NIRCam Detector Readout

The JWST NIRCam detectors are read out non-destructively multiple times per integration either through one or four outputs simultaneously.

NIRCam detectors use MULTIACCUM readout mode

NIRCam detectors operate in MULTIACCUM mode; this means that the charge in each pixel may be read out multiple times as it accumulates during each integration. The readout process is non-destructive, leaving charge unaffected and in place—charge is not transferred between pixels as in CCDs. After each integration, the pixels are read out a final time and then reset, releasing their charge.

NIRCam repeatedly cycles through all pixels in the full frame or a selected subarray, either reading their charge or resetting them as commanded.  Reading and resetting take the same amount of time: 10 µsec per pixel plus small overheads at the end of each row and frame.

Each detector readout delivers a frame of data. By selecting one of the NIRCam readout patterns, users may either save all individual frames or averages of groups of frames calculated onboard to reduce data volumes and enable longer integrations. Fitting "up the ramp" to multiple frames in an integration decreases the effective read noise, increases the dynamic range, and allows cosmic rays to be identified and rejected.

Readout of the full NIRCam detector (2048 × 2048 pixels) is performed with four outputs simultaneously (Noutputs = 4), each delivering a stripe of data (2048 pixel rows × 512 pixel columns), and taking 10.73677 s altogether. Smaller subarrays are read out more quickly, even though most are read out through a single output (Noutputs = 1).  Noutputs is pre-defined for most subarrays, but users are given a choice between Noutputs = 1 or 4 in the grism time-series observing mode.

Figure 1. Readout of a NIRCam detector

Readout of a NIRCam detector

NIRCam detectors may be read out through four outputs simultaneously. Each row is read out in turn, one pixel at a time, beginning with the pixels along the bottom marked with small, open, black squares. The orange border represents reference pixels, 4 pixels across (not to scale), that are insensitive to light. Arrows show the default scan directions; the opposite directions are also possible (though not generally permitted). Charge is read in place, non-destructively (it is not transferred between pixels as with CCDs).
Figure 2. Readout of a NIRCam subarray

Subarrays with fewer than 2,048 columns are read out through a single output. Reference pixels are included on all four sides of the full array and are included in subarrays that are located along the detector edges.
Figure 3. Readout of all eight NIRCam short wavelength detectors

Readout of all 8 NIRCam short wavelength detectors

Orientations of all eight short wavelength detectors in the field of view. Modules A and B are shown with all detectors labeled (A1–4 and B1–4). The four readout quadrants are shaded and readout directions labeled as in Figure 1. "First" marks the first pixel read out for the case of a single output for each detector. Coronagraphic occulting masks are shown as projected onto the detectors when in use.
Figure 4. Readout of both NIRCam long wavelength detectors

Readout of both NIRCam long wavelength detectors

Orientations of the two long wavelength detectors with readout directions labeled as in Figure 3.



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Latest updates

  • Updated frame time from 10.73676 s to 10.73677 s