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E-mail
18901108693@189.cn
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Phone
18901108693
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Address
Room 1206, CRD Ginza, No. 2 Zhengda Road, Shijingshan District, Beijing
Product Categories
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Beijing Eisentec Technology Co., Ltd
Laboratory odor detector
NegotiableUpdate on 02/09
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Overview
Lab408 Laboratory Odor Detector is a device designed specifically for laboratory environments to accurately detect and analyze sampled gas samples, especially odorous gases such as hydrogen sulfide, ammonia, volatile organic compounds (VOCs).
Product Details
1. Definition and core functions
Lab408Laboratory odor detectorIt is a device designed specifically for laboratory environments, used for precise detection and analysis of sampled gas samples, especially odorous gases such as hydrogen sulfide, ammonia, volatile organic compounds (VOCs), etc. Its core functions include:
Multi gas synchronous detection: supports multiple odorous gases (such as H ₂ S, NH ∝, etc.) TVOC、 Real time concentration monitoring of odors such as OU.
High precision measurement: using imported sensors (such as electrochemistry, PID photoionization, MOS semiconductor, etc.), the detection accuracy reaches ppb level.
Data recording and analysis: supports data storage, USB export, remote transmission, and pollution trend analysis.
Anti interference capability: Adapt to complex experimental environments through multi-sensor fusion algorithms and cross interference compensation technology.
2. Technical principles
(1) Sensor technology
Micro electromechanical system metal oxide sensor (MEMS-MOS): sensitive to complex gases such as odor (OU).
Electrochemical sensor: suitable for detecting gases such as hydrogen sulfide (H ₂ S) and ammonia (NH ∝), with high sensitivity and stability.
PID photoionization detector: for detecting volatile organic compounds (VOCs), it can identify trace gases at the ppb level.
Semiconductor sensors: fast response, suitable for broad-spectrum gas detection, with algorithm correction for cross interference.
(2) Data processing technology
Pattern recognition algorithm: using multi-sensor arrays and AI algorithms (such as neural networks) to analyze gas composition, similar to the "electronic nose" technology of the human olfactory system.
Temperature and humidity compensation: The built-in sensor automatically corrects the impact of environmental temperature and humidity on the detection results, ensuring the consistency of experimental data.
3. Technical advantages
(1) Miniaturization and Intelligence
-MEMS sensors drive device volume reduction, making it easier to integrate into experimental instruments.
-AI algorithms enhance data processing capabilities and support automatic fault diagnosis and predictive maintenance.
(2) Multi functional integration
-Realize precise qualitative analysis of gas composition.
-Integrate Internet of Things (IoT) modules to build a laboratory environment monitoring network.
Lab408Laboratory odor detectorIt is a key tool for ensuring experimental safety, optimizing environmental control, and obtaining accurate data. Its high precision, intelligence, and multifunctional integration will be more deeply integrated into laboratory automation and green research systems. When selecting equipment, it is necessary to match the sensor type, detection accuracy, and extended functions according to the experimental scenario.
