DST ObservAir Manuale operativo - Pagina 14

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3.8. Firmware updates

As we continue to make improvements and introduce new features, new

versions of the firmware will be released using over-the-air (OTA) updates.

Please follow the instructions below to update your unit(s) firmware.

1. Setup an update appointment by emailing [email protected]. Please

include the phrase "OTA Update: SN" where SN represents your unit(s)

serial number(s).

2. Provision the unit(s) with your WiFi network's credentials according to

the instructions provided here (Section 3.7).

3. During the time period scheduled with our team, turn on your ObservAir

unit(s) and cycle through the menu interface until the LED flashes

purple twice (OTA firmware update mode).

4. The ObservAir will restart into OTA firmware update mode, and breathe

purple once it is successfully connected to the internet and ready to

receive the update.

a. If a unit is unable to connect to a WiFi network, it will automatically

reboot into WiFi provisioning mode and breathe blue. Follow steps

3 to 5 in Section 3.7 to provision WiFi credentials.

5. With the LED breathing purple, plug the unit(s) into the wall charger

and wait for the units to receive the update.

a. If no update is received, OTA update mode will automatically turn

off and restart after 12 hours if no update has been applied. Please

check that your unit is on during the appointment scheduled with

DST staff.

6. After firmware update is received and applied, the sensor will blink

purple three times to confirm that the update was successful and will

then restart into the normal operating mode.

7. Turn off the unit(s), and remove the SD card to read the Settings file. In

the 'Sensor Settings' section, check that the 'Firmware' field has been

updated to the latest version (version number will be provided while

scheduling appointment with DST staff).

3.9. External sample lines

The ObservAir can be fitted with external sample lines that extend outside

an enclosure and/or pull air directly from a flow conditioning device (e.g. a

diluter or dryer). Sample lines should be made of soft rubber tubing with

an inner diameter (ID) of 3/32 inch, such that they fit snuggly over the

nozzles (1/8-inch outer diameter). Inlet lines must be electrically

conductive to prevent particle loss. McMaster-Carr part numbers

and

5648K23

may be used for the inlet and exhaust lines, respectively.

ObservAir Operating Manual

4. Maintenance and Calibration Procedures

4.1. Zero calibration of pollution sensors

Each ObservAir comes with a zero-calibration sheet, but it is good practice

to periodically verify the sensor's baseline performance, especially before

and after deployments. To zero calibrate the BC sensor, an inline HEPA filter

(collection efficiency must be >99%) may be fitted on the inlet nozzle such

that no PM is sampled. DST distributes inlet filters for calibration, but HEPA

filters widely available for homebrewing are also typically adequate for this

purpose. If zero calibrating gas sensors, it is best practice to get a cylinder

of zero air (calibration gas that is devoid of any analyte species). To

conserve zero air, the ObservAir can be operated in a closed volume that is

filled with zero air: A high-quality Tupperware can easily be outfitted with

inlet/outlet valves for this purpose. Alternatively, the ObservAir may sample

a controlled flow rate of zero air from the cylinder. In this configuration, the

flow rate of zero air is set slightly higher than the ObservAir inlet flow, and

the excess zero air is vented to the atmosphere through a purge on the

sample line. This open system prevents pressurization of the ObservAir,

which can damage the sensor. Whichever calibration configuration is

chosen, the ObservAir should collect zero concentration data every 2

seconds for at least 24 hours at the desired flow rate setting. Using the 2-

second data collected, it is possible to determine the pollution sensors'

baseline noise levels at various measurement time intervals (1 minute, 1

hour, etc.). DST can also zero-calibrate ObservAir units, please contact

[email protected]

4.2. Span calibration of pollution sensors

Span calibration of the ObservAir is not straightforward, particularly since

no calibration standards exists for BC. Typically, the best and most practical

method of span calibration outside of a dedicated laboratory or research

setting is collocation at a regulatory monitoring station. Using your local

environmental protection agency's website (e.g.,

locate an air quality monitoring station near you, and deploy your sensor(s)

as close by as possible (<1 km in all cases, but < 50 m is best). Depending

on the agency, it may be possible to contact your local branch or

representative and ask about collocation opportunities. In most cases, the

ObservAir can simply be left outside near the station for 24 hours with little

to no setup (no plug or connection required). Compare the data collected

by the ObservAir to that collected simultaneously at the regulatory station

1909T3

and calibrate/adjust accordingly.

for information on our calibration services.

ObservAir

airnow.gov

in the US),

Operating Manual