SBIG is about to release our new All-Sky cameras, the AllSky-340 and AllSky-340C. The model 340 is a monochrome camera and the model 340C uses a color CCD. This will be SBIG’s third version of a weatherproof AllSky camera for monitoring weather conditions. The first had to be obsoleted when we stopped production of the ST-237A, and the second went obsolete when the lens we were using became unavailable, with no suitable replacement. With each version we gain some knowledge and this is our best one yet. The sensor is the Kodak KAI-340 CCD, with 640x480 pixels, 7.4 microns square, and a high gain output stage for excellent sensitivity. The camera electronics and CCD are from the soon to be released Smart Guider camera, our new autonomous guide camera. The All Sky camera will precede the guider since the software task is easier and is essentially done at this point.
The All Sky camera incorporates the Smart Guider Camera inside an aluminum enclosure with an acrylic dome to protect the fisheye lens. The fisheye lens is Fujinon's new FE185C046HA-1, with a 1.4 mm focal length, F/1.4. We have tested this lens and the image quality is excellent wide open, all the way to the horizon. Figure One below shows an All Sky camera image with the Fujinon lens and KAI-340 CCD. The exposure was 60 seconds from a light polluted backyard – the first quarter moon had just set behind the roof.
All Sky Camera Image:
One of the challenges of an All Sky camera is that the moon is in the field of view literally half of the time, averaged over a month. The reflections from within the dome and lens can interfere with detection of stars. Figure below is an image taken earlier in the night, with the dome in place, that has been DDP scaled to show the stars and the sky close to the moon. Some ghost reflections are visible, but the image quality is excellent.
Image earlier in Night with First Quarter Moon in Field:
All Sky Color Image:
The new All Sky camera has some very interesting features that make it much more versatile than our previous offerings. First of all, it has an RS-232 link to the PC for control and image download. While this interface is very slow in comparison to USB, it will tolerate 100 foot (30 meter) cable runs. Or, you can throw away the cable and use a bluetooth wireless link with an optional inexpensive adapter. And, the unit is low power and can be powered by a solar array (also optional) so you don’t any wires AT ALL running from your PC to the camera! The beauty of this is now the unit can be located where it has a good view of the sky, instead of good access to a power plug or PC. Your roof is now the preferred location, above the trees and neighbor’s houses.
By actual test, an RS-232 link, using a USB to RS-232 adapter running at 460.8 Kbaud, with a 100 foot cable, downloads a full image reliably in 15 seconds. At 115.2 Kbaud a full image takes 60 seconds. Bluetooth wireless adapters will typically run at 115 K-baud, and the one we have tried here worked reliably at a distance of 75 feet. With wireless links, one must minimize the number of walls you have to pass through. Each wall (2 la