2018-11-06 16:33:51 +00:00
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/*
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xsns_02_analog.ino - ESP8266 ADC support for Sonoff-Tasmota
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2019-01-01 12:55:01 +00:00
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Copyright (C) 2019 Theo Arends
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2018-11-06 16:33:51 +00:00
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef USE_ADC_VCC
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/*********************************************************************************************\
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* ADC support
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\*********************************************************************************************/
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2019-05-16 17:43:23 +01:00
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#define XSNS_02 2
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2019-04-11 15:59:48 +01:00
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#define TO_CELSIUS(x) ((x) - 273.15)
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#define TO_KELVIN(x) ((x) + 273.15)
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2019-05-16 17:43:23 +01:00
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// Parameters for equation
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#define ANALOG_V33 3.3 // ESP8266 Analog voltage
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#define ANALOG_T0 TO_KELVIN(25.0) // 25 degrees Celcius in Kelvin (= 298.15)
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// Shelly 2.5 NTC Thermistor
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// 3V3 --- ANALOG_NTC_BRIDGE_RESISTANCE ---v--- NTC --- Gnd
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// |
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// ADC0
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#define ANALOG_NTC_BRIDGE_RESISTANCE 32000.0 // NTC Voltage bridge resistor
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#define ANALOG_NTC_RESISTANCE 10000.0 // NTC Resistance
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#define ANALOG_NTC_B_COEFFICIENT 3350.0 // NTC Beta Coefficient
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// LDR parameters
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// 3V3 --- LDR ---v--- ANALOG_LDR_BRIDGE_RESISTANCE --- Gnd
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// |
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// ADC0
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#define ANALOG_LDR_BRIDGE_RESISTANCE 10000.0 // LDR Voltage bridge resistor
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#define ANALOG_LDR_LUX_CALC_SCALAR 12518931 // Experimental
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#define ANALOG_LDR_LUX_CALC_EXPONENT -1.405 // Experimental
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2018-11-06 16:33:51 +00:00
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uint16_t adc_last_value = 0;
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2019-04-18 10:07:38 +01:00
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float adc_temp = 0;
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2018-11-06 16:33:51 +00:00
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2019-04-12 10:01:37 +01:00
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uint16_t AdcRead(uint8_t factor)
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2018-11-06 16:33:51 +00:00
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{
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2019-04-12 10:01:37 +01:00
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// factor 1 = 2 samples
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// factor 2 = 4 samples
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// factor 3 = 8 samples
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// factor 4 = 16 samples
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// factor 5 = 32 samples
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uint8_t samples = 1 << factor;
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2018-11-06 16:33:51 +00:00
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uint16_t analog = 0;
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2019-04-12 10:01:37 +01:00
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for (uint8_t i = 0; i < samples; i++) {
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2018-11-06 16:33:51 +00:00
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analog += analogRead(A0);
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delay(1);
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}
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2019-04-12 10:01:37 +01:00
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analog >>= factor;
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2018-11-06 16:33:51 +00:00
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return analog;
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}
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#ifdef USE_RULES
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2018-11-14 13:32:09 +00:00
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void AdcEvery250ms(void)
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2018-11-06 16:33:51 +00:00
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{
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2019-05-13 14:56:01 +01:00
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if (ADC0_INPUT == my_adc0) {
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2019-04-12 10:01:37 +01:00
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uint16_t new_value = AdcRead(5);
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2019-04-11 15:59:48 +01:00
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if ((new_value < adc_last_value -10) || (new_value > adc_last_value +10)) {
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adc_last_value = new_value;
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uint16_t value = adc_last_value / 10;
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Response_P(PSTR("{\"ANALOG\":{\"A0div10\":%d}}"), (value > 99) ? 100 : value);
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XdrvRulesProcess();
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}
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2018-11-06 16:33:51 +00:00
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}
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}
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#endif // USE_RULES
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2019-05-16 17:43:23 +01:00
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uint16_t AdcGetLux()
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{
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int adc = AdcRead(2);
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// Source: https://www.allaboutcircuits.com/projects/design-a-luxmeter-using-a-light-dependent-resistor/
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double resistorVoltage = ((double)adc / 1023) * ANALOG_V33;
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double ldrVoltage = ANALOG_V33 - resistorVoltage;
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double ldrResistance = ldrVoltage / resistorVoltage * ANALOG_LDR_BRIDGE_RESISTANCE;
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double ldrLux = ANALOG_LDR_LUX_CALC_SCALAR * FastPrecisePow(ldrResistance, ANALOG_LDR_LUX_CALC_EXPONENT);
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return (uint16_t)ldrLux;
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}
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2019-04-18 10:07:38 +01:00
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void AdcEverySecond(void)
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{
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2019-05-13 14:56:01 +01:00
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if (ADC0_TEMP == my_adc0) {
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2019-04-18 10:07:38 +01:00
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int adc = AdcRead(2);
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// Steinhart-Hart equation for thermistor as temperature sensor
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2019-05-16 17:43:23 +01:00
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double Rt = (adc * ANALOG_NTC_BRIDGE_RESISTANCE) / (1024.0 * ANALOG_V33 - (double)adc);
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2019-05-18 17:24:17 +01:00
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double T = ANALOG_NTC_B_COEFFICIENT / (ANALOG_NTC_B_COEFFICIENT / ANALOG_T0 + TaylorLog(Rt / ANALOG_NTC_RESISTANCE));
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2019-04-18 10:07:38 +01:00
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adc_temp = ConvertTemp(TO_CELSIUS(T));
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}
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}
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2019-01-28 13:08:33 +00:00
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void AdcShow(bool json)
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2018-11-06 16:33:51 +00:00
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{
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2019-05-13 14:56:01 +01:00
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if (ADC0_INPUT == my_adc0) {
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2019-04-12 10:01:37 +01:00
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uint16_t analog = AdcRead(5);
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2018-11-06 16:33:51 +00:00
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2019-04-11 15:59:48 +01:00
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if (json) {
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ResponseAppend_P(PSTR(",\"ANALOG\":{\"A0\":%d}"), analog);
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2018-11-06 16:33:51 +00:00
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#ifdef USE_WEBSERVER
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2019-04-11 15:59:48 +01:00
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} else {
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WSContentSend_PD(HTTP_SNS_ANALOG, "", 0, analog);
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2018-11-06 16:33:51 +00:00
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#endif // USE_WEBSERVER
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2019-04-11 15:59:48 +01:00
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}
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}
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2019-05-14 16:46:40 +01:00
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else if (ADC0_TEMP == my_adc0) {
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2019-04-11 15:59:48 +01:00
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char temperature[33];
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2019-04-18 10:07:38 +01:00
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dtostrfd(adc_temp, Settings.flag2.temperature_resolution, temperature);
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2019-04-11 15:59:48 +01:00
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if (json) {
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ResponseAppend_P(JSON_SNS_TEMP, "ANALOG", temperature);
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#ifdef USE_DOMOTICZ
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if (0 == tele_period) {
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DomoticzSensor(DZ_TEMP, temperature);
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}
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#endif // USE_DOMOTICZ
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#ifdef USE_KNX
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if (0 == tele_period) {
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2019-05-13 15:36:17 +01:00
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KnxSensor(KNX_TEMPERATURE, adc_temp);
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2019-04-11 15:59:48 +01:00
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}
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#endif // USE_KNX
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#ifdef USE_WEBSERVER
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} else {
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WSContentSend_PD(HTTP_SNS_TEMP, "", temperature, TempUnit());
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2019-05-16 17:43:23 +01:00
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#endif // USE_WEBSERVER
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}
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}
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else if (ADC0_LIGHT == my_adc0) {
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uint16_t adc_light = AdcGetLux();
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if (json) {
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ResponseAppend_P(JSON_SNS_ILLUMINANCE, "ANALOG", adc_light);
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#ifdef USE_DOMOTICZ
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if (0 == tele_period) {
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DomoticzSensor(DZ_ILLUMINANCE, adc_light);
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}
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#endif // USE_DOMOTICZ
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#ifdef USE_WEBSERVER
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} else {
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WSContentSend_PD(HTTP_SNS_ILLUMINANCE, "", adc_light);
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2019-04-11 15:59:48 +01:00
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#endif // USE_WEBSERVER
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}
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2018-11-06 16:33:51 +00:00
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}
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}
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/*********************************************************************************************\
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* Interface
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\*********************************************************************************************/
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2019-01-28 13:08:33 +00:00
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bool Xsns02(uint8_t function)
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2018-11-06 16:33:51 +00:00
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{
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2019-01-28 13:08:33 +00:00
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bool result = false;
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2018-11-06 16:33:51 +00:00
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2019-05-16 17:43:23 +01:00
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if ((ADC0_INPUT == my_adc0) || (ADC0_TEMP == my_adc0) || (ADC0_LIGHT == my_adc0)) {
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2018-11-06 16:33:51 +00:00
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switch (function) {
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#ifdef USE_RULES
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case FUNC_EVERY_250_MSECOND:
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AdcEvery250ms();
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break;
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#endif // USE_RULES
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2019-04-18 10:07:38 +01:00
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case FUNC_EVERY_SECOND:
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AdcEverySecond();
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break;
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2018-11-06 16:33:51 +00:00
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case FUNC_JSON_APPEND:
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AdcShow(1);
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break;
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#ifdef USE_WEBSERVER
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2019-03-19 16:31:43 +00:00
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case FUNC_WEB_SENSOR:
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2018-11-06 16:33:51 +00:00
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AdcShow(0);
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break;
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#endif // USE_WEBSERVER
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}
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}
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return result;
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}
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#endif // USE_ADC_VCC
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