OMEGACAM: Detector monitoring
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| HC PLOTS |
| gain |
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| deviation from linearity |
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| number of non-linear pixels CCDs |
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| linearity min/max |
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| fixed-pattern noise |
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QC1 database (advanced users):
browse |
plot
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The OmegaCAM linearity/gain template is normally taken every
10 days and consists of 20 dome flat images taken in pairs of 2,
5, 7, 10, 20, 30, 40, 50, 60, and 70 second exposures and two
bias frame exposures. The template MUST be executed in the
v_STRM filter, since using the Sloan filters would result in the
long exposures saturating (e.g. in z_SDSS the dome flat will
saturate in 4.0 seconds).
The OmegaCAM gain is derived for the full flux range. By plotting
the mean_flux[on_1] + mean_flux[on_2] - (mean_flux[off_1] +
mean_flux[off_2]) vs the variance (sigma^2[on] - sigma^2[off]) for
each dome flat exposure pair, a linear fit to the data (green line)
gives the inverse (1/gain) value.
The pipeline creates seven output frames from an external detector
monitoring recipe (detmon_opt_lg): a gain parameter fits table
(OC_PDGI_<DATE>_1_1_normal_normal_<FILTER>.fits), a linearity
parameter fits table (OC_PDLI_<DATE>_1_1_normal_normal_<FILTER>.fits),
an image map of non-linear pixels
(OC_PDNL_<DATE>_1_1_normal_normal_<FILTER>.fits), and three further
images of the linearity coefficients
(OC_PDC0_<DATE>_1_1_normal_normal_<FILTER>.fits,
OC_PDC1_<DATE>_1_1_normal_normal_<FILTER>.fits, OC_PDC2_<DATE>_1_1_normal_normal_<FILTER>.fits)
GAIN
QC1_parameters
| FITS key |
QC1 database: table, name |
definition |
class* |
HC_plot** |
more docu |
| QC.GAIN | omegacam_detlin..qc_gain | gain (e-/ADU) | HC | | [docuSys coming] |
| QC.GAIN.ERR | omegacam_detlin..qc_gain_err | error in gain (e-/ADU) | HC | | [docuSys coming] |
*Class: KPI - instrument performance; HC - instrument health; CAL - calibration quality; ENG - engineering parameter
**There might be more than one. |
Trending
Following parameters are monitored in
trending plot.
- the gain averaged over all 32 detectors (e-/ADU)
- the error in the gain averaged over all 32 detectors (e-/ADU)
- the gain for each individual detector (e-/ADU)
- score outliers
Scoring&thresholds GAIN
The gain averaged over all CCDs is scored tightly with +/- 5%
thresholds. The averaged gain error is scored with +/- 20% thresholds.
History
| Date |
event |
| 2012-09-13 | The gain is very stable in the long-term for all detectors |
| 2019-01-05 | Data taken with M1 cover closed |
| 2020-11-15 | CCD77 does not work; only displays random signal consistent with noise (PPRS-079377) |
| 2022-05-09 | CCD77 started recording some coherent signal again |
Algorithm GAIN
The standard, detector monitoring procedure is applied.
LINEARITY
QC1_parameters
| FITS key |
QC1 database: table, name |
definition |
class* |
HC_plot** |
more docu |
| QC.LIN.EFF | omegacam_detlin..qc_lin_eff | effective non-linearity correction | HC | | [docuSys coming] |
| QC.LIN.EFF.FLUX | omegacam_detlin..qc_lin_eff_flux | flux level at which effective non-linearity correction is applied | HC | | [docuSys coming] |
| [calcutaed by QC script] | omegacam_detlin..qc_num_bpm | number of (bad) non-linear pixels | HC | | [docuSys coming] |
| QC.COUNTS.MIN | omegacam_detlin..qc_counts_min | minimum median value used in linearity | HC | | [docuSys coming] |
| QC.COUNTS.MAX | omegacam_detlin..qc_counts_max | maximum median value used in linearity | HC | | [docuSys coming] |
| QC.FPN | omegacam_detlin..qc_fpn | fixed pattern noise | HC | | [docuSys coming] |
*Class: KPI - instrument performance; HC - instrument health; CAL - calibration quality; ENG - engineering parameter
**There might be more than one. |
Trending
Following parameters are monitored in
this trending plot:
- effective non-linearity correction averaged over all 32 detectors
- effective non-linearity correction for each individual detector
- flux level at which effective non-linearity correction is applied averaged over all 32 detectors (ADU)
- score outliers
In
this trending plot:
- number of non-linear pixels averaged over all 32 detectors
- number of non-linear pixels for each individual detector
- score outliers
In
this trending plot:
- minimum/maximum median flux level used in the linearity computation averaged over all 32 detectors (ADU)
- minimum/maximum median flux level used in the linearity computation for each individual detector (ADU)
- score outliers
In
this trending plot:
- fixed-pattern noise averaged over all 32 detectors (ADU)
- fixed-pattern noise for each individual detector (ADU)
- score outliers
Scoring&thresholds LINEARITY
The effective non-linearity correction and fixed-pattern noise averaged over all 32
are loosely scored with fixed thresholds.
History
| Date |
event |
| 2012-09-13 | The linearity coefficients are very stable in the long-term for all detectors |
| 2019-01-05 | Data taken with M1 cover closed |
| 2020-11-15 | CCD77 does not work; only displays random signal consistent with noise (PPRS-079377) |
| 2022-05-09 | CCD77 started recording some coherent signal again |
Algorithm LINEARITY
The standard, detector monitoring procedure is applied.
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