an instrument for professionals

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Air Quality index

Real-time air quality score is determined by the data acquired by the Airthinx IAQ device and advanced algorithms, providing users with a quick overview of the their indoor air quality score.

Pressure

Differences in barometric pressure can increase the flow of infectious particles. Certain rooms within a healthcare building or industrial space should be positively or negatively pressurized with respect to surrounding areas. Positively pressurized rooms are usually designed to protect a patient, clean supplies, or equipment within the room. Negative pressure is used to contain airborne contaminants within a room.

Humidity

Exposure to hazardous conditions resulting from building decay, water damage, poor plumbing, and legacy pollutants are exacerbated by high levels of humidity. Spikes in humidity may result in mold growth on any substance which can happen within 48 hours of contact with a surface, triggering asthma, respiratory symptoms, irritation of the eyes, nose & mouth.

Temperature

Optimal temperature conditions range between 68 and 74 degrees Fahrenheit. Anything over can result in mental fatigue causing diminished reaction times and delayed information processing.

CO2

As more people occupy a space, carbon dioxide levels spike, increasing the likelihood of sleepiness, distraction, lethargy and affecting productivity, concentration, and work performance.

CH2O

Formaldehyde is a naturally occurring organic compound with the formula CH2O (H-CHO). The dangerous gas is commonly emitted by wooden painted surfaces, fabrics, carpets, adhesives & glues in furniture, and building materials like pressed wood & particle board.

VOC

VOCs, volatile organic compounds, are cancer-causing chemicals released by cleaning agents.

Particulate Matter

Dust, fungi, bacteria, pollen & diesel exhaust are common examples of Particulate Matter. The smaller these particles are, the worse they are for your health, especially because they are invisible. The smallest of the Particulates, linger in the atmosphere for weeks at a time, are freely transported by air currents, and are most likely to cause infection by bacteria released by just a single cough or sneeze.

how does it work?

an instrument for professionals

1

Air travels into the airthinx IAQ where built-in sensors evaulate its quality.

Airthinx indoor air quality monitor device
2

Built-in connectivity enables wirelessly sending data to the cloud.

3

Data can be accessed online through the web console or mobile airthinx app, anytime, anywhere.

At a glance, see the air quality conditions in your space via the LED light on the airthinx IAQ device or the AQ score presented as a color-coded circle on the app, letting you know the moment air quality conditions become unsafe or toxic.

Airthinx IAQ app and web console show when your indoor air quality is good Airthinx IAQ app and web console show when your indoor air quality is moderate Airthinx IAQ app and web console show when your indoor air quality is poor
Airthinx IAQ monitor shows when your indoor air quality is good Airthinx IAQ monitor shows when your indoor air quality is moderate Airthinx IAQ monitor shows when your indoor air quality is poor

have a look inside...

  • 5G/4G/3G
  • GPRS
  • NB-IoT
  • Bluetooth
  • Mesh
  • WiFi
airthinx indoor air quality monitor device inside

A powerful processor combined with artificial intelligence (AI) provide accurate, and reliable data acquisition, analytics and communication to the cloud

  • Temperature
  • tVOC
  • CO2
  • Barometer
  • CH2O
  • Humidity
  • PM 1
  • PM 2.5
  • PM 10
  • Dew Point

setup in 3 simple steps

easy as that

  • 1Mounting the Device

    Using screws or double-sided tape, mount the base to the wall 3-5 feet high in the "breathing zone", and attach airthinx™ to the base.

    Mounting the Device
  • 2Powering the Device

    Connect the usb cable to the port underneath the airthinx™. For hardwiring, connect the usb cable to the port on the back of the airthinx™. Plug the other end of the USB cable into the power adapter and into a power source.

    Powering the Device
  • 3Access your Data

    Register your account by following the link in the welcome email. Download the airthinx™ app or visit airthinx.io and click on "console", to access your data. For any questions contact support@airthinx.io or click on the chat icon on airthinx.io.

    Access your Data

tech specs

General

  • Dimensions
  • (LxWxD) - 4.3in (110mm) x 2.6in (66mm) x 1.2in (30mm)
  • Weight
  • 0.4 Lbs (0.18 kg)
  • Certifications
  • CE, FCC, PTCRB
  • Accelorometer
  • 16g (13-bit resolution)
  • Operating Temperature
  • -30 °C to 75 °C ( -22 F to 167 F)
  • Power
  • 0.6 Watt
  • Input Voltage
  • 5 VDC (micro-USB)

CO2 Sensor

  • Effective Range - 0~3000 ppm
  • Resolution - 1 ppm
  • Maximum Consistancy Error - ±50ppm+5%FS
  • Single Response Time - < 3 sec.
  • Total Response Time - ≤ 25 sec.

Communications

  • Cellular
  • GSM/GPRS/EDGE 850, 900, 1800, 1900 MHz
  • UMTS/HSPA 800/850, 900, AWS 1700, 1900, 2100 MHz
  • WiFi
  • 802.11 b/g
  • Bluetooth
  • Bluetooth 4.0
  • Mesh
  • Zigbee, LoRa
  • GPS
  • Sensitivity > -165dBm, 3m Accuracy, A-GPS
  • Antenna
  • Built-in (GPRS, 3G, GPS, Zigbee, Bluetooth, LoRa)
  • SIM Card
  • Built-in

PM1 / PM2.5 / PM10 Sensors

  • 0.3~1.0; 1.0~2.5; 2.5~10 μm
  • Effective Range - 0~500 μg/m3
  • Resolution - 1 μg/m3
  • Efficiency - 98%>=0.5μm
  • Maximum Consistency Error - ±10% @100~500 μg/m3
  • Standard Volume - 0.1L

Temperature Sensor

  • Range - 0-99°C
  • Resolution - 0.1 °C
  • Maximum Error - ±0.5 °C

Humidity Sensor

  • Range - 0-99 %RH
  • Resolution - 0.1 %RH
  • Maximum Error - ±2 %RH

Barometer Sensor

  • Range - 300-1100 hPa
  • Resolution - ±0.12 Pa
  • Maximum Error - ±1.3 Pa

CH2O Sensor

  • Effective Range - 0~1 mg/m3
  • Resolution - 0.001 mg/m3
  • Maximum Error - < 5% FS

TVOC Sensor

  • Effective Range - 1~30ppmof EtOH
  • Sensitivity - 0.15 ~ 0.5 Rs (10ppm of EtOH)/ Rs (air)