mirror of https://github.com/arendst/Tasmota.git
400 lines
13 KiB
C++
400 lines
13 KiB
C++
/*
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xsns_24_si1145.ino - SI1145/46/47 UV Index / IR / Visible light sensor support for Tasmota
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Copyright (C) 2021 Theo Arends
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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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#ifdef USE_I2C
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#ifdef USE_SI1145
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/*********************************************************************************************\
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* SI1145/46/47 - UV Index / IR / Visible light
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*
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* Based on library https://github.com/SeeedDocument/Grove-Sunlight_Sensor/
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*
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* I2C Addresses: 0x60
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\*********************************************************************************************/
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#define XSNS_24 24
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#define XI2C_19 19 // See I2CDEVICES.md
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#define SI114X_ADDR 0X60
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//
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//commands
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//
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#define SI114X_QUERY 0X80
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#define SI114X_SET 0XA0
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#define SI114X_NOP 0X00
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#define SI114X_RESET 0X01
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#define SI114X_BUSADDR 0X02
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#define SI114X_PS_FORCE 0X05
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#define SI114X_GET_CAL 0X12
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#define SI114X_ALS_FORCE 0X06
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#define SI114X_PSALS_FORCE 0X07
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#define SI114X_PS_PAUSE 0X09
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#define SI114X_ALS_PAUSE 0X0A
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#define SI114X_PSALS_PAUSE 0X0B
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#define SI114X_PS_AUTO 0X0D
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#define SI114X_ALS_AUTO 0X0E
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#define SI114X_PSALS_AUTO 0X0F
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//
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//IIC REGISTERS
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//
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#define SI114X_PART_ID 0X00
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#define SI114X_REV_ID 0X01
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#define SI114X_SEQ_ID 0X02
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#define SI114X_INT_CFG 0X03
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#define SI114X_IRQ_ENABLE 0X04
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#define SI114X_IRQ_MODE1 0x05
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#define SI114X_IRQ_MODE2 0x06
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#define SI114X_HW_KEY 0X07
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#define SI114X_MEAS_RATE0 0X08
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#define SI114X_MEAS_RATE1 0X09
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#define SI114X_PS_RATE 0X0A
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#define SI114X_PS_LED21 0X0F
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#define SI114X_PS_LED3 0X10
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#define SI114X_UCOEFF0 0X13
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#define SI114X_UCOEFF1 0X14
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#define SI114X_UCOEFF2 0X15
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#define SI114X_UCOEFF3 0X16
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#define SI114X_WR 0X17
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#define SI114X_COMMAND 0X18
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#define SI114X_RESPONSE 0X20
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#define SI114X_IRQ_STATUS 0X21
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#define SI114X_ALS_VIS_DATA0 0X22
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#define SI114X_ALS_VIS_DATA1 0X23
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#define SI114X_ALS_IR_DATA0 0X24
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#define SI114X_ALS_IR_DATA1 0X25
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#define SI114X_PS1_DATA0 0X26
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#define SI114X_PS1_DATA1 0X27
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#define SI114X_PS2_DATA0 0X28
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#define SI114X_PS2_DATA1 0X29
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#define SI114X_PS3_DATA0 0X2A
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#define SI114X_PS3_DATA1 0X2B
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#define SI114X_AUX_DATA0_UVINDEX0 0X2C
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#define SI114X_AUX_DATA1_UVINDEX1 0X2D
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#define SI114X_RD 0X2E
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#define SI114X_CHIP_STAT 0X30
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//
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//Parameters
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//
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#define SI114X_CHLIST 0X01
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#define SI114X_CHLIST_ENUV 0x80
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#define SI114X_CHLIST_ENAUX 0x40
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#define SI114X_CHLIST_ENALSIR 0x20
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#define SI114X_CHLIST_ENALSVIS 0x10
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#define SI114X_CHLIST_ENPS1 0x01
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#define SI114X_CHLIST_ENPS2 0x02
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#define SI114X_CHLIST_ENPS3 0x04
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#define SI114X_PSLED12_SELECT 0X02
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#define SI114X_PSLED3_SELECT 0X03
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#define SI114X_PS_ENCODE 0X05
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#define SI114X_ALS_ENCODE 0X06
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#define SI114X_PS1_ADCMUX 0X07
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#define SI114X_PS2_ADCMUX 0X08
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#define SI114X_PS3_ADCMUX 0X09
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#define SI114X_PS_ADC_COUNTER 0X0A
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#define SI114X_PS_ADC_GAIN 0X0B
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#define SI114X_PS_ADC_MISC 0X0C
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#define SI114X_ALS_IR_ADC_MUX 0X0E
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#define SI114X_AUX_ADC_MUX 0X0F
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#define SI114X_ALS_VIS_ADC_COUNTER 0X10
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#define SI114X_ALS_VIS_ADC_GAIN 0X11
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#define SI114X_ALS_VIS_ADC_MISC 0X12
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#define SI114X_LED_REC 0X1C
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#define SI114X_ALS_IR_ADC_COUNTER 0X1D
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#define SI114X_ALS_IR_ADC_GAIN 0X1E
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#define SI114X_ALS_IR_ADC_MISC 0X1F
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//
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//USER SETTINGS DEFINE
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//
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//ADCMUX
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#define SI114X_ADCMUX_SMALL_IR 0x00
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#define SI114X_ADCMUX_VISIABLE 0x02
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#define SI114X_ADCMUX_LARGE_IR 0x03
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#define SI114X_ADCMUX_NO 0x06
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#define SI114X_ADCMUX_GND 0x25
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#define SI114X_ADCMUX_TEMPERATURE 0x65
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#define SI114X_ADCMUX_VDD 0x75
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//LED SEL
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#define SI114X_PSLED12_SELECT_PS1_NONE 0x00
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#define SI114X_PSLED12_SELECT_PS1_LED1 0x01
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#define SI114X_PSLED12_SELECT_PS1_LED2 0x02
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#define SI114X_PSLED12_SELECT_PS1_LED3 0x04
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#define SI114X_PSLED12_SELECT_PS2_NONE 0x00
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#define SI114X_PSLED12_SELECT_PS2_LED1 0x10
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#define SI114X_PSLED12_SELECT_PS2_LED2 0x20
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#define SI114X_PSLED12_SELECT_PS2_LED3 0x40
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#define SI114X_PSLED3_SELECT_PS2_NONE 0x00
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#define SI114X_PSLED3_SELECT_PS2_LED1 0x10
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#define SI114X_PSLED3_SELECT_PS2_LED2 0x20
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#define SI114X_PSLED3_SELECT_PS2_LED3 0x40
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//ADC GAIN DIV
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#define SI114X_ADC_GAIN_DIV1 0X00
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#define SI114X_ADC_GAIN_DIV2 0X01
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#define SI114X_ADC_GAIN_DIV4 0X02
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#define SI114X_ADC_GAIN_DIV8 0X03
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#define SI114X_ADC_GAIN_DIV16 0X04
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#define SI114X_ADC_GAIN_DIV32 0X05
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//LED CURRENT
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#define SI114X_LED_CURRENT_5MA 0X01
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#define SI114X_LED_CURRENT_11MA 0X02
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#define SI114X_LED_CURRENT_22MA 0X03
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#define SI114X_LED_CURRENT_45MA 0X04
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//Recovery period the ADC takes before making a PS measurement
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#define SI114X_ADC_COUNTER_1ADCCLK 0X00
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#define SI114X_ADC_COUNTER_7ADCCLK 0X01
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#define SI114X_ADC_COUNTER_15ADCCLK 0X02
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#define SI114X_ADC_COUNTER_31ADCCLK 0X03
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#define SI114X_ADC_COUNTER_63ADCCLK 0X04
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#define SI114X_ADC_COUNTER_127ADCCLK 0X05
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#define SI114X_ADC_COUNTER_255ADCCLK 0X06
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#define SI114X_ADC_COUNTER_511ADCCLK 0X07
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//ADC MISC
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#define SI114X_ADC_MISC_LOWRANGE 0X00
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#define SI114X_ADC_MISC_HIGHRANGE 0X20
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#define SI114X_ADC_MISC_ADC_NORMALPROXIMITY 0X00
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#define SI114X_ADC_MISC_ADC_RAWADC 0X04
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//INT OE
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#define SI114X_INT_CFG_INTOE 0X01
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//IRQ ENABLE
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#define SI114X_IRQEN_ALS 0x01
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#define SI114X_IRQEN_PS1 0x04
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#define SI114X_IRQEN_PS2 0x08
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#define SI114X_IRQEN_PS3 0x10
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uint16_t si1145_visible;
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uint16_t si1145_infrared;
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uint16_t si1145_uvindex;
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bool si1145_type = false;
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uint8_t si1145_bus = 0;
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uint8_t si1145_valid = 0;
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/********************************************************************************************/
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uint8_t Si1145ReadByte(uint8_t reg) {
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return I2cRead8(SI114X_ADDR, reg, si1145_bus);
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}
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uint16_t Si1145ReadHalfWord(uint8_t reg) {
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return I2cRead16LE(SI114X_ADDR, reg, si1145_bus);
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}
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void Si1145WriteByte(uint8_t reg, uint16_t val) {
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I2cWrite8(SI114X_ADDR, reg, val, si1145_bus);
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}
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uint8_t Si1145WriteParamData(uint8_t p, uint8_t v) {
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Si1145WriteByte(SI114X_WR, v);
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Si1145WriteByte(SI114X_COMMAND, p | SI114X_SET);
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return Si1145ReadByte(SI114X_RD);
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}
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/********************************************************************************************/
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bool Si1145Present(void)
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{
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return (Si1145ReadByte(SI114X_PART_ID) == 0X45);
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}
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void Si1145Reset(void)
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{
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Si1145WriteByte(SI114X_MEAS_RATE0, 0);
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Si1145WriteByte(SI114X_MEAS_RATE1, 0);
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Si1145WriteByte(SI114X_IRQ_ENABLE, 0);
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Si1145WriteByte(SI114X_IRQ_MODE1, 0);
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Si1145WriteByte(SI114X_IRQ_MODE2, 0);
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Si1145WriteByte(SI114X_INT_CFG, 0);
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Si1145WriteByte(SI114X_IRQ_STATUS, 0xFF);
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Si1145WriteByte(SI114X_COMMAND, SI114X_RESET);
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delay(10);
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Si1145WriteByte(SI114X_HW_KEY, 0x17);
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delay(10);
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}
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void Si1145DeInit(void)
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{
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//ENABLE UV reading
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//these reg must be set to the fixed value
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Si1145WriteByte(SI114X_UCOEFF0, 0x29);
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Si1145WriteByte(SI114X_UCOEFF1, 0x89);
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Si1145WriteByte(SI114X_UCOEFF2, 0x02);
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Si1145WriteByte(SI114X_UCOEFF3, 0x00);
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Si1145WriteParamData(SI114X_CHLIST, SI114X_CHLIST_ENUV | SI114X_CHLIST_ENALSIR | SI114X_CHLIST_ENALSVIS | SI114X_CHLIST_ENPS1);
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//
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//set LED1 CURRENT(22.4mA)(It is a normal value for many LED)
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//
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Si1145WriteParamData(SI114X_PS1_ADCMUX, SI114X_ADCMUX_LARGE_IR);
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Si1145WriteByte(SI114X_PS_LED21, SI114X_LED_CURRENT_22MA);
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Si1145WriteParamData(SI114X_PSLED12_SELECT, SI114X_PSLED12_SELECT_PS1_LED1);
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//
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//PS ADC SETTING
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//
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Si1145WriteParamData(SI114X_PS_ADC_GAIN, SI114X_ADC_GAIN_DIV1);
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Si1145WriteParamData(SI114X_PS_ADC_COUNTER, SI114X_ADC_COUNTER_511ADCCLK);
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Si1145WriteParamData(SI114X_PS_ADC_MISC, SI114X_ADC_MISC_HIGHRANGE | SI114X_ADC_MISC_ADC_RAWADC);
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//
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//VIS ADC SETTING
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//
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Si1145WriteParamData(SI114X_ALS_VIS_ADC_GAIN, SI114X_ADC_GAIN_DIV1);
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Si1145WriteParamData(SI114X_ALS_VIS_ADC_COUNTER, SI114X_ADC_COUNTER_511ADCCLK);
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Si1145WriteParamData(SI114X_ALS_VIS_ADC_MISC, SI114X_ADC_MISC_HIGHRANGE);
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//
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//IR ADC SETTING
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//
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Si1145WriteParamData(SI114X_ALS_IR_ADC_GAIN, SI114X_ADC_GAIN_DIV1);
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Si1145WriteParamData(SI114X_ALS_IR_ADC_COUNTER, SI114X_ADC_COUNTER_511ADCCLK);
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Si1145WriteParamData(SI114X_ALS_IR_ADC_MISC, SI114X_ADC_MISC_HIGHRANGE);
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//
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//interrupt enable
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//
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Si1145WriteByte(SI114X_INT_CFG, SI114X_INT_CFG_INTOE);
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Si1145WriteByte(SI114X_IRQ_ENABLE, SI114X_IRQEN_ALS);
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//
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//AUTO RUN
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//
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Si1145WriteByte(SI114X_MEAS_RATE0, 0xFF);
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Si1145WriteByte(SI114X_COMMAND, SI114X_PSALS_AUTO);
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}
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bool Si1145Begin(void)
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{
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if (!Si1145Present()) { return false; }
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Si1145Reset();
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Si1145DeInit();
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return true;
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}
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// returns the UV index * 100 (divide by 100 to get the index)
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uint16_t Si1145ReadUV(void)
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{
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return Si1145ReadHalfWord(SI114X_AUX_DATA0_UVINDEX0);
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}
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// returns visible+IR light levels
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uint16_t Si1145ReadVisible(void)
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{
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return Si1145ReadHalfWord(SI114X_ALS_VIS_DATA0);
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}
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// returns IR light levels
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uint16_t Si1145ReadIR(void)
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{
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return Si1145ReadHalfWord(SI114X_ALS_IR_DATA0);
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}
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/********************************************************************************************/
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bool Si1145Read(void)
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{
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if (si1145_valid) { si1145_valid--; }
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if (!Si1145Present()) { return false; }
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si1145_visible = Si1145ReadVisible();
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si1145_infrared = Si1145ReadIR();
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si1145_uvindex = Si1145ReadUV();
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si1145_valid = SENSOR_MAX_MISS;
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return true;
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}
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void Si1145Detect(void) {
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for (si1145_bus = 0; si1145_bus < 2; si1145_bus++) {
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if (!I2cSetDevice(SI114X_ADDR, si1145_bus)) { continue; }
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if (Si1145Begin()) {
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si1145_type = true;
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I2cSetActiveFound(SI114X_ADDR, "SI1145", si1145_bus);
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return;
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}
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}
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}
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void Si1145Update(void)
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{
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if (!Si1145Read()) {
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AddLogMissed("SI1145", si1145_valid);
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}
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}
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#ifdef USE_WEBSERVER
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const char HTTP_SNS_SI1145[] PROGMEM =
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"{s}SI1145 " D_ILLUMINANCE "{m}%d " D_UNIT_LUX "{e}" // {s} = <tr><th>, {m} = </th><td>, {e} = </td></tr>
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"{s}SI1145 " D_INFRARED "{m}%d " D_UNIT_LUX "{e}"
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"{s}SI1145 " D_UV_INDEX "{m}%d.%d{e}";
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#endif // USE_WEBSERVER
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void Si1145Show(bool json)
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{
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if (si1145_valid) {
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if (json) {
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ResponseAppend_P(PSTR(",\"SI1145\":{\"" D_JSON_ILLUMINANCE "\":%d,\"" D_JSON_INFRARED "\":%d,\"" D_JSON_UV_INDEX "\":%d.%d}"),
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si1145_visible, si1145_infrared, si1145_uvindex /100, si1145_uvindex %100);
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#ifdef USE_DOMOTICZ
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if (0 == TasmotaGlobal.tele_period) DomoticzSensor(DZ_ILLUMINANCE, si1145_visible);
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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_SI1145, si1145_visible, si1145_infrared, si1145_uvindex /100, si1145_uvindex %100);
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#endif
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}
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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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bool Xsns24(uint32_t function)
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{
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if (!I2cEnabled(XI2C_19)) { return false; }
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bool result = false;
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if (FUNC_INIT == function) {
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Si1145Detect();
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}
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else if (si1145_type) {
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switch (function) {
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case FUNC_EVERY_SECOND:
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Si1145Update();
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break;
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case FUNC_JSON_APPEND:
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Si1145Show(1);
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break;
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#ifdef USE_WEBSERVER
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case FUNC_WEB_SENSOR:
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Si1145Show(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_SI1145
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#endif // USE_I2C
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