🎨 Rename MAX31865 elements

x301
Scott Lahteine 3 years ago
parent b77a5d4c8d
commit 8d4e4ac115

@ -73,10 +73,10 @@ SPISettings MAX31865::spiConfig = SPISettings(
* @param spi_clk the SPI clock pin to use
*/
MAX31865::MAX31865(int8_t spi_cs, int8_t spi_mosi, int8_t spi_miso, int8_t spi_clk) {
_cs = spi_cs;
_mosi = spi_mosi;
_miso = spi_miso;
_sclk = spi_clk;
cselPin = spi_cs;
mosiPin = spi_mosi;
misoPin = spi_miso;
sclkPin = spi_clk;
}
/**
@ -86,8 +86,8 @@ SPISettings MAX31865::spiConfig = SPISettings(
* @param spi_cs the SPI CS pin to use along with the default SPI device
*/
MAX31865::MAX31865(int8_t spi_cs) {
_cs = spi_cs;
_sclk = _miso = _mosi = -1;
cselPin = spi_cs;
sclkPin = misoPin = mosiPin = -1;
}
#else // LARGE_PINMAP
@ -104,10 +104,10 @@ SPISettings MAX31865::spiConfig = SPISettings(
* @param pin_mapping set to 1 for positive pin values
*/
MAX31865::MAX31865(uint32_t spi_cs, uint32_t spi_mosi, uint32_t spi_miso, uint32_t spi_clk, uint8_t pin_mapping) {
_cs = spi_cs;
_mosi = spi_mosi;
_miso = spi_miso;
_sclk = spi_clk;
cselPin = spi_cs;
mosiPin = spi_mosi;
misoPin = spi_miso;
sclkPin = spi_clk;
}
/**
@ -119,8 +119,8 @@ SPISettings MAX31865::spiConfig = SPISettings(
* @param pin_mapping set to 1 for positive pin values
*/
MAX31865::MAX31865(uint32_t spi_cs, uint8_t pin_mapping) {
_cs = spi_cs;
_sclk = _miso = _mosi = -1UL; //-1UL or 0xFFFFFFFF or 4294967295
cselPin = spi_cs;
sclkPin = misoPin = mosiPin = -1UL; //-1UL or 0xFFFFFFFF or 4294967295
}
#endif // LARGE_PINMAP
@ -139,12 +139,12 @@ SPISettings MAX31865::spiConfig = SPISettings(
* @param ref The resistance of the reference resistor, in ohms.
*/
void MAX31865::begin(max31865_numwires_t wires, float zero, float ref) {
Rzero = zero;
Rref = ref;
zeroRes = zero;
refRes = ref;
OUT_WRITE(_cs, HIGH);
OUT_WRITE(cselPin, HIGH);
if (_sclk != TERN(LARGE_PINMAP, -1UL, -1)) {
if (sclkPin != TERN(LARGE_PINMAP, -1UL, -1)) {
softSpiBegin(SPI_QUARTER_SPEED); // Define pin modes for Software SPI
}
else {
@ -162,10 +162,10 @@ void MAX31865::begin(max31865_numwires_t wires, float zero, float ref) {
#ifdef MAX31865_DEBUG_SPI
SERIAL_ECHOLNPGM(
TERN(LARGE_PINMAP, "LARGE_PINMAP", "Regular")
" begin call with _cs: ", _cs,
" _miso: ", _miso,
" _sclk: ", _sclk,
" _mosi: ", _mosi,
" begin call with cselPin: ", cselPin,
" misoPin: ", misoPin,
" sclkPin: ", sclkPin,
" mosiPin: ", mosiPin,
" config: ", readRegister8(MAX31865_CONFIG_REG)
);
#endif
@ -282,8 +282,8 @@ uint16_t MAX31865::readRaw() {
*/
float MAX31865::readResistance() {
// Strip the error bit (D0) and convert to a float ratio.
// less precise method: (readRaw() * Rref) >> 16
return (((readRaw() >> 1) / 32768.0f) * Rref);
// less precise method: (readRaw() * refRes) >> 16
return (((readRaw() >> 1) / 32768.0f) * refRes);
}
/**
@ -300,8 +300,8 @@ float MAX31865::temperature() {
*
* @return Temperature in C
*/
float MAX31865::temperature(uint16_t adcVal) {
return temperature(((adcVal) / 32768.0f) * Rref);
float MAX31865::temperature(uint16_t adc_val) {
return temperature(((adc_val) / 32768.0f) * refRes);
}
/**
@ -309,11 +309,11 @@ float MAX31865::temperature(uint16_t adcVal) {
* Uses the technique outlined in this PDF:
* http://www.analog.com/media/en/technical-documentation/application-notes/AN709_0.pdf
*
* @param Rrtd the resistance value in ohms
* @param rtd_res the resistance value in ohms
* @return the temperature in degC
*/
float MAX31865::temperature(float Rrtd) {
float temp = (RTD_Z1 + sqrt(RTD_Z2 + (RTD_Z3 * Rrtd))) / RTD_Z4;
float MAX31865::temperature(float rtd_res) {
float temp = (RTD_Z1 + sqrt(RTD_Z2 + (RTD_Z3 * rtd_res))) * RECIPROCAL(RTD_Z4);
// From the PDF...
//
@ -324,17 +324,17 @@ float MAX31865::temperature(float Rrtd) {
// of resistance.
//
if (temp < 0) {
Rrtd = (Rrtd / Rzero) * 100; // normalize to 100 ohm
float rpoly = Rrtd;
rtd_res = (rtd_res / zeroRes) * 100; // normalize to 100 ohm
float rpoly = rtd_res;
temp = -242.02 + (2.2228 * rpoly);
rpoly *= Rrtd; // square
rpoly *= rtd_res; // square
temp += 2.5859e-3 * rpoly;
rpoly *= Rrtd; // ^3
rpoly *= rtd_res; // ^3
temp -= 4.8260e-6 * rpoly;
rpoly *= Rrtd; // ^4
rpoly *= rtd_res; // ^4
temp -= 2.8183e-8 * rpoly;
rpoly *= Rrtd; // ^5
rpoly *= rtd_res; // ^5
temp += 1.5243e-10 * rpoly;
}
@ -399,15 +399,15 @@ uint16_t MAX31865::readRegister16(uint8_t addr) {
*/
void MAX31865::readRegisterN(uint8_t addr, uint8_t buffer[], uint8_t n) {
addr &= 0x7F; // make sure top bit is not set
if (_sclk == TERN(LARGE_PINMAP, -1UL, -1))
if (sclkPin == TERN(LARGE_PINMAP, -1UL, -1))
SPI.beginTransaction(spiConfig);
else
WRITE(_sclk, LOW);
WRITE(sclkPin, LOW);
WRITE(_cs, LOW);
WRITE(cselPin, LOW);
#ifdef TARGET_LPC1768
DELAY_CYCLES(_spi_speed);
DELAY_CYCLES(spiSpeed);
#endif
spiTransfer(addr);
@ -420,10 +420,10 @@ void MAX31865::readRegisterN(uint8_t addr, uint8_t buffer[], uint8_t n) {
buffer++;
}
if (_sclk == TERN(LARGE_PINMAP, -1UL, -1))
if (sclkPin == TERN(LARGE_PINMAP, -1UL, -1))
SPI.endTransaction();
WRITE(_cs, HIGH);
WRITE(cselPin, HIGH);
}
/**
@ -433,24 +433,24 @@ void MAX31865::readRegisterN(uint8_t addr, uint8_t buffer[], uint8_t n) {
* @param data the data to write
*/
void MAX31865::writeRegister8(uint8_t addr, uint8_t data) {
if (_sclk == TERN(LARGE_PINMAP, -1UL, -1))
if (sclkPin == TERN(LARGE_PINMAP, -1UL, -1))
SPI.beginTransaction(spiConfig);
else
WRITE(_sclk, LOW);
WRITE(sclkPin, LOW);
WRITE(_cs, LOW);
WRITE(cselPin, LOW);
#ifdef TARGET_LPC1768
DELAY_CYCLES(_spi_speed);
DELAY_CYCLES(spiSpeed);
#endif
spiTransfer(addr | 0x80); // make sure top bit is set
spiTransfer(data);
if (_sclk == TERN(LARGE_PINMAP, -1UL, -1))
if (sclkPin == TERN(LARGE_PINMAP, -1UL, -1))
SPI.endTransaction();
WRITE(_cs, HIGH);
WRITE(cselPin, HIGH);
}
/**
@ -463,19 +463,19 @@ void MAX31865::writeRegister8(uint8_t addr, uint8_t data) {
* @return the 8-bit response
*/
uint8_t MAX31865::spiTransfer(uint8_t x) {
if (_sclk == TERN(LARGE_PINMAP, -1UL, -1))
if (sclkPin == TERN(LARGE_PINMAP, -1UL, -1))
return SPI.transfer(x);
#ifdef TARGET_LPC1768
return swSpiTransfer(x, _spi_speed, _sclk, _miso, _mosi);
return swSpiTransfer(x, spiSpeed, sclkPin, misoPin, mosiPin);
#else
uint8_t reply = 0;
for (int i = 7; i >= 0; i--) {
WRITE(_sclk, HIGH); DELAY_NS_VAR(_spi_delay);
WRITE(sclkPin, HIGH); DELAY_NS_VAR(spiDelay);
reply <<= 1;
WRITE(_mosi, x & _BV(i)); DELAY_NS_VAR(_spi_delay);
if (READ(_miso)) reply |= 1;
WRITE(_sclk, LOW); DELAY_NS_VAR(_spi_delay);
WRITE(mosiPin, x & _BV(i)); DELAY_NS_VAR(spiDelay);
if (READ(misoPin)) reply |= 1;
WRITE(sclkPin, LOW); DELAY_NS_VAR(spiDelay);
}
return reply;
#endif
@ -486,13 +486,13 @@ void MAX31865::softSpiBegin(const uint8_t spi_speed) {
SERIAL_ECHOLNPGM("Initializing MAX31865 Software SPI");
#endif
#ifdef TARGET_LPC1768
swSpiBegin(_sclk, _miso, _mosi);
_spi_speed = swSpiInit(spi_speed, _sclk, _mosi);
swSpiBegin(sclkPin, misoPin, mosiPin);
spiSpeed = swSpiInit(spi_speed, sclkPin, mosiPin);
#else
_spi_delay = (100UL << spi_speed) / 3; // Calculate delay in ns. Top speed is ~10MHz, or 100ns delay between bits.
OUT_WRITE(_sclk, LOW);
SET_OUTPUT(_mosi);
SET_INPUT(_miso);
spiDelay = (100UL << spi_speed) / 3; // Calculate delay in ns. Top speed is ~10MHz, or 100ns delay between bits.
OUT_WRITE(sclkPin, LOW);
SET_OUTPUT(mosiPin);
SET_INPUT(misoPin);
#endif
}

@ -89,15 +89,15 @@ class MAX31865 {
private:
static SPISettings spiConfig;
TERN(LARGE_PINMAP, uint32_t, uint8_t) _sclk, _miso, _mosi, _cs;
TERN(LARGE_PINMAP, uint32_t, uint8_t) sclkPin, misoPin, mosiPin, cselPin;
#ifdef TARGET_LPC1768
uint8_t _spi_speed;
uint8_t spiSpeed;
#else
uint16_t _spi_delay;
uint16_t spiDelay;
#endif
float Rzero, Rref;
float zeroRes, refRes;
void setConfig(uint8_t config, bool enable);
@ -135,6 +135,6 @@ public:
uint16_t readRaw();
float readResistance();
float temperature();
float temperature(uint16_t adcVal);
float temperature(float Rrtd);
float temperature(uint16_t adc_val);
float temperature(float rtd_res);
};

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