Campbell CVF4 Spécifications télécharger pdf (Page 34)

CNR4 Net Radiometer

8. Troubleshooting

If there is no indication as to what may be the problem, start performing the

following "upside-down test", which is a rough test for a first diagnosis. It can

be performed both outdoors and indoors. Indoors, a lamp can be used as a

source for both short-wave and long-wave radiation. Outdoors, one should

preferably work with a solar elevation of more than 45 degrees (45 degrees

above horizon) and under stable conditions (no large changes in solar

irradiance, and preferably no clouds).

1. Measure the radiation outputs in the normal position. Record the

measured values when the signals have stabilized, i.e. after about three

minutes.

2. Rotate the instrument 180 degrees, so that the upper and the lower sensors

are now in the reverse orientation as to the previous position.

3. Measure the radiation outputs once more. Record the measured values

when the radiometers have stabilized.

4. The computed net radiation values in rotated position should be equal in

magnitude but only differing in sign. In a rough test like this, deviations

of ± 10 % can be tolerated. If deviations greater than this are encountered,

the following tests might help.

8.1 Testing the Pyranometer

As a first test, check the sensor impedance. It should have a nominal value as

indicated in the specifications. Zero, or infinite resistance, indicates a failure in

hardware connection.

Before starting the second test measurement, let the pyranometer rest for at

least five minutes to let it regain its thermal equilibrium. For testing, set a

voltmeter to its most sensitive range setting. Darken the sensor. The signal

should read zero. Bear in mind that the response takes about one minute.

Small deviations from zero are possible; this is caused by the thermal effects,

such as touching the pyranometer with your hand. This thermal effect can be

demonstrated by deliberately heating the pyranometer with your hand. If the

zero offset is within specifications, proceed with the third test.

In the third test the sensor should be exposed to light. The signal should be a

positive reading. Set the voltmeter range in such a way that the expected full-

scale output of the pyranometer is within the full-scale input range of the

voltmeter. The range can be estimated on theoretical considerations. When the

maximum expected radiation is 1500 W/m

, which is roughly equal to normal

outdoor daylight conditions, and the sensitivity of the pyranometer is 15 μV per

W/m

, the expected output range of the pyranometer is equal to 22500 μV, or

22.5 mV. One can calculate the radiation intensity by dividing the

pyranometer output as measured by the voltmeter (e.g. 22.5 mV) by the sensor

sensitivity (15 μV/W/m

). If no faults are found up to this point, your

pyranometer is probably doing fine.

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Campbell CVF4 Spécifications Page 34

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