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Mirrorless vs. DSLR – Which Should You Buy?

If I were writing this article a few years ago, there wouldn’t really be any competition between high-end DSLR cameras and mirrorless cameras. DSLR cameras were so far ahead that buying a mirrorless would mean compromising on several factors including image size and quality. There was also the issue around the optical viewfinder versus a digital one in a mirrorless camera (more on this later). But these days the story is very different. So which should you buy? Our guide will help you decide.

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What is a DSLR camera?

Before we talk about which is the right camera for you, it’s important to understand the differences between DSLRs and mirrorless cameras. A DSLR camera is a digital single-lens reflex camera. The way in which a DSLR works is that light enters the camera and reflects into the optical viewfinder via a mirror inside the camera body. So when you look through the viewfinder, you are seeing a real-life view of the scene in front of the camera. In other words, an actual reflection (this is the main difference between a DSLR and a mirrorless camera). Then when you press the shutter release button to take a photo, the mirror flips up which allows the light to hit the camera’s sensor and create the image.

When the mirror swings up, your view in the optical viewfinder goes dark momentarily until the mirror flips down again. The benefits of having a mirror in the camera are that you get to see an actual real-life view of the scene. It also gives an extra layer of protection for your sensor against dust and debris.

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What is a mirrorless camera?

A mirrorless camera works in exactly the same way as a DSLR in that light enters the camera and creates an image by hitting the camera’s sensor. But the major difference between mirrorless cameras and DSLRs is the lack of a mirror in the former. Because there is no mirror you can’t see a reflection of the scene in front of you. So, what you see instead is a digital version of the scene. This is why a mirrorless camera viewfinder is known as a “digital viewfinder”. In essence, it is the same as if you were looking at the LCD screen on the back of your DSLR in “live view” mode.

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What’s the big deal about a mirror?

You may be thinking what the whole point of a mirrorless camera is if it simply lacks the mirror of a DSLR. Well, there are a few big advantages to having no mirror in a camera. For one, because there is no mirror, the camera body can be smaller and lighter in weight than a high-end DSLR. But also from a photography point of view, without the need for a mirror to have to mechanically flip-up, mirrorless cameras allow for far more frames per second than DSLRs. In fact, DSLR cameras are no longer able to compete with high-end mirrorless cameras on that front.

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Optical vs. digital viewfinder

The biggest impact of a lack of mirror to a photographer is what they see in the viewfinder. As mentioned above, without a mirror you will see a digital version of the scene in front of the camera. Again, a few years ago this was one of the biggest drawbacks of mirrorless cameras as there was a slight lag between what was happening in front of the camera and what the photographer was seeing in the viewfinder. So, for example for a wildlife or sports photographer, this would be hugely detrimental as it might mean missing the perfect moment with even a minute delay. However, the recent years this has pretty much been eliminated from top of the range mirrorless cameras. Having said that, sport and wildlife photographers still do prefer the optical viewfinders of DSLRs.

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So, which should I buy?

As a Canon DSLR shooter myself, it is getting increasingly more difficult to see the benefits of DSLR cameras over mirrorless. DLSRs are bigger, heavier and in most instances more expensive than an equivalent quality DSLR. Personally, I still do prefer the optical viewfinder of DSLRs but that is just because it is something that I’m used to. At the moment mirrorless cameras still don’t have the breadth of lenses and accessories available for them. But, then you have to ask yourself how many lenses do you actually need? The reality is that the market is moving increasingly towards mirrorless cameras. There are far more models of mirrorless cameras being released these days and far fewer DSLRs. But don’t worry, I believe that there is a long way to go before DSLRs are completely phased out.

So, to answer the question above as to which you should buy, it will ultimately come down to your budget, the type of photography that you do and what you are comfortable with.

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Mirrorless cameras are here to stay and are probably the future of digital photography. As the technology improves more and more functions will be added which will make mirrorless cameras an even more attractive proposition versus DSLRs. Hopefully, this article will help you decide which is right for you.

Photo credits: Kav Dadfar – All rights reserved. No usage without permission. Dreamstime.

Understanding Digital Camera Sensors (How Do They Work?)

Digital cameras revolutionized photography. Not only did they allowed more and more people to take up this hobby, but they also gave photographers much more control and creativity. But how many people actually understand how digital cameras work? At the heart of a digital camera is a sensor. This little piece is the reason we are able to capture photos in digital format rather than film. Don’t worry if you don’t know how they, here is a quick guide to understanding digital sensors.

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What is a digital camera sensor?

A Digital Camera Sensor (DCS) is essential in a camera. Even if you don’t realize it, as it primarily regulates what your images end up looking like and how well they will scale up or print. There’s a long list of things that a DCS takes control of and helps when taking photographs, this list includes: image resolution, how the camera performs in low-light environments, dynamic range, and depth of field, and more.

How Do They Work?

There are two main ways that DCS’s work, the first way, creates a grayscale photograph, and the second way will produce a full-colour image.

A DCS creates a grayscale photo when you decide to take the picture and press the button. The DCS is exposed to light, which opens up the light cavities in a digital camera so they can collect photons which are stored as an electrical signal. After the exposure has been completed, the camera will shut the cavities down. Once these are closed, the camera will automatically total up how many photons entered each cavity – that is done by measuring how strong the electrical signal is. These signals are then assigned precise digital values and create a grayscale image because each cavity cannot distinguish how many of each colour they have. The way these values become so precise is because the camera uses ‘bit depth’ to determine them. When the file format has been recorded, the precision can be further reduced.

What is ‘bit depth?’

This aspect lets the camera know how many unique colours are available to it in its palette that is determined by the numbers of 0’s and 1’s used to identify each colour. In terms of grayscale images, the bit depth will identify the available unique shades, instead of colours.

If you’re taking a colour photograph, instead of all of the colours mixing in the cavity, a filter will cover each cavity, which will correspond to one colour and will block all other colours from entering. As a general rule with modern cameras, each cavity can only capture one out of three primary colours (red, blue, and green). The best arrangement is the ‘Bayer array,’ whereby rows of reds- greens and green-blues filters are arranged as shown in the image below. As you can see, this array has double the amount of green sensors than any other colour. Human eyes are less sensitive to blue and red light, so by using more green filters the image comes out looking sharper and with less noise (noise is more evident in reds and blues).

The next step in creating the image we see is by something called “demosaicing”. This is when the camera translated these primary colours into a full image that contains all of the colour information for each pixel.

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Types of digital camera sensor

Much like how they work, there are also two critical types of sensors in modern digital cameras: CCD (charge-coupled device) and CMOS (complementary metal-oxide-semiconductor).

The CCD sensor, invented in 1969, was initially intended for storage but was never accepted for this purpose. The CCD sensor takes the charges off the chip and moves them to an amplifier found in the sensor. The signal is then changed from analogue to digital by an external circuit; the same circuit then stores the image on your memory card.

The CMOS sensor can change the data it receives for every individual pixel while the information is still in the sensor. This type of sensor can change in light conditions due to its ability to alter each pixel separately, which isn’t a quality held by CCD sensors.

These two sensor types are very similar, including the quality level and amount of sensitivity to light. The critical difference between how the sensor works is what happens once the light has been captured. Both kinds of sensors rely on the photoelectric effect, which will make an electric signal out of light.

The photoelectric effect is where particles have been electrically charged, which are then ejected from a material at the time it absorbs electromagnetic radiation.

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Why have CCD sensors become more outdated compared to CMOS?

Since more and more newly released cameras now have CMOS sensors, they have much more range in lights and colours. CCD sensors are becoming less popular among manufacturers. This change began to show itself in 2015. One of the main reasons that CMOS overtook the CCD sensor is that it is much cheaper to manufacture, which will appeal to companies, especially those trying to save money on production. Additionally, it is said that Apple uses the CMOS sensor in its phones, and due to the rise in its popularity and evident appreciation from users for its camera quality, it is apparent that other companies would want to follow in their footsteps.

What are the best cameras?

As technology progresses, camera quality and ability have shown vast improvements. There are plenty of websites out there that list the best cameras that you can buy at the moment. But ultimately the best camera will differ one from one person to another and will be dependent on what it will be used for. For example, if you are a wildlife photographer, a camera with faster and more frames per second will be incredibly useful. Whereas, if you are only photographing for social media then you don’t need the pixel power of some of the latest DSLR cameras. The best camera is the one that you can afford and will be able to use regularly.

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There you have it, a short guide to how digital sensors work. This of course just scratches the surface and if you would like to learn more about the science of digital sensors just search online. There are plenty of detailed articles that will go into more depth on this topic. But hopefully, you will now have a basic understanding of how digital sensors work.

Photo credits: Kav Dadfar – All rights reserved. No usage without permission. Dreamstime.

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