Designed for the most demanding industrial conditions, the 060 Series temperature probes are precision devices that accurately measure ambient air temperature in weather monitoring applications. These sensors respond quickly to rapid changes in environmental conditions and are designed for reliable, continuous operation.
The Model 064 uses the same sensing network as the Model 060, but is configured to mount directly to the Model 073B or 5980 Radiation Shield. The sensor is supplied with a screw-type connector which connects directly to the signal cable.
The Met One 063 Temperature Sensor is a device that precisely measures air, water and soil temperature over extended ranges. The thermistor sensor is encapsulated in a silicone oil-filled stainless steel jacket that is particularly well suited for field applications, as it exhibits high resistance sensitivity. This eliminates problems associated with line lead length, noisy environ- ments and poor connections.
083E Relative Humidity Sensor
The 083E Relative Humidity Sensor is a highly sensitive and stable temperature measurement tool that provides outstanding accuracy. It is reliable in the full range of relative humidity conditions, from 0-100%, performing equally well in meteorological, industrial, laboratory and other demanding settings. This model is also available with a mounted temperature sensor and can be used with a variety of radiation shields.
076B Fan Aspirated Radiation Shield
This motor aspirated radiation shield is currently employed in the most comprehensive temp monitoring network in the world. 076B shields can be used with up to four T/RH probes and are available for use with 110/220 VAC and 12VDC power sources. These shields are commonly used for Delta-T measurements and are deployed around the world by NOAA and leading research organizations.
Met One Radiation Shields reduce errors in temperature and relative humidity measurements that are caused by direct solar radiation. They are constructed of a series of white aluminum concentric plates, which allow air flow to pass through the shield, while blocking direct solar rays. This shielding minimizes the effects of solar and terrestrial radiation and provides accurate measurements.