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Como usar o RFID-RC522


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Boa tarde, comprei um módulo RFID-RC522 e liguei conforme os dados abaixo:

 

Arduino -> RFID RC522
 
10 -> SDA
 
13 -> SCK
 
11 -> MOSI
 
12 -> MISO
 
- -> IRQ
 
GND -> GND
 
5 -> RST
 
3,3V -> 3,3V
 
E o código utilizado foi esse:
 

/*
* File name: RFID.ino
* Creatory: Dr.Leong ( WWW.B2CQSHOP.COM )
* Creation date: 2011.09.19
* Modified by: Eng. Robson (robson.eletrô[email protected])
* Modified date: 2013.09.10
* Modified: Translation from Chinese to English (by google)
* Functional Description: Mifare1 Anti-collision find cards → → → Select card reader interface
*/
// the sensor communicates using SPI, so include the library:
#include <SPI.h>

#define    uchar    unsigned char
#define    uint    unsigned int

//Maximum length of the array
#define MAX_LEN 16

/////////////////////////////////////////////////////////////////////
//set the pin
/////////////////////////////////////////////////////////////////////
const int chipSelectPin = 10;
const int NRSTPD = 5;

//MF522 Command word
#define PCD_IDLE 0x00 //NO action; Cancel the current command
#define PCD_AUTHENT 0x0E //Authentication Key
#define PCD_RECEIVE 0x08 //Receive Data
#define PCD_TRANSMIT 0x04 //Transmit data
#define PCD_TRANSCEIVE 0x0C //Transmit and receive data,
#define PCD_RESETPHASE 0x0F //Reset
#define PCD_CALCCRC 0x03 //CRC Calculate

// Mifare_One card command word
# define PICC_REQIDL 0x26 // find the antenna area does not enter hibernation
# define PICC_REQALL 0x52 // find all the cards antenna area
# define PICC_ANTICOLL 0x93 // anti-collision
# define PICC_SElECTTAG 0x93 // election card
# define PICC_AUTHENT1A 0x60 // authentication key A
# define PICC_AUTHENT1B 0x61 // authentication key B
# define PICC_READ 0x30 // Read Block
# define PICC_WRITE 0xA0 // write block
# define PICC_DECREMENT 0xC0 // debit
# define PICC_INCREMENT 0xC1 // recharge
# define PICC_RESTORE 0xC2 // transfer block data to the buffer
# define PICC_TRANSFER 0xB0 // save the data in the buffer
# define PICC_HALT 0x50 // Sleep


//And MF522 The error code is returned when communication
#define MI_OK 0
#define MI_NOTAGERR 1
#define MI_ERR 2


//------------------MFRC522 Register---------------
//Page 0:Command and Status
#define Reserved00 0x00
#define CommandReg 0x01
#define CommIEnReg 0x02
#define DivlEnReg 0x03
#define CommIrqReg 0x04
#define DivIrqReg 0x05
#define ErrorReg 0x06
#define Status1Reg 0x07
#define Status2Reg 0x08
#define FIFODataReg 0x09
#define FIFOLevelReg 0x0A
#define WaterLevelReg 0x0B
#define ControlReg 0x0C
#define BitFramingReg 0x0D
#define CollReg 0x0E
#define Reserved01 0x0F
//Page 1:Command
#define Reserved10 0x10
#define ModeReg 0x11
#define TxModeReg 0x12
#define RxModeReg 0x13
#define TxControlReg 0x14
#define TxAutoReg 0x15
#define TxSelReg 0x16
#define RxSelReg 0x17
#define RxThresholdReg 0x18
#define DemodReg 0x19
#define Reserved11 0x1A
#define Reserved12 0x1B
#define MifareReg 0x1C
#define Reserved13 0x1D
#define Reserved14 0x1E
#define SerialSpeedReg 0x1F
//Page 2:CFG
#define Reserved20 0x20
#define CRCResultRegM 0x21
#define CRCResultRegL 0x22
#define Reserved21 0x23
#define ModWidthReg 0x24
#define Reserved22 0x25
#define RFCfgReg 0x26
#define GsNReg 0x27
#define CWGsPReg     0x28
#define ModGsPReg 0x29
#define TModeReg 0x2A
#define TPrescalerReg 0x2B
#define TReloadRegH 0x2C
#define TReloadRegL 0x2D
#define TCounterValueRegH 0x2E
#define TCounterValueRegL 0x2F
//Page 3:TestRegister
#define Reserved30 0x30
#define TestSel1Reg 0x31
#define TestSel2Reg 0x32
#define TestPinEnReg 0x33
#define TestPinValueReg 0x34
#define TestBusReg 0x35
#define AutoTestReg 0x36
#define VersionReg 0x37
#define AnalogTestReg 0x38
#define TestDAC1Reg 0x39
#define TestDAC2Reg 0x3A
#define TestADCReg 0x3B
#define Reserved31 0x3C
#define Reserved32 0x3D
#define Reserved33 0x3E
#define Reserved34         0x3F
//-----------------------------------------------

//4 bytes card serial number, the first 5 bytes for the checksum byte
uchar serNum[5];

uchar writeData[16]={0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 100}; //Initialization 100 dollars
uchar moneyConsume = 18 ; //Consumption of 18 yuan
uchar moneyAdd = 10 ; //Recharge 10 yuan
//Sector A password, 16 sectors, each sector password 6Byte
uchar sectorKeyA[16][16] = {{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF},
{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF},
//{0x19, 0x84, 0x07, 0x15, 0x76, 0x14},
{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF},
};
uchar sectorNewKeyA[16][16] = {{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF},
{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xff,0x07,0x80,0x69, 0x19,0x84,0x07,0x15,0x76,0x14},
//you can set another ket , such as " 0x19, 0x84, 0x07, 0x15, 0x76, 0x14 "
//{0x19, 0x84, 0x07, 0x15, 0x76, 0x14, 0xff,0x07,0x80,0x69, 0x19,0x84,0x07,0x15,0x76,0x14},
// but when loop, please set the sectorKeyA, the same key, so that RFID module can read the card
{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xff,0x07,0x80,0x69, 0x19,0x33,0x07,0x15,0x34,0x14},
};

void setup() {
Serial.begin(9600); // RFID reader SOUT pin connected to Serial RX pin at 2400bps
// start the SPI library:
SPI.begin();

pinMode(chipSelectPin,OUTPUT); // Set digital pin 10 as OUTPUT to connect it to the RFID /ENABLE pin
digitalWrite(chipSelectPin, LOW); // Activate the RFID reader
pinMode(NRSTPD,OUTPUT); // Set digital pin 10 , Not Reset and Power-down
digitalWrite(NRSTPD, HIGH);

MFRC522_Init();
Serial.println("OK");
}

void loop()
{
    uchar i,tmp, checksum1;
    uchar status;
uchar str[MAX_LEN];
uchar RC_size;
uchar blockAddr;    //Selection operation block address 0 to 63
String mynum = "";


        //Find cards, return card type
        status = MFRC522_Request(PICC_REQIDL, str);    
        if (status == MI_OK)
        {
//Serial.println("Card detected");
            //Serial.print(str[0],BIN);
//Serial.print(" , ");
            //Serial.print(str[1],BIN);
//Serial.println(" ");
        }

        //Anti-collision, return card serial number 4 bytes
        status = MFRC522_Anticoll(str);
        memcpy(serNum, str, 5);
        if (status == MI_OK)
        {
checksum1 = serNum[0] ^ serNum[1] ^ serNum[2] ^ serNum[3];
//Serial.println("The card's number is : ");
            Serial.print(2);
            Serial.print(serNum[0]);
//Serial.print(" , ");
            Serial.print(serNum[1],BIN);
//Serial.print(" , ");
            Serial.print(serNum[2],BIN);
//Serial.print(" , ");
            Serial.print(serNum[3],BIN);
//Serial.print(" , ");
            Serial.print(serNum[4],BIN);
Serial.print(checksum1);
            Serial.println(3);
            //Serial.println(" ");

// Should really check all pairs, but for now we'll just use the first

// if(serNum[0] == 88) {
// Serial.println("Hello Grant");
// } else if(serNum[0] == 173) {
// Serial.println("Hello David");
// }
delay(1000);
        }
//Serial.println(" ");
        MFRC522_Halt();            //Command card into hibernation

}

/*
* Function Name:Write_MFRC5200
* Function Description: To a certain MFRC522 register to write a byte of data
* Input Parameters:addr - register address; val - the value to be written
* Return value: None
*/
void Write_MFRC522(uchar addr, uchar val)
{
    digitalWrite(chipSelectPin, LOW);

    //Address Format:0XXXXXX0
    SPI.transfer((addr<<1)&0x7E);    
    SPI.transfer(val);
    
    digitalWrite(chipSelectPin, HIGH);
}


/*
* Function Name:Read_MFRC522
* Description: From a certain MFRC522 read a byte of data register
* Input Parameters: addr - register address
* Returns: a byte of data read from the
*/
uchar Read_MFRC522(uchar addr)
{
    uchar val;

    digitalWrite(chipSelectPin, LOW);

    //Address Format:1XXXXXX0
    SPI.transfer(((addr<<1)&0x7E) | 0x80);    
    val =SPI.transfer(0x00);
    
    digitalWrite(chipSelectPin, HIGH);
    
    return val;    
}

/*
* Function Name:SetBitMask
* Description: Set RC522 register bit
* Input parameters: reg - register address; mask - set value
* Return value: None
*/
void SetBitMask(uchar reg, uchar mask)
{
uchar tmp;
tmp = Read_MFRC522(reg);
Write_MFRC522(reg, tmp | mask); // set bit mask
}


/*
* Function Name: ClearBitMask
* Description: clear RC522 register bit
* Input parameters: reg - register address; mask - clear bit value
* Return value: None
*/
void ClearBitMask(uchar reg, uchar mask)
{
uchar tmp;
tmp = Read_MFRC522(reg);
Write_MFRC522(reg, tmp & (~mask)); // clear bit mask
}


/*
* Function Name:AntennaOn
* Description: Open antennas, each time you start or shut down the natural barrier between the transmitter should be at least 1ms interval
* Input: None
* Return value: None
*/
void AntennaOn(void)
{
    uchar temp;

    temp = Read_MFRC522(TxControlReg);
    if (!(temp & 0x03))
    {
        SetBitMask(TxControlReg, 0x03);
    }
}


/*
* Function Name: AntennaOff
* Description: Close antennas, each time you start or shut down the natural barrier between the transmitter should be at least 1ms interval
* Input: None
* Return value: None
*/
void AntennaOff(void)
{
    ClearBitMask(TxControlReg, 0x03);
}


/*
* Function Name: ResetMFRC522
* Description: Reset RC522
* Input: None
* Return value: None
*/
void MFRC522_Reset(void)
{
Write_MFRC522(CommandReg, PCD_RESETPHASE);
}


/*
* Function Name:InitMFRC522
* Description: Initialize RC522
* Input: None
* Return value: None
*/
void MFRC522_Init(void)
{
    digitalWrite(NRSTPD,HIGH);

    MFRC522_Reset();
         
    //Timer: TPrescaler*TreloadVal/6.78MHz = 24ms
Write_MFRC522(TModeReg, 0x8D);        //Tauto=1; f(Timer) = 6.78MHz/TPreScaler
Write_MFRC522(TPrescalerReg, 0x3E);    //TModeReg[3..0] + TPrescalerReg
Write_MFRC522(TReloadRegL, 30);
Write_MFRC522(TReloadRegH, 0);
    
    Write_MFRC522(TxAutoReg, 0x40);        //100%ASK
    Write_MFRC522(ModeReg, 0x3D);        //CRC Initial value 0x6363    ???

    //ClearBitMask(Status2Reg, 0x08);        //MFCrypto1On=0
    //Write_MFRC522(RxSelReg, 0x86);        //RxWait = RxSelReg[5..0]
    //Write_MFRC522(RFCfgReg, 0x7F);         //RxGain = 48dB

    AntennaOn();        //Open the antenna
}


/*
* Function Name:MFRC522_Request
* Description: Find cards, read the card type number
* Input parameters: reqMode - find cards way
*             TagType - Return Card Type
*                 0x4400 = Mifare_UltraLight
*                0x0400 = Mifare_One(S50)
*                0x0200 = Mifare_One(S70)
*                0x0800 = Mifare_Pro(X)
*                0x4403 = Mifare_DESFire
* Return value: the successful return MI_OK
*/
uchar MFRC522_Request(uchar reqMode, uchar *TagType)
{
    uchar status;
    uint backBits;            //The received data bits

    Write_MFRC522(BitFramingReg, 0x07);        //TxLastBists = BitFramingReg[2..0]    ???
    
    TagType[0] = reqMode;
    status = MFRC522_ToCard(PCD_TRANSCEIVE, TagType, 1, TagType, &backBits);

    if ((status != MI_OK) || (backBits != 0x10))
    {
        status = MI_ERR;
    }

    return status;
}


/*
* Function Name: MFRC522_ToCard
* Description: RC522 and ISO14443 card communication
* Input Parameters: command - MF522 command word,
*             sendData--RC522 sent to the card by the data
*             sendLen--Length of data sent    
*             backData--Received the card returns data,
*             backLen--Return data bit length
* Return value: the successful return MI_OK
*/
uchar MFRC522_ToCard(uchar command, uchar *sendData, uchar sendLen, uchar *backData, uint *backLen)
{
uchar status = MI_ERR;
uchar irqEn = 0x00;
uchar waitIRq = 0x00;
uchar lastBits;
uchar n;
uint i;

switch (command)
{
case PCD_AUTHENT:        //Certification cards close
        {
            irqEn = 0x12;
            waitIRq = 0x10;
            break;
        }
        case PCD_TRANSCEIVE:    //Transmit FIFO data
        {
            irqEn = 0x77;
            waitIRq = 0x30;
            break;
        }
        default:
            break;
}

Write_MFRC522(CommIEnReg, irqEn|0x80);    //Interrupt request
ClearBitMask(CommIrqReg, 0x80);            //Clear all interrupt request bit
SetBitMask(FIFOLevelReg, 0x80);            //FlushBuffer=1, FIFO Initialization

    Write_MFRC522(CommandReg, PCD_IDLE);    //NO action; Cancel the current command???

    //Writing data to the FIFO
for (i=0; i<sendLen; i++)
{
        Write_MFRC522(FIFODataReg, sendData);
    }

    //Execute the command
    Write_MFRC522(CommandReg, command);
if (command == PCD_TRANSCEIVE)
{
        SetBitMask(BitFramingReg, 0x80);        //StartSend=1,transmission of data starts
    }

    //Waiting to receive data to complete
    i = 2000;    //i according to the clock frequency adjustment, the operator M1 card maximum waiting time 25ms???
do
{
        //CommIrqReg[7..0]
        //Set1 TxIRq RxIRq IdleIRq HiAlerIRq LoAlertIRq ErrIRq TimerIRq
n = Read_MFRC522(CommIrqReg);
i--;
}
while ((i!=0) && !(n&0x01) && !(n&waitIRq));

ClearBitMask(BitFramingReg, 0x80);            //StartSend=0
    
if (i != 0)
{
if(!(Read_MFRC522(ErrorReg) & 0x1B))    //BufferOvfl Collerr CRCErr ProtecolErr
{
status = MI_OK;
if (n & irqEn & 0x01)
{
                status = MI_NOTAGERR;            //??
            }

if (command == PCD_TRANSCEIVE)
{
    n = Read_MFRC522(FIFOLevelReg);
    lastBits = Read_MFRC522(ControlReg) & 0x07;
if (lastBits)
{
                    *backLen = (n-1)*8 + lastBits;
                }
else
{
                    *backLen = n*8;
                }

if (n == 0)
{
                    n = 1;
                }
if (n > MAX_LEN)
{
                    n = MAX_LEN;
                }
                
                //Reading the received data in FIFO
for (i=0; i<n; i++)
{
                    backData = Read_MFRC522(FIFODataReg);
                }
}
}
else
{
            status = MI_ERR;
        }

}
    
//SetBitMask(ControlReg,0x80); //timer stops
//Write_MFRC522(CommandReg, PCD_IDLE);

return status;
}


/*
* Function Name: MFRC522_Anticoll
* Description: Anti-collision detection, reading selected card serial number card
* Input parameters: serNum - returns 4 bytes card serial number, the first 5 bytes for the checksum byte
* Return value: the successful return MI_OK
*/
uchar MFRC522_Anticoll(uchar *serNum)
{
uchar status;
uchar i;
    uchar serNumCheck=0;
uint unLen;


//ClearBitMask(Status2Reg, 0x08);        //TempSensclear
//ClearBitMask(CollReg,0x80);            //ValuesAfterColl
    Write_MFRC522(BitFramingReg, 0x00);        //TxLastBists = BitFramingReg[2..0]

serNum[0] = PICC_ANTICOLL;
serNum[1] = 0x20;
status = MFRC522_ToCard(PCD_TRANSCEIVE, serNum, 2, serNum, &unLen);

if (status == MI_OK)
    {
        //Check card serial number
        for (i=0; i<4; i++)
        {
             serNumCheck ^= serNum;
        }
        if (serNumCheck != serNum)
        {
            status = MI_ERR;
        }
}

//SetBitMask(CollReg, 0x80);        //ValuesAfterColl=1

return status;
}


/*
* Function Name: CalulateCRC
* Description: CRC calculation with MF522
* Input parameters: pIndata - To read the CRC data, len - the data length, pOutData - CRC calculation results
* Return value: None
*/
void CalulateCRC(uchar *pIndata, uchar len, uchar *pOutData)
{
uchar i, n;

ClearBitMask(DivIrqReg, 0x04);            //CRCIrq = 0
SetBitMask(FIFOLevelReg, 0x80);            //Clear the FIFO pointer
//Write_MFRC522(CommandReg, PCD_IDLE);

    //Writing data to the FIFO    
for (i=0; i<len; i++)
{
        Write_MFRC522(FIFODataReg, *(pIndata+i));
    }
Write_MFRC522(CommandReg, PCD_CALCCRC);

    //Wait CRC calculation is complete
i = 0xFF;
do
{
n = Read_MFRC522(DivIrqReg);
i--;
}
while ((i!=0) && !(n&0x04));            //CRCIrq = 1

    //Read CRC calculation result
pOutData[0] = Read_MFRC522(CRCResultRegL);
pOutData[1] = Read_MFRC522(CRCResultRegM);
}


/*
* Function Name: MFRC522_SelectTag
* Description: election card, read the card memory capacity
* Input parameters: serNum - Incoming card serial number
* Return value: the successful return of card capacity
*/
uchar MFRC522_SelectTag(uchar *serNum)
{
uchar i;
    uchar status;
    uchar size;
uint recvBits;
uchar buffer[9];

    //ClearBitMask(Status2Reg, 0x08);            //MFCrypto1On=0

buffer[0] = PICC_SElECTTAG;
buffer[1] = 0x70;
for (i=0; i<5; i++)
{
    buffer[i+2] = *(serNum+i);
}
    CalulateCRC(buffer, 7, &buffer[7]);        //??
status = MFRC522_ToCard(PCD_TRANSCEIVE, buffer, 9, buffer, &recvBits);

if ((status == MI_OK) && (recvBits == 0x18))
{
        size = buffer[0];
    }
else
{
        size = 0;
    }

return size;
}


/*
* Function Name: MFRC522_Auth
* Description: Verify card password
* Input parameters: authMode - Password Authentication Mode
0x60 = A key authentication
0x61 = Authentication Key B
BlockAddr--Block address
Sectorkey--Sector password
serNum--Card serial number, 4-byte
* Return value: the successful return MI_OK
*/
uchar MFRC522_Auth(uchar authMode, uchar BlockAddr, uchar *Sectorkey, uchar *serNum)
{
uchar status;
uint recvBits;
uchar i;
    uchar buff[12];

    //Verify the command block address + sector + password + card serial number
buff[0] = authMode;
buff[1] = BlockAddr;
for (i=0; i<6; i++)
{
        buff[i+2] = *(Sectorkey+i);
    }
for (i=0; i<4; i++)
{
        buff[i+8] = *(serNum+i);
    }
status = MFRC522_ToCard(PCD_AUTHENT, buff, 12, buff, &recvBits);

if ((status != MI_OK) || (!(Read_MFRC522(Status2Reg) & 0x08)))
{
        status = MI_ERR;
    }

return status;
}


/*
* Function Name: MFRC522_Read
* Description: Read block data
* Input parameters: blockAddr - block address; recvData - read block data
* Return value: the successful return MI_OK
*/
uchar MFRC522_Read(uchar blockAddr, uchar *recvData)
{
uchar status;
uint unLen;

recvData[0] = PICC_READ;
recvData[1] = blockAddr;
CalulateCRC(recvData,2, &recvData[2]);
status = MFRC522_ToCard(PCD_TRANSCEIVE, recvData, 4, recvData, &unLen);

if ((status != MI_OK) || (unLen != 0x90))
{
status = MI_ERR;
}

return status;
}


/*
* Function Name: MFRC522_Write
* Description: Write block data
* Input parameters: blockAddr - block address; writeData - to 16-byte data block write
* Return value: the successful return MI_OK
*/
uchar MFRC522_Write(uchar blockAddr, uchar *writeData)
{
uchar status;
uint recvBits;
uchar i;
    uchar buff[18];

buff[0] = PICC_WRITE;
buff[1] = blockAddr;
CalulateCRC(buff, 2, &buff[2]);
status = MFRC522_ToCard(PCD_TRANSCEIVE, buff, 4, buff, &recvBits);

if ((status != MI_OK) || (recvBits != 4) || ((buff[0] & 0x0F) != 0x0A))
{
        status = MI_ERR;
    }

if (status == MI_OK)
{
for (i=0; i<16; i++)        //Data to the FIFO write 16Byte
{
    buff = *(writeData+i);
}
CalulateCRC(buff, 16, &buff[16]);
status = MFRC522_ToCard(PCD_TRANSCEIVE, buff, 18, buff, &recvBits);

        if ((status != MI_OK) || (recvBits != 4) || ((buff[0] & 0x0F) != 0x0A))
{
            status = MI_ERR;
        }
}

return status;
}


/*
* Function Name: MFRC522_Halt
* Description: Command card into hibernation
* Input: None
* Return value: None
*/
void MFRC522_Halt(void)
{
    uchar status;
uint unLen;
uchar buff[4];

buff[0] = PICC_HALT;
buff[1] = 0;
CalulateCRC(buff, 2, &buff[2]);

status = MFRC522_ToCard(PCD_TRANSCEIVE, buff, 4, buff,&unLen);
}
 

 
Funciona normal, ao passar a tag, o código é exibido pelo serial monitor, porém, não consigo aplicar esse código para desempenhar uma função, como acionar um relé, apitar um buzzer...
 
Alguém poderia me ajudar quanto a isso? 
 
Obrigado!
 

Ps: Tentei fazer sozinho isso, mas não consegui, por isso recorro a vocês.

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Cara, um colega nosso do fórum fez este tutorial, o dele é pra ensinar a base pra começar a mexer no RFID, mas pelo que vi o código é bem completo e pode te ajudar em alguma coisa....

 

http://forum.clubedohardware.com.br/forums/topic/1061005-mini-tutorial-rfid-mikroc/

 

de qualquer forma eu cito ele aqui pra ter uma maior chance de ele ver seu tópico e te ajudar, já que faz um tempinho que não vejo ele por aqui :P  :P ....

 

 

@LuizGBarrio =D

 

flowww

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Hum.. Acabei de ler o tópico dele, porém não consegui entender muito aqueles códigos, ainda mais que não é voltado para o arduino, e sim para o MikroC. Entendi sobre a placa, mas não sobre o código.. Ele disse nos comentários que já havia estrutura pronta na internet, que é o que eu postei acima, e funciona, porém, não consigo desempenhar uma ação justamente pelo código ser complicado (na minha opnião rsrs).

 

Penso que se quero desempenhar algo no código, ele estará próximo do Serial.print que imprime o valor do cartão, porém há vários prints, como se o cada print, imprimisse uma parte do código, complicando ainda mais.

 

Vou continuar tentando, mas gostaria de um empurrão para ajudar. 

 

valeu!

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Olá, encontrei outro código, que me parece ser mais fácil de usar. Vou postar ele aqui, e quem puder me ajudar a adaptar esse código para que ao passar um cartão específico, ele faça algo.

 

Inicialmente, ao passar qualquer cartão, ele apita um buzzer e imprime 5 valores DEC e 5 valores HEX. Estava pensando em uma forma de usar esses valores, que é diferente de cartão para cartão, para que quando identificado fizesse alguma ação. 

Segue o código abaixo:

/*** Read a card using a mfrc522 reader on your SPI interface* Pin layout should be as follows (on Arduino Uno):* MOSI: Pin 11 / ICSP-4* MISO: Pin 12 / ICSP-1* SCK: Pin 13 / ISCP-3* SS: Pin 10* RST: Pin 9** Script is based on the script of Miguel Balboa. * New cardnumber is printed when card has changed. Only a dot is printed* if card is the same.** @version 0.1* @author Henri de Jong* @since 06-01-2013*/#include <SPI.h>#include <RFID.h>#define SS_PIN 10#define RST_PIN 9RFID rfid(SS_PIN, RST_PIN); int buzzPin = 3;// Setup variables:    int serNum0;    int serNum1;    int serNum2;    int serNum3;    int serNum4;void setup(){   Serial.begin(9600);  SPI.begin();   rfid.init();}void loop(){        if (rfid.isCard()) {        if (rfid.readCardSerial()) {            if (rfid.serNum[0] != serNum0                && rfid.serNum[1] != serNum1                && rfid.serNum[2] != serNum2                && rfid.serNum[3] != serNum3                && rfid.serNum[4] != serNum4            ) {                /* With a new cardnumber, show it. */                Serial.println(" ");                Serial.println("Card found");                serNum0 = rfid.serNum[0];                serNum1 = rfid.serNum[1];                serNum2 = rfid.serNum[2];                serNum3 = rfid.serNum[3];                serNum4 = rfid.serNum[4];                               //Serial.println(" ");                Serial.println("Cardnumber:");                Serial.print("Dec: ");		Serial.print(rfid.serNum[0],DEC);                Serial.print(", ");		Serial.print(rfid.serNum[1],DEC);                Serial.print(", ");		Serial.print(rfid.serNum[2],DEC);                Serial.print(", ");		Serial.print(rfid.serNum[3],DEC);                Serial.print(", ");		Serial.print(rfid.serNum[4],DEC);                Serial.println(" ");                                        Serial.print("Hex: ");		Serial.print(rfid.serNum[0],HEX);                Serial.print(", ");		Serial.print(rfid.serNum[1],HEX);                Serial.print(", ");		Serial.print(rfid.serNum[2],HEX);                Serial.print(", ");		Serial.print(rfid.serNum[3],HEX);                Serial.print(", ");		Serial.print(rfid.serNum[4],HEX);                Serial.println(" ");                //buzzer                analogWrite(3,20);                delay(500);                analogWrite(3,0);             } else {               /* If we have the same ID, just write a dot. */               Serial.print(".");             }          }    }        rfid.halt();}

Fico no aguardo. 

 

Obrigado!

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  • Solução

pra você fazer o que você quiser, me parece que é só substituir esta parte no código pela função que você quer executar.....

 

 /* With a new cardnumber, show it. */Serial.println(" ");Serial.println("Card found");serNum0 = rfid.serNum[0];serNum1 = rfid.serNum[1];serNum2 = rfid.serNum[2];serNum3 = rfid.serNum[3];serNum4 = rfid.serNum[4];//Serial.println(" ");Serial.println("Cardnumber:");Serial.print("Dec: ");        Serial.print(rfid.serNum[0],DEC);Serial.print(", ");        Serial.print(rfid.serNum[1],DEC);Serial.print(", ");        Serial.print(rfid.serNum[2],DEC);Serial.print(", ");        Serial.print(rfid.serNum[3],DEC);Serial.print(", ");        Serial.print(rfid.serNum[4],DEC);Serial.println(" ");Serial.print("Hex: ");        Serial.print(rfid.serNum[0],HEX);Serial.print(", ");        Serial.print(rfid.serNum[1],HEX);Serial.print(", ");        Serial.print(rfid.serNum[2],HEX);Serial.print(", ");        Serial.print(rfid.serNum[3],HEX);Serial.print(", ");        Serial.print(rfid.serNum[4],HEX);Serial.println(" ");//buzzeranalogWrite(3,20);delay(500);analogWrite(3,0); 

 

ela fica no código onde eu tentei destacar e coloquei umas setas......

 

 /*** Read a card using a mfrc522 reader on your SPI interface* Pin layout should be as follows (on Arduino Uno):* MOSI: Pin 11 / ICSP-4* MISO: Pin 12 / ICSP-1* SCK: Pin 13 / ISCP-3* SS: Pin 10* RST: Pin 9** Script is based on the script of Miguel Balboa.* New cardnumber is printed when card has changed. Only a dot is printed* if card is the same.** @version 0.1* @author Henri de Jong* @since 06-01-2013*/#include <SPI.h>#include <RFID.h>#define SS_PIN 10#define RST_PIN 9RFID rfid(SS_PIN, RST_PIN); int buzzPin = 3;// Setup variables:int serNum0;int serNum1;int serNum2;int serNum3;int serNum4;void setup(){ Serial.begin(9600);SPI.begin();rfid.init();}void loop(){if (rfid.isCard()) {if (rfid.readCardSerial()) {if (rfid.serNum[0] != serNum0&& rfid.serNum[1] != serNum1&& rfid.serNum[2] != serNum2&& rfid.serNum[3] != serNum3&& rfid.serNum[4] != serNum4) {------------->/* With a new cardnumber, show it. */                     Serial.println(" ");                     Serial.println("Card found");                     serNum0 = rfid.serNum[0];                     serNum1 = rfid.serNum[1];                     serNum2 = rfid.serNum[2];                     serNum3 = rfid.serNum[3];                     serNum4 = rfid.serNum[4];                     //Serial.println(" ");                     Serial.println("Cardnumber:");                     Serial.print("Dec: ");                             Serial.print(rfid.serNum[0],DEC);                     Serial.print(", ");                             Serial.print(rfid.serNum[1],DEC);                     Serial.print(", ");                             Serial.print(rfid.serNum[2],DEC);                     Serial.print(", ");                             Serial.print(rfid.serNum[3],DEC);                     Serial.print(", ");                             Serial.print(rfid.serNum[4],DEC);                     Serial.println(" ");                     Serial.print("Hex: ");                             Serial.print(rfid.serNum[0],HEX);                     Serial.print(", ");                             Serial.print(rfid.serNum[1],HEX);                     Serial.print(", ");                             Serial.print(rfid.serNum[2],HEX);                     Serial.print(", ");                             Serial.print(rfid.serNum[3],HEX);                     Serial.print(", ");                             Serial.print(rfid.serNum[4],HEX);                     Serial.println(" ");                     //buzzer                     analogWrite(3,20);                     delay(500);                     analogWrite(3,0); <----------------------} else {/* If we have the same ID, just write a dot. */Serial.print(".");}}}rfid.halt();}  

 

substitua ai a função que você quer fazer que me parece que pode dar certo

 

flowwww

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@mister nintendo

 

Olá, sinto muito, mas antes de você postar esse código, achei este site:

 

http://www.instructables.com/id/Security-System-and-Access-Control-with-Arduino-an/step2/Stuff-and-Materials/

 

Consegui fazer o que queria com o código que veio nele, e funciona muito bem. Mas muito obrigado pela ajuda, deixarei como resolvido nesse seu último post. 

 

valeu!

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