Pigeon V Oxygen Analyzer
Detection is performed based on the relationship between the propagation speed of ultrasonic waves in gas and oxygen concentration as well as flow rate. When the oxygen concentration or flow rate in the gas changes, the propagation speed of ultrasonic waves will change accordingly. The instrument calculates the oxygen concentration and flow rate by measuring such changes.
Base Unit Specifications
Detected Gas Types: Air / Air-Oxygen mixture
Oxygen Concentration Detection
Range: 0~100%
Resolution:1%
Accuracy: ±3% FS (FS = Full Scale) @ (5~45)°C; 0~95% RH (non-condensing)
Flow Rate Detection
Range: 0~240 L/min
Resolution:1 L/min
Accuracy:<30 L/min: ±1 L/min @ (5~45)°C; 0~95% RH (non-condensing)
≥30 L/min: ±3.5% of Reading @ (5~45)°C; 0~95% RH (non-condensing)
Response Time: ≤1 second
Operating Environment Requirements:
Temperature: 5~55°C
Humidity: 0~95% RH (non-condensing)
Storage Environment Requirements:
Temperature: -20~+70°C
Humidity: 0~95% RH (non-condensing)
Battery Type:
Rechargeable lithium battery (3.7V, 5200mAh), charging current ≤1000mA
External Charging Interface:
Interface Type: Type-C
Charging Adapter Parameters:
5V 2A
Sensor Specifications
Type:Ultrasonic Oxygen Sensor (0-100%)
Life:5 years in typical application
Application Fields
+Medical Field: It is used in places such as intensive care units, respiratory wards, and operating rooms in hospitals to monitor the oxygen concentration and flow rate when patients inhale oxygen, ensuring the safety and effectiveness of oxygen therapy.
+Home Oxygen Therapy: Patients and their families can use portable oxygen concentration and flow monitors to keep abreast of the effects of oxygen therapy at any time and protect their own health.
+Industrial Field: In industries such as chemical engineering, metallurgy, and electric power, it is necessary to monitor oxygen concentration and flow in scenarios involving combustion processes and chemical reactions. This helps optimize production processes, improve energy utilization efficiency, and prevent safety accidents such as explosions.
+Scientific Research Field: When conducting oxygen-related scientific research in laboratories, it is essential to accurately monitor oxygen concentration and flow to provide precise data support for experiments.
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