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The SICH3Br miniature infrared methyl bromide sensor is an economical sensor using NDIR technology. It features dual-beam design, high reliability, and simultaneous voltage/serial output, widely used in chemical industries, fumigation, and laboratories.
The LD15 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 accurately detects and calculates the number of suspended particles of different sizes per unit volume in various environments. Through mathematical algorithms and scientific calibration, it achieves accurate output of PM2.5 mass concentration. The full metal shell effectively shields electromagnetic interference, providing excellent anti-interference performance.
Detects PM2.5, TVOC, CO2, HCHO, and other indicators; real-time air quality monitoring with adjustable alarm thresholds. Suitable for homes, offices, vehicles, etc.
The LD16 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 accurately detects and calculates the number of suspended particles of different sizes per unit volume in various environments. Through mathematical algorithms and scientific calibration, it achieves accurate output of PM2.5 mass concentration. The full metal shell effectively shields electromagnetic interference, providing excellent anti-interference performance.
The LD13C 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 intelligent dust source identification technology, it accurately detects and calculates the number of suspended particles of different sizes per unit volume in various environments. Through mathematical algorithms and scientific calibration, it achieves accurate output of PM2.5 mass concentration. The conductive shell effectively shields electromagnetic interference, providing excellent anti-interference performance.
LF10 is a sensor that does not require an internal fan; its driving air source comes from the host device, improving on defects caused by fans. It features a high-intensity uniform light sensing area within a scattering chamber.
The LD19-THC integrated module features high stability, fast response, and strong anti-interference. Uses UART digital interface for easy integration and stable performance.
The LD19 is a high-precision particulate matter concentration sensor based on the Laser Mie Scattering theory. It can continuously collect and calculate the number of suspended particles of different sizes in the air per unit volume—namely the particulate matter concentration distribution—and convert this into mass concentration, outputting it via a universal digital interface. This sensor can be embedded in various instruments or environmental improvement equipment related to suspended particulate concentration to provide timely and accurate data.
The MCO02 gas sensor module based on MEMS gas-sensing elements is used to test CO gas content in the ambient air. Test data is communicated via I²C and UART interfaces. The MEMS element surface can be protected with a filter membrane. The sensor module can select SMD or ribbon cable assembly as needed.
The LF12 is a sensor that does not require an internal fan; its driving air source comes from the host device, which overcomes the defects caused by fans in traditional laser sensors on the market. A high-illuminance and uniform light-sensitive area is set in the center of the scattering cavity inside the housing. A semiconductor laser generator and detector are set outside the scattering cavity. The detector is connected via an amplification circuit to a microcontroller unit that can calculate the particle diameter and quantity based on the amplification circuit’s input signals.
