- 5×
Indoor air can be 2 - 5× more polluted than outdoors, even in modern homes and cities.
- 91%
91% of the world breathes air above WHO safety limits.
-
AnapNeo allows up to 5 devices to connect simultaneously via Wi-Fi
-
Fine particles PM1.0 can penetrate deep into lungs and bloodstream.
- 50%
Ventilation can reduce CO₂ and PM levels by up to 50% in minutes, improving comfort and focus.
- 3.8M
Indoor air pollution contributes to millions of deaths annually - air monitoring gives you control and peace of mind.
- Particulate Matter (PM1.0 · PM2.5 · PM10)PM2.5 and PM10 particles are small enough to be inhaled and are strongly associated with respiratory and cardiovascular issues.
Common sources include:- Household dust
- Smoke and combustion byproducts
- Pollen and outdoor pollution
Typical sources include:- Traffic emissions
- Industrial pollution
- High-temperature combustion
- TVOC & eCO₂TVOC (Total Volatile Organic Compounds) represent a broad range of airborne chemicals emitted by everyday products such as cleaning agents, paints, and furnishings. Elevated TVOC levels may cause discomfort and contribute to long-term health effects.
eCO₂ (Equivalent CO₂) is a calculated value that estimates indoor air freshness based on human occupancy and ventilation efficiency. - Temperature & Relative HumidityThese measurements help assess overall thermal comfort and indoor environmental quality.
- High humidity can promote mold growth
- Low humidity may cause dryness and discomfort
- Temperature plays a key role in maintaining a comfortable indoor environment
- Air Quality Index (AQI)The Air Quality Index (AQI) is a synthesized, easy-to-understand score that combines data from all sensors into a single, color-coded overview of indoor air quality — ranging from Green (Good) to Red (Hazardous).
Our laser-based particle sensor continuously detects microscopic solid and liquid particles suspended in the air with high precision, providing reliable insight into indoor particulate pollution.
Complete Particulate Matter Coverage
Devices that rely only on TVOC and CO₂ measurements cannot provide a complete picture of indoor air quality. Without direct measurement of PM1.0, PM2.5, and PM10, significant health risks—particularly from fine and ultrafine particles—may go unnoticed.
Why Laser-Based PM Sensors Matter
Accurate particulate monitoring requires laser-based detection. Infrared-based particle sensors typically show greater deviation from real-world concentrations, increasing the risk of inaccurate or misleading readings.
To monitor indoor air safely and effectively, a device should directly measure all key particulate sizes (PM1.0, PM2.5, and PM10) using laser-based sensing, rather than relying on indirect estimation or low-cost infrared alternatives.
When PM Measurement May Be Less Critical
A device without a dedicated laser-based PM sensor may only be suitable in environments that are consistently free from common particulate sources, such as:
- Household dust
- Smoke or combustion byproducts
- Pollen and outdoor pollution
In most real-world indoor environments, however, direct particulate measurement remains essential for meaningful air-quality assessment.
