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Nova Fitness SDS dust sensors arduino library

Supports Nova Fitness SDS011, SDS021 however should work for other Nova Fitness SDS sensors as well. This library attempts to provide easy-to-use abstraction over Laser Dust Sensor Control Protocol V1.3. Each response coming from sensor is validated whether it has correct head, command id, checksum and tail. Library also handles automatic retries in case of not available / failed response from sensor.

Quickstart

#include "SdsDustSensor.h"

int rxPin = D1;
int txPin = D2;
SdsDustSensor sds(rxPin, txPin);
// SdsDustSensor sds(Serial1); // if you are on a SAMD based board

void setup() {
  Serial.begin(9600);
  sds.begin();

  Serial.println(sds.queryFirmwareVersion().toString()); // prints firmware version
  Serial.println(sds.setActiveReportingMode().toString()); // ensures sensor is in 'active' reporting mode
  Serial.println(sds.setContinuousWorkingPeriod().toString()); // ensures sensor has continuous working period - default but not recommended
}

void loop() {
  PmResult pm = sds.readPm();
  if (pm.isOk()) {
    Serial.print("PM2.5 = ");
    Serial.print(pm.pm25);
    Serial.print(", PM10 = ");
    Serial.println(pm.pm10);

    // if you want to just print the measured values, you can use toString() method as well
    Serial.println(pm.toString());
  } else {
    Serial.print("Could not read values from sensor, reason: ");
    Serial.println(pm.statusToString());
  }

  delay(500);
}

For more examples see examples folder.

Initialization

Communication with sensor can be handled by SoftwareSerial or HardwareSerial. You can pass SoftwareSerial or HardwareSerial directly to the constructor or provide rx & tx pins (library will use SoftwareSerial then).

Using tx and rx pins

Communication will be implicitly handled by SoftwareSerial.

int rxPin = D1;
int txPin = D2;
SdsDustSensor sds(rxPin, txPin); // you can tune retry mechanism with additional parameters: retryDelayMs and maxRetriesNotAvailable
sds.begin(); // you can pass custom baud rate as parameter (9600 by default)

This constructor is not available on SAMD based boards. SAMD boards should provide more than enough HardwareSerial ports / SERCOM ports.

Explicit SoftwareSerial

int rxPin = D1;
int txPin = D2;
SoftwareSerial softwareSerial(rxPin, txPin);
SdsDustSensor sds(softwareSerial); // you can tune retry mechanism with additional parameters: retryDelayMs and maxRetriesNotAvailable
sds.begin(); // you can pass custom baud rate as parameter (9600 by default)

This constructor is not available on SAMD based boards. SAMD boards should provide more than enough HardwareSerial ports / SERCOM ports.

Explicit HardwareSerial

SdsDustSensor sds(Serial1); // passing HardwareSerial as parameter, you can tune retry mechanism with additional parameters: retryDelayMs and maxRetriesNotAvailable
sds.begin(); // you can pass custom baud rate as parameter (9600 by default)

Supported operations

All operations listed in Laser Dust Sensor Control Protocol V1.3 are fully supported. They are listed below:

  • read PM2.5, PM10 values (reads data from software serial, does not write anything to the serial, all other operations write date to the sensor and expect response - sensor should be set to "active" reporting mode),
  • query PM2.5, PM10 values (in opposite to above, this one sends command to sensor and it responds with PM2.5 and PM10 values - sensor should be set to "query" reporting mode),
  • query reporting mode,
  • set reporting mode to "active",
  • set reporting mode to "query",
  • set new device id,
  • query working state,
  • set working state to "sleeping",
  • set working state to "working",
  • query working period,
  • set "continuous" working period (factory default - sensor sends pm values every 1 second),
  • set "custom" working period (recommended setting - 1-30min cycles),
  • check firmware version (year, month, day).

Additionally you can read device id from every sensor response.

Reading PM2.5 and PM10 values

The following function (readPm()) checks whether there is available data sent from sensor, it does not send any request to sensor so it has to be in 'active' reporting mode.

PmResult result = sds.readPm();
result.pm25; // float
result.pm10; // float

Querying PM2.5 and PM10 values

In opposite to above function, this one sends request to sensor and expects the response. Sensor should be in 'query' reporting mode.

PmResult result = sds.queryPm();
result.pm25; // float
result.pm10; // float

Setting custom working period - recommended over continuous

In order to set custom working period you need to specify single argument - duration (minutes) of the cycle. One cycle means working 30 sec, doing measurement and sleeping for duration-30 [sec]. This setting is recommended when using 'active' reporting mode.

int cycleMinutes = 4;
WorkingPeriodResult result = sds.setCustomWorkingPeriod(cycleMinutes);
result.period; // 4
result.isContinuous(); // false
result.toString();

Setting reporting mode to 'query'

When 'query' mode is active the sensor will not send data automatically, you need to send sds.queryPm() command on order to measure PM values.

ReportingModeResult result = sds.setQueryReportingMode();
result.mode; // MODE::QUERY

Setting sensor state to 'sleeping'

WorkingStateResult result = sds.sleep();
result.isWorking(); // false

Waking up

Safe wakeup tries to perform wakeup twice to assure proper response from sensor. When waking up after sleep sensor seems to respond with random bytes or not to respond at all. Despite incorrect response it seems to wake up correctly (fan starts working). Second wakeup forces sensor to send proper response. Because of the fact that sensor seems to work correctly (despite invalid response), you can use unsafe method if you don't care about the response.

Safe wakeup

WorkingStateResult result = sds.wakeup();
result.isWorking(); // true

Unsafe wakeup

WorkingStateResult result = sds.wakeupUnsafe();
result.isWorking(); // true

Other functions

Responses format of other functions can be found in src folder.

Helpful methods

Additionally with every sensor result you can:

  • access result status result.status, which can be one of {Ok, NotAvailable, InvalidChecksum, InvalidResponseId, InvalidHead, InvalidTail},
  • easily check whether response is correct with result.isOk() method,
  • convert status to string with result.statusToString() method.

You can also access result.deviceId() (pointer to the 1st (of 2) device id byte) and result.rawBytes (pointer to raw sensor response - byte array).

Additional notes and observations

Power consumption and modes

"Query" reporting mode probably consumes less power when sleeping than "Active" because the sensor doesn't have to know when it should wake up (doesn't have schedule any internal tasks).

References