DO128
Dornier 128-6

This data will be added in future versions.

This data will be added in future versions

This data will be added in future versions

A pyrometer is an instrument that measures temperature remotely, i.e. by measuring radiation from the object, without having to be in contact. The KT11 Infrared Radiation Pyrometer provides temperature measurements in the range of -30 to 500 Celsius by intercepting incoming infrared radiation emitted by surfaces. The high stability and noise suppression of the instrument allows for high response times of readings as well as the capability of temperature measurements of small objects. The KT-19II infrared pyrometer was manufactured by Heitronics, and sees a spectrum of 8-12um. The KT-19 is a radiometer that measures the brightness temperature of the surface beneath the aircraft. The KT-19 instrument can estimate the surface temperature by knowing the emissivity of the target. The response time is adjustable from 5 msec, to monitor and control extremely short production cycles, up to 10 minutes, to integrate measurements in long-term thermal processes with an extremely high resolution.

This data will be added in future versions.

The Lyman-alpha Hygrometer measures the absorption by water vapor of vacuum-ultraviolet light at the Lyman-alpha wavelength of atomic hydrogen (121.6 nm). Air from outside the aircraft is brought to the absorption cell by a forward facing open-ended cone inlet (SCAI inlet) and exhausted through a scarf tube. The instrument ionizes the water molecules themselves as they pass through. Using a high intensity direct current discharge lamp, light at 121.6nm (called Lyman-alpha light) photodissociates water molecules producing excited OH radicals. Fluorescence is produced as the OH radical emits photons at 309nm. Making use of a phototube sensitive to this wavelength and a counter, the amount of OH can be calculated. The ambient air in the sample diminishes this signal by an amount proportional to the mixing ratio, so knowing the ambient pressure and temperature yields the mixing ratio from which the total water is determined. The instrument is periodically calibrated in flight by injecting a known amount of water vapor directly into the sample.

The Picarro gas concentration analyzer is an in situ airborne or ground-based sensor manufactured by Picarro, Inc. It uses Wavelength-Scanned-Cavity Ring Spectroscopy (WS-CRDS) to measure trace gases such as carbon dioxide, carbon monoxide, methane, and water vapor. For carbon dioxide measurements, the laser within Picarro operates at 1603 nm wavelength and 1651 nm wavelength for methane and water vapor measurements. Picarro has a typical sampling time of 2.5 seconds. Depending on the model, Picarro can also provide measurements of carbon isotopes for gas concentrations.

If instrument model information is not available, can use this instrument entry for temperature, pressues, wind speed, wind direction, humidity

The CG 4 Pyrgeometer was designed for meteorological use to detect downward far-infrared (4.5 - 42 µm) radiation at the surface. The CG 4 is able to provide a voltage within its dome-shaped, 180 degree field of view that is proportional to the net radiation it measures in the far-infrared range that has a low sensitivity to temperature. Output from the instrument can be provided in under eight seconds.