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_P123_SI7013.ino
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_P123_SI7013.ino
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#ifdef USES_P123
//#######################################################################################################
//######################## Plugin 123 SI7013 I2C Temperature Humidity Sensor ###########################
//#######################################################################################################
// 08-06-2019 Florin Muntean
#define PLUGIN_123
#define PLUGIN_ID_123 123
#define PLUGIN_NAME_123 "Environment - SI7013"
#define PLUGIN_VALUENAME1_123 "Temperature"
#define PLUGIN_VALUENAME2_123 "Humidity"
#define PLUGIN_VALUENAME3_123 "ADC"
boolean Plugin_123_init = false;
// ======================================
// SI7013 sensor
// ======================================
#define SI7021_I2C_ADDRESS 0x40 // I2C address for the sensor
#define SI7013_I2C_ADDRESS 0x41 // I2C address for the sensor
#define SI7013_MEASURE_TEMP_HUM 0xE0 // Measure Temp only after a RH conversion done
#define SI7013_MEASURE_HUM 0xF5 // No hold
#define SI7013_MEASURE_TEMP 0xF3 // No hold
#define SI7013_MEASURE_TEMP_HM 0xE3 // Default hold Master
#define SI7013_MEASURE_HUM_HM 0xE5 // Default hold Master
#define SI7013_WRITE_REG1 0xE6
#define SI7013_READ_REG1 0xE7
#define SI7013_SOFT_RESET 0xFE
#define SI7013_READ_ADC 0xEE
#define SI7013_READ_REG2 0x10
#define SI7013_WRITE_REG2 0x50
// SI7013 Sensor resolution
// default at power up is SI7013_RESOLUTION_14T_12RH
#define SI7013_RESOLUTION_14T_12RH 0x00 // 12 bits RH / 14 bits Temp
#define SI7013_RESOLUTION_13T_10RH 0x80 // 10 bits RH / 13 bits Temp
#define SI7013_RESOLUTION_12T_08RH 0x01 // 8 bits RH / 12 bits Temp
#define SI7013_RESOLUTION_11T_11RH 0x81 // 11 bits RH / 11 bits Temp
#define SI7013_RESOLUTION_MASK 0B01111110
uint16_t si7013_humidity; // latest humidity value read
int16_t si7013_temperature; // latest temperature value read (*100)
int32_t si7013_adc; //moving average
//uint8_t MOVING_AVERAGE_power 4 //2^4
int Plugin_123_i2c_addresses[2] = { SI7021_I2C_ADDRESS, SI7013_I2C_ADDRESS };
uint8_t Plugin_123_i2c_addr(struct EventStruct *event) {
return (uint8_t)PCONFIG(1);
}
uint8_t Plugin_123_device_index(const uint8_t i2caddr) {
switch(i2caddr) {
case SI7021_I2C_ADDRESS: return 0u;
case SI7013_I2C_ADDRESS: return 1u;
}
return 1u; // Some default
}
boolean Plugin_123(byte function, struct EventStruct *event, String& string)
{
boolean success = false;
switch (function)
{
case PLUGIN_DEVICE_ADD:
{
Device[++deviceCount].Number = PLUGIN_ID_123;
Device[deviceCount].Type = DEVICE_TYPE_I2C;
Device[deviceCount].VType = SENSOR_TYPE_TEMP_HUM_BARO; //using this type in order to send the 3rd value which is the ADC
Device[deviceCount].Ports = 0;
Device[deviceCount].PullUpOption = false;
Device[deviceCount].InverseLogicOption = false;
Device[deviceCount].FormulaOption = true;
Device[deviceCount].ValueCount = 3;
Device[deviceCount].SendDataOption = true;
Device[deviceCount].TimerOption = true;
Device[deviceCount].GlobalSyncOption = true;
break;
}
case PLUGIN_GET_DEVICENAME:
{
string = F(PLUGIN_NAME_123);
break;
}
case PLUGIN_GET_DEVICEVALUENAMES:
{
strcpy_P(ExtraTaskSettings.TaskDeviceValueNames[0], PSTR(PLUGIN_VALUENAME1_123));
strcpy_P(ExtraTaskSettings.TaskDeviceValueNames[1], PSTR(PLUGIN_VALUENAME2_123));
strcpy_P(ExtraTaskSettings.TaskDeviceValueNames[2], PSTR(PLUGIN_VALUENAME3_123));
break;
}
case PLUGIN_WEBFORM_LOAD:
{
#define SI7013_RESOLUTION_OPTION 4
byte choice = PCONFIG(0);
String options[SI7013_RESOLUTION_OPTION];
int optionValues[SI7013_RESOLUTION_OPTION];
optionValues[0] = SI7013_RESOLUTION_14T_12RH;
options[0] = F("Temp 14 bits / RH 12 bits");
optionValues[1] = SI7013_RESOLUTION_13T_10RH;
options[1] = F("Temp 13 bits / RH 10 bits");
optionValues[2] = SI7013_RESOLUTION_12T_08RH;
options[2] = F("Temp 12 bits / RH 8 bits");
optionValues[3] = SI7013_RESOLUTION_11T_11RH;
options[3] = F("Temp 11 bits / RH 11 bits");
addFormSelector(F("Resolution"), F("p014_res"), SI7013_RESOLUTION_OPTION, options, optionValues, choice);
//addUnit(F("bits"));
addFormSelectorI2C(F("p123_i2c"), 2, Plugin_123_i2c_addresses, Plugin_123_i2c_addr(event));
addFormNumericBox("Filter Power", F("p123_filter"), PCONFIG(2), 0, 4);
success = true;
break;
}
case PLUGIN_WEBFORM_SAVE:
{
PCONFIG(0) = getFormItemInt(F("p123_res"));
PCONFIG(1) = getFormItemInt(F("p123_i2c"));
PCONFIG(2) = getFormItemInt(F("p123_filter"));
Plugin_123_init = false; // Force device setup next time
success = true;
break;
}
case PLUGIN_READ:
{
// Get sensor resolution configuration
uint8_t res = PCONFIG(0);
uint8_t filter_power = PCONFIG(2);
const uint8_t i2caddr = Plugin_123_i2c_addr(event);
if (!Plugin_123_init) {
Plugin_123_init = Plugin_123_si7013_begin(i2caddr,res);
Plugin_123_si7013_readADC(i2caddr,filter_power);
si7013_adc = si7013_adc << filter_power; //this is the first measurement
}
// Read values only if init has been done okay
if (Plugin_123_init && Plugin_123_si7013_readValues(i2caddr,res,filter_power) == 0) {
UserVar[event->BaseVarIndex] = si7013_temperature/100.0;
UserVar[event->BaseVarIndex + 1] = si7013_humidity / 10.0;
UserVar[event->BaseVarIndex + 2] = si7013_adc >> filter_power;
success = true;
/*
String log = F("SI7013 : Temperature: ");
log += UserVar[event->BaseVarIndex];
addLog(LOG_LEVEL_INFO,log);
log = F("SI7013 : Humidity: ");
log += UserVar[event->BaseVarIndex + 1];
addLog(LOG_LEVEL_INFO,log);
*/
} else {
addLog(LOG_LEVEL_INFO,F("SI7013 : Read Error!"));
}
break;
}
}
return success;
}
/* ======================================================================
Function: Plugin_123_si7013_begin
Purpose : read the user register from the sensor
Input : user register value filled by function
Output : true if okay
Comments: -
====================================================================== */
boolean Plugin_123_si7013_begin(uint8_t i2caddr, uint8_t resolution)
{
uint8_t ret;
// Set the resolution we want
ret = Plugin_123_si7013_setResolution(i2caddr, resolution);
if ( ret == 0 ) {
ret = true;
} else {
String log = F("SI7013 : Res=0x");
log += String(resolution,HEX);
log += F(" => Error 0x");
log += String(ret,HEX);
addLog(LOG_LEVEL_INFO,log);
ret = false;
}
return ret;
}
/* ======================================================================
Function: Plugin_123_si7013_checkCRC
Purpose : check the CRC of received data
Input : value read from sensor
Output : CRC read from sensor
Comments: 0 if okay
====================================================================== */
uint8_t Plugin_123_si7013_checkCRC(uint16_t data, uint8_t check)
{
uint32_t remainder, divisor;
//Pad with 8 bits because we have to add in the check value
remainder = (uint32_t)data << 8;
// From: http://www.nongnu.org/avr-libc/user-manual/group__util__crc.html
// POLYNOMIAL = 0x0131 = x^8 + x^5 + x^4 + 1 : http://en.wikipedia.org/wiki/Computation_of_cyclic_redundancy_checks
// 0x988000 is the 0x0131 polynomial shifted to farthest left of three bytes
divisor = (uint32_t) 0x988000;
// Add the check value
remainder |= check;
// Operate on only 16 positions of max 24.
// The remaining 8 are our remainder and should be zero when we're done.
for (uint8_t i = 0 ; i < 16 ; i++) {
//Check if there is a one in the left position
if( remainder & (uint32_t)1<<(23 - i) )
remainder ^= divisor;
//Rotate the divisor max 16 times so that we have 8 bits left of a remainder
divisor >>= 1;
}
return ((uint8_t) remainder);
}
/* ======================================================================
Function: si7013_readRegister
Purpose : read the user register from the sensor
Input : user register value filled by function
Output : 0 if okay
Comments: -
====================================================================== */
int8_t Plugin_123_si7013_readRegister(uint8_t i2caddr, const uint8_t reg, uint8_t * value)
{
// Request user register
Wire.beginTransmission(i2caddr);
Wire.write(reg);
Wire.endTransmission();
// request 1 byte result
Wire.requestFrom(i2caddr, 1u);
if (Wire.available()>=1) {
*value = Wire.read();
return 0;
}
return 1;
}
/* ======================================================================
Function: Plugin_123_si7013_startConv
Purpose : return temperature or humidity measured
Input : data type SI7013_READ_HUM or SI7013_READ_TEMP
current config resolution
Output : 0 if okay
Comments: internal values of temp and rh are set
====================================================================== */
int8_t Plugin_123_si7013_startConv(uint8_t i2caddr, uint8_t datatype, uint8_t resolution)
{
long data;
uint16_t raw ;
uint8_t checksum,tmp;
//Request a reading
Wire.beginTransmission(i2caddr);
Wire.write(datatype);
Wire.endTransmission();
// Tried clock streching and looping until no NACK from SI7021 to know
// when conversion's done. None have worked so far !!!
// I fade up, I'm waiting maximum conversion time + 1ms, this works !!
// I increased these value to add HTU21D compatibility
// Max for SI7021 is 3/5/7/12 ms
// max for HTU21D is 7/13/25/50 ms
// Martinus modification 2016-01-07:
// My test sample was still not working with 11 bit
// So to be more safe, we add 5 ms to each and use 8,10,13,21 ms
// But for ESP Easy, I think it does not matter at all...
// Martinus is correct there was a bug Mesasure HUM need
// hum+temp delay because it also measure temp
if (resolution == SI7013_RESOLUTION_11T_11RH)
tmp = 7;
else if (resolution == SI7013_RESOLUTION_12T_08RH)
tmp = 13;
else if (resolution == SI7013_RESOLUTION_13T_10RH)
tmp = 25;
else
tmp = 50;
// Humidity fire also temp measurment so delay
// need to be increased by 2 if no Hold Master
if (datatype == SI7013_MEASURE_HUM)
tmp *=2;
delay(tmp);
/*
// Wait for data to become available, device will NACK during conversion
tmp = 0;
do
{
// Request device
Wire.beginTransmission(SI7021_I2C_ADDRESS);
//Wire.write(SI7021_READ_REG);
error = Wire.endTransmission(true);
delay(1);
}
// always use time out in loop to avoid potential lockup (here 12ms max)
// https://www.silabs.com/Support%20Documents/TechnicalDocs/Si7021-A20.pdf page 5
while(error!=0 && tmp++<=12 );
*/
if ( Wire.requestFrom(i2caddr, 3u) < 3 ) {
return -1;
}
// Comes back in three bytes, data(MSB) / data(LSB) / Checksum
raw = ((uint16_t) Wire.read()) << 8;
raw |= Wire.read();
checksum = Wire.read();
// Check CRC of data received
if(Plugin_123_si7013_checkCRC(raw, checksum) != 0) {
addLog(LOG_LEVEL_INFO,F("SI7013 : checksum error!"));
return -1;
}
// Humidity
if (datatype == SI7013_MEASURE_HUM || datatype == SI7013_MEASURE_HUM_HM) {
// Convert value to Himidity percent
// pm-cz: it is possible to enable decimal places for humidity as well by multiplying the value in formula by 100
data = ((1250 * (long)raw) >> 16) - 60;
// Datasheet says doing this check
if (data>1000) data = 1000;
if (data<0) data = 0;
//pm-cz: Let us make sure we have enough precision due to ADC bits
if (resolution == SI7013_RESOLUTION_12T_08RH) {
data = (data + 5) / 10;
data *= 10;
}
// save value
si7013_humidity = (uint16_t) data;
// Temperature
} else if (datatype == SI7013_MEASURE_TEMP ||datatype == SI7013_MEASURE_TEMP_HM || datatype == SI7013_MEASURE_TEMP_HUM) {
// Convert value to Temperature (*100)
// for 23.45C value will be 2345
data = ((17572 * (long)raw) >> 16) - 4685;
/*
// pm-cz: We should probably check for precision here as well
if (resolution != SI7021_RESOLUTION_14T_12RH) {
if (data > 0) {
data = (data + 5) / 10;
} else {
data = (data - 5) / 10;
}
data *= 10;
}
*/
// save value
si7013_temperature = (int16_t) data;
}
return 0;
}
/* ======================================================================
Function: Plugin_123_si7013_readValues
Purpose : read temperature and humidity from SI7021 sensor
Input : current config resolution
Output : 0 if okay
Comments: -
====================================================================== */
int8_t Plugin_123_si7013_readValues(uint8_t i2caddr, uint8_t resolution, uint8_t filter_power)
{
int8_t error = 0;
// start humidity conversion
error |= Plugin_123_si7013_startConv(i2caddr, SI7013_MEASURE_HUM, resolution);
//the humidity is actually doing a temperature reading Too
//error|= Plugin_014_si7021_startConv(SI7021_READ_REG)
// start temperature conversion
error |= Plugin_123_si7013_startConv(i2caddr, SI7013_MEASURE_TEMP, resolution);
error|= Plugin_123_si7013_readADC(i2caddr,filter_power);
return error;
}
int8_t Plugin_123_si7013_readADC(uint8_t i2caddr, uint8_t filter_power)
{
int16_t raw;
uint8_t reg;
uint8_t error;
//set VOUT
// Get the current register value
error = Plugin_123_si7013_readRegister(i2caddr, SI7013_READ_REG2, ®);
if ( error == 0) {
// Prepare to write to the register value
Wire.beginTransmission(i2caddr);
Wire.write(SI7013_WRITE_REG2);
Wire.write(reg | (1+2+4+64) );//set last three bits to 1 (VIN bufered, Vref=VDD, VOUT=VDD) and No-Hold for bit 6
Wire.endTransmission();
//read adc
Wire.beginTransmission(i2caddr);
Wire.write(SI7013_READ_ADC);
Wire.endTransmission();
delay(10); //wating for conversion to be done in the specs is mentioned 7ms in normal mode
if ( Wire.requestFrom(i2caddr, 2u) < 2 ) {
return -1;
}
// Comes back in two bytes, data(MSB) / data(LSB) with no Checksum
raw = ((uint16_t) Wire.read()) << 8;
raw |= Wire.read();
//Calculate Moving average where 2^filter_power is the moving window of points
//MA*[i]= MA*[i-1] +X[i] - MA*[i-1]/N
si7013_adc = si7013_adc + raw - (si7013_adc>>filter_power);
//set vout to gnd to not consume power
Wire.beginTransmission(i2caddr);
Wire.write(reg);
return (int8_t) Wire.endTransmission();
}
return error;
}
/* ======================================================================
Function: Plugin_123_si7013_setResolution
Purpose : Sets the sensor resolution to one of four levels
Input : see #define default is SI7013_RESOLUTION_14T_12RH
Output : 0 if okay
Comments: -
====================================================================== */
int8_t Plugin_123_si7013_setResolution(uint8_t i2caddr, uint8_t res)
{
uint8_t reg;
uint8_t error;
// Get the current register value
error = Plugin_123_si7013_readRegister(i2caddr, SI7013_READ_REG1, ®);
if ( error == 0) {
// remove resolution bits
reg &= SI7013_RESOLUTION_MASK ;
// Prepare to write to the register value
Wire.beginTransmission(i2caddr);
Wire.write(SI7013_WRITE_REG1);
// Write the new resolution bits but clear unused before
Wire.write(reg | ( res &= ~SI7013_RESOLUTION_MASK) );
return (int8_t) Wire.endTransmission();
}
return error;
}
#endif // USES_P123