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    • might not be around, so in case...

      The camera system, as the craft went away from earth a long time ago, what are they using, and what kind of mega pixel range are they getting, I assume they had the best of the best before it became available to Joe Public? Is there a way they can upgrade their system remotely as they head deeper into space?

      How long does it take to retrieve an image?

    • It's actually an extremely complicated setup and it's amazing it works. It's a Kodak sensor, 1600 pixels wide, and it has 4 filter strips fused to it — one for each color plus UV — 155 pixels wide each.

      The spacecraft rotates at 2 rpm and it's rushing by Jupiter at 122,000 miles per hour, only taking 2 hours to go from one pole to the other. So in fairly low light it has to take multiple quick exposures and stitch them together.

      From NASA's site:

      Like previous MSSS cameras (e.g., Mars Reconnaissance Orbiter’s Mars Color Imager) Junocam is a "pushframe" imager. The detector has multiple filter strips, each with a different bandpass, bonded directly to its photoactive surface. Each strip extends the entire width of the detector, but only a fraction of its height; Junocam's filter strips are 1600 pixels wide and about 155 rows high. The filter strips are scanned across the target by spacecraft rotation. At the nominal spin rate of 2 RPM, frames are acquired about every 400 milliseconds. Junocam has four filters: three visible (red/green/blue) and a narrowband "methane" filter centered at about 890 nm. 

      The spacecraft spin rate would cause more than a pixel's worth of image blurring for exposures longer than about 3.2 milliseconds. For the illumination conditions at Jupiter such short exposures would result in unacceptably low SNR, so the camera provides Time-Delayed-Integration (TDI). TDI vertically shifts the image one row each 3.2 milliseconds over the course of the exposure, cancelling the scene motion induced by rotation. Up to about 100 TDI steps can be used for the orbital timing case while still maintaining the needed frame rate for frame-to-frame overlap. For Earth Flyby the light levels are high enough that TDI is not needed except for the methane band and for nightside imaging.  

      Junocam pixels are 12 bits deep from the camera but are converted to 8 bits inside the instrument using a lossless "companding" table, a process similar to gamma correction, to reduce their size.  All Junocam products on the missionjuno website are in this 8-bit form as received on Earth.

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