esp-idf-lib/components/sgp40/sensirion_voc_algorithm.h@84e54b14e7db
esp-idf-lib/components/sgp40/sensirion_voc_algorithm.h
Mon, 17 Apr 2023 16:20:58 +0200
- author
- Michiel Broek <mbroek@mbse.eu>
- date
- Mon, 17 Apr 2023 16:20:58 +0200
- changeset 32
- 84e54b14e7db
- parent 1
- 1c9894662795
- permissions
- -rw-r--r--
Version 0.4.1 Measure internal chip temperature, range -10 to 80. Result available in mqtt json payload.
/* * Copyright (c) 2020, Sensirion AG * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * * Neither the name of Sensirion AG nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /** * @file sensirion_voc_algorithm.h * @defgroup sgp40 sgp40 * @{ * * Library for calculating concentration of volatile organic compounds */ #ifndef VOCALGORITHM_H_ #define VOCALGORITHM_H_ #include <stdlib.h> #include <stdint.h> #include <stdbool.h> #ifdef __cplusplus extern "C" { #endif /* The fixed point arithmetic parts of this code were originally created by * https://github.com/PetteriAimonen/libfixmath */ typedef int32_t fix16_t; #define F16(x) \ ((fix16_t)(((x) >= 0) ? ((x)*65536.0 + 0.5) : ((x)*65536.0 - 0.5))) #define VocAlgorithm_SAMPLING_INTERVAL (1.) #define VocAlgorithm_INITIAL_BLACKOUT (45.) #define VocAlgorithm_VOC_INDEX_GAIN (230.) #define VocAlgorithm_SRAW_STD_INITIAL (50.) #define VocAlgorithm_SRAW_STD_BONUS (220.) #define VocAlgorithm_TAU_MEAN_VARIANCE_HOURS (12.) #define VocAlgorithm_TAU_INITIAL_MEAN (20.) #define VocAlgorithm_INIT_DURATION_MEAN ((3600. * 0.75)) #define VocAlgorithm_INIT_TRANSITION_MEAN (0.01) #define VocAlgorithm_TAU_INITIAL_VARIANCE (2500.) #define VocAlgorithm_INIT_DURATION_VARIANCE ((3600. * 1.45)) #define VocAlgorithm_INIT_TRANSITION_VARIANCE (0.01) #define VocAlgorithm_GATING_THRESHOLD (340.) #define VocAlgorithm_GATING_THRESHOLD_INITIAL (510.) #define VocAlgorithm_GATING_THRESHOLD_TRANSITION (0.09) #define VocAlgorithm_GATING_MAX_DURATION_MINUTES ((60. * 3.)) #define VocAlgorithm_GATING_MAX_RATIO (0.3) #define VocAlgorithm_SIGMOID_L (500.) #define VocAlgorithm_SIGMOID_K (-0.0065) #define VocAlgorithm_SIGMOID_X0 (213.) #define VocAlgorithm_VOC_INDEX_OFFSET_DEFAULT (100.) #define VocAlgorithm_LP_TAU_FAST (20.0) #define VocAlgorithm_LP_TAU_SLOW (500.0) #define VocAlgorithm_LP_ALPHA (-0.2) #define VocAlgorithm_PERSISTENCE_UPTIME_GAMMA ((3. * 3600.)) #define VocAlgorithm_MEAN_VARIANCE_ESTIMATOR__GAMMA_SCALING (64.) #define VocAlgorithm_MEAN_VARIANCE_ESTIMATOR__FIX16_MAX (32767.) /** * Struct to hold all the states of the VOC algorithm. */ typedef struct { fix16_t mVoc_Index_Offset; fix16_t mTau_Mean_Variance_Hours; fix16_t mGating_Max_Duration_Minutes; fix16_t mSraw_Std_Initial; fix16_t mUptime; fix16_t mSraw; fix16_t mVoc_Index; fix16_t m_Mean_Variance_Estimator__Gating_Max_Duration_Minutes; bool m_Mean_Variance_Estimator___Initialized; fix16_t m_Mean_Variance_Estimator___Mean; fix16_t m_Mean_Variance_Estimator___Sraw_Offset; fix16_t m_Mean_Variance_Estimator___Std; fix16_t m_Mean_Variance_Estimator___Gamma; fix16_t m_Mean_Variance_Estimator___Gamma_Initial_Mean; fix16_t m_Mean_Variance_Estimator___Gamma_Initial_Variance; fix16_t m_Mean_Variance_Estimator__Gamma_Mean; fix16_t m_Mean_Variance_Estimator__Gamma_Variance; fix16_t m_Mean_Variance_Estimator___Uptime_Gamma; fix16_t m_Mean_Variance_Estimator___Uptime_Gating; fix16_t m_Mean_Variance_Estimator___Gating_Duration_Minutes; fix16_t m_Mean_Variance_Estimator___Sigmoid__L; fix16_t m_Mean_Variance_Estimator___Sigmoid__K; fix16_t m_Mean_Variance_Estimator___Sigmoid__X0; fix16_t m_Mox_Model__Sraw_Std; fix16_t m_Mox_Model__Sraw_Mean; fix16_t m_Sigmoid_Scaled__Offset; fix16_t m_Adaptive_Lowpass__A1; fix16_t m_Adaptive_Lowpass__A2; bool m_Adaptive_Lowpass___Initialized; fix16_t m_Adaptive_Lowpass___X1; fix16_t m_Adaptive_Lowpass___X2; fix16_t m_Adaptive_Lowpass___X3; } VocAlgorithmParams; /** * Initialize the VOC algorithm parameters. Call this once at the beginning or * whenever the sensor stopped measurements. * @param params Pointer to the VocAlgorithmParams struct */ void VocAlgorithm_init(VocAlgorithmParams *params); /** * Get current algorithm states. Retrieved values can be used in * VocAlgorithm_set_states() to resume operation after a short interruption, * skipping initial learning phase. This feature can only be used after at least * 3 hours of continuous operation. * @param params Pointer to the VocAlgorithmParams struct * @param state0 State0 to be stored * @param state1 State1 to be stored */ void VocAlgorithm_get_states(VocAlgorithmParams *params, int32_t *state0, int32_t *state1); /** * Set previously retrieved algorithm states to resume operation after a short * interruption, skipping initial learning phase. This feature should not be * used after inerruptions of more than 10 minutes. Call this once after * VocAlgorithm_init() and the optional VocAlgorithm_set_tuning_parameters(), if * desired. Otherwise, the algorithm will start with initial learning phase. * @param params Pointer to the VocAlgorithmParams struct * @param state0 State0 to be restored * @param state1 State1 to be restored */ void VocAlgorithm_set_states(VocAlgorithmParams *params, int32_t state0, int32_t state1); /** * Set parameters to customize the VOC algorithm. Call this once after * VocAlgorithm_init(), if desired. Otherwise, the default values will be used. * * @param params Pointer to the VocAlgorithmParams struct * @param voc_index_offset VOC index representing typical (average) * conditions. Range 1..250, default 100 * @param learning_time_hours Time constant of long-term estimator. * Past events will be forgotten after about * twice the learning time. * Range 1..72 [hours], default 12 [hours] * @param gating_max_duration_minutes Maximum duration of gating (freeze of * estimator during high VOC index signal). * 0 (no gating) or range 1..720 [minutes], * default 180 [minutes] * @param std_initial Initial estimate for standard deviation. * Lower value boosts events during initial * learning period, but may result in larger * device-to-device variations. * Range 10..500, default 50 */ void VocAlgorithm_set_tuning_parameters(VocAlgorithmParams *params, int32_t voc_index_offset, int32_t learning_time_hours, int32_t gating_max_duration_minutes, int32_t std_initial); /** * Calculate the VOC index value from the raw sensor value. * * @param params Pointer to the VocAlgorithmParams struct * @param sraw Raw value from the SGP40 sensor * @param voc_index Calculated VOC index value from the raw sensor value. Zero * during initial blackout period and 1..500 afterwards */ void VocAlgorithm_process(VocAlgorithmParams *params, int32_t sraw, int32_t *voc_index); #ifdef __cplusplus } #endif /**@}*/ #endif /* VOCALGORITHM_H_ */
