airthinx PRO

Outdoor Air Monitoring

With Airthinx PRO you can comply with EPA Clean Air Act (CAA).

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EPA Clean Air Act
  • Device
  • System
  • Display

Professional Outdoor Environmental Monitoring

For professionals seeking customized pollutant detection, Airthinx PRO offers a sophisticated cutting-edge solution for the continuous, real-time, monitoring of air quality in outdoor environments, and in harsh indoor environments. Airthinx PRO is always connected & collecting data, using built-in artificial intelligence to enable the early detection of critical events like wildfires and gas emissions.

Professional Device

  • Cutting-Edge Sensors

    A fully calibrated device that uses built-in cutting-edge sensors to accurately monitor and detect fourteen air quality parameters on-site.

  • Powerful Processor Combined With AI

    By combining Airthinx’s powerful processor with artificial intelligence, Airthinx PRO provides accurate & reliable data acquisition and analytics.

  • Standalone Connectivity

    An independent & self-sufficient connected system that utilizes 3G/4G, Wi-Fi, Bluetooth, & mesh to connect the device to the cloud, without the need for a local network.

Airthinx Sopthisticated Air Quality Device

Customizable Sensor Setup

Each Airthinx PRO includes 3 or 6 particle sensors, high-accuracy environmental sensors, a sound pressure sensor, and up to seven gas sensors of your choice. Choose the gas sensors that are right for your specific situation, and get the data you need with the quality and precision of an Airthinx solution.

Airthinx PRO fully customizable gas sensors

Smart System Operation

  • 1

    Monitoring

    The air In outdoor spaces, and harsh indoor environments, continuously travels into the Airthinx PRO where professional level sensors evaluate its quality.

  • 2

    Reporting

    Built-in connectivity enables data to be sent to the cloud wirelessly, where it is analyzed using AI & ML. The smart alerts system is triggered when risks are identified, like growing levels of toxins (natural gas, airborne chemicals, etc.) or smoke that can indicate the risk of fires.

Airthinx IAQ Sensors

Smart Data Monitoring & Analytics

Utilizing AI and Machine Learning tools Airthinx makes valuable predictive information continuously available so that users can identify events such as leaks and other environmental risks before they occur. This detailed and precise information is available at anytime, anywhere via the Airthinx console, a fully-hosted web application for end users to perform real-time monitoring and historical analysis of captured data.

Airthinx Real Time Display

Built-in Sensors

Continuous accurate & precise indoor air quality monitoring in any infrastructure with never before seen information and analytics that result in better indoor spaces, everywhere in the world.

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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 their indoor air quality score.

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Temperature

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

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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.

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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.

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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.

Custom Gas Sensors

Choose up to 6 gas sensing modules to include in your setup, fully customizable.

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VOC

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

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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.

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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.

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NOx

A group of highly reactive gases known as nitrogen oxides, formed by the burning of fuel, emissions from cars, trucks and busses, power plants, and off-road equipment.

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SOx

SO2 is the component of greatest concern and is used as the indicator for the larger group sulfur oxides (SOx). Emissions of SO2 generally also lead to the formation of other SOx.

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CO

CO is a colorless, odorless gas that can be harmful when inhaled in large amounts. The greatest sources of CO to outdoor air are cars, trucks and other vehicles or machinery that burn fossil fuels.

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O3

Ozone at ground level is a toxic air pollutant and is the main ingredient in "smog". Ground level ozone, is not emitted directly into the air, but is created by chemical reactions between oxides of nitrogen and volatile organic compounds.

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NH3

NH3 plays a primary role in the formation of secondary particulate matter. The primary source of global NH3 emissions is agriculture, which includes NH3 emissions from livestock and NH3-based fertilizer applications.

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CH4

CH4 is a key precursor gas of the harmful air pollutant, ground level ozone. The EPA lists the oil and gas industry as the largest source of methane emissions in the country, primarily through leaks from pipelines and other infrastructure.

Tech Specs

General
  • Dimensions - (LxWxD) - 4.5in (11.43cm) x 9.625in (24.45cm) x 4.5in (11.43)
  • Weight - 1.6 Lbs (0.73kg)
  • Certifications - CE, FCC
  • Accelorometer - 16g (13-bit resolution)
  • Operating Temperature - -30°C to 75°C (-22F to 167F)
  • Power - 0.6 Watt
  • Input Voltage - 5-12 VDC
Communications
  • Cellular - LTE/HSPA+/HSPA/GPRS
  • WiFi - 802.11 b/g
  • Bluetooth - Bluetooth 4.0
  • Mesh - Zigbee
  • GPS - A-GPS
  • Antenna - Built-in (GPRS, 3G, Zigbee, Bluetooth)
  • SIM Card - Built-in
Temperature Sensor
  • Range - -20-70°C
  • Resolution - 0.1 °C
  • Maximum Error - ±0.5 °C
Humidity Sensor
  • Range - 15-75 %RH
  • Resolution - 0.1 %RH
  • Maximum Error - ±2 %RH
Barometer Sensor
  • Range - 300-1100 hPa
  • Resolution - ±0.12 Pa
  • Maximum Error - ±1.3 Pa
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
SO2 Sensor
  • Effective Range - 0 - 100 ppm
  • Maximum Consistancy Error - < ±15
NO2 Sensor
  • Effective Range - 0 - 20 ppm
  • Maximum Consistancy Error -20 to -40
NO Sensor
  • Effective Range - 0 - 20 ppm
  • Maximum Consistancy Error - 0 to -20
CH2O Sensor
  • Effective Range - 0~1 mg/m3
  • Maximum Error - <5% FS
CO2 Sensor
  • Effective Range - 0 to 100% vol (Process Control)
  • Maximum Consistancy Error - ±10ppm
CO Sensor
  • Effective Range - 0 - 1000 ppm
  • Maximum Consistancy Error - < 10
O Sensor
  • Effective Range - 80 - 120
  • Maximum Consistancy Error - < 1
O3 Sensor
  • Effective Range - 0 - 20 ppm
  • Maximum Consistancy Error - < - 20 to -40
NH3 Sensor
  • Effective Range - 0 - 100 ppm
  • Maximum Consistancy Error - < 3
H2S Sensor
  • Effective Range - 0 - 100 ppm
  • Maximum Consistancy Error - < 20
tVOCs (PID) Sensor
  • Effective Range - 0 - 200 ppm
  • Maximum Consistency Error - > 0.6

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