Olá a todos,
Estou com um problema com o arduino, tenho algumas lâmpadas ligadas ao Arduino Mega, quando falta energia, no retorno o arduino aciona todas as saídas, ligando todas as lâmpadas.
Alguém sabe como posso resolver esse problema?
Obrigado
Roberto Cortes
Tags:
Obrigado Giliardi,
Abaixo o código.
//Ethernet Port
EthernetServer server = EthernetServer(80); //default html port 80
//O número de saídas vai ser comutado.
int outputQuantity = 19; //não deve exceder 10
//Inverta a saída dos leds
boolean outputInverted = true; //true or false
// Isso é feito no caso a placa de relé acionar o relé em negativo, ao invés de positivo
//Html page refresh
int refreshPage = 20; //default is 50sec.
//Tenha em atenção que, se conseguir que a atualização seja muito rápida, a página pode ficar inacessível
//Exibir ou ocultar os botões "Ativar todos os pinos" na parte inferior da página
int switchOnAllPinsButton = false; //true or false
int outputAddress[] = { 22,24,26,28,30,32,34,36,38,40,42,44,46,48,49,47,43,41,45}; //Allocate 10 spaces and name the output pin address.
String buttonText[19] = {
"01.ESCRITORIO","02.RUIVA V","03.RUIVA Q","04.CORREDOR 2","05.CORREDOR 1 ","06.FR.PORTAO","07.LATERAL","08.VARANDA","09.SNOW","10.CHURRASQ.","11.LIVRE","12.LIVRE","13.LIVRE","14.LIVRE","15.LIVRE","16.LIVRE","17.LIVRE","18.LIVRE","19.LIVRE"};
// Defina a saída para manter o último status após a reciclagem de energia.
int retainOutputStatus[19] = { 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1};//1-reter o último status. 0-será desligado após o corte de energia.
////////////////////////////////////////////////////////////////////////
//VARIABLES DECLARATION
////////////////////////////////////////////////////////////////////////
int outp = 0;
boolean printLastCommandOnce = false;
boolean printButtonMenuOnce = false;
boolean initialPrint = true;
String allOn = "";
String allOff = "";
boolean reading = false;
boolean outputStatus[19]; //Crie uma matriz booleana para a quantidade máxima.
String rev = "";
unsigned long timeConnectedAt;
boolean writeToEeprom = false;
/////////////////////////////////////////////////
// Temperature Related Reading
const int tempInPin = A1;
int tempInValue = 0; //temperature read
int tempScaleOutValue = 0; //temperature formatted
int tempOutValue = 0; //temperature formatted
float tempOutDeg = 0.0;
////////////////////////////////////////////////////////////////////////
//RUN ONCE
////////////////////////////////////////////////////////////////////////
//Beginning of Program //Sensor de presença
int pinoled1 = 8; //Pino ligado ao led vermelho
int pinoled2 = 9; //Pino ligado ao led amarelo
int pinoled3 = 19; //Pino ligado ao led verde
int pinoled4 = 10; //Pino ligado ao led azul
int pinopir1 = 2; //Pino ligado ao sensor PIR
int pinopir2 = 3; //Pino ligado ao sensor PIR
int pinopir3 = 4; //Pino ligado ao sensor PIR
int pinopir4 = 5; //Pino ligado ao sensor PIR
int acionamento; //Variavel para guardar valor do sensor
void setup(){
Serial.begin(9600);
initEepromValues();
readEepromValues();
//Set pins as Outputs
boolean currentState = false;
int var;
for (int i = 0; i < outputQuantity; i++){
pinMode(pinoled1, OUTPUT); //Define pino como saida
pinMode(pinopir1, INPUT); //Define pino sensor como entrada
pinMode(pinoled2, OUTPUT); //Define pino como saida
pinMode(pinopir2, INPUT); //Define pino sensor como entrada
pinMode(pinoled3, OUTPUT); //Define pino como saida
pinMode(pinopir3, INPUT); //Define pino sensor como entrada
pinMode(pinoled4, OUTPUT); //Define pino como saida
pinMode(pinopir4, INPUT); //Define pino sensor como entrada
pinMode(outputAddress[i], OUTPUT);
var = outputAddress[i];
//Switch all outputs to either on or off on Startup
if(outputInverted == true) {
//digitalWrite(outputAddress[var], HIGH);
if(outputStatus[i] == 0){currentState = true;}else{currentState = false;} //check outputStatus if off, switch output accordingly
digitalWrite(var, currentState);
}
else{
//digitalWrite(outputAddress[var], LOW);
if(outputStatus[i] == 0){currentState = false;}else{currentState = true;}//check outputStatus if off, switch output accordingly
digitalWrite(var, currentState);
}
}
//Setting up the IP address. Comment out the one you dont need.
//Ethernet.begin(mac); //for DHCP address. (Address will be printed to serial.)
Ethernet.begin(mac, ip, gateway, subnet); //for manual setup. (Address is the one configured above.)
server.begin();
Serial.print("Server started at ");
Serial.println(Ethernet.localIP());
}
////////////////////////////////////////////////////////////////////////
//LOOP
////////////////////////////////////////////////////////////////////////
//Run once
void loop(){
acionamento = digitalRead(pinopir1); //Le o valor do sensor PIR
if (acionamento == LOW) //Sem movimento, mantem led azul ligado
{
digitalWrite(pinoled1, LOW);
}
else //Caso seja detectado um movimento, aciona o led vermelho
{
digitalWrite(pinoled1, HIGH);
}
acionamento = digitalRead(pinopir2); //Le o valor do sensor PIR
if (acionamento == LOW) //Sem movimento, mantem led azul ligado
{
digitalWrite(pinoled2, LOW);
}
else //Caso seja detectado um movimento, aciona o led vermelho
{
digitalWrite(pinoled2, HIGH);
}
acionamento = digitalRead(pinopir3); //Le o valor do sensor PIR
if (acionamento == LOW) //Sem movimento, mantem led azul ligado
{
digitalWrite(pinoled3, LOW);
}
else //Caso seja detectado um movimento, aciona o led vermelho
{
digitalWrite(pinoled3, HIGH);
}
acionamento = digitalRead(pinopir4); //Le o valor do sensor PIR
if (acionamento == LOW) //Sem movimento, mantem led azul ligado
{
digitalWrite(pinoled4, LOW);
}
else //Caso seja detectado um movimento, aciona o led azul
{
digitalWrite(pinoled4, HIGH);
}
//Read Temperature Sensor
tempInValue = analogRead(tempInPin);
// Connecting a 10K3 Thermistor to the Arduino Input
// +5V �—————————[10Kohms]—————————[Thermistor]——� 0V
// To Arduino IP �———————————|
tempScaleOutValue = map(tempInValue, 0, 1023, 1023, 0); //Arduino value and NTC of the 10K3 Thermistor
tempOutValue = map(tempScaleOutValue, 130, 870, -170, 730); //range of Arduino Value compared with Temperature
tempOutValue = tempOutValue -45; //Adjustments
tempOutDeg = tempOutValue / 10.0;
checkForClient();
}
////////////////////////////////////////////////////////////////////////
//checkForClient Function
////////////////////////////////////////////////////////////////////////
//
void checkForClient(){
EthernetClient client = server.available();
if (client) {
boolean currentLineIsBlank = true;
boolean sentHeader = false;
int temp,temp1;
while (client.connected()) {
if (client.available()) {
char c = client.read();
if(c == '*'){
printHtmlHeader(client); //call for html header and css
printLoginTitle(client);
printHtmlFooter(client);
break;
}
if(!sentHeader){
printHtmlHeader(client); //call for html header and css
printHtmlButtonTitle(client); //print the button title
sentHeader = true;
}
if(reading && c == ' '){
reading = false;
}
if(c == '?') {
reading = true; //found the ?, begin reading the info
}
if(reading){
//if user input is H set output to 1
if(c == 'H') {
outp = 1;
}
if(c == 'L') {
outp = 0;
}
// Serial.println(c); //print the value of c to serial communication
//---------------------------------------------------------------------------------------------
// ? H 1 0
// ^ ^ ^ ^
// | | | |____________read 4 ( 10,11,12,13....)
// | | |______________read 3 ( 1....9)
// | |________________read 2 if user input is H set output to L
// |__________________read 1
//---------------------------------------------------------------------------------------------
if( c == '1'){
char c = client.read();
switch (c) {
case '0':
triggerPin(outputAddress[10], client, outp);
break;
case '1':
triggerPin(outputAddress[11], client, outp);
break;
case '2':
triggerPin(outputAddress[12], client, outp);
break;
case '3':
triggerPin(outputAddress[13], client, outp);
break;
case '4':
triggerPin(outputAddress[14], client, outp);
break;
case '5':
triggerPin(outputAddress[15], client, outp);
break;
case '6':
triggerPin(outputAddress[16], client, outp);
break;
case '7':
triggerPin(outputAddress[17], client, outp);
break;
case '8':
triggerPin(outputAddress[18], client, outp);
break;
case '9':
triggerPin(outputAddress[19], client, outp);
break;
default:
char c = client.read();
triggerPin(outputAddress[1], client, outp);
}
}
else {
switch (c) {
case '0':
triggerPin(outputAddress[0], client, outp);
break;
// case '1':
// triggerPin(outputAddress[1], client, outp);
// break;
case '2':
triggerPin(outputAddress[2], client, outp);
break;
case '3':
//add code here to trigger on 3
triggerPin(outputAddress[3], client, outp);
break;
case '4':
//add code here to trigger on 4
triggerPin(outputAddress[4], client, outp);
break;
case '5':
//add code here to trigger on 5
triggerPin(outputAddress[5], client, outp);
//printHtml(client);
break;
case '6':
//add code here to trigger on 6
triggerPin(outputAddress[6], client, outp);
break;
case '7':
//add code here to trigger on 7
triggerPin(outputAddress[7], client, outp);
break;
case '8':
//add code here to trigger on 8
triggerPin(outputAddress[8], client, outp);
break;
case '9':
//add code here to trigger on 9
triggerPin(outputAddress[9], client, outp);
break;
} //end of switch case
}
}//end of switch switch the relevant output
//if user input was blank
if (c == '\n' && currentLineIsBlank){
printLastCommandOnce = true;
printButtonMenuOnce = true;
triggerPin(777, client, outp); //Call to read input and print menu. 777 is used not to update any outputs
break;
}
}
}
printHtmlFooter(client); //Prints the html footer
}
else{
if (millis() > (timeConnectedAt + 60000)){
if (writeToEeprom == true){
writeEepromValues(); //write to EEprom the current output statuses
Serial.println("No Clients for more then a minute - Writing statuses to Eeprom.");
writeToEeprom = false;
}
}
}
}// END
////////////////////////////////////////////////////////////////////////
//triggerPin Function
////////////////////////////////////////////////////////////////////////
//
void triggerPin(int pin, EthernetClient client, int outp){
if (pin != 777){
// Serial.println(pin);
if(outp == 1) {
if (outputInverted ==false){
digitalWrite(pin, HIGH);
}
else{
digitalWrite(pin, LOW);
}
}
if(outp == 0){
if (outputInverted ==false){
digitalWrite(pin, LOW);
}
else{
digitalWrite(pin, HIGH);
}
}
}
//Refresh the reading of outputs
readOutputStatuses();
//Prints the buttons
if (printButtonMenuOnce == true){
printHtmlButtons(client);
printButtonMenuOnce = false;
}
}
////////////////////////////////////////////////////////////////////////
//printHtmlButtons Function
////////////////////////////////////////////////////////////////////////
//print the html buttons to switch on/off channels
void printHtmlButtons(EthernetClient client){
//Start to create the html table
client.println("");
//client.println("<p>");
client.println("<FORM>");
client.println("<table border=\"0\" align=\"center\">");
//Printing the Temperature
client.print("<tr>\n");
client.print("<td><h4>");
client.print("Temperatura");
client.print("</h4></td>\n");
client.print("<td></td>");
client.print("<td>");
client.print("<h3>");
client.print(tempOutDeg);
client.print(" °C</h3></td>\n");
client.print("<td></td>");
client.print("</tr>");
//Start printing button by button
for (int var = 0; var < outputQuantity; var++) {
//set command for all on/off
allOn += "H";
allOn += outputAddress[var];
allOff += "L";
allOff += outputAddress[var];
//Print begining of row
client.print("<tr>\n");
//Prints the button Text
client.print("<td><h4>");
client.print(buttonText[var]);
client.print("</h4></td>\n");
//Prints the ON Buttons+++++++++++++++++++++++++++++++++++++++++++++++
client.print("<td>");
client.print("<INPUT TYPE=\"button\" VALUE=\"ON ");
client.print("\" onClick=\"parent.location='/?H");
client.print(var);
client.print("'\"></td>\n");
//Prints the OFF Buttons ---------------------------------------------
client.print(" <td><INPUT TYPE=\"button\" VALUE=\"OFF");
client.print("\" onClick=\"parent.location='/?L");
client.print(var);
client.print("'\"></td>\n");
//Invert the LED display if output is inverted.
if (outputStatus[var] == true ){ //If Output is ON
if (outputInverted == false){ //and if output is not inverted
client.print(" <td><div class='green-circle'><div class='glare'></div></div></td>\n"); //Print html for ON LED
}
else{ //else output is inverted then
client.print(" <td><div class='black-circle'><div class='glare'></div></div></td>\n"); //Print html for OFF LED
}
}
else //If Output is Off
{
if (outputInverted == false){ //and if output is not inverted
client.print(" <td><div class='black-circle'><div class='glare'></div></div></td>\n"); //Print html for OFF LED
}
else{ //else output is inverted then
client.print(" <td><div class='green-circle'><div class='glare'></div></div></td>\n"); //Print html for ON LED
}
}
//Print end of row
client.print("</tr>\n");
}
//Display or hide the Print all on Pins Button
if (switchOnAllPinsButton == true ){
//Prints the ON All Pins Button
client.print("<tr>\n<td><INPUT TYPE=\"button\" VALUE=\"Switch ON All Pins");
client.print("\" onClick=\"parent.location='/?");
client.print(allOn);
client.print("'\"></td>\n");
//Prints the OFF All Pins Button
client.print("<td><INPUT TYPE=\"button\" VALUE=\"Switch OFF All Pins");
client.print("\" onClick=\"parent.location='/?");
client.print(allOff);
client.print("'\"></td>\n<td></td>\n<td></td>\n</tr>\n");
}
//Closing the table and form
client.println("</table>");
client.println("</FORM>");
//client.println("</p>");
}
////////////////////////////////////////////////////////////////////////
//readOutputStatuses Function
////////////////////////////////////////////////////////////////////////
//Reading the Output Statuses
void readOutputStatuses(){
for (int var = 0; var < outputQuantity; var++) {
outputStatus[var] = digitalRead(outputAddress[var]);
//Serial.print(outputStatus[var]);
}
}
////////////////////////////////////////////////////////////////////////
//readEepromValues Function
////////////////////////////////////////////////////////////////////////
//Read EEprom values and save to outputStatus
void readEepromValues(){
for (int adr = 0; adr < outputQuantity; adr++) {
outputStatus[adr] = EEPROM.read(adr);
}
}
////////////////////////////////////////////////////////////////////////
//writeEepromValues Function
////////////////////////////////////////////////////////////////////////
//Write EEprom values
void writeEepromValues(){
for (int adr = 0; adr < outputQuantity; adr++) {
EEPROM.write(adr, outputStatus[adr]);
}
}
////////////////////////////////////////////////////////////////////////
//initEepromValues Function
////////////////////////////////////////////////////////////////////////
//Initialiaze EEprom values
// se os valores de eeprom não forem o formato correto, isto é, eu e eu não for igual a 0 ou 1 (assim, maior que 1) inicialize colocando 0
void initEepromValues(){
for (int adr = 0; adr < outputQuantity; adr++){
if (EEPROM.read(adr) > 1){
EEPROM.write(adr, 0);
}
}
}
////////////////////////////////////////////////////////////////////////
//htmlHeader Function
////////////////////////////////////////////////////////////////////////
//Prints html header
void printHtmlHeader(EthernetClient client){
// Serial.print("Serving html Headers at ms -");
timeConnectedAt = millis(); //Record the time when last page was served.
// Serial.print(timeConnectedAt); // Tempo de impressão para fins de debugging
writeToEeprom = true; // página carregada para definir a ação a escrever para eeprom
// envia um cabeçalho de resposta http padrão
client.println("HTTP/1.1 200 OK");
client.println("Content-Type: text/html");
client.println("Connnection: close");
client.println();
client.println("<!DOCTYPE HTML>");
client.println("<head>");
// add page title
client.println("<title>AUTOMACAO</title>");
client.println("<meta name=\"description\" content=\"AUTOMACAO RESIDENCIAL\"/>");
// adicione uma meta tag de atualização, para que o navegador seja puxado novamente a cada x segundos:
client.print("<meta http-equiv=\"refresh\" content=\"");
client.print(refreshPage);
client.println("; url=/\">");
// add other browser configuration
client.println("<meta name=\"apple-mobile-web-app-capable\" content=\"yes\">");
client.println("<meta name=\"apple-mobile-web-app-status-bar-style\" content=\"default\">");
client.println("<meta name=\"viewport\" content=\"width=device-width, user-scalable=no\">");
//inserting the styles data, usually found in CSS files.
client.println("<style type=\"text/css\">");
client.println("");
//This will set how the page will look graphically
client.println("html { height:100%; }");
client.println(" body {");
client.println(" height: 100%;");
client.println(" margin: 0;");
client.println(" font-family: helvetica, sans-serif;");
client.println(" -webkit-text-size-adjust: none;");
client.println(" }");
client.println("");
client.println("body {");
client.println(" -webkit-background-size: 100% 21px;");
client.println(" background-color: #c5ccd3;");
client.println(" background-image:");
client.println(" -webkit-gradient(linear, left top, right top,");
client.println(" color-stop(.75, transparent),");
client.println(" color-stop(.75, rgba(255,255,255,.1)) );");
client.println(" -webkit-background-size: 7px;");
client.println(" }");
client.println("");
client.println(".view {");
client.println(" min-height: 100%;");
client.println(" overflow: auto;");
client.println(" }");
client.println("");
client.println(".header-wrapper {");
client.println(" height: 44px;");
client.println(" font-weight: bold;");
client.println(" text-shadow: rgba(0,0,0,0.7) 0 -1px 0;");
client.println(" border-top: solid 1px rgba(255,255,255,0.6);");
client.println(" border-bottom: solid 1px rgba(0,0,0,0.6);");
client.println(" color: #fff;");
client.println(" background-color: #8195af;");
client.println(" background-image:");
client.println(" -webkit-gradient(linear, left top, left bottom,");
client.println(" from(rgba(255,255,255,.4)),");
client.println(" to(rgba(255,255,255,.05)) ),");
client.println(" -webkit-gradient(linear, left top, left bottom,");
client.println(" from(transparent),");
client.println(" to(rgba(0,0,64,.1)) );");
client.println(" background-repeat: no-repeat;");
client.println(" background-position: top left, bottom left;");
client.println(" -webkit-background-size: 100% 21px, 100% 22px;");
client.println(" -webkit-box-sizing: border-box;");
client.println(" }");
client.println("");
client.println(".header-wrapper h1 {");
client.println(" text-align: center;");
client.println(" font-size: 20px;");
client.println(" line-height: 44px;");
client.println(" margin: 0;");
client.println(" }");
client.println("");
client.println(".group-wrapper {");
client.println(" margin: 9px;");
client.println(" }");
client.println("");
client.println(".group-wrapper h2 {");
client.println(" color: #4c566c;");
client.println(" font-size: 17px;");
client.println(" line-height: 0.8;");
client.println(" font-weight: bold;");
client.println(" text-shadow: #fff 0 1px 0;");
client.println(" margin: 20px 10px 12px;");
client.println(" }");
client.println("");
client.println(".group-wrapper h3 {");
client.println(" color: #4c566c;");
client.println(" font-size: 12px;");
client.println(" line-height: 1;");
client.println(" font-weight: bold;");
client.println(" text-shadow: #fff 0 1px 0;");
client.println(" margin: 20px 10px 12px;");
client.println(" }");
client.println("");
client.println(".group-wrapper h4 {"); //Text for description
client.println(" color: #212121;");
client.println(" font-size: 14px;");
client.println(" line-height: 1;");
client.println(" font-weight: bold;");
client.println(" text-shadow: #aaa 1px 1px 3px;");
client.println(" margin: 5px 5px 5px;");
client.println(" }");
client.println("");
client.println(".group-wrapper table {");
client.println(" background-color: #fff;");
client.println(" -webkit-border-radius: 10px;");
client.println(" -moz-border-radius: 10px;");
client.println(" -khtml-border-radius: 10px;");
client.println(" border-radius: 10px;");
client.println(" font-size: 17px;");
client.println(" line-height: 20px;");
client.println(" margin: 9px 0 20px;");
client.println(" border: solid 1px #a9abae;");
client.println(" padding: 11px 3px 12px 3px;");
client.println(" margin-left:auto;");
client.println(" margin-right:auto;");
client.println(" -moz-transform :scale(1);"); //Code for Mozilla Firefox
client.println(" -moz-transform-origin: 0 0;");
client.println(" }");
client.println("");
//how the green (ON) LED will look
client.println(".green-circle {");
client.println(" display: block;");
client.println(" height: 23px;");
client.println(" width: 23px;");
client.println(" background-color: #0f0;");
//client.println(" background-color: rgba(60, 132, 198, 0.8);");
client.println(" -moz-border-radius: 11px;");
client.println(" -webkit-border-radius: 11px;");
client.println(" -khtml-border-radius: 11px;");
client.println(" border-radius: 11px;");
client.println(" margin-left: 1px;");
client.println(" background-image: -webkit-gradient(linear, 0% 0%, 0% 90%, from(rgba(46, 184, 0, 0.8)), to(rgba(148, 255, 112, .9)));@");
client.println(" border: 2px solid #ccc;");
client.println(" -webkit-box-shadow: rgba(11, 140, 27, 0.5) 0px 10px 16px;");
client.println(" -moz-box-shadow: rgba(11, 140, 27, 0.5) 0px 10px 16px; /* FF 3.5+ */");
client.println(" box-shadow: rgba(11, 140, 27, 0.5) 0px 10px 16px; /* FF 3.5+ */");
client.println(" }");
client.println("");
//how the black (off)LED will look
client.println(".black-circle {");
client.println(" display: block;");
client.println(" height: 23px;");
client.println(" width: 23px;");
client.println(" background-color: #040;");
client.println(" -moz-border-radius: 11px;");
client.println(" -webkit-border-radius: 11px;");
client.println(" -khtml-border-radius: 11px;");
client.println(" border-radius: 11px;");
client.println(" margin-left: 1px;");
client.println(" -webkit-box-shadow: rgba(11, 140, 27, 0.5) 0px 10px 16px;");
client.println(" -moz-box-shadow: rgba(11, 140, 27, 0.5) 0px 10px 16px; /* FF 3.5+ */");
client.println(" box-shadow: rgba(11, 140, 27, 0.5) 0px 10px 16px; /* FF 3.5+ */");
client.println(" }");
client.println("");
//isso irá adicionar o brilho a ambos os LEDs
client.println(" .glare {");
client.println(" position: relative;");
client.println(" top: 1;");
client.println(" left: 5px;");
client.println(" -webkit-border-radius: 10px;");
client.println(" -moz-border-radius: 10px;");
client.println(" -khtml-border-radius: 10px;");
client.println(" border-radius: 10px;");
client.println(" height: 1px;");
client.println(" width: 13px;");
client.println(" padding: 5px 0;");
client.println(" background-color: rgba(200, 200, 200, 0.25);");
client.println(" background-image: -webkit-gradient(linear, 0% 0%, 0% 95%, from(rgba(255, 255, 255, 0.7)), to(rgba(255, 255, 255, 0)));");
client.println(" }");
client.println("");
//e finalmente este é o fim dos dados de estilo e cabeçalho
client.println("</style>");
client.println("</head>");
// agora imprimindo a própria página
client.println("<body>");
client.println("<div class=\"view\">");
client.println(" <div class=\"header-wrapper\">");
client.println(" <h1>ROBERTO CORTES</h1>");
client.println(" </div>");
//////
} //end of htmlHeader
////////////////////////////////////////////////////////////////////////
//htmlFooter Function
////////////////////////////////////////////////////////////////////////
//Prints html footer
void printHtmlFooter(EthernetClient client){
//Set Variables Before Exiting
printLastCommandOnce = false;
printButtonMenuOnce = false;
allOn = "";
allOff = "";
//imprimindo a última parte do html
client.println("\n<h3 align=\"center\">");
client.println(rev);
client.println("</h3></div>\n</div>\n</body>\n</html>");
delay(1); // dê tempo ao navegador da web para receber os dados
client.stop(); // close the connection:
Serial.println(" - Done, Closing Connection.");
delay (2);
// demora para dar tempo para que o buffer do cliente seja limpo e não repita várias páginas.
} //end of htmlFooter
////////////////////////////////////////////////////////////////////////
//printHtmlButtonTitle Function
////////////////////////////////////////////////////////////////////////
//Prints html button title
void printHtmlButtonTitle(EthernetClient client){
client.println("<div class=\"group-wrapper\">");
client.println(" <h2></h2>");
client.println();
}
////////////////////////////////////////////////////////////////////////
//printLoginTitle Function
////////////////////////////////////////////////////////////////////////
//Imprime o título do botão html
void printLoginTitle(EthernetClient client){
// client.println("<div class=\"group-wrapper\">");
client.println(" <h2>Please enter the user data to login.</h2>");
client.println();
}
Já fiz este teste Giliardi, neste caso quando aciono o liga a lâmpada desliga e quando desligo a lampada liga.
Eu acredito que ele não guarda na memória, se anteriormente está tudo desligado ao retornar a energia ele retorna com todas saídas ligadas.
Olá,
Leia este topico e trate de postar o codigo anexado.
http://labdegaragem.com/forum/topics/sugest-o-de-como-postar
Abs.
CK
??? desculpe Carlos, não entendi.
Roberto,
No link que anexei, entre outras coisas para ajudar a quem abre um tópico ou responde ao mesmo, ensina a não colar códigos na área de texto como você fez, já que entre outras coisas, ao copiar o mesmo para tentar replicar, se perdem informações que terminam não compilando, o ideal é você anexar o código como um arquivo txt, ou .ino, ou colar no pastbin e colocar o link aqui.
Espero tenha entendido esta parte.
Outra coisa importante, é saber como você esta conectado seu circuito, pode ser foro, descrição, desenho, etc. muitas vezes o problema pode ser no modulo rele por exemplo que possui logica invertida, por isso trate de ler o link, e trate de adaptar se topico ao mesmo, desta forma será mais fácil ajuda-lo acredito.
Abs.
CK
Ok, muito obrigado!!!
Olá
Nos mostre também o circuito, esquemas que você usou no seu projeto.
Olá Flávio,
Ainda não fiz o esquema, apenas alimentei o Arduino Mega com uma fonte de 5v 5 amperes e essa mesma fonte alimenta os reles acopladores, o Arduino apenas manda o sinal positivo para acionar o rele.
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