![]() ![]() OPT Telescopes shared this video about this camera in early February, and it does a great job of explaining the key specifications of the camera.Īs with other monochrome cameras, filters are needed with the ASI2600 to produce a full-color image. The look and feel of the 2600MM Pro are similar to other ZWO cameras with the same port for power, cooling, and USB 3.0 hub. The 2600MM Pro remains lightweight, although it is slightly heavier than the 1600MM Pro at 1.5 lbs (0.7 kg). This is the highest QE CMOS camera I have ever used for deep-sky astrophotography. 20K), and the quantum efficiency is rated to be an impressive 91%. In fact, the well depth of the 2600MM Pro is more than twice that of the ASI1600 (50K vs. This camera shares some features with its ASI1600MM counterpart but there are many upgrades to the 2600MM Pro including a higher image resolution, a back-illuminated sensor, built-in dew heater, higher full well depth, and quantum efficiency. The ZWO ASI2600MM Pro is a lightweight, cooled CMOS astrophotography camera that specializes in deep-sky imaging. 20 x 5-minutes in H-Alpha (3nm Chroma filter). I was not compensated in any way to review this camera, nor was I given any directions on what to talk about.įirst light using the 2600MM Pro. ZWO sent me an early version of the ZWO ASI2600MM Pro to test in my backyard, and report my results. It is well-supported, features some of the best camera specs in the industry, and is a practical system for a wide variety of telescope configurations.ĭue to its impressive specs and versatility, I believe the ZWO ASI2600MM Pro mono will be one of the most popular cameras for astrophotography in 2021, and beyond. If you are thinking about purchasing your first monochrome camera for astrophotography, this would be an excellent choice. In the land of deep space astronomy cameras, the APS-C sensor size is said to be “the sweet spot”, balancing a large field of view with a practical size for demanding optical systems. The ZWO ASI2600MM Pro not only improves on nearly every aspect of its predecessor (the ASI1600MM), the sensor is now APS-C, capturing a larger field of view. Of course, the oil leak issue had not been experienced by myself (or anyone) at this point, so I hope you’ll excuse me for not mentioning it! The following video was created very soon after the camera was originally announced, and I had limited testing opportunities due to weather. I hope that my image examples and hands-on experience help you make an informed decision about your next astrophotography camera purchase. This article was originally shared in early 2021 and has been updated to reflect my latest user experiences and every photo I’ve taken with it for almost 2 years. What do all of these images have in common? You guessed it. The QE, dynamic range, and resolution of the IMX571 sensor come together to form one of the best astrophotography cameras of all time. ![]() It is the camera behind some of the absolute best images I’ve ever taken. ZWO sent me a demo copy of the camera in 2021, and I have been using it continuously for deep-sky astrophotography ever since. In this review, I’ll cover everything from the impressive specs, to the unfortunate oil leak issue, and ZWO’s response. It is the perfect companion to a ZWO rig being controlled via the ASIAIR Plus. The size and resolution of this sensor are its biggest selling feature. This camera uses a highly sensitive, cooled, monochrome CMOS sensor in the APS-C format. ![]() It houses a 26 Megapixel Sony IMX571 back-illuminated sensor, and some seriously impressive specs. The ZWO ASI2600MM Pro mono is the much anticipated monochrome version of ZWO’s popular ZWO ASI2600MC Pro dedicated astronomy camera. ![]()
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