AOP10 Pressure Electrochemical Trace Oxygen Sensor Analyzer Alarm For Industrial Production

Working Principle:

The AOP10 is based on the partial - pressure electrochemical principle. It uses the electrochemical reaction of oxygen at the electrode to generate a current, and the magnitude of the current is related to the oxygen concentration, so as to realize the detection of oxygen concentration.

Product Features:

• Low Detection Limit: It can detect trace oxygen concentration as low as the ppm level or even the ppb level, which is very suitable for trace oxygen analysis, such as inert gas purity detection and semiconductor manufacturing environment monitoring.
• High - Precision: With an excellent measurement accuracy of ±2%F.S., it can accurately capture small - concentration changes even in the low - concentration range, avoiding misjudgment caused by insufficient accuracy.
• Fast Response: The response time is less than 7 seconds, which ensures the real - time update and accuracy of data when the gas environment changes.
• Good Stability: It is made of noble metal materials with highly stable chemical properties, which can ensure long - term and stable signal transmission and has a long service life.
• No External Power Supply Required: It can work independently without an external power supply, which makes it easy to be deployed in various application scenarios.

Application Fields:

• Industrial Production: It is used to monitor the trace oxygen content in inert gases (such as nitrogen and argon) in the chemical, metallurgical, energy and other industries in real - time, avoiding oxidation reactions or potential safety hazards, and improving production efficiency and safety.
• Medical Field: It is used for oxygen concentration monitoring in equipment such as ventilators, anesthesia machines, and cell incubators to ensure the precise control of the medical environment or experimental conditions.
• Gas Separation: In the gas separation process of natural gas, hydrogen energy, etc., it is used to monitor the purity of the de - oxygenation or oxygen - enrichment process to ensure that the gas quality meets the industry standards.
• Scientific Research and Monitoring: It supports laboratory trace oxygen analysis, atmospheric environment monitoring and other research, providing highly reliable support for scientific research data. It can also be flexibly integrated into equipment such as oxygen analyzers, gas alarms, and online monitoring systems to provide users with a complete solution from sensors to systems.