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ouki-wang 6 years ago
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  1. 494
      DFRobot_AS3935_I2C.cpp
  2. 76
      DFRobot_AS3935_I2C.h

494
DFRobot_AS3935_I2C.cpp
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DFRobot_AS3935_I2C::DFRobot_AS3935_I2C(uint8_t irqx, uint8_t devAddx) DFRobot_AS3935_I2C::DFRobot_AS3935_I2C(uint8_t irqx, uint8_t devAddx)
{ {
devAdd = devAddx; devAdd = devAddx;
irq = irqx; irq = irqx;
// initalize the IRQ pins // initalize the IRQ pins
pinMode(irq, INPUT); pinMode(irq, INPUT);
} }
void DFRobot_AS3935_I2C::setI2CAddress(uint8_t devAddx) void DFRobot_AS3935_I2C::setI2CAddress(uint8_t devAddx)
{ {
if (devAddx == AS3935_ADD1) if (devAddx == AS3935_ADD1)
{ {
devAdd = devAddx; devAdd = devAddx;
} }
else if (devAddx == AS3935_ADD2) else if (devAddx == AS3935_ADD2)
{ {
devAdd = devAddx; devAdd = devAddx;
} }
else else
{ {
devAdd = AS3935_ADD3; devAdd = AS3935_ADD3;
} }
} }
uint8_t DFRobot_AS3935_I2C::singRegRead(uint8_t regAdd) uint8_t DFRobot_AS3935_I2C::singRegRead(uint8_t regAdd)
{ {
// I2C address Register address num bytes // I2C address Register address num bytes
I2c.read((uint8_t)devAdd, (uint8_t)regAdd, (uint8_t)0x01); // Use I2C library to read register I2c.read((uint8_t)devAdd, (uint8_t)regAdd, (uint8_t)0x01); // Use I2C library to read register
uint8_t regData = I2c.receive(); // receive the I2C data uint8_t regData = I2c.receive(); // receive the I2C data
return regData; return regData;
} }
void DFRobot_AS3935_I2C::singRegWrite(uint8_t regAdd, uint8_t dataMask, uint8_t regData) void DFRobot_AS3935_I2C::singRegWrite(uint8_t regAdd, uint8_t dataMask, uint8_t regData)
{ {
// start by reading original register data (only modifying what we need to) // start by reading original register data (only modifying what we need to)
uint8_t origRegData = singRegRead(regAdd); uint8_t origRegData = singRegRead(regAdd);
// calculate new register data... 'delete' old targeted data, replace with new data // calculate new register data... 'delete' old targeted data, replace with new data
// note: 'DataMask' must be bits targeted for replacement // note: 'DataMask' must be bits targeted for replacement
// add'l note: this function does NOT shift values into the proper place... they need to be there already // add'l note: this function does NOT shift values into the proper place... they need to be there already
uint8_t newRegData = ((origRegData & ~dataMask) | (regData & dataMask)); uint8_t newRegData = ((origRegData & ~dataMask) | (regData & dataMask));
// finally, write the data to the register // finally, write the data to the register
I2c.write(devAdd, regAdd, newRegData); I2c.write(devAdd, regAdd, newRegData);
Serial.print("wrt: "); Serial.print("wrt: ");
Serial.print(newRegData,HEX); Serial.print(newRegData,HEX);
Serial.print(" Act: "); Serial.print(" Act: ");
Serial.println(singRegRead(regAdd),HEX); Serial.println(singRegRead(regAdd),HEX);
} }
void DFRobot_AS3935_I2C::defInit() void DFRobot_AS3935_I2C::defInit()
{ {
AS3935Reset(); // reset registers to default AS3935Reset(); // reset registers to default
} }
void DFRobot_AS3935_I2C::AS3935Reset() void DFRobot_AS3935_I2C::AS3935Reset()
{ {
// run PRESET_DEFAULT Direct Command to set all registers in default state // run PRESET_DEFAULT Direct Command to set all registers in default state
I2c.write(devAdd, (uint8_t)0x3C, (uint8_t)0x96); I2c.write(devAdd, (uint8_t)0x3C, (uint8_t)0x96);
delay(2); // wait 2ms to complete delay(2); // wait 2ms to complete
} }
void DFRobot_AS3935_I2C::calRCO() void DFRobot_AS3935_I2C::calRCO()
{ {
// run ALIB_RCO Direct Command to cal internal RCO // run ALIB_RCO Direct Command to cal internal RCO
I2c.write(devAdd, (uint8_t)0x3D, (uint8_t)0x96); I2c.write(devAdd, (uint8_t)0x3D, (uint8_t)0x96);
delay(2); // wait 2ms to complete delay(2); // wait 2ms to complete
} }
void DFRobot_AS3935_I2C::powerUp(void) void DFRobot_AS3935_I2C::powerUp(void)
{ {
// power-up sequence based on datasheet, pg 23/27 // power-up sequence based on datasheet, pg 23/27
// register 0x00, PWD bit: 0 (clears PWD) // register 0x00, PWD bit: 0 (clears PWD)
singRegWrite(0x00, 0x01, 0x00); singRegWrite(0x00, 0x01, 0x00);
calRCO(); // run RCO cal cmd calRCO(); // run RCO cal cmd
singRegWrite(0x08, 0x20, 0x20); // set DISP_SRCO to 1 singRegWrite(0x08, 0x20, 0x20); // set DISP_SRCO to 1
delay(2); delay(2);
singRegWrite(0x08, 0x20, 0x00); // set DISP_SRCO to 0 singRegWrite(0x08, 0x20, 0x00); // set DISP_SRCO to 0
} }
void DFRobot_AS3935_I2C::powerDown(void) void DFRobot_AS3935_I2C::powerDown(void)
{ {
// register 0x00, PWD bit: 0 (sets PWD) // register 0x00, PWD bit: 0 (sets PWD)
singRegWrite(0x00, 0x01, 0x01); singRegWrite(0x00, 0x01, 0x01);
Serial.println("AS3935 powered down"); Serial.println("AS3935 powered down");
} }
void DFRobot_AS3935_I2C::disturberEn(void) void DFRobot_AS3935_I2C::disturberEn(void)
{ {
// register 0x03, PWD bit: 5 (sets MASK_DIST) // register 0x03, PWD bit: 5 (sets MASK_DIST)
singRegWrite(0x03, 0x20, 0x00); singRegWrite(0x03, 0x20, 0x00);
Serial.println("disturber detection enabled"); Serial.println("disturber detection enabled");
} }
void DFRobot_AS3935_I2C::disturberDis(void) void DFRobot_AS3935_I2C::disturberDis(void)
{ {
// register 0x03, PWD bit: 5 (sets MASK_DIST) // register 0x03, PWD bit: 5 (sets MASK_DIST)
singRegWrite(0x03, 0x20, 0x20); singRegWrite(0x03, 0x20, 0x20);
} }
void DFRobot_AS3935_I2C::setIRQOutputSource(uint8_t irqSelect) void DFRobot_AS3935_I2C::setIRQOutputSource(uint8_t irqSelect)
{ {
// set interrupt source - what to display on IRQ pin // set interrupt source - what to display on IRQ pin
// reg 0x08, bits 5 (TRCO), 6 (SRCO), 7 (LCO) // reg 0x08, bits 5 (TRCO), 6 (SRCO), 7 (LCO)
// only one should be set at once, I think // only one should be set at once, I think
// 0 = NONE, 1 = TRCO, 2 = SRCO, 3 = LCO // 0 = NONE, 1 = TRCO, 2 = SRCO, 3 = LCO
if(1 == irqSelect) if(1 == irqSelect)
{ {
singRegWrite(0x08, 0xE0, 0x20); // set only TRCO bit singRegWrite(0x08, 0xE0, 0x20); // set only TRCO bit
} }
else if(2 == irqSelect) else if(2 == irqSelect)
{ {
singRegWrite(0x08, 0xE0, 0x40); // set only SRCO bit singRegWrite(0x08, 0xE0, 0x40); // set only SRCO bit
} }
else if(3 == irqSelect) else if(3 == irqSelect)
{ {
singRegWrite(0x08, 0xE0, 0x80); // set only LCO bit singRegWrite(0x08, 0xE0, 0x80); // set only LCO bit
} }
else // assume 0 else // assume 0
{ {
singRegWrite(0x08, 0xE0, 0x00); // clear IRQ pin display bits singRegWrite(0x08, 0xE0, 0x00); // clear IRQ pin display bits
} }
} }
void DFRobot_AS3935_I2C::setTuningCaps(uint8_t capVal) void DFRobot_AS3935_I2C::setTuningCaps(uint8_t capVal)
{ {
// Assume only numbers divisible by 8 (because that's all the chip supports) // Assume only numbers divisible by 8 (because that's all the chip supports)
if(120 < capVal) // cap_value out of range, assume highest capacitance if(120 < capVal) // cap_value out of range, assume highest capacitance
{ {
singRegWrite(0x08, 0x0F, 0x0F); // set capacitance bits to maximum singRegWrite(0x08, 0x0F, 0x0F); // set capacitance bits to maximum
} }
else else
{ {
singRegWrite(0x08, 0x0F, (capVal >> 3)); // set capacitance bits singRegWrite(0x08, 0x0F, (capVal >> 3)); // set capacitance bits
} }
Serial.print("capacitance set to 8x"); Serial.print("capacitance set to 8x");
Serial.println((singRegRead(0x08) & 0x0F)); Serial.println((singRegRead(0x08) & 0x0F));
} }
uint8_t DFRobot_AS3935_I2C::getInterruptSrc(void) uint8_t DFRobot_AS3935_I2C::getInterruptSrc(void)
{ {
// definition of interrupt data on table 18 of datasheet // definition of interrupt data on table 18 of datasheet
// for this function: // for this function:
// 0 = unknown src, 1 = lightning detected, 2 = disturber, 3 = Noise level too high // 0 = unknown src, 1 = lightning detected, 2 = disturber, 3 = Noise level too high
delay(10); // wait 3ms before reading (min 2ms per pg 22 of datasheet) delay(10); // wait 3ms before reading (min 2ms per pg 22 of datasheet)
uint8_t intSrc = (singRegRead(0x03) & 0x0F); // read register, get rid of non-interrupt data uint8_t intSrc = (singRegRead(0x03) & 0x0F); // read register, get rid of non-interrupt data
if(0x08 == intSrc) if(0x08 == intSrc)
{ {
return 1; // lightning caused interrupt return 1; // lightning caused interrupt
} }
else if(0x04 == intSrc) else if(0x04 == intSrc)
{ {
return 2; // disturber detected return 2; // disturber detected
} }
else if(0x01 == intSrc) else if(0x01 == intSrc)
{ {
return 3; // Noise level too high return 3; // Noise level too high
} }
else{return 0;} // interrupt result not expected else{return 0;} // interrupt result not expected
} }
uint8_t DFRobot_AS3935_I2C::getLightningDistKm(void) uint8_t DFRobot_AS3935_I2C::getLightningDistKm(void)
{ {
uint8_t strikeDist = (singRegRead(0x07) & 0x3F); // read register, get rid of non-distance data uint8_t strikeDist = (singRegRead(0x07) & 0x3F); // read register, get rid of non-distance data
return strikeDist; return strikeDist;
} }
uint32_t DFRobot_AS3935_I2C::getStrikeEnergyRaw(void) uint32_t DFRobot_AS3935_I2C::getStrikeEnergyRaw(void)
{ {
uint32_t nrgyRaw = ((singRegRead(0x06) & 0x1F) << 8); // MMSB, shift 8 bits left, make room for MSB uint32_t nrgyRaw = ((singRegRead(0x06) & 0x1F) << 8); // MMSB, shift 8 bits left, make room for MSB
nrgyRaw |= singRegRead(0x05); // read MSB nrgyRaw |= singRegRead(0x05); // read MSB
nrgyRaw <<= 8; // shift 8 bits left, make room for LSB nrgyRaw <<= 8; // shift 8 bits left, make room for LSB
nrgyRaw |= singRegRead(0x04); // read LSB, add to others nrgyRaw |= singRegRead(0x04); // read LSB, add to others
return nrgyRaw/16777; return nrgyRaw/16777;
} }
uint8_t DFRobot_AS3935_I2C::setMinStrikes(uint8_t minStrk) uint8_t DFRobot_AS3935_I2C::setMinStrikes(uint8_t minStrk)
{ {
// This function sets min strikes to the closest available number, rounding to the floor, // This function sets min strikes to the closest available number, rounding to the floor,
// where necessary, then returns the physical value that was set. Options are 1, 5, 9 or 16 strikes. // where necessary, then returns the physical value that was set. Options are 1, 5, 9 or 16 strikes.
// see pg 22 of the datasheet for more info (#strikes in 17 min) // see pg 22 of the datasheet for more info (#strikes in 17 min)
if(5 > minStrk) if(5 > minStrk)
{ {
singRegWrite(0x02, 0x30, 0x00); singRegWrite(0x02, 0x30, 0x00);
return 1; return 1;
} }else if(9 > minStrk)
else if(9 > minStrk) {
{ singRegWrite(0x02, 0x30, 0x10);
singRegWrite(0x02, 0x30, 0x10); return 5;
return 5; }else if(16 > minStrk)
} {
else if(16 > minStrk) singRegWrite(0x02, 0x30, 0x20);
{ return 9;
singRegWrite(0x02, 0x30, 0x20); }else{
return 9; singRegWrite(0x02, 0x30, 0x30);
} return 16;
else }
{
singRegWrite(0x02, 0x30, 0x30);
return 16;
}
} }
void DFRobot_AS3935_I2C::setIndoors(void) void DFRobot_AS3935_I2C::setIndoors(void)
{ {
// AFE settings addres 0x00, bits 5:1 (10010, based on datasheet, pg 19, table 15) // AFE settings addres 0x00, bits 5:1 (10010, based on datasheet, pg 19, table 15)
// this is the default setting at power-up (AS3935 datasheet, table 9) // this is the default setting at power-up (AS3935 datasheet, table 9)
singRegWrite(0x00, 0x3E, 0x24); singRegWrite(0x00, 0x3E, 0x24);
Serial.println("set up for indoor operation"); Serial.println("set up for indoor operation");
} }
void DFRobot_AS3935_I2C::setOutdoors(void) void DFRobot_AS3935_I2C::setOutdoors(void)
{ {
// AFE settings addres 0x00, bits 5:1 (01110, based on datasheet, pg 19, table 15) // AFE settings addres 0x00, bits 5:1 (01110, based on datasheet, pg 19, table 15)
singRegWrite(0x00, 0x3E, 0x1C); singRegWrite(0x00, 0x3E, 0x1C);
Serial.println("set up for outdoor operation"); Serial.println("set up for outdoor operation");
} }
void DFRobot_AS3935_I2C::clearStatistics(void) void DFRobot_AS3935_I2C::clearStatistics(void)
{ {
// clear is accomplished by toggling CL_STAT bit 'high-low-high' (then set low to move on) // clear is accomplished by toggling CL_STAT bit 'high-low-high' (then set low to move on)
singRegWrite(0x02, 0x40, 0x40); // high singRegWrite(0x02, 0x40, 0x40); // high
singRegWrite(0x02, 0x40, 0x00); // low singRegWrite(0x02, 0x40, 0x00); // low
singRegWrite(0x02, 0x40, 0x40); // high singRegWrite(0x02, 0x40, 0x40); // high
} }
uint8_t DFRobot_AS3935_I2C::getNoiseFloorLvl(void) uint8_t DFRobot_AS3935_I2C::getNoiseFloorLvl(void)
{ {
// NF settings addres 0x01, bits 6:4 // NF settings addres 0x01, bits 6:4
// default setting of 010 at startup (datasheet, table 9) // default setting of 010 at startup (datasheet, table 9)
uint8_t regRaw = singRegRead(0x01); // read register 0x01 uint8_t regRaw = singRegRead(0x01); // read register 0x01
return ((regRaw & 0x70) >> 4); // should return value from 0-7, see table 16 for info return ((regRaw & 0x70) >> 4); // should return value from 0-7, see table 16 for info
} }
void DFRobot_AS3935_I2C::setNoiseFloorLvl(uint8_t nfSel) void DFRobot_AS3935_I2C::setNoiseFloorLvl(uint8_t nfSel)
{ {
// NF settings addres 0x01, bits 6:4 // NF settings addres 0x01, bits 6:4
// default setting of 010 at startup (datasheet, table 9) // default setting of 010 at startup (datasheet, table 9)
if(7 >= nfSel) // nf_sel within expected range if(7 >= nfSel) // nf_sel within expected range
{ {
singRegWrite(0x01, 0x70, ((nfSel & 0x07) << 4)); singRegWrite(0x01, 0x70, ((nfSel & 0x07) << 4));
} }
else else
{ // out of range, set to default (power-up value 010) { // out of range, set to default (power-up value 010)
singRegWrite(0x01, 0x70, 0x20); singRegWrite(0x01, 0x70, 0x20);
} }
} }
uint8_t DFRobot_AS3935_I2C::getWatchdogThreshold(void) uint8_t DFRobot_AS3935_I2C::getWatchdogThreshold(void)
{ {
// This function is used to read WDTH. It is used to increase robustness to disturbers, // This function is used to read WDTH. It is used to increase robustness to disturbers,
// though will make detection less efficient (see page 19, Fig 20 of datasheet) // though will make detection less efficient (see page 19, Fig 20 of datasheet)
// WDTH register: add 0x01, bits 3:0 // WDTH register: add 0x01, bits 3:0
// default value of 0001 // default value of 0001
// values should only be between 0x00 and 0x0F (0 and 7) // values should only be between 0x00 and 0x0F (0 and 7)
uint8_t regRaw = singRegRead(0x01); uint8_t regRaw = singRegRead(0x01);
return (regRaw & 0x0F); return (regRaw & 0x0F);
} }
void DFRobot_AS3935_I2C::setWatchdogThreshold(uint8_t wdth) void DFRobot_AS3935_I2C::setWatchdogThreshold(uint8_t wdth)
{ {
// This function is used to modify WDTH. It is used to increase robustness to disturbers, // This function is used to modify WDTH. It is used to increase robustness to disturbers,
// though will make detection less efficient (see page 19, Fig 20 of datasheet) // though will make detection less efficient (see page 19, Fig 20 of datasheet)
// WDTH register: add 0x01, bits 3:0 // WDTH register: add 0x01, bits 3:0
// default value of 0001 // default value of 0001
// values should only be between 0x00 and 0x0F (0 and 7) // values should only be between 0x00 and 0x0F (0 and 7)
singRegWrite(0x01, 0x0F, (wdth & 0x0F)); singRegWrite(0x01, 0x0F, (wdth & 0x0F));
} }
uint8_t DFRobot_AS3935_I2C::getSpikeRejection(void) uint8_t DFRobot_AS3935_I2C::getSpikeRejection(void)
{ {
// This function is used to read SREJ (spike rejection). Similar to the Watchdog threshold, // This function is used to read SREJ (spike rejection). Similar to the Watchdog threshold,
// it is used to make the system more robust to disturbers, though will make general detection // it is used to make the system more robust to disturbers, though will make general detection
// less efficient (see page 20-21, especially Fig 21 of datasheet) // less efficient (see page 20-21, especially Fig 21 of datasheet)
// SREJ register: add 0x02, bits 3:0 // SREJ register: add 0x02, bits 3:0
// default value of 0010 // default value of 0010
// values should only be between 0x00 and 0x0F (0 and 7) // values should only be between 0x00 and 0x0F (0 and 7)
uint8_t regRaw = singRegRead(0x02); uint8_t regRaw = singRegRead(0x02);
return (regRaw & 0x0F); return (regRaw & 0x0F);
} }
void DFRobot_AS3935_I2C::setSpikeRejection(uint8_t srej) void DFRobot_AS3935_I2C::setSpikeRejection(uint8_t srej)
{ {
// This function is used to modify SREJ (spike rejection). Similar to the Watchdog threshold, // This function is used to modify SREJ (spike rejection). Similar to the Watchdog threshold,
// it is used to make the system more robust to disturbers, though will make general detection // it is used to make the system more robust to disturbers, though will make general detection
// less efficient (see page 20-21, especially Fig 21 of datasheet) // less efficient (see page 20-21, especially Fig 21 of datasheet)
// WDTH register: add 0x02, bits 3:0 // WDTH register: add 0x02, bits 3:0
// default value of 0010 // default value of 0010
// values should only be between 0x00 and 0x0F (0 and 7) // values should only be between 0x00 and 0x0F (0 and 7)
singRegWrite(0x02, 0x0F, (srej & 0x0F)); singRegWrite(0x02, 0x0F, (srej & 0x0F));
} }
void DFRobot_AS3935_I2C::setLcoFdiv(uint8_t fdiv) void DFRobot_AS3935_I2C::setLcoFdiv(uint8_t fdiv)
{ {
// This function sets LCO_FDIV register. This is useful in the tuning of the antenna // This function sets LCO_FDIV register. This is useful in the tuning of the antenna
// LCO_FDIV register: add 0x03, bits 7:6 // LCO_FDIV register: add 0x03, bits 7:6
// default value: 00 // default value: 00
// set 0, 1, 2 or 3 for ratios of 16, 32, 64 and 128, respectively. // set 0, 1, 2 or 3 for ratios of 16, 32, 64 and 128, respectively.
// See pg 23, Table 20 for more info. // See pg 23, Table 20 for more info.
singRegWrite(0x03, 0xC0, ((fdiv & 0x03) << 6)); singRegWrite(0x03, 0xC0, ((fdiv & 0x03) << 6));
} }
void DFRobot_AS3935_I2C::printAllRegs(void) void DFRobot_AS3935_I2C::printAllRegs(void)
{ {
Serial.print("Reg 0x00: "); Serial.print("Reg 0x00: ");
Serial.println(singRegRead(0x00)); Serial.println(singRegRead(0x00));
Serial.print("Reg 0x01: "); Serial.print("Reg 0x01: ");
Serial.println(singRegRead(0x01)); Serial.println(singRegRead(0x01));
Serial.print("Reg 0x02: "); Serial.print("Reg 0x02: ");
Serial.println(singRegRead(0x02)); Serial.println(singRegRead(0x02));
Serial.print("Reg 0x03: "); Serial.print("Reg 0x03: ");
Serial.println(singRegRead(0x03)); Serial.println(singRegRead(0x03));
Serial.print("Reg 0x04: "); Serial.print("Reg 0x04: ");
Serial.println(singRegRead(0x04)); Serial.println(singRegRead(0x04));
Serial.print("Reg 0x05: "); Serial.print("Reg 0x05: ");
Serial.println(singRegRead(0x05)); Serial.println(singRegRead(0x05));
Serial.print("Reg 0x06: "); Serial.print("Reg 0x06: ");
Serial.println(singRegRead(0x06)); Serial.println(singRegRead(0x06));
Serial.print("Reg 0x07: "); Serial.print("Reg 0x07: ");
Serial.println(singRegRead(0x07)); Serial.println(singRegRead(0x07));
Serial.print("Reg 0x08: "); Serial.print("Reg 0x08: ");
Serial.println(singRegRead(0x08)); Serial.println(singRegRead(0x08));
uint32_t nrgyVal = getStrikeEnergyRaw(); uint32_t nrgyVal = getStrikeEnergyRaw();
Serial.println(nrgyVal); Serial.println(nrgyVal);
} }
void DFRobot_AS3935_I2C::manualCal(uint8_t capacitance, uint8_t location, uint8_t disturber) void DFRobot_AS3935_I2C::manualCal(uint8_t capacitance, uint8_t location, uint8_t disturber)
{ {
// start by powering up // start by powering up
powerUp(); powerUp();
// indoors/outdoors next... // indoors/outdoors next...
if(1 == location) // set outdoors if 1 if(1 == location) // set outdoors if 1
{ {
setOutdoors(); setOutdoors();
} }
else // set indoors if anything but 1 else // set indoors if anything but 1
{ {
setIndoors(); setIndoors();
} }
// disturber cal // disturber cal
if(0 == disturber) // disabled if 0 if(0 == disturber) // disabled if 0
{ {
disturberDis(); disturberDis();
} }
else // enabled if anything but 0 else // enabled if anything but 0
{ {
disturberEn(); disturberEn();
} }
setIRQOutputSource(0); setIRQOutputSource(0);
delay(500); delay(500);
// capacitance first... directly write value here // capacitance first... directly write value here
setTuningCaps(capacitance); setTuningCaps(capacitance);
Serial.println("AS3935 manual cal complete"); Serial.println("AS3935 manual cal complete");
} }
// a nice function would be to read the last 'x' strike data values.... // a nice function would be to read the last 'x' strike data values....

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DFRobot_AS3935_I2C.h
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class DFRobot_AS3935_I2C class DFRobot_AS3935_I2C
{ {
public: public:
DFRobot_AS3935_I2C(uint8_t irqx, uint8_t devAddx); DFRobot_AS3935_I2C(uint8_t irqx, uint8_t devAddx);
/*! Set i2c address */ /*! Set i2c address */
void setI2CAddress(uint8_t devAddx); void setI2CAddress(uint8_t devAddx);
/*! Manual calibration */ /*! Manual calibration */
void manualCal(uint8_t capacitance, uint8_t location, uint8_t disturber); void manualCal(uint8_t capacitance, uint8_t location, uint8_t disturber);
/*! reset registers to default */ /*! reset registers to default */
void defInit(void); void defInit(void);
void powerUp(void); void powerUp(void);
void powerDown(void); void powerDown(void);
void disturberEn(void); void disturberEn(void);
void disturberDis(void); void disturberDis(void);
void setIRQOutputSource(uint8_t irqSelect); void setIRQOutputSource(uint8_t irqSelect);
void setTuningCaps(uint8_t capVal); void setTuningCaps(uint8_t capVal);
/*! 0 = unknown src, 1 = lightning detected, 2 = disturber, 3 = Noise level too high */ /*! 0 = unknown src, 1 = lightning detected, 2 = disturber, 3 = Noise level too high */
uint8_t getInterruptSrc(void); uint8_t getInterruptSrc(void);
/*! Get rid of non-distance data */ /*! Get rid of non-distance data */
uint8_t getLightningDistKm(void); uint8_t getLightningDistKm(void);
/*! Get lightning energy intensity */ /*! Get lightning energy intensity */
uint32_t getStrikeEnergyRaw(void); uint32_t getStrikeEnergyRaw(void);
uint8_t setMinStrikes(uint8_t minStrk); uint8_t setMinStrikes(uint8_t minStrk);
void clearStatistics(void); void clearStatistics(void);
void setIndoors(void); void setIndoors(void);
void setOutdoors(void); void setOutdoors(void);
uint8_t getNoiseFloorLvl(void); uint8_t getNoiseFloorLvl(void);
void setNoiseFloorLvl(uint8_t nfSel); void setNoiseFloorLvl(uint8_t nfSel);
uint8_t getWatchdogThreshold(void); uint8_t getWatchdogThreshold(void);
void setWatchdogThreshold(uint8_t wdth); void setWatchdogThreshold(uint8_t wdth);
uint8_t getSpikeRejection(void); uint8_t getSpikeRejection(void);
void setSpikeRejection(uint8_t srej); void setSpikeRejection(uint8_t srej);
void setLcoFdiv(uint8_t fdiv); void setLcoFdiv(uint8_t fdiv);
/*! View register data */ /*! View register data */
void printAllRegs(void); void printAllRegs(void);
private: private:
uint8_t irq, devAdd; uint8_t irq, devAdd;
uint8_t singRegRead(uint8_t regAdd); uint8_t singRegRead(uint8_t regAdd);
void singRegWrite(uint8_t regAdd, uint8_t dataMask, uint8_t regData); void singRegWrite(uint8_t regAdd, uint8_t dataMask, uint8_t regData);
void AS3935Reset(void); void AS3935Reset(void);
void calRCO(void); void calRCO(void);
}; };
#endif #endif

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