Jens Schmidt / MicrobitIAQ

uses BBC micro:bit to measure and display indoor air quality using Bosch BME680 and/or Sensirion SGP30

Dependencies:   microbit

uses Bosch BME680 and/or Sensirion SGP30 sensors to measure indor air quality

sensors should be connected to BBC micro:bit using i2c

commands are received and data is being sent using uBit / nordic radio protocol

display ---

last line always indicates: - first dot: bme680 detected - second dot: sgp30 detected - third dot: sgp 30 setting humidity/temperature - fourth dor: sgp30 measuring - fith dot: bme680 measuring

the detect dots should be in a stable state (not blinking) the measuring dots should be blinking (constant light means: measurement failed)

if only one bme680 is present: - first 3 lines indicate gas resistence (air quality / more dots == worse quality) - fourth line indicates humidity level

if only sgp30 is present: - first two lines indicate SGP30 VOC level - third and fourth line indicate sgp30 CO2 level

if both sensors are present: - first line indicates SGP30 VOC level - second line line indicates sgp30 CO2 level - third line indicates bme680 gas resistence (air quality) - fourth line indicates bme 680 humidity level

buttons - B display state, switches betweeen - full bright - low light - display off

AB reset sgp30 baseline in non volatile storage

data logging -- during measurements the minimum and mximum values for each measured value (temperature, air pressure, humidity,gas resistance, VOC, CO2) are being stored in non volatile storage those (and the last measurement results) are being shown when btn A has been pressed

NvStore/nvstore.h@17:a2c4dd192146, 2018-12-05 (annotated)

Committer:
jsa1969
Date:
Wed Dec 05 11:27:33 2018 +0000
Revision:
17:a2c4dd192146
Parent:
14:71060505061e
Child:
18:c4ac93e01027
more logging

Who changed what in which revision?

UserRevisionLine numberNew contents of line
jsa1969 11:6844a5578b4f 1 #include "mbed.h"
jsa1969 11:6844a5578b4f 2 #include "MicroBit.h"
jsa1969 11:6844a5578b4f 3
jsa1969 11:6844a5578b4f 4 #ifndef NVSTORE_H
jsa1969 11:6844a5578b4f 5 #define NVSTORE_H
jsa1969 11:6844a5578b4f 6
jsa1969 11:6844a5578b4f 7
jsa1969 11:6844a5578b4f 8 class NvStore {
jsa1969 11:6844a5578b4f 9 public:
jsa1969 12:96eb06e837f4 10 NvStore(MicroBit* uBit);
jsa1969 17:a2c4dd192146 11
jsa1969 12:96eb06e837f4 12 void resetNvStore();
jsa1969 17:a2c4dd192146 13
jsa1969 14:71060505061e 14 void updateGas(const uint32_t gas);
jsa1969 14:71060505061e 15 uint32_t getGasMax();
jsa1969 14:71060505061e 16 uint32_t getGasMin();
jsa1969 17:a2c4dd192146 17
jsa1969 17:a2c4dd192146 18 void updateTemp(const uint32_t temperature);
jsa1969 14:71060505061e 19 uint32_t getTempMax();
jsa1969 14:71060505061e 20 uint32_t getTempMin();
jsa1969 14:71060505061e 21
jsa1969 17:a2c4dd192146 22 void updatePress(const uint32_t pressure);
jsa1969 17:a2c4dd192146 23 uint32_t getPressMax();
jsa1969 17:a2c4dd192146 24 uint32_t getPressMin();
jsa1969 14:71060505061e 25
jsa1969 17:a2c4dd192146 26 void updateHumidity(const uint32_t humidity);
jsa1969 17:a2c4dd192146 27 uint32_t getHumMax();
jsa1969 17:a2c4dd192146 28 uint32_t getHumMin();
jsa1969 12:96eb06e837f4 29
jsa1969 12:96eb06e837f4 30 private:
jsa1969 12:96eb06e837f4 31 MicroBit* _uBit;
jsa1969 17:a2c4dd192146 32 uint32_t _maxGas, _minGas,
jsa1969 17:a2c4dd192146 33 _tempMax, _tempMin,
jsa1969 17:a2c4dd192146 34 _pressMax, _pressMin,
jsa1969 17:a2c4dd192146 35 _humMax, _humMin;
jsa1969 14:71060505061e 36
jsa1969 14:71060505061e 37 uint32_t getStored(const char* key, const uint32_t defaultVal);
jsa1969 14:71060505061e 38 void update(const uint32_t value, uint32_t* maxVal, uint32_t* minVal, const char* maxKey, const char* minKey);
jsa1969 11:6844a5578b4f 39 };
jsa1969 11:6844a5578b4f 40
jsa1969 11:6844a5578b4f 41 #endif // NVSTORE_H