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Product Description
Important: For the following imaging camera models, please use a separate 12V power supply rather than the power hub in the ASIAIR Pro as the hub cannot provide enough amperage to power the camera's TEC coolers: ASI6200, ASI2600, ASI2400, ASI533, ASI071MC
The ASI533MC PRO adopts a Sony back-illuminated IMX533 sensor, which is a 1 inch square frame sensor made suitable for deep sky astrophotography needs. The ASI533MM Pro can be regarded as an upgrade of the ASI183 series.
Not only does it retain the high-quality features of the ASI183, such as high QE and high frame rate, it also features no amp glow, readout noise as low as 1.0e, pixel size of 3.76 um and a 2-stage TEC cooling. It is highly recommended for beginners of deep sky astrophotography.
IMX533 backlit sensor
Sony’s back-illuminated CMOS image sensor improves sensitivity and noise reduction – the key factors to enhancing image quality, while radically realigning their fundamental pixel structure from front-illumination to back-illumination. It has retained the advantages of CMOS image sensors such as low power consumption and high-speed operation.
With a conventional front-illumination structure, the metal wiring and transistors on the surface of the silicon substrate that form the sensor’s light-sensitive area (photo-diode) impede photon gathering carried out by the on-chip lens. A back-illuminated structure minimizes the degradation of sensitivity to optical angle response, while also increasing the amount of light that enters each pixel due to the lack of obstacles such as metal wiring and transistors that have been moved to the reverse of the silicon substrate.
Sony has newly developed a unique photo-diode structure and on-chip lens optimized for back-illuminated structures, that achieves a higher sensitivity and a lower random noise without light by reducing noise, dark current and defect pixels compared to the conventional front-illuminated structure.
Traditional CMOS sensors produce a weak infrared light source during operation quite often seen in the corner of uncalibrated images as the tell tale signs of ‘amp glow’. As the ASI533MM PRO uses zero amp glow circuitry, you won’t have to worry about amp glow even when using high gain, long exposure imaging.
Note: We recommend using an external 12V power supply to power the camera instead of USB 3.0/2.0 only
As you would expect this latest generation camera not only retains key features of the ASI183 series such as an attractive QE figure, high frame rate and along with other excellent characteristics of the ASI183 cameras, but also now includes new and improved features such as zero amp glow, extreme low read out noise (as low as 1.0e), 3.76 microns pixel size and an improved 2 stage TEC cooler giving enhanced cooling capabilities.
Specifications
| Sensor | Sony-IMX533CLK-D |
| Diagonal | 15.968mm |
| Resolution | 9 Mega Pixel 3008*3008 |
| Pixel Size | 3.76μm |
| Max FPS at full resolution | 20fps |
| Shutter | Rolling shutter |
| Exposure Range | 32μs-2000s |
| ROI | Supported |
| Read Noise | 1.0-3.8e |
| QE peak | 91% |
| Full well | 50000e |
| ADC | 14bit |
| Interface | USB 3.0 Type-B |
| Adaptor | M42X0.75 |
| Protect window | D32-2-AR |
| Dimensions | 78mm Diameter |
| Weight | 470g |
| Back Focus Distance | 17.5mm |
| Delta T | 30°C-35°C below ambient |
| Camera Power consumption | 650mA at 5V |
| Cooler Power consumption | 12V at 3A Max |
| Working Temperature | -5°C—50°C |
| Storage Temperature | -10°C—60°C |
| Working Relative Humidity | 0%—80% |
| Storage Relative Humidity | 20%—95% |
| Max FPS at full resolution: | 14Bit ADC
|
Customer Reviews
Fit, finish and build quality are excellent, as expected from my previous ZWO purchases. Drivers for ASCOM for Windows and NINA for Linux/Pi seem pretty solid and full featured. I have only had 1 test shot since purchase and as expected, star colours are better than my OSC camera. In addition, H-alpha sensitivity and noise are noticeably better than my older KAF8300M camera. Really looking forward to imaging with this camera!
A good solar imaging camera: square sensor, good imaging specs and well priced.
I have had a 533mc for a while but really wanted to explore the world of mono. I already have a 1.25 inch filter wheel and want to combine mono data with data from the 533mc, so for me this was the best choice. I love the cam based on my experience with the mc.
I picked it up yesterday and had first light last night. This is about 90 mins on each (also brand new) 7nm SHO filter, my first image in true mono.
If your looking for a high quality camera with low read noise this is the one and it’s affordable compared to the larger chip sized sensors and has the same pixel size. Excellent entry level mono camera that Performs like the more expensive models and gives great results. I like the square sensors and in my opinion makes it easier for mosaics.
So far from what I have seen from the limited use, it meets my expectations.
I’m sure when I process the data it will exceed what I was expecting.
Additional Articles, Videos, and Links
External Links
Astrophotography for Beginners Step 4: Shooting Deep-Sky Images
Taking deep sky pictures can be daunting, luckily there is an easy process to follow to allow you to get great shots! Here is the typical process for actually taking deep-sky images in the field.
Astrophotography for Beginners Step 3: Choosing Gear for Deep-Sky Imaging
Using a star tracker gains you experience with the fundamentals of deep-sky imaging. Shooting the Moon gains you experience focusing and framing through your telescope. Through your sessions you’ll...
Astrophotography for Beginners - Start Here: Getting into Astrophotography Step by Step
Shooting the night sky has never been more popular, nor easier. The choice of equipment has also never been better, or more affordable. However, as per the advice given by Dickinson and Dyer in the...
Astrophotography for Beginners Step 1: Using the Star Adventurer Tracker
By far the most economical and easiest way to capture beautiful images of the Milky Way and large deep-sky objects like the Andromeda Galaxy (shown here) is to use a star tracker. Here are steps an...
Astrophotography for Beginners Step 2: How to Shoot the Moon
Close-ups of the Moon are rewarding, and an easy way to learn to shoot through your telescope. While good results are possible with a phone camera clamped to an eyepiece (as shown below), this tuto...