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Tasmota/tasmota/tasmota_xsns_sensor/xsns_11_veml6070.ino

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/*
xsns_11_veml6070.ino - VEML6070 ultra violet light sensor support for Tasmota
Copyright (C) 2021 Mike2Nl
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
-----------------------------------------------------
Some words to the meaning of the UV Risk Level:
-----------------------------------------------------
D_UV_INDEX_1 = "Low" = sun->fun
D_UV_INDEX_2 = "Mid" = sun->glases advised
D_UV_INDEX_3 = "High" = sun->glases a must
D_UV_INDEX_4 = "Danger" = sun->skin burns Level 1
D_UV_INDEX_5 = "BurnL1/2" = sun->skin burns level 1..2
D_UV_INDEX_6 = "BurnL3" = sun->skin burns with level 3
D_UV_INDEX_7 = "OoR" = out of range or unknown
--------------------------------------------------------------------------------------------
Version Date Action Description
--------------------------------------------------------------------------------------------
1.0.0.3 20181006 fixed - missing "" around the UV Index text
- thanks to Lisa she had tested it on here mqtt system.
--
1.0.0.2 20180928 tests - same as in version 1.0.0.1
cleaned - source code
changed - snprintf_P for json and web server output
- much more compressed and more professional code
added - uv_risk_text to json and web server output
changed - switch (function) to be 100% compatible
- added Veml6070EverySecond in thought of compatibile
added - Veml6070UvTableInit to do this only once to spare time
debugging - @Adrian helped me out in case of a %s%s in mqtt_data. Thank You Adrian
next - possible i will add the calculation for LAT and LONG coordinates for much more precission (TBD)
- show not only the UV Power value in W/m2, possible a @define value to show it as joule value (TBD)
- add a #define to select how many characters are shown benhind the decimal point for the UV Index (TBD)
---
1.0.0.1 20180925 tests - all tests are done with 1x sonoff sv, 2x Wemos D1 (not the mini)
- 3 different VEMl6070 sensors from 3 different online shops
- all the last three test where good and all looks working so far
- all tests are done at high noon with blue sky and a leaned UV light source
sience - a special Thank You to my friend the professor. He works in the aerospace industrie. Thank You R.G.T.
- all calculations are based on the very good work of Karel Vanicek. Thank You Karel
- more information about UV Index and the irradiation power calculation can be found on the internet
info - all calculations are based on the effective irradiation from Karel Vanicek
- all this was not possible without the work of @arendst. He has done really a lot of basic work/code. Thank You Theo
cleaned - source code a little bit
added - missing void in function calls: void name(void)
added - UV Risk level now defined as UV Index, 0.00 based on NASA standard with text behind the value
added - UV Power level now named as UV Power, used W/m2 because official standards
added - automatic fill of the uv-risk compare table based on the coefficient calculation
added - suspend and wakeup mode for the uv seonsor
- current drain in wake-up-ed mode was around 180uA incl. I2C bus
- current drain in suspend mode was around 70..80uA incl. I2C bus
changed - 2x the power calculation about some incorrent data sheet values
changed - float to double calculation because a rare effect on uv compare map filling
- in that case @andrethomas was a big help too (while(work){output=lot_of_fun};)
added - USE_VEML6070_RSET
- in user_config as possible input, different resistor values depending on PCB types
added - USE_VEML6070_SHOW_RAW
- in user_config, show or show-NOT the uv raw value
added - lots of #defines for automatic calulations to get the best possible values
added - error messages for LOG_LEVEL_DEBUG
added - lots of information in one of the last postings in: https://github.com/arendst/Tasmota/issues/3844
debugging - without the softly hit ;-) from @andrethomas about Serial.print i would never done it. Thank You Andre
safety - personal, please read this: http://www.segurancaetrabalho.com.br/download/uv_index_karel_vanicek.pdf
next - possible i will add the calculation for LAT and LONG coordinates for much more precission
- show not only the UV Power value in W/m2, possible a @define value to show it as joule value
- add a #define to select how many characters are shown benhind the decimal point for the UV Index
---
1.0.0.0 20180912 started - further development by mike2nl - https://github.com/mike2nl/Sonoff-Tasmota
forked - from arendst/tasmota - https://github.com/arendst/Tasmota
base - code base from arendst too
*/
#ifdef USE_I2C
#ifdef USE_VEML6070
/*********************************************************************************************\
* VEML6070 - Ultra Violet Light Intensity (UV-A, 100% output by 255nm)
*
* I2C Address: 0x38 and 0x39
\*********************************************************************************************/
#define XSNS_11 11
#define XI2C_12 12 // See I2CDEVICES.md
#define VEML6070_ADDR_H 0x39 // on some PCB boards the address can be changed by a solder point,
#define VEML6070_ADDR_L 0x38 // to have no address conflicts with other I2C sensors and/or hardware
#define VEML6070_INTEGRATION_TIME 3 // IT_4 = 500msec integration time, because the precission is 4 times higher then IT_0.5
#define VEML6070_ENABLE 1 //
#define VEML6070_DISABLE 0 //
#define VEML6070_RSET_DEFAULT 270000 // 270K default resistor value 270000 ohm, range from 220K..1Meg
#define VEML6070_UV_MAX_INDEX 15 // normal 11, internal on weather laboratories and NASA it's 15 so far the sensor is linear
#define VEML6070_UV_MAX_DEFAULT 11 // 11 = public default table values
#define VEML6070_POWER_COEFFCIENT 0.025 // based on calculations from Karel Vanicek and reorder by hand
#define VEML6070_TABLE_COEFFCIENT 32.86270591 // calculated by hand with help from a friend of mine, a professor which works in aero space things
// (resistor, differences, power coefficients and official UV index calculations (LAT & LONG will be added later)
/********************************************************************************************/
// globals
const char kVemlTypes[] PROGMEM = "VEML6070"; // in preperation of veml6075
double uv_risk_map[VEML6070_UV_MAX_INDEX] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
double uvrisk = 0;
double uvpower = 0;
uint16_t uvlevel = 0;
uint8_t veml6070_addr_low = VEML6070_ADDR_L;
uint8_t veml6070_addr_high = VEML6070_ADDR_H;
uint8_t itime = VEML6070_INTEGRATION_TIME;
uint8_t veml6070_type = 0;
char veml6070_name[9];
char str_uvrisk_text[10];
/********************************************************************************************/
void Veml6070Detect(void)
{
if (!I2cSetDevice(VEML6070_ADDR_L)) { return; }
// init the UV sensor
Wire.beginTransmission(VEML6070_ADDR_L);
Wire.write((itime << 2) | 0x02);
uint8_t status = Wire.endTransmission();
// action on status
if (!status) {
veml6070_type = 1;
Veml6070UvTableInit(); // 1[ms], initalize the UV compare table only once
uint8_t veml_model = 0;
GetTextIndexed(veml6070_name, sizeof(veml6070_name), veml_model, kVemlTypes);
I2cSetActiveFound(VEML6070_ADDR_L, veml6070_name);
}
}
/********************************************************************************************/
void Veml6070UvTableInit(void)
{
// fill the uv-risk compare table once, based on the coefficient calculation
for (uint32_t i = 0; i < VEML6070_UV_MAX_INDEX; i++) {
#ifdef USE_VEML6070_RSET
if ( (USE_VEML6070_RSET >= 220000) && (USE_VEML6070_RSET <= 1000000) ) {
uv_risk_map[i] = ( (USE_VEML6070_RSET / VEML6070_TABLE_COEFFCIENT) / VEML6070_UV_MAX_DEFAULT ) * (i+1);
} else {
uv_risk_map[i] = ( (VEML6070_RSET_DEFAULT / VEML6070_TABLE_COEFFCIENT) / VEML6070_UV_MAX_DEFAULT ) * (i+1);
AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "VEML6070 resistor error %d"), USE_VEML6070_RSET);
}
#else
uv_risk_map[i] = ( (VEML6070_RSET_DEFAULT / VEML6070_TABLE_COEFFCIENT) / VEML6070_UV_MAX_DEFAULT ) * (i+1);
AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "VEML6070 resistor default used %d"), VEML6070_RSET_DEFAULT);
#endif
}
}
/********************************************************************************************/
void Veml6070EverySecond(void)
{
// all = 10..15[ms]
Veml6070ModeCmd(1); // 1[ms], wakeup the UV sensor
uvlevel = Veml6070ReadUv(); // 1..2[ms], get UV raw values
uvrisk = Veml6070UvRiskLevel(uvlevel); // 0..1[ms], get UV risk level
uvpower = Veml6070UvPower(uvrisk); // 2[ms], get UV power in W/m2
Veml6070ModeCmd(0); // off = 5[ms], suspend the UV sensor
}
/********************************************************************************************/
void Veml6070ModeCmd(bool mode_cmd)
{
// mode_cmd 1 = on = 1[ms]
// mode_cmd 0 = off = 2[ms]
Wire.beginTransmission(VEML6070_ADDR_L);
Wire.write((mode_cmd << 0) | 0x02 | (itime << 2));
uint8_t status = Wire.endTransmission();
// action on status
if (!status) {
AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "VEML6070 mode_cmd"));
}
}
/********************************************************************************************/
uint16_t Veml6070ReadUv(void)
{
uint16_t uv_raw = 0;
// read high byte
if (Wire.requestFrom(VEML6070_ADDR_H, 1) != 1) {
return -1;
}
uv_raw = Wire.read();
uv_raw <<= 8;
// read low byte
if (Wire.requestFrom(VEML6070_ADDR_L, 1) != 1) {
return -1;
}
uv_raw |= Wire.read();
// high and low done
return uv_raw;
}
/********************************************************************************************/
double Veml6070UvRiskLevel(uint16_t uv_level)
{
double risk = 0;
if (uv_level < uv_risk_map[VEML6070_UV_MAX_INDEX-1]) {
risk = (double)uv_level / uv_risk_map[0];
// generate uv-risk string
if ( (risk >= 0) && (risk <= 2.9) ) { snprintf_P(str_uvrisk_text, sizeof(str_uvrisk_text), D_UV_INDEX_1); }
else if ( (risk >= 3.0) && (risk <= 5.9) ) { snprintf_P(str_uvrisk_text, sizeof(str_uvrisk_text), D_UV_INDEX_2); }
else if ( (risk >= 6.0) && (risk <= 7.9) ) { snprintf_P(str_uvrisk_text, sizeof(str_uvrisk_text), D_UV_INDEX_3); }
else if ( (risk >= 8.0) && (risk <= 10.9) ) { snprintf_P(str_uvrisk_text, sizeof(str_uvrisk_text), D_UV_INDEX_4); }
else if ( (risk >= 11.0) && (risk <= 12.9) ) { snprintf_P(str_uvrisk_text, sizeof(str_uvrisk_text), D_UV_INDEX_5); }
else if ( (risk >= 13.0) && (risk <= 25.0) ) { snprintf_P(str_uvrisk_text, sizeof(str_uvrisk_text), D_UV_INDEX_6); }
else { snprintf_P(str_uvrisk_text, sizeof(str_uvrisk_text), D_UV_INDEX_7); }
return risk;
} else {
// out of range and much to high - it must be outerspace or sensor damaged
snprintf_P(str_uvrisk_text, sizeof(str_uvrisk_text), D_UV_INDEX_7);
return ( risk = 99 );
AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "VEML6070 out of range %d"), risk);
}
}
/********************************************************************************************/
double Veml6070UvPower(double uvrisk)
{
// based on calculations for effective irradiation from Karel Vanicek
double power = 0;
return ( power = VEML6070_POWER_COEFFCIENT * uvrisk );
}
/********************************************************************************************/
// normaly in i18n.h, Line 520 .. 525
#ifdef USE_WEBSERVER
// {s} = <tr><th>, {m} = </th><td>, {e} = </td></tr>
#ifdef USE_VEML6070_SHOW_RAW
const char HTTP_SNS_UV_LEVEL[] PROGMEM = "{s}VEML6070 " D_UV_LEVEL "{m}%s " D_UNIT_INCREMENTS "{e}";
#endif // USE_VEML6070_SHOW_RAW
// different uv index level texts
const char HTTP_SNS_UV_INDEX[] PROGMEM = "{s}VEML6070 " D_UV_INDEX "{m}%s %s{e}";
const char HTTP_SNS_UV_POWER[] PROGMEM = "{s}VEML6070 " D_UV_POWER "{m}%s " D_UNIT_WATT_METER_QUADRAT "{e}";
#endif // USE_WEBSERVER
/********************************************************************************************/
void Veml6070Show(bool json)
{
// convert double values to string
char str_uvlevel[33]; // e.g. 99999 inc = UVLevel
dtostrfd((double)uvlevel, 0, str_uvlevel);
char str_uvrisk[33]; // e.g. 25.99 text = UvIndex
dtostrfd(uvrisk, 2, str_uvrisk);
char str_uvpower[33]; // e.g. 0.399 W/m² = UvPower
dtostrfd(uvpower, 3, str_uvpower);
if (json) {
#ifdef USE_VEML6070_SHOW_RAW
ResponseAppend_P(PSTR(",\"%s\":{\"" D_JSON_UV_LEVEL "\":%s,\"" D_JSON_UV_INDEX "\":%s,\"" D_JSON_UV_INDEX_TEXT "\":\"%s\",\"" D_JSON_UV_POWER "\":%s}"),
veml6070_name, str_uvlevel, str_uvrisk, str_uvrisk_text, str_uvpower);
#else
ResponseAppend_P(PSTR(",\"%s\":{\"" D_JSON_UV_INDEX "\":%s,\"" D_JSON_UV_INDEX_TEXT "\":\"%s\",\"" D_JSON_UV_POWER "\":%s}"),
veml6070_name, str_uvrisk, str_uvrisk_text, str_uvpower);
#endif // USE_VEML6070_SHOW_RAW
#ifdef USE_DOMOTICZ
if (0 == TasmotaGlobal.tele_period) { DomoticzSensor(DZ_ILLUMINANCE, uvlevel); }
#endif // USE_DOMOTICZ
#ifdef USE_WEBSERVER
} else {
#ifdef USE_VEML6070_SHOW_RAW
WSContentSend_PD(HTTP_SNS_UV_LEVEL, str_uvlevel);
#endif // USE_VEML6070_SHOW_RAW
WSContentSend_PD(HTTP_SNS_UV_INDEX, str_uvrisk, str_uvrisk_text);
WSContentSend_PD(HTTP_SNS_UV_POWER, str_uvpower);
#endif // USE_WEBSERVER
}
}
/*********************************************************************************************\
* Interface
\*********************************************************************************************/
bool Xsns11(uint32_t function)
{
if (!I2cEnabled(XI2C_12)) { return false; }
bool result = false;
if (FUNC_INIT == function) {
Veml6070Detect();
}
else if (veml6070_type) {
switch (function) {
case FUNC_EVERY_SECOND:
Veml6070EverySecond(); // 10..15[ms], tested with OLED display, do all the actions needed to get all sensor values
break;
case FUNC_JSON_APPEND:
Veml6070Show(1);
break;
#ifdef USE_WEBSERVER
case FUNC_WEB_SENSOR:
Veml6070Show(0);
break;
#endif // USE_WEBSERVER
}
}
return result;
}
#endif // USE_VEML6070
#endif // USE_I2C
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