Data Quality Reports for Session: 126996 User: jzb Completed: 03/25/2010

TABLE OF CONTENTS

DQR IDSubjectData Streams Affected
D011213.1SGP/SIRS - reprocess: truncated first recordssgpsirsE1.01, sgpsirsE10.01, sgpsirsE2.01, sgpsirsE3.01, sgpsirsE4.01, sgpsirsE5.01,
sgpsirsE6.01, sgpsirsE7.01, sgpsirsE8.01, sgpsirsE9.01
D970927.1SIRS NIPs affected by condensation at E8, E11, E13, & E15sgpsirsE11.a1, sgpsirsE13.a1, sgpsirsE15.a1, sgpsirsE8.a1
D980224.1Reference Broadband Shortwave Data at SGP Central Cluster during Fall IOP '97sgpbsrnC1.00, sgpbsrnC1.a0, sgpbsrnC1.a1, sgpsirosE13.00, sgpsirosE13.a1, sgpsirsE13.a0,
sgpsirsE13.a1


DQRID : D011213.1
Start DateStart TimeEnd DateEnd Time
11/21/1998000012/10/19982359
Subject:
SGP/SIRS - reprocess: truncated first records
DataStreams:sgpsirsE1.01, sgpsirsE10.01, sgpsirsE2.01, sgpsirsE3.01, sgpsirsE4.01, sgpsirsE5.01,
sgpsirsE6.01, sgpsirsE7.01, sgpsirsE8.01, sgpsirsE9.01
Description:
The following data files contain data from 1998 but
were originally archived with file names with dates
years into the future.  The files were renamed per 
P011213.1-P011213.10, but the cause of the misnaming 
(truncated first records) was not fixed.

sgpsirsE1.01.981125.000000.raw.9811252359.sneak.v0
sgpsirsE1.01.981127.000000.raw.9811272359.sneak.v0
sgpsirsE1.01.981128.000000.raw.9811282359.sneak.v0
sgpsirsE1.01.981130.000000.raw.9811302359.sneak.v0
sgpsirsE1.01.981201.000000.raw.9812012359.sneak.v0
sgpsirsE1.01.981204.000000.raw.9812042359.sneak.v0
sgpsirsE1.01.981205.000000.raw.9812052359.sneak.v0
sgpsirsE2.01.981125.000000.raw.9811250536.sneak.v0
sgpsirsE2.01.981201.000000.raw.9812012359.sneak.v0
sgpsirsE2.01.981202.000000.raw.9812022359.sneak.v0
sgpsirsE2.01.981205.000000.raw.9812052359.sneak.v0
sgpsirsE3.01.981126.000000.raw.9811262359.sneak.v0
sgpsirsE3.01.981128.000000.raw.9811282359.sneak.v0
sgpsirsE3.01.981129.000000.raw.9811292359.sneak.v0
sgpsirsE3.01.981130.000000.raw.9811302359.sneak.v0
sgpsirsE3.01.981201.000000.raw.9812012359.sneak.v0
sgpsirsE3.01.981203.000000.raw.9812032359.sneak.v0
sgpsirsE3.01.981204.000000.raw.9812042359.sneak.v0
sgpsirsE3.01.981208.000000.raw.9812082359.sneak.v0
sgpsirsE4.01.981126.000000.raw.9811262359.sneak.v0
sgpsirsE4.01.981127.000000.raw.9811272359.sneak.v0
sgpsirsE4.01.981129.000000.raw.9811292359.sneak.v0
sgpsirsE4.01.981201.000000.raw.9812012359.sneak.v0
sgpsirsE4.01.981202.000000.raw.9812022359.sneak.v0
sgpsirsE4.01.981204.000000.raw.9812042359.sneak.v0
sgpsirsE4.01.981208.000000.raw.9812082359.sneak.v0
sgpsirsE5.01.981126.000000.raw.9811262359.sneak.v0
sgpsirsE5.01.981201.000000.raw.9812012359.sneak.v0
sgpsirsE5.01.981202.000000.raw.9812022359.sneak.v0
sgpsirsE5.01.981205.000000.raw.9812052359.sneak.v0
sgpsirsE5.01.981206.000000.raw.9812062359.sneak.v0
sgpsirsE6.01.981127.000000.raw.9811272359.sneak.v0
sgpsirsE6.01.981129.000000.raw.9811292359.sneak.v0
sgpsirsE6.01.981202.000000.raw.8911010456.sneak.v0
sgpsirsE6.01.981203.000000.raw.9812032359.sneak.v0
sgpsirsE6.01.981204.000000.raw.9812042359.sneak.v0
sgpsirsE7.01.981201.000000.raw.9812012359.sneak.v0
sgpsirsE7.01.981202.000000.raw.9812022359.sneak.v0
sgpsirsE7.01.981204.000000.raw.9812042359.sneak.v0
sgpsirsE7.01.981205.000000.raw.9812052359.sneak.v0
sgpsirsE7.01.981206.000000.raw.9812062359.sneak.v0
sgpsirsE7.01.981207.000000.raw.9812072359.sneak.v0
sgpsirsE8.01.981127.000000.raw.9811272359.sneak.v0
sgpsirsE8.01.981129.000000.raw.9811292359.sneak.v0
sgpsirsE8.01.981130.000000.raw.9811302359.sneak.v0
sgpsirsE8.01.981203.000000.raw.9812032359.sneak.v0
sgpsirsE8.01.981205.000000.raw.9812052359.sneak.v0
sgpsirsE9.01.981126.000000.raw.9811262359.sneak.v0
sgpsirsE9.01.981201.000000.raw.9812012359.sneak.v0
sgpsirsE9.01.981203.000000.raw.9812032359.sneak.v0
sgpsirsE9.01.981204.000000.raw.9812042359.sneak.v0
sgpsirsE9.01.981205.000000.raw.9812052359.sneak.v0
sgpsirsE9.01.981210.000000.raw.9812102359.sneak.v0
sgpsirsE10.01.981121.000000.raw.9811212359.sneak.v0
sgpsirsE10.01.981123.000000.raw.9811232359.sneak.v0
sgpsirsE10.01.981126.000000.raw.9811262359.sneak.v0
sgpsirsE10.01.981202.000000.raw.9812022359.sneak.v0
Measurements:sgpsirsE9.01:
  • null(Raw data stream - documentation not supported)
sgpsirsE4.01:
  • null(Raw data stream - documentation not supported)
sgpsirsE3.01:
  • null(Raw data stream - documentation not supported)
sgpsirsE6.01:
  • null(Raw data stream - documentation not supported)
sgpsirsE8.01:
  • null(Raw data stream - documentation not supported)
sgpsirsE5.01:
  • null(Raw data stream - documentation not supported)
sgpsirsE1.01:
  • null(Raw data stream - documentation not supported)
sgpsirsE10.01:
  • null(Raw data stream - documentation not supported)
sgpsirsE2.01:
  • null(Raw data stream - documentation not supported)
sgpsirsE7.01:
  • null(Raw data stream - documentation not supported)

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DQRID : D970927.1
Start DateStart TimeEnd DateEnd Time
09/26/1997123009/26/19971415
09/26/1997123009/26/19971330
09/26/1997123009/26/19971345
Subject:
SIRS NIPs affected by condensation at E8, E11, E13, & E15
DataStreams:sgpsirsE11.a1, sgpsirsE13.a1, sgpsirsE15.a1, sgpsirsE8.a1
Description:
Comparison of data from the unshaded PSP to that derived from the 'direct
+ diffuse' (NIP + shaded PSP) indicated low values of the 'direct+diffuse' combination 
starting at sunrise and lasting for about an hour at E8, E11, E13 and E15.
Futher examination revealed that the NIPs were reading low and were likely
affected by condensation during this brief period. Weather conditions were
foggy over the area early that morning, and fog quickly dissipated after 
sunrise.
Measurements:sgpsirsE15.a1:
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Minima(short_direct_normal_min)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Maxima(short_direct_normal_max)
  • Shortwave Direct Normal Irradiance, Pyrgeometer(short_direct_normal)
sgpsirsE11.a1:
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Maxima(short_direct_normal_max)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Minima(short_direct_normal_min)
  • Shortwave Direct Normal Irradiance, Pyrgeometer(short_direct_normal)
sgpsirsE8.a1:
  • Shortwave Direct Normal Irradiance, Pyrgeometer(short_direct_normal)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Minima(short_direct_normal_min)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Maxima(short_direct_normal_max)
sgpsirsE13.a1:
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Minima(short_direct_normal_min)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Maxima(short_direct_normal_max)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
  • Shortwave Direct Normal Irradiance, Pyrgeometer(short_direct_normal)

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DQRID : D980224.1
Start DateStart TimeEnd DateEnd Time
09/17/1997000010/03/19972359
Subject:
Reference Broadband Shortwave Data at SGP Central Cluster during Fall IOP '97
DataStreams:sgpbsrnC1.00, sgpbsrnC1.a0, sgpbsrnC1.a1, sgpsirosE13.00, sgpsirosE13.a1, sgpsirsE13.a0,
sgpsirsE13.a1
Description:
This is a recommendation for the best available broadband shortwave data from the SGP 
Central Cluster (Lamont, OK) during the Combined Fall IOP, 15 Sept - 5 Oct 1997.

Data available from the SGP Radiometer Calibration Facility (RCF) has lower measurement 
uncertainties than similar measurements from the C1, E-13, and BSRN/BRS platforms.

The RCF data were collected using the same Broadband Outdoor Radiometer CALibration 
(BORCAL) system used for routine calibration of pyranometers and pyrheliometers at the RCF.  
The data are available for 30-second interval.  
Direct normal irradiance measurements from a windowed RCF Absolute Cavity Radiometer 
during the IOP is considered more accurate (+/- 0.5%) than the Normal Incidence Pyrheliometers 
(NIP) at the Central Cluster (+/- 2%).
The Automated Hickey-Frieden cavity radiometer is electrically self-calibrating and 
provides reference standard data suitable for the calibration of the NIPs used at all the CART 
sites.

Diffuse horizontal irradiance is available as the average of two Eppley Precision Spectral 
Pyranometers and is considered slightly more accurate than the downwelling diffuse (DD) 
data from the Central Cluster instruments.
The RCF data will have periodic gaps during the electrical calibration intervals (about 
6-10 minutes, 4 or 5 times per day).
The reference global horizontal (or Downwelling Shortwave - DS) has been computed from the 
measured direct normal and diffuse components:
DS = NIP x Cos(Z) + DD,
where, Z = solar zenith angle.

All RCF data collected during the IOP are on the ARM IOP Web page 
(iop.archive.arm.gov/arm-iop). 
with other data from the Fall97 shortwave IOP.

Additional corrections to the diffuse data may be possible after researching PSP nighttime 
offsets.

Data from C1, E-13, and BSRN/BRS platforms during the SW-IOP '97 are still being 
investigated.
Measurements:sgpsirosE13.a1:
  • Downwelling Longwave Diffuse Hemispheric Irradiance, Ventilated Pyrgeometer(down_long_diffuse_hemisp)
  • Direct Normal Irradiance, Uncalibrated Silicon Detector, NIMFR(direct_norm_broadband)
  • Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
  • Upwelling (10 meter) Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
  • Ventilated Pyrgeometer Case Temperature(down_long_case_temp)
  • Ventilated Pyrgeometer Dome Temperature(down_long_dome_temp)
  • Direct Normal Irradiance, NIMFR(direct_norm_narrowband)
  • Hemispheric Irradiance, MFRSR(hemisp_broadband)
  • Diffuse Hemispheric Broadband Irradiance (Approximate), MFRSR(diffuse_hemisp_broadband)
  • Hemispheric Irradiance, MFRSR(hemisp_narrowband)
  • Diffuse Hemispheric Irradiance, MFRSR(diffuse_hemisp_narrowband)
  • Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
  • Shortwave Direct Normal Irradiance, Pyrgeometer(short_direct_normal)
  • Down-welling unshaded pyranometer voltage(down_short_hemisp)
sgpbsrnC1.00:
  • null(Raw data stream - documentation not supported)
sgpbsrnC1.a1:
  • Pyrheliometer voltage(nip)
  • Downwelling hemispheric infrared irradiance(psig)
  • CALCULATED downwelling hemispheric diffuse solar irradiance(psp1)
  • Observed downwelling hemispheric total solar irradiance (direct+diffuse)(psp2)
sgpbsrnC1.a0:
  • Standard deviation for unshaded pyranometer(spsp2)
  • Standard deviation for shaded pyranometer(spsp1)
  • Standard deviation for pyrheliometer(snip)
  • Standard deviation for pyrgeometer thermopile(ssig)
  • Pyrheliometer voltage(nip)
  • CALCULATED downwelling hemispheric diffuse solar irradiance(psp1)
  • Downwelling hemispheric infrared irradiance(psig)
sgpsirosE13.00:
  • null(Raw data stream - documentation not supported)
sgpsirsE13.a0:
  • Down-welling unshaded pyranometer voltage(down_short_hemisp)
  • Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
  • Shaded pyranometer voltage(short_diffuse)
  • Down-welling pyrgeometer thermopile voltage(down_long_hemisp)
  • Upwelling (10 meter) Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
sgpsirsE13.a1:
  • Upwelling (10 meter) Longwave Hemispheric Irradiance, Pyrgeometer, Standard
    Deviation(up_long_hemisp_std)
  • Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Standard Deviation(down_short_diffuse_hemisp_std)
  • Upwelling (10 meter) Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
  • Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyranometer, Minima(down_short_hemisp_min)
  • Down-welling unshaded pyranometer voltage(down_short_hemisp)
  • Down-welling pyrgeometer thermopile voltage(down_long_hemisp)
  • Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
  • Upwelling (10 meter) Longwave Hemispheric Irradiance, Pyrgeometer, Maxima(up_long_hemisp_max)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
  • Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer,
    Maxima(down_short_diffuse_hemisp_max)
  • Downwelling Longwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
    Deviation(down_long_hemisp_std)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Maxima(short_direct_normal_max)
  • Upwelling (10 meter) Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
  • Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Standard
    Deviation(up_short_hemisp_std)
  • Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Minima(up_short_hemisp_min)
  • Shortwave Direct Normal Irradiance, Pyrgeometer(short_direct_normal)
  • Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer,
    Minima(down_short_diffuse_hemisp_min)
  • Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyranometer, Maxima(down_short_hemisp_max)
  • Shortwave Direct Normal Irradiance, Pyrgeometer, Minima(short_direct_normal_min)
  • Downwelling Longwave Hemispheric Irradiance, Ventilated Pyrgeometer, Maxima(down_long_hemisp_max)
  • Downwelling Longwave Hemispheric Irradiance, Ventilated Pyrgeometer, Minima(down_long_hemisp_min)
  • Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
  • Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
  • Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyranometer, Standard
    Deviation(down_short_hemisp_std)

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END OF DATA