Salut Protongamer.
En effet j'aimerais pouvoir remplacer le module MicroSD de base de ton tuto par un module MP3 pour avoir des sons et musiques de bonne qualité. Le branchement du module pas de soucis, c'est d'une simplicité enfantine. Le codage en revanche c'est une autre histoire.
Concrètement j'ai suivi ton tuto, donc j'ai en ma possession un Arduino Mega 2560 pour la lumière et un Arduino Uno pour le son. Je sais qu'avec le module MP3 on peut tout gérer depuis le Mega avec un code regroupant son et lumière mais j'imagine que le travail serait plus conséquent que de juste modifier le code sons en solo. Rester dans la configuration Arduino Mega 2560 pour la lumière et Arduino Uno pour le son me convient tant que le Uno contrôle un module MP3. Après tu fais comme tu veux.
Concernant la fonction Overheat, oui je voudrais l'intégrer. J'avais d'ailleurs déjà modifiés les codes son et lumière en fonction des directives que tu m'avais transmises. Du coup voici les codes modifiés avec Overheat.
Code : Tout sélectionner
//Programme kit lumière par ProtonGamer V1.1
//Paramètres
static char animcyclotron=4; //Vous pouvez modifier l'animation du cyclotron [1-2-3-4]
static char ledwanim=2; //Vous pouvez mofifier l'animation de la led blanche(1-2) ou la désactiver(0), qui sera remplacé par les deux autres leds en mode (1)[0-1-2]
static char ledrbanim=3; //Vous pouvez modifier l'animation des leds rouge et bleu(1-2-3) ou la désactiver(0), qui sera remplacé par la led blanche en mode(1)[0-1-2-3]
static char bargraphgunanim=1; //Vous pouvez modifier l'animation du bargraph du wand[1-2-3]
boolean activeov=0; //Ceci vous permet d'activer la surchauffe du proton pack[0-1]
unsigned char overheat=17; //Ceci est le réglage de la surchauffe si elle est activé [1-17]
//fin des paramètres
//Sorties pour le Powercell
const char ledp1=A0, ledp2=A1, ledp3=A2, ledp4=A3, ledp5=A4, ledp6=A5, ledp7=A6, ledp8=A7,
ledp9=A8, ledp10=A9, ledp11=A10, ledp12=A11, ledp13=A12, ledp14=A13, ledp15=A14;
//Sorties pour le bargraphe
const char ledb1=28, ledb2=29, ledb3=30, ledb4=31, ledb5=32, ledb6=33, ledb7=34, ledb8=35,
ledb9=36, ledb10=37, ledb11=38, ledb12=39, ledb13=40, ledb14=41, ledb15=42;
//Sorties pour le cyclotron
const char l1=2, l2=3, l3=4, l4=5;
//Sortie du potentiomètre pour le réglage de la vitesse
const char potar_v=A15;
//Sortie de l'activation des lumières
const char sw1=14;
//Activation du SloBlo
const char sw2=15;
//Activation du tir
const char button1=16;
//Rafraichissement du Proton Pack
const char button2=17;
//Sortie des leds du gun
const char ledr=13, ledb=6, ledw=12;
//Voyant du wand
const char ledblinkl=22, ledblinkf=23, ledsloblo=24, ledact1=25, ledact2=26, ledact3=27;
//Ne pas modifier sauf pour les connaisseurs :)
char ledp=0;
char ledbs=0;
boolean decov=0;
char ledba=0;
int val=0;
boolean s1=0;
int brightness=0;
int brightness2=0;
int brightness3=0;
int brightness4=0;
int brightnessledw=0;
int brightnessledr=0;
int brightnessledb=0;
char blinkledw=0;
char blinkledr=0;
char blinkledb=0;
char lds=0;
int readov=0;
static char ls=1;
int etatcommand=0;
const char overPin = 2;
const char relaisPin = 3;
void setup() {
brightness4=255;
pinMode(ledp1,OUTPUT);
pinMode(ledp2,OUTPUT);
pinMode(ledp3,OUTPUT);
pinMode(ledp4,OUTPUT);
pinMode(ledp5,OUTPUT);
pinMode(ledp6,OUTPUT);
pinMode(ledp7,OUTPUT);
pinMode(ledp8,OUTPUT);
pinMode(ledp9,OUTPUT);
pinMode(ledp10,OUTPUT);
pinMode(ledp11,OUTPUT);
pinMode(ledp12,OUTPUT);
pinMode(ledp13,OUTPUT);
pinMode(ledp14,OUTPUT);
pinMode(ledp15,OUTPUT);
pinMode(l1,OUTPUT);
pinMode(l2,OUTPUT);
pinMode(l3,OUTPUT);
pinMode(l4,OUTPUT);
pinMode(ledr,OUTPUT);
pinMode(ledb,OUTPUT);
pinMode(ledw,OUTPUT);
pinMode(sw1,INPUT);
pinMode(sw2,INPUT);
pinMode(ledblinkl,OUTPUT);
pinMode(ledblinkf,OUTPUT);
pinMode(ledsloblo,OUTPUT);
pinMode(ledact1,OUTPUT);
pinMode(ledact2,OUTPUT);
pinMode(ledact3,OUTPUT);
pinMode(ledb1,OUTPUT);
pinMode(ledb2,OUTPUT);
pinMode(ledb3,OUTPUT);
pinMode(ledb4,OUTPUT);
pinMode(ledb5,OUTPUT);
pinMode(ledb6,OUTPUT);
pinMode(ledb7,OUTPUT);
pinMode(ledb8,OUTPUT);
pinMode(ledb9,OUTPUT);
pinMode(ledb10,OUTPUT);
pinMode(ledb11,OUTPUT);
pinMode(ledb12,OUTPUT);
pinMode(ledb13,OUTPUT);
pinMode(ledb14,OUTPUT);
pinMode(ledb15,OUTPUT);
pinMode(button2,INPUT);
pinMode(overPin,OUTPUT);
pinMode(relaisPin,OUTPUT);
if(ledrbanim==3){
brightnessledb=250;}
}
void loop() {
if(digitalRead(sw1)==HIGH){
val = analogRead(potar_v);
digitalWrite(ledact1,HIGH);
digitalWrite(ledact2,HIGH);
digitalWrite(ledact3,HIGH);
if(digitalRead(sw2)==LOW){
digitalWrite(ledsloblo,1);}else{
digitalWrite(ledsloblo,0);}
powercell(etatcommand);
if(digitalRead(button1)==HIGH){
if(s1==0){
ledbs=0;
digitalWrite(ledb1,LOW);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb4,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);}
if(digitalRead(sw2)==LOW){
if(bargraphgunanim==1){
bargraphgunanim2(etatcommand);}
if(bargraphgunanim==2){
bargraphgunanim3(etatcommand);}
if(bargraphgunanim==3){
bargraphgunanim4(etatcommand);}}
}
if(digitalRead(button2)==HIGH){
decov=1;}
if(decov==1){
readov-=4;}
if(animcyclotron == 1){
cyclotron1(etatcommand);}
if(animcyclotron == 2){
cyclotron2(etatcommand);}
if(animcyclotron == 3){
cyclotron3(etatcommand);}
if(animcyclotron == 4){
cyclotron4(etatcommand);}
if(digitalRead(button1)==HIGH){
if(activeov==1 && digitalRead(sw2)==HIGH){
bargraphgunov(etatcommand);
if(readov>overheat*15){
(overheat*15)+1;}else{
readov++;}}
if(activeov==0 && digitalRead(sw2)==HIGH){
bargraphgunanim2(etatcommand);
}
if(readov<overheat*15){
ledsgun(etatcommand);}
if(readov>overheat*15){
digitalWrite(ledw,0);
digitalWrite(ledb,0);
digitalWrite(ledr,0);
digitalWrite(overPin,1);
delay(100);
digitalWrite(overPin,0);
digitalWrite(relaisPin,1); //active le relais pendant 3 secondes(ne pas le laisser activer top longtemps pour la E-cig, 3 secondes GRAND MAX !)
delay(3000);
digitalWrite(relaisPin,0); //on désactive le relais
delay(3000); //Délai à mettre en fonction de la durée de ton son overheat, j'ai 3000 ms par exemple, mais tu peut mettre une autre valeur mieux adaptée
readov = 0;
}
s1=1;}
if(digitalRead(button1)==LOW){
digitalWrite(ledw,LOW);
digitalWrite(ledr,LOW);
digitalWrite(ledb,LOW);
if(ledbs>0){
if(s1==1){
ledbs=0;
s1=0;}}
if(readov>0){
readov--;}
if(readov<=0){
readov=0;
decov=0;}
if(activeov==0){
bargraphgunanim1(etatcommand);}
if(activeov==1){
if(readov>0){
bargraphgunov(etatcommand);}
if(readov<=0){
bargraphgunanim1(etatcommand);}
}
}
ledp++;
ledbs++;
delay(val);
}else{
ledp=16;
ls=0;
lds=1;
ledbs=1;
readov=0;
brightnessledr=0;
brightnessledw=0;
brightnessledb=0;
brightness=0;
brightness2=0;
brightness3=0;
brightness4=255;
blinkledr=0;
blinkledw=0;
blinkledb=0;
digitalWrite(l1,LOW);
digitalWrite(l2,LOW);
digitalWrite(l3,LOW);
digitalWrite(l4,LOW);
digitalWrite(ledp1,LOW);
digitalWrite(ledp2,LOW);
digitalWrite(ledp3,LOW);
digitalWrite(ledp4,LOW);
digitalWrite(ledp5,LOW);
digitalWrite(ledp6,LOW);
digitalWrite(ledp7,LOW);
digitalWrite(ledp8,LOW);
digitalWrite(ledp9,LOW);
digitalWrite(ledp10,LOW);
digitalWrite(ledp11,LOW);
digitalWrite(ledp12,LOW);
digitalWrite(ledp13,LOW);
digitalWrite(ledp14,LOW);
digitalWrite(ledp15,LOW);
digitalWrite(ledb1,LOW);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb4,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);
digitalWrite(ledb,LOW);
digitalWrite(ledw,LOW);
digitalWrite(ledr,LOW);
digitalWrite(ledblinkl,LOW);
digitalWrite(ledblinkf,LOW);
digitalWrite(ledsloblo,LOW);
digitalWrite(ledact1,LOW);
digitalWrite(ledact2,LOW);
digitalWrite(ledact3,LOW);
}}
void powercell(unsigned long animavar){
if(ledp==1){
digitalWrite(ledp1,HIGH);}
if(ledp==2){
digitalWrite(ledp2,HIGH);}
if(ledp==3){
digitalWrite(ledp3,HIGH);}
if(ledp==4){
digitalWrite(ledblinkf,LOW);
digitalWrite(ledp4,HIGH);}
if(ledp==5){
digitalWrite(ledp5,HIGH);}
if(ledp==6){
digitalWrite(ledp6,HIGH);}
if(ledp==7){
digitalWrite(ledp7,HIGH);}
if(ledp==8){
digitalWrite(ledp8,HIGH);
digitalWrite(ledblinkf,HIGH);
digitalWrite(ledblinkl,HIGH);}
if(ledp==9){
digitalWrite(ledp9,HIGH);}
if(ledp==10){
digitalWrite(ledp10,HIGH);}
if(ledp==11){
digitalWrite(ledp11,HIGH);}
if(ledp==12){
digitalWrite(ledp12,HIGH);
digitalWrite(ledblinkf,LOW);}
if(ledp==13){
digitalWrite(ledp13,HIGH);}
if(ledp==14){
digitalWrite(ledp14,HIGH);}
if(ledp==15){
digitalWrite(ledp15,HIGH);
digitalWrite(ledblinkf,HIGH);
digitalWrite(ledblinkl,LOW);}
if(ledp>15){
digitalWrite(ledp1,LOW);
digitalWrite(ledp2,LOW);
digitalWrite(ledp3,LOW);
digitalWrite(ledp4,LOW);
digitalWrite(ledp5,LOW);
digitalWrite(ledp6,LOW);
digitalWrite(ledp7,LOW);
digitalWrite(ledp8,LOW);
digitalWrite(ledp9,LOW);
digitalWrite(ledp10,LOW);
digitalWrite(ledp11,LOW);
digitalWrite(ledp12,LOW);
digitalWrite(ledp13,LOW);
digitalWrite(ledp14,LOW);
digitalWrite(ledp15,LOW);
ledp=0;}
}
void cyclotron1(unsigned long animavar){
if(ls==0){
ls++;}
if(ls==1){
brightness4-=5;
brightness+=5;
analogWrite(l1,brightness);
analogWrite(l4,brightness4);
if(brightness>=255){
ls++;
brightness4=0;}}
if(ls==2){
brightness-=5;
brightness2+=5;
analogWrite(l1,brightness);
analogWrite(l2,brightness2);
if(brightness2>=255){
ls++;
brightness=0;}}
if(ls==3){
brightness3+=5;
brightness2-=5;
analogWrite(l2,brightness2);
analogWrite(l3,brightness3);
if(brightness3>=255){
ls++;
brightness2=0;}}
if(ls==4){
brightness3-=5;
brightness4+=5;
analogWrite(l3,brightness3);
analogWrite(l4,brightness4);
if(brightness4>=255){
ls++;
brightness3=0;}}
if(ls>4){
ls=1;}}
void cyclotron2(unsigned long animavar){
if(ls==0){
ls++;}
if(ls==1){
brightness4-=5;
analogWrite(l4,brightness4);
if(brightness4<=0){
ls++;
brightness4=0;}}
if(ls==2){
brightness+=5;
analogWrite(l1,brightness);
if(brightness>255){
ls++;}}
if(ls==3){
brightness-=5;
analogWrite(l1,brightness);
if(brightness<0){
ls++;
digitalWrite(l1,LOW);}}
if(ls==4){
brightness2+=5;
analogWrite(l2,brightness2);
if(brightness2>255){
ls++;}}
if(ls==5){
brightness2-=5;
analogWrite(l2,brightness2);
if(brightness2<0){
ls++;
digitalWrite(l2,LOW);}}
if(ls==6){
brightness3+=5;
analogWrite(l3,brightness3);
if(brightness3>255){
ls++;
}}
if(ls==7){
brightness3-=5;
analogWrite(l3,brightness3);
if(brightness3<0){
ls++;
digitalWrite(l3,LOW);}}
if(ls==8){
brightness4+=5;
analogWrite(l4,brightness4);
if(brightness4>254){
ls++;}}
if(ls>8){
ls=1;}
}
void cyclotron3(unsigned long animavar){
if(ls==0){
ls++;}
if(ls==1){
brightness4-=15;
brightness=255;
analogWrite(l4,brightness4);
analogWrite(l1,brightness);
if(brightness4<=0){
ls++;}}
if(ls==2){
brightness-=15;
brightness2=255;
analogWrite(l1,brightness);
analogWrite(l2,brightness2);
if(brightness<=0){
ls++;}}
if(ls==3){
brightness2-=15;
brightness3=255;
analogWrite(l2,brightness2);
analogWrite(l3,brightness3);
if(brightness2<=0){
ls++;}}
if(ls==4){
brightness3-=15;
brightness4=255;
analogWrite(l3,brightness3);
analogWrite(l4,brightness4);
if(brightness3<=0){
ls++;}
}
if(ls>4){
ls=1;}}
void cyclotron4(unsigned long animavar){
if(ls==0){
ls++;}
if(digitalRead(ledp1)==LOW){
ls++;}
if(ls==1){
digitalWrite(l3,LOW);
digitalWrite(l4,HIGH);
}
if(ls==2){
digitalWrite(l4,LOW);
digitalWrite(l1,HIGH);
}
if(ls==3){
digitalWrite(l1,LOW);
digitalWrite(l2,HIGH);
}
if(ls==4){
digitalWrite(l2,LOW);
digitalWrite(l3,HIGH);
}
if(ls>4){
ls=1;}
}
void ledsgun(unsigned long animavar){
if(digitalRead(sw2)==HIGH){
if(brightnessledr!=0 && ledwanim!=0 || ledwanim!=0 || ledwanim!=0 && brightnessledr!=0 && ledrbanim==3){
brightnessledr=0;
brightnessledb=0;
digitalWrite(ledr,LOW);
digitalWrite(ledb,LOW);}
if(ledwanim==0 && digitalRead(button1)==HIGH){
if(lds==0){
if(val<4){
brightnessledr+=5;
blinkledb++;}
else{
brightnessledr+=10;
blinkledb++;}
analogWrite(ledr, brightnessledr);
if(blinkledb==1){
digitalWrite(ledb,HIGH);
}else{
digitalWrite(ledb,LOW);
if(blinkledb==2){
blinkledb=0;}
if(brightnessledr>=250){
lds=1;}}}
if(lds==1){
if(val<4){
brightnessledr-=5;
blinkledb++;}else{
brightnessledr-=10;
blinkledb++;}
analogWrite(ledr, brightnessledr);
if(blinkledb==1){
digitalWrite(ledb,HIGH);
}else{
digitalWrite(ledb,LOW);
if(blinkledb==2){
blinkledb=0;}
if(brightnessledr<=0){
lds=0;}}}
}
if(ledwanim==1 && digitalRead(button1)==HIGH){
if(blinkledw==0){
digitalWrite(ledw,HIGH);
blinkledw++;
}
else{
digitalWrite(ledw,LOW);
blinkledw++;
}
if(blinkledw==2){
blinkledw=0;}
}
if(ledwanim==2 && digitalRead(button1)==HIGH){
if(lds==0){
brightnessledw+=20;
analogWrite(ledw, brightnessledw);
if(brightnessledw>250){
lds=1;}}
if(lds==1){
brightnessledw-=20;
analogWrite(ledw, brightnessledw);
if(brightnessledw<=0){
lds=0;}}
}
}
else{
if(brightnessledw!=0 && ledrbanim!=0 || ledrbanim!=0){
brightnessledw=0;
analogWrite(ledw, brightnessledw);
digitalWrite(ledw,LOW);}
if(ledrbanim==0){
if(blinkledw==0){
digitalWrite(ledw,HIGH);
blinkledw++;
}
else{
digitalWrite(ledw,LOW);
blinkledw++;
}
if(blinkledw==2){
blinkledw=0;}
}
if(ledrbanim==1 && digitalRead(button1)==HIGH){
if(blinkledr==0){
digitalWrite(ledr,LOW);
blinkledr++;}
else{
digitalWrite(ledr,HIGH);
blinkledr++;}
if(blinkledr>1 && digitalRead(button1)==HIGH){
blinkledr=0;}
if(blinkledb==0){
digitalWrite(ledb,LOW);
blinkledb++;}else{
digitalWrite(ledb,HIGH);
blinkledb++;}
if(blinkledb==3){
blinkledb=0;}
}
if(ledrbanim==2 && digitalRead(button1)==HIGH){
if(lds==0){
brightnessledr+=10;
blinkledb++;}
analogWrite(ledr, brightnessledr);
if(blinkledb==1){
digitalWrite(ledb,HIGH);
}else{
digitalWrite(ledb,LOW);
if(blinkledb==2){
blinkledb=0;}
if(brightnessledr>=250){
lds=1;}}
if(lds==1){
brightnessledr-=10;
blinkledb++;
analogWrite(ledr, brightnessledr);
if(blinkledb==1){
digitalWrite(ledb,HIGH);
}else{
digitalWrite(ledb,LOW);
if(blinkledb==2){
blinkledb=0;}
if(brightnessledr<=0){
lds=0;}}}
}
}
if(ledrbanim==3 && digitalRead(sw2)==LOW){
if(lds==0){
brightnessledb-=20;
brightnessledr+=20;
analogWrite(ledr, brightnessledr);
analogWrite(ledb, brightnessledb);
if(brightnessledr>250){
lds=1;}}
if(lds==1){
brightnessledr-=20;
brightnessledb+=20;
analogWrite(ledr, brightnessledr);
analogWrite(ledb, brightnessledb);
if(brightnessledr<=0){
lds=0;}}
}
}
void bargraphgunanim1(unsigned long anivar){
if(ledbs==1){
digitalWrite(ledb1,1);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb4,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);}
if(ledbs==2){
digitalWrite(ledb2,1);}
if(ledbs==3){
digitalWrite(ledb3,1);}
if(ledbs==4){
digitalWrite(ledb4,1);}
if(ledbs==5){
digitalWrite(ledb5,1);}
if(ledbs==6){
digitalWrite(ledb6,1);}
if(ledbs==7){
digitalWrite(ledb7,1);}
if(ledbs==8){
digitalWrite(ledb8,1);}
if(ledbs==9){
digitalWrite(ledb9,1);}
if(ledbs==10){
digitalWrite(ledb10,1);}
if(ledbs==11){
digitalWrite(ledb11,1);}
if(ledbs==12){
digitalWrite(ledb12,1);}
if(ledbs==13){
digitalWrite(ledb13,1);}
if(ledbs==14){
digitalWrite(ledb14,1);}
if(ledbs==15){
digitalWrite(ledb15,1);}
if(ledbs==16){
digitalWrite(ledb15,0);}
if(ledbs==17){
digitalWrite(ledb14,0);}
if(ledbs==18){
digitalWrite(ledb13,0);}
if(ledbs==19){
digitalWrite(ledb12,0);}
if(ledbs==20){
digitalWrite(ledb11,0);}
if(ledbs==21){
digitalWrite(ledb10,0);}
if(ledbs==22){
digitalWrite(ledb9,0);}
if(ledbs==23){
digitalWrite(ledb8,0);}
if(ledbs==24){
digitalWrite(ledb7,0);}
if(ledbs==25){
digitalWrite(ledb6,0);}
if(ledbs==26){
digitalWrite(ledb5,0);}
if(ledbs==27){
digitalWrite(ledb4,0);}
if(ledbs==28){
digitalWrite(ledb3,0);}
if(ledbs==29){
digitalWrite(ledb2,0);}
if(ledbs==30){
digitalWrite(ledb1,0);
digitalWrite(ledb1,LOW);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb4,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);
ledbs=0;}
}
void bargraphgunanim2(unsigned long anivar){
if(ledbs==1){
digitalWrite(ledb1,1);
digitalWrite(ledb15,1);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb4,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
}
if(ledbs==2){
digitalWrite(ledb2,1);
digitalWrite(ledb14,1);
}
if(ledbs==3){
digitalWrite(ledb3,1);
digitalWrite(ledb13,1);
}
if(ledbs==4){
digitalWrite(ledb4,1);
digitalWrite(ledb12,1);
}
if(ledbs==5){
digitalWrite(ledb5,1);
digitalWrite(ledb11,1);
}
if(ledbs==6){
digitalWrite(ledb6,1);
digitalWrite(ledb10,1);
digitalWrite(ledb1,0);
digitalWrite(ledb15,0);
}
if(ledbs==7){
digitalWrite(ledb7,1);
digitalWrite(ledb9,1);
digitalWrite(ledb2,0);
digitalWrite(ledb14,0);
}
if(ledbs==8){
digitalWrite(ledb8,1);
digitalWrite(ledb3,0);
digitalWrite(ledb13,0);
}
if(ledbs==9){
digitalWrite(ledb4,0);
digitalWrite(ledb12,0);
}
if(ledbs==10){
digitalWrite(ledb5,0);
digitalWrite(ledb11,0);
}
if(ledbs==11){
digitalWrite(ledb6,0);
digitalWrite(ledb10,0);
}
if(ledbs==12){
digitalWrite(ledb7,0);
digitalWrite(ledb9,0);
}
if(ledbs==13){
digitalWrite(ledb8,0);
ledbs=0;
}
}
void bargraphgunanim3(unsigned long anivar){
if(ledbs==1){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
digitalWrite(ledb15,1);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
}
if(ledbs==3){
digitalWrite(ledb1,0);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
digitalWrite(ledb15,0);
}
if(ledbs==5){
digitalWrite(ledb2,0);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,0);
}
if(ledbs==7){
digitalWrite(ledb3,0);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,0);
}
if(ledbs==9){
digitalWrite(ledb4,0);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,0);
}
if(ledbs==11){
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,0);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
}
if(ledbs==13){
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
}
if(ledbs==15){
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
}
if(ledbs==17){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
digitalWrite(ledb15,1);
ledbs=1;
}
}
void bargraphgunanim4(unsigned long anivar){
if(ledbs==1){
digitalWrite(ledb1,1);
digitalWrite(ledb4,0);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);
}
if(ledbs==2){
digitalWrite(ledb2,1);
digitalWrite(ledb1,0);
digitalWrite(ledb4,1);
}
if(ledbs==3){
digitalWrite(ledb3,1);
digitalWrite(ledb2,0);
digitalWrite(ledb4,0);
}
if(ledbs==4){
digitalWrite(ledb4,1);
digitalWrite(ledb3,0);
digitalWrite(ledb4,1);
}
if(ledbs==5){
digitalWrite(ledb5,1);
digitalWrite(ledb4,0);
digitalWrite(ledb4,0);
}
if(ledbs==6){
digitalWrite(ledb6,1);
digitalWrite(ledb5,0);
digitalWrite(ledb4,1);
}
if(ledbs==7){
digitalWrite(ledb7,1);
digitalWrite(ledb6,0);
digitalWrite(ledb4,0);
}
if(ledbs==8){
digitalWrite(ledb8,1);
digitalWrite(ledb7,0);
digitalWrite(ledb4,1);
}
if(ledbs==9){
digitalWrite(ledb9,1);
digitalWrite(ledb8,0);
digitalWrite(ledb4,0);
}
if(ledbs==10){
digitalWrite(ledb10,1);
digitalWrite(ledb9,0);
digitalWrite(ledb4,1);
}
if(ledbs==11){
digitalWrite(ledb11,1);
digitalWrite(ledb10,0);
digitalWrite(ledb4,0);
}
if(ledbs==12){
digitalWrite(ledb12,1);
digitalWrite(ledb11,0);
digitalWrite(ledb4,1);
}
if(ledbs==13){
digitalWrite(ledb13,1);
digitalWrite(ledb12,0);
digitalWrite(ledb4,0);
}
if(ledbs==14){
digitalWrite(ledb14,1);
digitalWrite(ledb13,0);
digitalWrite(ledb4,1);
}
if(ledbs==15){
digitalWrite(ledb15,1);
digitalWrite(ledb14,0);
digitalWrite(ledb4,0);
}
if(ledbs==16){
digitalWrite(ledb14,1);
digitalWrite(ledb15,0);
digitalWrite(ledb4,1);
}
if(ledbs==17){
digitalWrite(ledb13,1);
digitalWrite(ledb14,0);
digitalWrite(ledb4,0);
}
if(ledbs==18){
digitalWrite(ledb12,1);
digitalWrite(ledb13,0);
digitalWrite(ledb4,1);
}
if(ledbs==19){
digitalWrite(ledb11,1);
digitalWrite(ledb12,0);
digitalWrite(ledb4,0);
}
if(ledbs==20){
digitalWrite(ledb10,1);
digitalWrite(ledb11,0);
digitalWrite(ledb4,1);
}
if(ledbs==21){
digitalWrite(ledb9,1);
digitalWrite(ledb10,0);
digitalWrite(ledb4,0);
}
if(ledbs==22){
digitalWrite(ledb8,1);
digitalWrite(ledb9,0);
digitalWrite(ledb4,1);
}
if(ledbs==23){
digitalWrite(ledb7,1);
digitalWrite(ledb8,0);
digitalWrite(ledb4,0);
}
if(ledbs==24){
digitalWrite(ledb6,1);
digitalWrite(ledb7,0);
digitalWrite(ledb4,1);
}
if(ledbs==25){
digitalWrite(ledb5,1);
digitalWrite(ledb6,0);
digitalWrite(ledb4,0);
}
if(ledbs==26){
digitalWrite(ledb4,1);
digitalWrite(ledb5,0);
digitalWrite(ledb4,1);
}
if(ledbs==27){
digitalWrite(ledb3,1);
digitalWrite(ledb4,0);
digitalWrite(ledb4,0);
}
if(ledbs==28){
digitalWrite(ledb2,1);
digitalWrite(ledb3,0);
digitalWrite(ledb4,1);
}
if(ledbs==29){
digitalWrite(ledb1,1);
digitalWrite(ledb2,0);
digitalWrite(ledb4,0);
ledbs=1;
}
}
void bargraphgunov(unsigned long anivar){
if(readov>overheat*1){
digitalWrite(ledb1,1);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);
}
if(readov>overheat*2){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,0);
digitalWrite(ledb4,0);
digitalWrite(ledb5,0);
digitalWrite(ledb6,0);
digitalWrite(ledb7,0);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*3){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,0);
digitalWrite(ledb5,0);
digitalWrite(ledb6,0);
digitalWrite(ledb7,0);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*4){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,0);
digitalWrite(ledb6,0);
digitalWrite(ledb7,0);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*5){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,0);
digitalWrite(ledb7,0);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*6){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,0);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*7){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*8){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*9){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*10){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*11){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*12){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*13){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*14){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
digitalWrite(ledb15,0);
}
if(readov>overheat*15){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
digitalWrite(ledb15,1);
}
}
Merci beaucoup à toi pour ton aide précieuse.
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