Apogee Instruments SQ-640-SS Manuel du propriétaire - Page 14

Parcourez en ligne ou téléchargez le pdf Manuel du propriétaire pour {nom_de_la_catégorie} Apogee Instruments SQ-640-SS. Apogee Instruments SQ-640-SS 16 pages. Quantum light pollution sensor

Apogee Instruments SQ-640-SS Manuel du propriétaire

TROUBLESHOOTING AND CUSTOMER SUPPORT

Independent Verification of Functionality
Apogee SQ-640 Quantum Light Pollution Sensors are self-powered devices and output an analog signal
proportional to incident photon flux density for the 340-1040 nm wavelength range. A quick and easy check of
sensor functionality can be determined using a voltmeter with millivolt resolution. Connect the positive lead wire
from the voltmeter to the white wire from the sensor and the negative (or common) lead wire from the voltmeter
to the black wire from the sensor. Direct the sensor head toward a light source and verify the sensor provides a
signal. Increase and decrease the distance from the sensor head to the light source to verify that the signal
changes proportionally (decreasing signal with increasing distance and increasing signal with decreasing distance).
Blocking all radiation from the sensor should force the sensor signal to zero.
Compatible Measurement Devices (Dataloggers/Controllers/Meters)
-2
-1
SQ-640 Quantum Light Pollution Sensors are calibrated with a standard calibration factor of 1 µmol m
s
per mV,
-2
-1
yielding a sensitivity of 1 mV per µmol m
s
. Thus, a compatible measurement device (e.g., datalogger or
-2
controller) should have resolution of at least 1 mV in order to provide photon flux density resolution of 1 µmol m
-1
-2
-1
s
and resolution of at least 0.1 mV in order provide photon flux density resolution of 0.1 µmol m
s
.
An example datalogger program for Campbell Scientific dataloggers can be found on the Apogee webpage at
https://www.apogeeinstruments.com/downloads/#datalogger.
Cable Length
When the sensor is connected to a measurement device with high input impedance, sensor output signals are not
changed by shortening the cable or splicing on additional cable in the field. Tests have shown that if the input
impedance of the measurements device is greater than 1 mega-ohm there is negligible effect on the calibration,
even after adding up to 100 m of cable. All Apogee sensors use shielded, twisted pair cable to minimize
electromagnetic interference. For best measurements, the shield wire must be connected to an earth ground. This
is particularly important when using the sensor with long lead lengths in electromagnetically noisy environments.
Modifying Cable Length
See Apogee webpage for details on how to extend sensor cable length:
(http://www.apogeeinstruments.com/how-to-make-a-weatherproof-cable-splice/).