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#include "v9260f.h"
void V9260F::begin(HardwareSerial& SerialData,uint8_t device_addr_number)
{
_Serial = &SerialData;
_device_addr_number = device_addr_number;
}
void V9260F::init()
{
//默认参数配置
writeRegisterData(ADDR_SystemConfigRegister, SystemConfigRegister, _device_addr_number);
writeRegisterData(ADDR_MeteringControlRegister0, MeteringControlRegister0, _device_addr_number);
writeRegisterData(ADDR_MeteringControlRegister1, MeteringControlRegister1, _device_addr_number);
writeRegisterData(ADDR_AnalogControlRegister0, AnalogControlRegister0, _device_addr_number);
writeRegisterData(ADDR_AnalogControlRegister1, AnalogControlRegister1, _device_addr_number);
writeRegisterData(ADDR_AnalogControlRegister2, AnalogControlRegister2, _device_addr_number);
writeRegisterData(ADDR_ZZDCI, ZZDCI, _device_addr_number);
writeRegisterData(ADDR_ZZDCU, ZZDCU, _device_addr_number);
writeRegisterData(ADDR_WARTI, WARTI, _device_addr_number);
writeRegisterData(ADDR_WARTU, WARTU, _device_addr_number);
writeRegisterData(ADDR_WARTM, WARTM, _device_addr_number);
writeRegisterData(ADDR_WBRTI, WBRTI, _device_addr_number);
writeRegisterData(ADDR_WBRTU, WBRTU, _device_addr_number);
writeRegisterData(ADDR_WAPT, WAPT, _device_addr_number);
writeRegisterData(ADDR_WAQT, WAQT, _device_addr_number);
writeRegisterData(ADDR_WWAPT, WWAPT, _device_addr_number);
writeRegisterData(ADDR_WWAQT, WWAQT, _device_addr_number);
writeRegisterData(ADDR_WBPT, WBPT, _device_addr_number);
writeRegisterData(ADDR_WBQT, WBQT, _device_addr_number);
writeRegisterData(ADDR_WWBPT, WWBPT, _device_addr_number);
writeRegisterData(ADDR_WWBQT, WWBQT, _device_addr_number);
writeRegisterData(ADDR_EGYHT, EGYHT, _device_addr_number);
writeRegisterData(ADDR_CTH, CTH, _device_addr_number);
writeRegisterData(ADDR_IDETTH, IDETTH, _device_addr_number);
writeRegisterData(ADDR_BandPassFilter, BandPassFilter, _device_addr_number);
//校验数据计算
uint32_t sum_check = 0xFFFFFFFF -
(
SystemConfigRegister +
MeteringControlRegister0 +
MeteringControlRegister1 +
AnalogControlRegister0 +
AnalogControlRegister1 +
AnalogControlRegister2 +
ZZDCI +
ZZDCU +
WARTI +
WARTU +
WARTM +
WBRTI +
WBRTU +
WAPT +
WAQT +
WWAPT +
WWAQT +
WBPT +
WBQT +
WWBPT +
WWBQT +
EGYHT +
CTH +
IDETTH +
BandPassFilter
);
writeRegisterData(ADDR_CKSUM, sum_check, _device_addr_number);
}
//配置功能
//0x0185 模拟控制寄存器
bool V9260F::XTAL3P2M() //外部晶振开关 0 = 6.5536Mhz(defaulet) 1 = 3.2726Mhz
{
uint8_t bitAddr = 19;
return readBitData(AnalogControlRegister0,bitAddr);
}
void V9260F::XTAL3P2M(bool sw)
{
uint8_t bitAddr = 19;
setBitData(AnalogControlRegister0,bitAddr,sw);
}
bool V9260F::XTALLP() //使用3.2768M时 必须为1 6.5536M 保持默认 0
{
uint8_t bitAddr = 18;
return readBitData(AnalogControlRegister0,bitAddr);
}
void V9260F::XTALLP(bool sw)
{
uint8_t bitAddr = 18;
setBitData(AnalogControlRegister0,bitAddr,sw);
}
//获取数据响应
//频率数据
int32_t V9260F::FREQ()
{
uint16_t dataAddr = 0x019A;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::SAFREQ()
{
uint16_t dataAddr = 0x011D;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::AFREQ()
{
uint16_t dataAddr = 0x011E;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
//电压电流数据
int32_t V9260F::ARRTI() //全波电流原始值
{
uint16_t dataAddr = 0x0105;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::ARRTU() //全波电压有效值原始值
{
uint16_t dataAddr = 0x0104;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::ARRTM() //M通道有效原始值
{
uint16_t dataAddr = 0x0106;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::BRRTU() //基波电压有效原始值
{
uint16_t dataAddr = 0x0109;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::BRRTI() //基波电流有效原始值
{
uint16_t dataAddr = 0x010A;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::ARTI() //全波电流有效瞬时值
{
uint16_t dataAddr = 0x010E;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::ARTU() //全波电压有效瞬时值
{
uint16_t dataAddr = 0x010D;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::ARTM() //M通道电压有效瞬时值
{
uint16_t dataAddr = 0x010F;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::ARTIM() //
{
uint16_t dataAddr = 0x00F8;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::BRTU() //基波电压有效瞬时值
{
uint16_t dataAddr = 0x0112;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::BRTI() //基波电流有效瞬时值
{
uint16_t dataAddr = 0x0113;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::AARTU() //全波电压有效平均值
{
uint16_t dataAddr = 0x011B;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::AARTI() //全波电流有效平均值
{
uint16_t dataAddr = 0x011C;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::AARTM() //M通道有效平均值
{
uint16_t dataAddr = 0x0117;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::ABRTU() //基波电压有效平均值
{
uint16_t dataAddr = 0x0121;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
int32_t V9260F::ABRTI() //基波电流有效平均值
{
uint16_t dataAddr = 0x0122;
uint32_t tempData = readRegisterData(dataAddr,_device_addr_number);
return (int32_t)tempData;
}
void V9260F::writeRegisterData(uint16_t Addr, uint32_t writeData, byte Device_addr)
{
byte printData[8]; //数据包长度
printData[0] = 0XFE;
printData[1] = ((Addr >> 8) << 4) + (Device_addr << 2) + B10;
printData[2] = Addr & 0xff;
printData[3] = writeData;
printData[4] = writeData >> 8;
printData[5] = writeData >> 16;
printData[6] = writeData >> 24;
printData[7] = uchar_checksum(printData, 7); //校验值
_Serial->write(printData, 8); //发送请求
delay(400);
//消息应答
byte tempReadData[4];
for (byte a = 0; a < 4; a++)
{
tempReadData[a] = _Serial->read();
SerialUSB.print(tempReadData[a], HEX);
SerialUSB.print(",");
}
SerialUSB.println();
}
//获取4字节数组,方便拆分获取细节数据
void V9260F::readRegisterData(uint16_t Addr, byte Device_addr,byte *DataOutput)
{
byte printData[8]; //数据包长度
printData[0] = 0XFE;
printData[1] = ((Addr >> 8) << 4) + (Device_addr << 2) + B01;
printData[2] = Addr & 0xff;
printData[3] = 1;
printData[4] = 0;
printData[5] = 0;
printData[6] = 0;
printData[7] = uchar_checksum(printData, 7); //校验值
_Serial->write(printData, 8); //发送请求
delay(400);
//获取数据响应
byte tempReadData[8];
for (byte a = 0; a < 8; a++)
{
tempReadData[a] = _Serial->read();
}
DataOutput[0] = tempReadData[3];
DataOutput[1] = tempReadData[4];
DataOutput[2] = tempReadData[5];
DataOutput[3] = tempReadData[6];
}
//直接获取UINT32
uint32_t V9260F::readRegisterData(uint16_t Addr, byte Device_addr)
{
byte printData[8]; //数据包长度
printData[0] = 0XFE;
printData[1] = ((Addr >> 8) << 4) + (Device_addr << 2) + B01;
printData[2] = Addr & 0xff;
printData[3] = 1;
printData[4] = 0;
printData[5] = 0;
printData[6] = 0;
printData[7] = uchar_checksum(printData, 7); //校验值
_Serial->write(printData, 8); //发送请求
delay(400);
//获取数据响应
byte tempReadData[8];
for (byte a = 0; a < 8; a++)
{
tempReadData[a] = _Serial->read();
}
//DataOutput[0] = tempReadData[3];
//DataOutput[1] = tempReadData[4];
//DataOutput[2] = tempReadData[5];
//DataOutput[3] = tempReadData[6];
uint32_t data = ((uint32_t)tempReadData[6] << 24) +((uint32_t)tempReadData[5] << 16) +((uint32_t)tempReadData[4] << 8) + (uint32_t)tempReadData[3];
return data;
}
byte V9260F::uchar_checksum(byte *data, byte dataSize)
{
byte tempData = 0;
for (uint16_t a = 0; a < dataSize; a++) //先累加
{
tempData = tempData + data[a];
}
tempData = ~tempData; //再取反
tempData = tempData + 0x33; //再加0x33
return tempData;
}
bool V9260F::readBitData(uint32_t RegisterData,uint8_t RegisterAddr)
{
uint32_t tempData = RegisterData;
return bitRead(tempData,RegisterAddr);
}
void V9260F::setBitData(uint32_t RegisterData,uint8_t RegisterAddr,bool sw)
{
uint32_t tempData = RegisterData; //获取数据
bitWrite(tempData,RegisterAddr,sw); //修改bit数据
RegisterData = tempData; //回写至寄存器缓存
}