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PZEM004T.cpp
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PZEM004T.cpp
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#include "PZEM004T.h"
#define PZEM_VOLTAGE (uint8_t)0xB0
#define RESP_VOLTAGE (uint8_t)0xA0
#define PZEM_CURRENT (uint8_t)0xB1
#define RESP_CURRENT (uint8_t)0xA1
#define PZEM_POWER (uint8_t)0xB2
#define RESP_POWER (uint8_t)0xA2
#define PZEM_ENERGY (uint8_t)0xB3
#define RESP_ENERGY (uint8_t)0xA3
#define PZEM_SET_ADDRESS (uint8_t)0xB4
#define RESP_SET_ADDRESS (uint8_t)0xA4
#define PZEM_POWER_ALARM (uint8_t)0xB5
#define RESP_POWER_ALARM (uint8_t)0xA5
#define RESPONSE_SIZE sizeof(PZEMCommand)
#define RESPONSE_DATA_SIZE RESPONSE_SIZE - 2
#define PZEM_BAUD_RATE 9600
#define PZEM_DEFAULT_READ_TIMEOUT 1000
#define PZEM_ERROR_VALUE -1.0
PZEM004T::PZEM004T(uint8_t receivePin, uint8_t transmitPin)
{
SoftwareSerial *port = new SoftwareSerial(receivePin, transmitPin);
port->begin(PZEM_BAUD_RATE);
this->serial = port;
this->_readTimeOut = PZEM_DEFAULT_READ_TIMEOUT;
this->_isSoft = true;
}
PZEM004T::PZEM004T(HardwareSerial *port)
{
port->begin(PZEM_BAUD_RATE);
this->serial = port;
this->_readTimeOut = PZEM_DEFAULT_READ_TIMEOUT;
this->_isSoft = false;
}
PZEM004T::~PZEM004T()
{
if(_isSoft)
delete this->serial;
}
void PZEM004T::setReadTimeout(unsigned long msec)
{
_readTimeOut = msec;
}
float PZEM004T::voltage(const IPAddress &addr)
{
uint8_t data[RESPONSE_DATA_SIZE];
send(addr, PZEM_VOLTAGE);
if(!recieve(RESP_VOLTAGE, data))
return PZEM_ERROR_VALUE;
return (data[0] << 8) + data[1] + (data[2] / 10.0);
}
float PZEM004T::current(const IPAddress &addr)
{
uint8_t data[RESPONSE_DATA_SIZE];
send(addr, PZEM_CURRENT);
if(!recieve(RESP_CURRENT, data))
return PZEM_ERROR_VALUE;
return (data[0] << 8) + data[1] + (data[2] / 100.0);
}
float PZEM004T::power(const IPAddress &addr)
{
uint8_t data[RESPONSE_DATA_SIZE];
send(addr, PZEM_POWER);
if(!recieve(RESP_POWER, data))
return PZEM_ERROR_VALUE;
return (data[0] << 8) + data[1];
}
float PZEM004T::energy(const IPAddress &addr)
{
uint8_t data[RESPONSE_DATA_SIZE];
send(addr, PZEM_ENERGY);
if(!recieve(RESP_ENERGY, data))
return PZEM_ERROR_VALUE;
return ((uint32_t)data[0] << 16) + ((uint16_t)data[1] << 8) + data[2];
}
bool PZEM004T::setAddress(const IPAddress &newAddr)
{
send(newAddr, PZEM_SET_ADDRESS);
return recieve(RESP_SET_ADDRESS);
}
bool PZEM004T::setPowerAlarm(const IPAddress &addr, uint8_t threshold)
{
send(addr, PZEM_POWER_ALARM, threshold);
return recieve(RESP_POWER_ALARM);
}
void PZEM004T::send(const IPAddress &addr, uint8_t cmd, uint8_t data)
{
PZEMCommand pzem;
pzem.command = cmd;
for(int i=0; i<sizeof(pzem.addr); i++)
pzem.addr[i] = addr[i];
pzem.data = data;
uint8_t *bytes = (uint8_t*)&pzem;
pzem.crc = crc(bytes, sizeof(pzem) - 1);
while(serial->available())
serial->read();
serial->write(bytes, sizeof(pzem));
}
bool PZEM004T::recieve(uint8_t resp, uint8_t *data)
{
uint8_t buffer[RESPONSE_SIZE];
if(_isSoft)
((SoftwareSerial *)serial)->listen();
unsigned long startTime = millis();
uint8_t len = 0;
while((len < RESPONSE_SIZE) && (millis() - startTime < _readTimeOut))
{
if(serial->available() > 0)
{
uint8_t c = (uint8_t)serial->read();
if(!c && !len)
continue; // skip 0 at startup
buffer[len++] = c;
}
}
if(len != RESPONSE_SIZE)
return false;
if(buffer[6] != crc(buffer, len - 1))
return false;
if(buffer[0] != resp)
return false;
if(data)
{
for(int i=0; i<RESPONSE_DATA_SIZE; i++)
data[i] = buffer[1 + i];
}
return true;
}
uint8_t PZEM004T::crc(uint8_t *data, uint8_t sz)
{
uint16_t crc = 0;
for(uint8_t i=0; i<sz; i++)
crc += *data++;
return (uint8_t)(crc & 0xFF);
}