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The LD10 laser dust sensor series is a high-temperature resistant, long-life laser dust sensor. Based on optical scattering and LUFTMY's unique dust source identification technology, it accurately detects particle counts across sizes in unit volumes. It outputs accurate PM2.5 concentrations via mathematical algorithms and scientific calibration. The conductive shell effectively shields electromagnetic interference.
The LD09 series is a high-temperature resistant, long-life, ultra-thin laser dust sensor. Based on the principle of optical scattering and combined with LUFTMY's unique dust source intelligent identification technology, it can accurately detect and calculate the number of particles of different sizes in a unit volume across various environments. Through mathematical algorithms and scientific calibration, it achieves accurate PM2.5 mass concentration output. The full metal shell effectively shields electromagnetic interference.
The LD11 series is a high-temperature resistant, long-life, ultra-thin laser dust sensor. Based on the principle of optical scattering and combined with LUFTMY's unique dust source intelligent identification technology, it can accurately detect and calculate the number of particles of different sizes in a unit volume across various environments. Through mathematical algorithms and scientific calibration, it achieves accurate PM2.5 mass concentration output. The full metal shell effectively shields electromagnetic interference, providing excellent anti-interference performance.
LD12 series is a high-temperature resistant, long-life laser dust sensor. Based on optical scattering and Luftmy's unique dust source identification technology, it accurately calculates suspended particles of different sizes.
The CO208 dual-channel infrared carbon dioxide sensor is a dual-channel NDIR sensor. The development of the dual-channel technology is based on the unique absorption characteristics of CO₂ gas. The signal of the measurement channel varies with changes in CO₂ concentration, while the signal of the reference channel is affected only by sensor drift. The reference channel performs real-time compensation for the measurement channel, ensuring stable and reliable measurements during long-term operation.
The MTHO3A1 temperature and humidity sensor module, based on a MEMS gas-sensing element, is used to measure ambient temperature and humidity as well as the concentration of harmful substances in the air. Measurement data are transmitted via I²C or UART interfaces. The surface of the MEMS gas-sensing element can be protected with a filter membrane, and the air quality sensor module can be assembled using either a plug-in board or SMT mounting, depending on requirements.
The semiconductor LD-VOC series air quality module uses advanced semiconductor gas-sensing elements.
This sensor features extremely high sensitivity to volatile organic gases such as formaldehyde, benzene, carbon monoxide, ammonia, hydrogen, alcohol, and cigarette smoke.
After aging, tuning, and calibration, the module delivers **excellent consistency and very high sensitivity.
The MTHO3A module based on MEMS gas-sensing elements is used to test ambient temperature, humidity, and harmful substance content in the air. Test data is communicated via I²C or UART interface. The MEMS element surface can be protected with a filter membrane. The air quality sensor module can select plug-in or SMT assembly as needed.
The semiconductor LD-VOC series air quality module adopts advanced semiconductor gas-sensing elements. This sensor has extremely high sensitivity to organic volatile gases such as formaldehyde, benzene, carbon monoxide, ammonia, hydrogen, alcohol, and cigarette smoke. The module is aged, debugged, and calibrated, featuring excellent consistency and high sensitivity.
The electrochemical HCHO01 formaldehyde sensor uses a dual-channel structure and unique electrolyte packaging. It outputs HCHO, VOC, and TVOC simultaneously with built-in digital temp/humidity sensors.
