|Temperature||Measure Range: -40-85°C|
Measure Resolution: 0.1°C
Measure Accuracy: 0.3°C
|Humidity||Measure Range: 0-100%|
Measure Resolution: 0.1%
Measure Accuracy: 2%
|VOCs||Measure Range: 0-50ppm|
Measure Resolution: 1ppb
What is a VOC sensor?
A VOC Detector measures the presence of VOCs and displays a value proportional to the amount of VOC detected, usually measured in ‘parts per million’. VOCs occur naturally and exist in most all environments. VOCs include both naturally-occurring and man-made compounds.
Can Vocs Monitoring Sensors Increase Other Gas Detections?
Yes, we have modular design internally, but we need to evaluate the development customization cycle.
How does a VOC sensor work?
An illustration of a VOC meter detecting pollutants in the surrounding air. When air enters the end of a VOC meter, a UV light interacts with the molecules in the air. … The current is measured by the PID device, which is then used by the VOC sensor to determine the type and quantity of the detected VOCs.
What VOC level is safe?
In general, the term “low VOC” describes a solvent whose VOC content is at or below 150 g/L. A solvent that has low VOC content usually isn’t as safe as one that has no VOCs.
What are VOCs and why are they dangerous?
Volatile Organic Compounds (VOCs) are extremely hazardous. The EPA explains VOCs, and the dangers they pose to our health. According to the EPA, VOCs cause eye, nose and throat irritation, frequent headaches, nausea, and can also damage the liver, kidney and central nervous system.
What is PID VOC?
Photoionization detectors (PIDs) … PIDs use ultraviolet (UV) rays to bombard gas samples and detect a broad range of VOCs such as formaldehyde, methane, and benzene, as well as hydrocarbons that typically occur in oil drilling and refining. These sensors provide an instant reading indicating whether gas is present.