Choosing a camera for filming can be a daunting task. Today, we are finished with a selection with a wide variety of tools and features to choose from. The ZWO company has been producing astro digital photo frames now for ten years, and over the years, they have become one of the most famous manufacturers of astro digital photo frames. suitable image for astrophotography.
ZWO ASI533MC Pro: Important details
Data: kala kala Sony IMX533MC (3008 x 3008, 9 MP)
Pixel size: 3.76 micron
FPS: 20 steps per second (at full capacity), much faster with ROI usage
Update: 12v two -stage, -45ºC below ambient
High Quantum Efficiency: 80%
Data: USB 3.0
Ana: 78 x 73.5mm
Sad: 16.6 oz
The ASI533MC Pro camera is aimed at those looking to purchase a multi-purpose camera dedicated to astrophotography. Sometimes, cameras like this return you a total of four points, but with the advent of the right technology from Chinese manufacturers like ZWO the playing field has changed dramatically. Nowadays, there are more and more photographic prints at a lower price.
This model offers a full -color camera with an on -board cooling system that reduces noise for long -term viewing of astrophoto images and is ideal for short -term views of the moon and planetary imagery. It comes with a variety of accessories to help you get up and running easily.
In this review, we put the camera at its feet under the night sky over a crowd of different targets to see how it works.
ZWO ASI1533MC Pro Review: Development
The ZWO ASI533MC Pro graphics card comes in a standard fixed design of many graphics cards of this type. Its small 78 x 73.5mm body is a solid performance with plenty of ports at the back of the camera body with heavy -duty windows. The kit itself is equipped with a lot of accessories to get you started right out of the box.
The camera connects to a PC via the provided USB3 cable, and drivers can be downloaded to run the camera from the ZWO network. There is no problem as the bike starts and runs within a few minutes.
Inside the box with its own camera are all kinds of things. The package itself comes in a sealed zip bag. It also includes a number of different converters to give you options about connecting to your telescope or connecting to other devices.
On the back of the camera are two USB2 ports for connection / power supplies such as the driver needed for long -distance operation. The camera charging system is powered by a 12v charger, which is not included with the camera but can be purchased separately.
ZWO ASI1533MC Pro Review: Hana
Making the ASI533MC Pro box is an easy task. The drivers can be downloaded from the ZWO website, as can the camera driver software you can use to operate the camera (called ASI Studio). The camera is supported by third -party software that works extremely well with the camera. Apps like Firecapture run ZWO graphics cards and are available free online for download.
The camera itself works directly from the USB connection. A separate power supply is required if you want to run the camera cooling system (only necessary for long -distance operation). When you are connected to your PC you will see a live preview on the screen. On the PC we tested the camera, it was easy to achieve the stated 20fps speed at full speed without any problems.
For those looking to use the ASI533MC Pro for long -distance viewing, you’ll need to get a suitable 12V power supply to run the camera’s cooling system. ZWO provides the right tools for sale, or for third parties to do (which is what we used for the purpose of this review).
ZWO ASI1533MC Pro Evaluation: Function for astrophotography
Like the ZWO ASI183MC Pro, we first tested the ASI533MC Pro for getting stars; Jupiter was the first target given. We attach the bullet to the 14 ”(36cm) telescope and kill the telescope to Jupiter.
One thing to note quickly, you need a UV / IR protective filter for this screen if the color is not contaminated by the IR signal. For example, when shooting Jupiter the image on the screen is red because of this. Such filters are large and easy to find – and they are especially important for those who make motion pictures with dedicated astronomical images like this.
With Jupiter, because most of the moon is not required, we used the area of interest (ROI) model to cut down on area captured. This allows the camera to run at the highest resolution required to capture the stars. It’s a lot of fun to capture worlds with color graphics cards like this because you can often see the details and colors on their disks. Another advantage of this camera itself is its 3.76um pixel size. This applies to long -range telescopes such as the Schmidt Cassegrains well. The 14bit output is very clean, and ROI allows you to easily run the camera at 100fps or less.
You can use the ASI533MC Pro as a mono camera. I tried some close -up IR images of the Lunar Skin because the moon is visible tonight. The compass worked very well for the performance, and as Jupiter provided the data very clearly with a low volume. The large pixel size is also suitable for shooting with a telescope such as the C14.
There have been some tests for Deep Sky imaging. For this reason, I decided to wait for a good night and no moon. For the first few tests I decided to try the photo with a camera without using the cooling system to see how well it worked ‘out of the box’ so to speak.
I decided to shoot the galaxy spiral photo NGC 6946 on Cepheus – one of my right -handed targets. Using the C14 at a reduced F7 distance, I set up the galaxy and started a kind of 60 sec broadcast without the rest system as mentioned above. Even with this low display time most of the details are recorded in the galaxy. I ended up shooting at about 40 x 60sec broadcasts and recorded about 30 of them for the result shown here. This is a good result considering that the conditions of the sky and the field of normal darkness are average. Better results can be seen from a black site with longer display times.
I decided to fire up the camera cooling system and try out some photos using this. The cooling system is necessary if you use the camera for single -length displays (several minutes.) In this case it is an important difference to reduce noise in the image.
All in all, the performance of the ASI533MC Pro is amazing. It easily produces good clean images of deep sky targets and is done in the photo frame with no problems.
Should you buy the ZWO ASI533MC Pro?
For those who are looking to make their first move when purchasing a dedicated astronomical camera but without the hassle of using a mono camera, you can’t go completely wrong with the ASI533MC Pro. It is an excellent multi-purpose camera that can produce the best images of earth objects and deep sky. It’s also easy to set up and use which is a big bonus. It’s also nice to see a telescope like this given without the small pixels – something that uses long -range telescopes as much as I really appreciate!
For the price, the ASI533MC Pro offers some amazing features and is even better than the astronomical high -resolution monochrome digital cameras of the same resolution. There are no suitable products but this is no different. It’s a good idea to have a PSU and UR / IR protective filter included as part of the standard package because these are useful features – the filter is the most important.
Another thing to say is how the camera compares to a similarly priced DSLR from Canon / Nikon. The image is similar, and of course, a DSLR can be used for standard photos, so this is a good thing to consider.