Timer);MsTimer2::start();
  lcd.init();lcd.backlight();clock.begin(); 
  //  clock.setDateTime(__DATE__, __TIME__); // Устанавливаем время на часах, основываясь на времени компиляции скетча
  lcd.createChar(1, v1);lcd.createChar(2, v2);lcd.createChar(3, v3);lcd.createChar(4, v4);
  lcd.createChar(5, v5);lcd.createChar(6, v6);lcd.createChar(7, v7);lcd.createChar(8, v8);
  pinMode(6,OUTPUT);        // PWM output
  analogWrite(6,BRIG_H);
  lcd.setCursor(4,0);lcd.print("TDA7433");delay(1000);lcd.clear();// ЗАСТАВКА
  pinMode(10,INPUT);        // КНОПКА ЭНКОДЕРA
  pinMode(2,INPUT_PULLUP);  // INPUT
  pinMode(3,INPUT_PULLUP);  // SET
  pinMode(4,INPUT_PULLUP);  // MUTE
  pinMode(5,INPUT_PULLUP);  // POWER
  pinMode(13,OUTPUT);       // OUTPUT STANDBY
  vol = EEPROM.read(0)-79;bass = EEPROM.read(1)-9;treb = EEPROM.read(2)-7;in = EEPROM.read(3);
  lr = EEPROM.read(4);rr = EEPROM.read(5);lf = EEPROM.read(6);rf = EEPROM.read(7);
  audio();
  }

void loop(){
//////// IR ////////////////////////////////////////////////////////////////////
 if ( irrecv.decode( &ir )) {Serial.print("0x");Serial.println( ir.value,HEX);irrecv.resume();delay(50);}// IR приемник - чтение, в мониторе порта отображаются коды кнопок
 if(ir.value==0){gr1=0;gr2=0;}// запрет нажатий не активных кнопок пульта  
//////// BUTTON ////////////////////////////////////////////////////////////////
if(power==0){ 
if(mute==0){ 
 if(((digitalRead(10)==LOW||ir.value==MENU)&&menu_set==100)){menu++;cl();myEnc.write(0);time=millis();w=1;w1=1;if(menu>2){menu=0;}}// menu
 if((digitalRead(10)==LOW&&menu==100)){menu_set++;cl();myEnc.write(0);time=millis();w=1;w1=1;if(menu_set>3){menu_set=0;}}// menu
 if(digitalRead(2)==LOW||ir.value==IN){in++;cl();myEnc.write(0);time=millis();w=1;w1=1;if(in>2){in=0;}lcd.setCursor(4,0);lcd.print("INPUT  ");lcd.print(in+1);audio();delay(1500);cl();}// input
 if(digitalRead(3)==LOW&&menu_set==100){menu_set=0;menu=100;cl();myEnc.write(0);time=millis();w=1;w1=1;lcd.setCursor(4,0);lcd.print("SET MENU");delay(1500);cl();}// menu
 if(digitalRead(3)==LOW&&menu_set<100){menu_set=100;menu=0;cl();myEnc.write(0);time=millis();w=1;w1=1;lcd.setCursor(3,0);lcd.print("MAIN MENU");delay(1500);cl();}// menu
}
 if((digitalRead(4)==LOW||ir.value==MUTE)&&mute==0){mute=1;cl();lf_old=lf,rf_old=rf,lr_old=lr,rr_old=rr; lf=32,rf=32,lr=32,rr=32;menu=100;menu_set=100;myEnc.write(0);audio();lcd.setCursor(6,0);lcd.print("MUTE");}
 if((digitalRead(4)==LOW||ir.value==MUTE)&&mute==1){mute=0;cl();lf=lf_old,rf=rf_old,lr=lr_old,rr=rr_old;menu=0;w=1;myEnc.write(0);time=millis();audio();cl();}
}else{menu=100;menu_set=100;}

 // standby output
 if(power==0){digitalWrite(13,HIGH);}else{digitalWrite(13,LOW);}

 /// power ///
 if((digitalRead(5)==LOW||ir.value==POWER)&&power==0){power=1;menu=100;menu_set=100;analogWrite(6,BRIG_L);cl();myEnc.write(0);
     lf_old=lf,rf_old=rf,lr_old=lr,rr_old=rr; lf=32,rf=32,lr=32,rr=32;
     lcd.setCursor(4,0);lcd.print("POWER OFF");audio();delay(2000);cl();}
 if((digitalRead(5)==LOW||ir.value==POWER)&&power==1){power=0;menu=0;menu_set=100;analogWrite(6,BRIG_H);cl();myEnc.write(0);
     lf=lf_old,rf=rf_old,lr=lr_old,rr=rr_old; w=1;
     lcd.setCursor(4,0);lcd.print("POWER  ON");audio();delay(2000);cl();}    

 
//////// VOLUME ////////////////////////////////////////////////////////////////  
 if(menu==0){
  if(ir.value==UP){vol++;gr1=1;gr2=0;cl1();time=millis();w=1;w1=1;vol_fun();audio();}// кнопка > 
  if(ir.value==0xFFFFFFFF and gr1==1){vol++;gr2=0;cl1();time=millis();w=1;w1=1;vol_fun();audio();}// кнопка >>>>>>
  if(ir.value==DOWN){vol--;gr1=0;gr2=1;cl1();time=millis();w=1;w1=1;vol_fun();audio();}// кнопка <
  if(ir.value==0xFFFFFFFF and gr2==1){vol--;gr1=0;cl1();time=millis();w=1;w1=1;vol_fun();audio();}// кнопка <<<<<<
    
  if (newPosition != oldPosition){oldPosition = newPosition;
  vol=vol-newPosition;myEnc.write(0);newPosition=0;time=millis();w=1;w1=1;vol_fun();audio();}
  lcd.setCursor(0,0);lcd.print(F("VOLUME "));

 lcd.setCursor(0,1);lcd.print(F("INPUT "));lcd.print(in+1);
 fun_d = vol+79;
 if(w==1){w=0;
     a[0]=(fun_d)/10;a[1]=(fun_d)%10;
      for(i=0;i<2;i++){
      switch(i){
        case 0: e1=10,e2=11,e3=12;break;
        case 1: e1=13,e2=14,e3=15;break;
        }
      switch(a[i]){
        case 0: d1=1,d2=8,d3=6,d4=1,d5=3,d6=6;break;
        case 1: d1=32,d2=2,d3=6,d4=32,d5=32,d6=6;break;
        case 2: d1=2,d2=8,d3=6,d4=1,d5=4,d6=5;break;
        case 3: d1=2,d2=4,d3=6,d4=7,d5=3,d6=6;break;
        case 4: d1=1,d2=3,d3=6,d4=32,d5=32,d6=6;break;
        case 5: d1=1,d2=4,d3=5,d4=7,d5=3,d6=6;break;
        case 6: d1=1,d2=4,d3=5,d4=1,d5=3,d6=6;break;
        case 7: d1=1,d2=8,d3=6,d4=32,d5=32,d6=6;break;
        case 8: d1=1,d2=4,d3=6,d4=1,d5=3,d6=6;break;
        case 9: d1=1,d2=4,d3=6,d4=7,d5=3,d6=6;break;
    }
      lcd.setCursor(e1,0);lcd.write((uint8_t)d1);lcd.setCursor(e2,0);lcd.write((uint8_t)d2);lcd.setCursor(e3,0);lcd.write((uint8_t)d3);
      lcd.setCursor(e1,1);lcd.write((uint8_t)d4);lcd.setCursor(e2,1);lcd.write((uint8_t)d5);lcd.setCursor(e3,1);lcd.write((uint8_t)d6);
 }}} 

/////// BASS /////////////////////////////////////////////////////////////////// 
 if(menu==1){
  if(ir.value==UP){bass++;gr1=1;gr2=0;cl1();time=millis();w=1;w1=1;bass_fun();audio();}// кнопка > 
  if(ir.value==0xFFFFFFFF and gr1==1){bass++;gr2=0;cl1();time=millis();w=1;w1=1;bass_fun();audio();}// кнопка >>>>>>
  if(ir.value==DOWN){bass--;gr1=0;gr2=1;cl1();time=millis();w=1;w1=1;bass_fun();audio();}// кнопка <
  if(ir.value==0xFFFFFFFF and gr2==1){bass--;gr1=0;cl1();time=millis();w=1;w1=1;bass_fun();audio();}// кнопка <<<<<<
    
  if (newPosition != oldPosition){oldPosition = newPosition;
  bass=bass-newPosition;myEnc.write(0);newPosition=0;time=millis();w=1;w1=1;bass_fun();audio();}
  lcd.setCursor(0,0);lcd.print(F("BASS"));
  lcd.setCursor(14,1);lcd.print(F("dB"));
  fun_d=bass*2;
  if(fun_d<0){fun_d=abs(fun_d);lcd.setCursor(6,0);lcd.write((uint8_t)3);}else{lcd.setCursor(6,0);lcd.print(" ");}
  if(w==1){w=0;
     a[0]=(fun_d)/10;a[1]=(fun_d)%10;
      cif();}} 

/////// TREBLE /////////////////////////////////////////////////////////////////// 
 if(menu==2){
  if(ir.value==UP){treb++;gr1=1;gr2=0;cl1();time=millis();w=1;w1=1;treb_fun();audio();}// кнопка > 
  if(ir.value==0xFFFFFFFF and gr1==1){treb++;gr2=0;cl1();time=millis();w=1;w1=1;treb_fun();audio();}// кнопка >>>>>>
  if(ir.value==DOWN){treb--;gr1=0;gr2=1;cl1();time=millis();w=1;w1=1;treb_fun();audio();}// кнопка <
  if(ir.value==0xFFFFFFFF and gr2==1){treb--;gr1=0;cl1();time=millis();w=1;w1=1;treb_fun();audio();}// кнопка <<<<<<
    
  if (newPosition != oldPosition){oldPosition = newPosition;
  treb=treb-newPosition;myEnc.write(0);newPosition=0;time=millis();w=1;w1=1;treb_fun();audio();}
  lcd.setCursor(0,0);lcd.print(F("TREB"));
  lcd.setCursor(14,1);lcd.print(F("dB"));
  fun_d=treb*2;
  if(fun_d<0){fun_d=abs(fun_d);lcd.setCursor(6,0);lcd.write((uint8_t)3);}else{lcd.setCursor(6,0);lcd.print(" ");}
  if(w==1){w=0;
     a[0]=(fun_d)/10;a[1]=(fun_d)%10;
      cif();}}  

///// MENU_SET ///////////////////////////////////////////////////////////////////////

//////// LF ////////////////////////////////////////////////////////////////  
 if(menu_set==0){
  if (newPosition != oldPosition){oldPosition = newPosition;
  lf=lf+newPosition;myEnc.write(0);newPosition=0;time=millis();w=1;w1=1;if(lf>31){lf=31;}if(lf<0){lf=0;}audio();}
 lcd.setCursor(0,0);lcd.print(F("ATT_LF"));
  lcd.setCursor(14,1);lcd.print(F("dB"));
  fun_d=lf;
  if(fun_d>0){fun_d=abs(fun_d);lcd.setCursor(6,0);lcd.write((uint8_t)3);}else{lcd.setCursor(6,0);lcd.print(" ");}
  if(w==1){w=0;
     a[0]=(fun_d)/10;a[1]=(fun_d)%10;
      cif();}}

//////// RF ////////////////////////////////////////////////////////////////  
 if(menu_set==1){
  if (newPosition != oldPosition){oldPosition = newPosition;
  rf=rf+newPosition;myEnc.write(0);newPosition=0;time=millis();w=1;w1=1;if(rf>31){rf=31;}if(rf<0){rf=0;}audio();}
 lcd.setCursor(0,0);lcd.print(F("ATT_RF"));
  lcd.setCursor(14,1);lcd.print(F("dB"));
  fun_d=rf;
  if(fun_d>0){fun_d=abs(fun_d);lcd.setCursor(6,0);lcd.write((uint8_t)3);}else{lcd.setCursor(6,0);lcd.print(" ");}
  if(w==1){w=0;
     a[0]=(fun_d)/10;a[1]=(fun_d)%10;
      cif();}}  

//////// LR ////////////////////////////////////////////////////////////////  
 if(menu_set==2){
  if (newPosition != oldPosition){oldPosition = newPosition;
  lr=lr+newPosition;myEnc.write(0);newPosition=0;time=millis();w=1;w1=1;if(lr>31){lr=31;}if(lr<0){lr=0;}audio();}
 lcd.setCursor(0,0);lcd.print(F("ATT_LR"));
  lcd.setCursor(14,1);lcd.print(F("dB"));
  fun_d=lr;
  if(fun_d>0){fun_d=abs(fun_d);lcd.setCursor(6,0);lcd.write((uint8_t)3);}else{lcd.setCursor(6,0);lcd.print(" ");}
  if(w==1){w=0;
     a[0]=(fun_d)/10;a[1]=(fun_d)%10;
      cif();}}
      
//////// RR ////////////////////////////////////////////////////////////////  
 if(menu_set==3){
  if (newPosition != oldPosition){oldPosition = newPosition;
  rr=rr+newPosition;myEnc.write(0);newPosition=0;time=millis();w=1;w1=1;if(rr>31){rr=31;}if(rr<0){rr=0;}audio();}
 lcd.setCursor(0,0);lcd.print(F("ATT_RR"));
  lcd.setCursor(14,1);lcd.print(F("dB"));
  fun_d=rr;
  if(fun_d>0){fun_d=abs(fun_d);lcd.setCursor(6,0);lcd.write((uint8_t)3);}else{lcd.setCursor(6,0);lcd.print(" ");}
  if(w==1){w=0;
     a[0]=(fun_d)/10;a[1]=(fun_d)%10;
      cif();}} 

   /////////////////// ЧАСЫ ///////////////////////////////////////////////////////////////////
DateTime = clock.getDateTime();hour = DateTime.hour;minut = DateTime.minute;secon = DateTime.second;   
if(power==1){
     a[0]=DateTime.hour/10;
     a[1]=DateTime.hour%10;
     a[2]=DateTime.minute/10;
     a[3]=DateTime.minute%10;
     a[4]=DateTime.second/10;
     a[5]=DateTime.second%10;
   for(x=0;x<4;x++){
    switch(x){
        case 0: e1=0,e2=1,e3=2;break;
        case 1: e1=3,e2=4,e3=5;break;
        case 2: e1=7,e2=8,e3=9;break;
        case 3: e1=10,e2=11,e3=12;break;
   }digit();}
 
   lcd.setCursor(6,0);lcd.print(".");lcd.setCursor(6,1);lcd.print(".");
   lcd.setCursor(14,1);lcd.print(a[4]);lcd.setCursor(15,1);lcd.print(a[5]);   
//// set time ////
  if(digitalRead(10)==LOW&&digitalRead(2)==LOW){hour++;if(hour>23){hour=0;} clock.setDateTime(2021, 8, 28, hour, minut, secon);delay(100);}// input button HH++
  if(digitalRead(10)==LOW&&digitalRead(3)==LOW){minut++;if(minut>59){minut=0;} clock.setDateTime(2021, 8, 28, hour, minut, secon);delay(100); }// menu set/main button MM++
  if(digitalRead(10)==LOW&&digitalRead(4)==LOW){secon=0; clock.setDateTime(2021, 8, 28, hour, minut, secon);delay(100); }// mute button SS=0
}       

//////// EEPROM //////////////////////////////////////////////////
 if(millis()-time>10000 && w1==1&&mute==0&&power==0){
     EEPROM.update(0,vol+79);EEPROM.update(1,bass+9);EEPROM.update(2,treb+7);EEPROM.update(3,in);
     EEPROM.update(4,lr);EEPROM.update(5,rr);EEPROM.update(6,lf);EEPROM.update(7,rf);
     menu_set=100;if(menu!=0){lcd.clear();}menu=0;w=1;w1=0;}
  
  }// LOOP END

void cl(){ir.value=0;delay(300);lcd.clear();}  
void cl1(){ir.value=0;delay(300);} 
void bass_fun(){if(bass<-9){bass=-9;}if(bass>9){bass=9;}}
void treb_fun(){if(treb<-7){treb=-7;}if(treb>7){treb=7;}}  
void vol_fun(){if(vol<-79){vol=-79;}if(vol>20){vol=20;}}
void to_Timer(){newPosition = myEnc.read()/4;}
void digit(){switch(a[x]){
case 0: d1=1,d2=8,d3=6,d4=1,d5=3,d6=6;break;case 1: d1=32,d2=2,d3=6,d4=32,d5=32,d6=6;break;
case 2: d1=2,d2=8,d3=6,d4=1,d5=4,d6=5;break;case 3: d1=2,d2=4,d3=6,d4=7,d5=3,d6=6;break;
case 4: d1=1,d2=3,d3=6,d4=32,d5=32,d6=6;break;case 5: d1=1,d2=4,d3=5,d4=7,d5=3,d6=6;break;
case 6: d1=1,d2=4,d3=5,d4=1,d5=3,d6=6;break;case 7: d1=1,d2=8,d3=6,d4=32,d5=32,d6=6;break;
case 8: d1=1,d2=4,d3=6,d4=1,d5=3,d6=6;break;case 9: d1=1,d2=4,d3=6,d4=7,d5=3,d6=6;break;}
lcd.setCursor(e1,0);lcd.write((uint8_t)d1);lcd.setCursor(e2,0);lcd.write((uint8_t)d2);lcd.setCursor(e3,0);lcd.write((uint8_t)d3);
lcd.setCursor(e1,1);lcd.write((uint8_t)d4);lcd.setCursor(e2,1);lcd.write((uint8_t)d5);lcd.setCursor(e3,1);lcd.write((uint8_t)d6);}

void cif(){
  for(i=0;i<2;i++){
      switch(i){
        case 0: e1=7,e2=8,e3=9;break;
        case 1: e1=10,e2=11,e3=12;break;
        }
      switch(a[i]){
        case 0: d1=1,d2=8,d3=6,d4=1,d5=3,d6=6;break;
        case 1: d1=32,d2=2,d3=6,d4=32,d5=32,d6=6;break;
        case 2: d1=2,d2=8,d3=6,d4=1,d5=4,d6=5;break;
        case 3: d1=2,d2=4,d3=6,d4=7,d5=3,d6=6;break;
        case 4: d1=1,d2=3,d3=6,d4=32,d5=32,d6=6;break;
        case 5: d1=1,d2=4,d3=5,d4=7,d5=3,d6=6;break;
        case 6: d1=1,d2=4,d3=5,d4=1,d5=3,d6=6;break;
        case 7: d1=1,d2=8,d3=6,d4=32,d5=32,d6=6;break;
        case 8: d1=1,d2=4,d3=6,d4=1,d5=3,d6=6;break;
        case 9: d1=1,d2=4,d3=6,d4=7,d5=3,d6=6;break;
    }
      lcd.setCursor(e1,0);lcd.write((uint8_t)d1);lcd.setCursor(e2,0);lcd.write((uint8_t)d2);lcd.setCursor(e3,0);lcd.write((uint8_t)d3);
      lcd.setCursor(e1,1);lcd.write((uint8_t)d4);lcd.setCursor(e2,1);lcd.write((uint8_t)d5);lcd.setCursor(e3,1);lcd.write((uint8_t)d6);
 }}  
void audio(){
        tda.setInput(in, 0, 0, bass*2); // не менять
// in >>> 0=in2, 1=in1, 2=mono, 3=mute
// bass_cut >>> 0=non-symmetrical bass cut, 1=symmetrical bass cut
// bass_range >>> 0=extended bass range, 1=standard bass range ±14dB
// bass >>> -18...+18 (-18...+18 dB) step 2
        tda.setVolume(vol);
// vol >>> -79...+32 (-79...+32 dB) // более +20дБ не рекомендуется повышать
        tda.setBass_Treb(bass*2, treb*2);
// bass >>> -18...+18 (-18...+18 dB) step 2
// treb >>> -14...+14 (-14...+14 dB) step 2
        tda.setAtt_LF(lf);
// lf >>> 0...31 (0...-31 dB), 32=mute 
        tda.setAtt_LR(lr);
// lr >>> 0...31 (0...-31 dB), 32=mute
        tda.setAtt_RF(rf);
// rf >>> 0...31 (0...-31 dB), 32=mute
        tda.setAtt_RR(rr);
// rr >>> 0...31 (0...-31 dB), 32=mute
  }

TDA7433

Сообщений 2

1 Тема от liman324 2021-08-26 23:58:46

Тема: TDA7433

2 Ответ от liman324 2021-08-28 23:04:14

Re: TDA7433

Сообщений 2