General UVMFR-7 Frequently Asked Questions
The MFR, UVMFR, and SPUV all use new technology "Ion Assisted Deposition" interference filters. The slit width and effective center wavelength are exceptional and stable. However, while the throughput/transmission of IAD filters is far superiror compared with previous generations of optical filter technologies, we still recommend that yearly factory calibrations.
Yes. You will also need to recalibrate at the time these factory modifications are made.
You need to know whether you want spectral or broadband data, and whether you want measurements in the thermal Infrared, NIR/visible, UV-A or UV-B.
Next, decide whether you want direct-normal and/or total (global) radiation measurements.
Finally, decide if you need continuous unatended measurements of "campaign mode" measurements. In campaing mode, the instrument is kept out of inclement weather and setup for brief periods of time, such as making ground-truth measurements during a a satellite fly-by. All YES systems work well in both applications because they are weatherproof and thermally stabilized. However, other instruments (e.g. telescopes) are only suitable for campaign mode.
4. The internal operating temperature of the UVB, MFR, UVMFR, SPUV, RSS is about 45° C. Why is this?
To eliminate effects of changing ambient air temperature and solar loading, we thermally stabilize the internal optics of our instruments to above ambient temperature, between 38° C and 45° C, depending on the instrument. The exact temperature is not as important as knowing that the temperature is stable and has been stable since the most recent calibration.
Yes, at additional cost and only as long as the filters are 10 nm FWHM wide and on 10 nm increments. For the MFR-7 and SPUV, the longest practical wavelength is 1040 nm due to the silicon detector's lack of quantum efficiency beyond this. Remember that the radiometric calibration accuracy may suffer as the bandwidth increases. Beyond 40 nm wide, calibration with FEL lamps becomes a problem.
The RSS/UVRSS instruments provide continuous spectral measurements and are excellent solutions for special requirements.
Yes, but there are limitations in locations that are statistically cloudy. The UVB-1, YESDAS, MFR/UVMFR, and SPUV systems all run from DC power, but solar panels require a careful assessment of the total solar resource available at your site. The minimum number of available sunlight hours (shortest day of the year), along with the worst case total power (duty cycle) determines a PV or wind system size.
There are vendors who can provide turnkey solar power installations, or you could build this yourself. The solar cells are connected to a battery bank via a "charge control module", and the battery line is run to your instruments via YESDAS-2's battery connection. One such vendor is www.northerntool.com which is a good place to look for these components.
We have been careful to try to design all systems to run form DC power. However, some instruments such as the TSI and RSS require so much power (i.e. hundreds of watts) that running them off-grid is impractical. In these cases a small propane gas or diesel generator starts to make economic sense v.s large banks of solar panels.
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