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CNR4 Net Radiometer

7.1 Using the CNR4 in the Four Separate Components Mode

In the four separate components mode configuration (measuring two short-

wave radiation signals and two long-wave signals), all signals are measured

separately. Calculation of net-radiation and albedo can be done online by the

datalogger, or offline by the user during post-processing, using the stored raw

data.

The two pyranometers will measure the short-wave radiation, both incoming

and reflected. The two pyrgeometers will measure the long-wave radiation.

For proper analysis of the pyrgeometer measurement results, they must be

temperature corrected using the temperature measurement performed by the

onboard thermistor or Pt-100 sensor.

7.1.1 Measuring Short-wave Solar Radiation with Pyranometer

The pyranometer generates an mV signal that is simply proportional to the

incoming short-wave radiation. The conversion factor between voltage, V, and

W/m

of solar irradiance E, is the calibration constant C or sensitivity

(Equation 7-1).

For each pyranometer,

E = V/C (7-1)

Measuring with a pyranometer can be done by connecting two pyranometer

wires to a datalogger. Incidental light results in a positive signal. The

pyranometer mounting plate and ambient air should be at the same

temperature. Conversion of the voltage to irradiance can be done according to

Equation 7-1, and is computed by the datalogger program.

With the upward-facing pyranometer, the global (solar) downwelling radiation

is measured. The downward-facing pyranometer measures the reflected

upwelling solar radiation. When calculating the net radiation, the upwelling

radiation must be subtracted from the downwelling radiation. See Section

7.1.5, Calculation of Net Short-wave Radiation.

7.1.2 Measuring Long-wave Far Infrared Radiation with Pyrgeometer

When using the pyrgeometer, you should realize the signal generated by the

pyrgeometer represents the exchange of long-wave far infrared (thermal)

radiation between the pyrgeometer and the object that it is facing. This implies

that the pyrgeometer will generate a positive voltage output, V, when it faces

an object that is hotter than its own sensor housing, and that it will give a

negative voltage signal when it faces an object that is colder. Therefore, when

estimating the far infrared radiation that is generated by the object facing the

pyrgeometer, usually the sky or the soil, you will have to take the pyrgeometer

temperature, T, into account. This is why the temperature sensors are

incorporated in the CNR4’s body near the pyrgeometer sensing element, and

has, therefore, the same temperature as the pyrgeometer sensor surface. The

calculation of the long-wave far infrared irradiance, E, is done according to

Equation 7-2.

For the pyrgeometer only

E = V/C + 5.67•10

-8

•T

(7-2)