In a fairly length blog post back in May, I talked a lot about the different types of lens mounts, the differences between the manufacturers and some considerations when using those lenses on your camera body. At the end I mentioned I would follow up with a separate post about adapting lenses, with a particular focus on a combination that I have come to enjoy, the M42 lens on a Nikon camera body. I am going to focus on this combination as it takes into account several of the factors you would need to consider when adapting lenses. And even though I am talking primarily about the M42/Nikon combination, these aspects apply to adapting other types of lenses to other types of camera bodies, so please read on even if you use Canon and want to use a Nikon lens on your camera or any other combination.
Before I go on to specifics about adapting the M42 lens to a Nikon body, I am going to re-post the section with a bit of history and details on the M42 and M39 lenses below:
“M42 and M39 Universal Mounts – Although M42 and M39 mounts are different and were used by different companies, I grouped them together because they shared similar properties. The M## designation reflected the metric 42 or 39mm screw thread. Both used a thread pitch of 1mm. T-Mounts (see below) also have a 42mm diameter, however it uses a 0.75mm thread pitch and is not compatible with M42 cameras and vice versa. The M42 mount was first developed by Carl Zeiss back in the 1930s, and was adopted by many European, and particularly Russian camera and lens manufacturers. The M42 standard utilized a 45.46mm registration distance. As I mentioned above in the Pentax section, the Pentax camera company utilized the M42 mount as well. In the United States became known as the Pentax Universal Screw mount. The same occurred with the Praktica camera brand outside the US, however both are M42 universal screw mounts. The M39 screw mount was developed by Leica prior to the development of the Leica R bayonet mount and had a registration of only 28.8mm which is too short for many other cameras. Early Canon cameras used it (but called the J-mount) as did several of the Russian camera brands. The Zenit camera brand adopted the M39 configuration but extended the registration to 45.2mm. There is no visual difference between the mounts with different registration distances, so you must know for which one your particular M39 lens was designed.”
So know you have been refreshed on what an M42 mount is and a bit of the technical details. As you can tell by the description, a 42mm screw is not going to connect with the bayonet style receiving flange on a Nikon body, so an adapter must be used. Not all that surprisingly, the major camera manufacturer’s who also make lenses, do not make adapters to attach a different type of lens on their camera body. They want you to buy the equivalent type of lens from them with their mount. And, that’s a good business practice, but for the consumer and photographer it limits your world to lenses made from just one manufacturer. Now if I were limited to just using Nikon lenses, I would certainly get over it quickly, but knowing that there are some many different brands and types of lenses out there, I don’t want to be limited. For example, I have a Helios 44-2 58mm f/2 lens at home which uses an M42 lens mount. What is so special about it? It’s just a fast, normal prime lens. I could easily get the 50mm f/1.8D from Nikon (and I own that as well). So why would I want to attach this old lens to my new DSLR? Simple. The bokeh on this lens (a term for the quality of the out of focus area in front of and behind the subject that is in focus) has an awesome swirling pattern to it which I really like for some of my more artistic shots. The smooth bokeh on the Nikkor 50mm f/1.8 is great, but it doesn’t have the same effect. As an added bonus, because there are a lot of these old Russian lenses out there no new cameras today that accept M42 lenses, I was able to pick one up for cheap ($20) on Ebay and it is in flawless condition.
But what good is a fantastic lens for $20, if you can’t natively attach it to your camera, and your camera manufacturer doesn’t make an adapter to attach it? This is where general 3rd party manufacturers come in. There a slew of these 3rd party manufacturers who make adapters for just about any lens/camera combination where the connection is possible (for example Canon EOS lenses, due to their diameter, cannot be adapted to a Nikon body so no reputable manufacturer will make this type of adapter). These lens adapters are very simple in nature, being cut from aluminum, and consisting of the female attachment for the lens on one side and the male flange for the camera body on the other. Some manufacturers that are popular are Bower in the U.S. and Kood in the U.K., but there are many out there including some store brands which are just fine for simple adapters. They are usually sold for just a few dollars so if you get one brand and find there is some aspect that you don’t like about it (for example I have one adapter that does not lock into to the camera body properly) then there is not a whole lot lost and you can try another brand. Again, this is for the simple metal adapters (more on what is not a simple adapter in a minute).
Many lens combinations work really well with a simple adapter, for example mounting a Nikon lens on a Canon camera body. As the throat of the lens on the Nikon is smaller than the opening on the Canon there is no issue there. Additionally as the registration distance (for more on this see this post) for Nikon is longer than that for Canon, there is no issue with not being able to focus to infinity, however you may lose a little, but of focusing power on the shorter end. One thing to be weary of is the distance that the lens protrudes into the camera body. If one camera system is designed for a lens where the back element is deep in the body and you attach that lens to body where the system does not require the lens to stick into the body very deeply, you may end up with issues. The most common of these is that the reflex mirror actually hits the end of the lens which can do damage to the lens, but more likely could break the mirror in the camera (not something you want to fix). To avoid this, do your research online and look for groups on photography forums where these are discussed (such as Flickr or Photo.net). A few simple web searches will avoid you a whole lot of hassle before spending money on a lens that may end up breaking your camera.
Nikon, is actually one o the more challenging camera bodies to adapt lens to, but it also one of the safest. How so? First off, the opening or throat diameter on the Nikon body, is fairly narrow. As I mentioned in the earlier posts, Nikon has made very few changes to their mount since it came out in the 1950s and this “narrow” throat is one of the features that has been maintained. Why is this an issue? Most lenses with different mounts will still work as the throat is very similar to that of the Nikon. However some manufacturers, Canon with their EOS mount being the most recognizable of these brands, have a throat opening which is much wider than that of Nikon. As such, the end of the lens is too large to fit into the throat on a Nikon body. This is great for Canon users as they can use their Canon lenses and also use the narrower Nikon lenses which will mount deep enough in the body to make up the difference in registration distance with just a simple adapter. However, as you may be able ot tell from the other direction, Nikon users cannot use Canon EOS lenses on their bodies. The physics of it just don’t mix. A very complex adapter with lens elements would need to be developed, and the cost and headache of this type of adapter would not be worth the effort. As such, Nikon users are a little more limited in what lenses they can choose from when venturing outside of their brand. As noted by me, a Nikon user, this is very disappointing as Canon does have some great lenses I would like to try (although not enough to want to switch brands). I do not fault Canon or Nikon for this as it is just a product of the difference in design (at least I’ll be optimistic and say that this was not the intention of making the difference in design larger than any other two brands).
The second challenging part about adapting lenses to Nikon bodies is that the registration distance on a Nikon is 46.5mm and is longer than most other major camera manufacturers. By putting a lens on that is designed for a system with a shorter distance, you can be certain that you will not run into issues with the mirror hitting the lens. However, on the other side as the lenses were designed with a shorter registration distance in mind, you may actually lose the ability to focus to infinity (the lens is physically further away from the sensor and the stop that the manufacturer puts in the lens at infinity, will not allow the lens to be focused far enough to make up for that difference. This is exactly the issue of adapting my M42 lenses to my Nikon bodies. There are three main options when you run into this situation. You can use the lens as-is with a simple adapter without being able to focus to infinity, you can use a more complex adapter that uses an optical element to correct for the distance and allow for infinity focusing, or you can modify the stop in the lens to achieve infinity. There are advantages and disadvantages to each of these options. To explore these options, I will let you know what I have done on a few of my lenses.
The main advantage to using a lens as-is is that you do not need to modify any part of the lens, or add additional glass between the lens and the image sensor. By adding in more glass you risk the potential for degrading the quality of the image produced by the lens as every time you pass light through another element, you take this risk. Also, as the adapters are made by 3rd party manufacturers, you risk that the glass used does not have the same quality as the glass in the lens itself. Just as a chain is only as good as its weakest link, a lens is only as good as its worst element. I have a Pentax 50mm f/4 macro lens with an M42 mount, which I picked up for $50 on EBay. It is a fantastic lens with some great bokeh. As it is used for macro work, I use it with a simple adapter and no additional glass element as all of my work involves focusing close and rarely want to use it to focus to infinity. This maintains the optical quality I want for the fine details of macro work while sacrificing a function of the lens that I do not use often for macro work. For this situation this was the best option for me.
The second option is to use an adapter that uses a correcting element to achieve infinity focus. The advantage here is obviously you do not need to modify anything and you can have infinity focus. The drawback is that you are introducing an additional piece of glass between the lens and the sensor. Depending on the adapter you get, this may be just fine, but is also may cause degradation in the image quality of the lens. Often these elements do not have the same quality or coatings as the elements used in the lens. This type of adapter is more expensive than the simple adapters, so going by trial and error as mentioned above can become costly. By doing a little research you can find some that work well. I have actually had pretty good success with my Helios 44-2 58mm f/2 lens using an adapter from Bower. This Helios lens is hard to modify but because I wanted to used it for walking around for different landscapes and scenes, I wanted to have infinity focus available to me. This is also true for a Pentax 50mm f/1.4 that I picked up. It is super sharp and I wanted infinity focus, but Pentax lenses are designed with fairly tight tolerances so the lens was not really an option to modify to obtain the focus I wanted.
Lastly, the most brave and daring option is to modify the lens to allow you turn the lens far enough to obtain infinity focus. As mentioned with my Pentax 50mm lens above, this may not be possible for all lenses. It is most likely not an option, although it may be so do some research, if your lens uses and internal focusing mechanism rather than changing physical the length of the lens to focus, the latter being more common on less expensive lenses which are the best ones to try this option on (I wouldn’t do it on a high end lens, but I also probably would not have spent money on a high end lens with a different mount…see below for more). This type of focusing mechanism where the lens screws and unscrews to change the length of the lens is more common and cheaper. Functionally it is essentially that; a screw that you turn to move the elements closer and further apart from eachother to focus the light. To ensure that when you reach the longest extension of the lens, infinity focus, the lens does not actually unscrew from itself, the manufacturer installs what is known as a “stop” (this one has nothing to do with light though). It is a physical piece of metal or plastic on the inner and outer parts of the screw that hit each other preventing the screw from doing turned any further. Without it, you would just unscrew the lens from itself, and likely damage the lens. As an aside, there is also a stop on the other end of focusing ot prevent the screw from over-tightening, but more importantly to prevent elements of the lens from contacting each other by being moved to close together. You should never modify this stop. Other types of lenses with user a set screw as a stop. I have lenses of both types.
Before embarking on modifying a lens, you should do some research. It is quite possible someone else out there has already tried this and could save you a lot of time and headache before you embark on a modification that is either very challenging or not possible. If you do decide to modify your lens, it is also possible someone has already done it and provided step-by-step instructions on some forums out there which will save you some time as well. There are a few different types of modifications, but the two I have encountered are described in brief here (this is not a tutorial on it some I’m not going to go step-by-step on these lenses). The easier of the two lenses, and the one I successfully modified, was my MTO-1100A, which is a Russian-made 1000mm reflex mirror lens. The particularly lens was probably made in the 1960s and is an absolute beast made of metal. It has a set screw, which prevents the outer housing from being unscrewed from the inner part of the lens. It should be noted that you do have to take off some other simple housing parts to access the screw, but not any parts that could affect the function of the lens. Once you get to the screw, you just loosen it, and physically turn the focusing ring hard enough to have it move a little bit further to reach infinity (thankfully there is quite a bit of room before the screw reaches the end of the thread in the design to do this). Before re-assembling the lens, attach it to a camera after the adjustment to confirm you have hit infinity. Then once confirmed, you can retighten the screw and reassemble the outer housing.
The second adjustment I tried on my Helios 44-2 as I was not sure if it used the same set screw as on my MTO. Unfortunately it requires dissembling the lens, including parts that could cause issues if not put back together properly, and it uses a hard metal stop which is order to modify would require cutting away at the stop to adjust the focus. I did not feel that adventurous, so I did not make the adjustment and instead use a correcting adapter with this lens. It is personal choice to see if this type of adjustment is worth it to you. I have had great success with some of my adapters and did not find the effort and risk worth trying, but you may, so do some research and make the choice for yourself.
So now you know about how to adapt lenses, and what I have done for some of my M42 mount lenses to use them successfully on my Nikon camera bodies. But what types of lenses should you consider adapting? You can adapt most lenses, but because of the adapter you may lose some functionality whether it is ability to use autofocus, or the ability to reach infinity focus. As such, I typically stick with 4 rules when picking a lens to adapt. The first rule is, pick a lens because you like the features and would want it even if it came in the camera mount for your particular system. Don’t pick a lens just because you can adapt it, or because it was cheap. My second rule is to do some research on the type of mount to make sure it is possible to adapt the lens to your camera system and what considerations you might need to take into account. The third rule is don’t bother with lenses that have a whole bunch of electronic features, such as autofocus, image stabilization or chips for distance because likely they will not work when using an adapter and because they were designed for a different camera system. I typically stick with older manual focus lenses and focus more on their image quality than newer features.
Lastly, and this may vary depend on you budget and how the lens will be adapted, but don’t spend a ton on the lens. Look for good quality at a low price, and shop used whenever possible. Often times these older lenses are great optically, but because they are older, people are getting rid of them for pretty low prices. If you want a high end lens for your camera, find a lens that is designed for your camera system as often times the reason for the high quality and price are the newer electronic/automatic features in addition to the quality of the glass and construction. You can just ask yourself, if you didn’t have those features and especially if you need to use a correcting adapter or modify the lens, is it still worth the high price. My guess is a pretty strong “no.” If you really want the highest quality and have the budget, just buy the lens made for you camera system as it is much easier as you know it was designed for and will work with your camera. As you could see I spent $20-$50 on most of my older Pentax and Russian-made lenses and they work great optically. They are only that cheap because they are old and the person selling it has no value in it (maybe they stopped taking photos or inherited it from a family member). Plus, by spending less, you may have more of your budget for additional lenses to adapt to expand your toolbox. Again these are my rules when buying lenses to adapt.
Adapting lenses can be simple or a bit more challenging, but if you successfully do it you will have more tools at your fingertips. So far I mostly stick with old M42 mount lenses as I don’t want to go down the path of having a whole bunch of difference adapters for different lenses. There are a ton of great older lenses out there with plenty of quality life left in them. You can make them work with your camera fairly simply and potentially save some money. Go out and find them and capture the world around you.
Monday, June 27, 2011
Monday, June 20, 2011
Not Enough Time In the Days
Unfortunately there was not enough time this week to do justice to a post and therefore I will not be posting this week. I will make up for it in the coming weeks and post with an extra post. Stay tuned...
-Adam
-Adam
Monday, June 13, 2011
Focal Lengths, Part I: Wide-Eyed – Capturing the World with Wide Angle Lenses
In recent weeks I’ve been trying to tie the posts on this blog to techniques, or equipment I have recently used in my 365 Challenge. This week is no different. However it is also the first in a series of short posts discussing a specific range of focal lengths of lenses. In these posts I’ll talk about the lenses themselves, challenges with working with them, and touch briefly only techniques for using them effectively. The series likely with not be posted in consecutive weeks, but I’ll be sure to hit the three major groups: wide-angle, normal, and telephoto. This week is all of about wide-angle lenses.
In a previous post on zoom and primes lenses a touched briefly on focal lengths and how they are determined. I’m not going to repeat that all again here, but please check it out in the other post if you want more info. What I will do is define the major ranges of focal lengths, starting with normal lenses. Normal, as accepted by photographers and lens manufacturers refers to lenses with focal lengths around that of 50mm on a 35mm frame. Normal lenses ultimately range from about 35mm up to around 75mm. The notable feature is that lenses in this range produce images approximate to human vision. In actuality the range is not defined by human vision but actually by the relationship to the diagonal measurement of the film or digital frame. On a 35mm frame, the diagonal measure around 43-44mm, but for ease of definition is was agreed to make the standard length 50 mm on this frame size. It should be also noted the remaining ranges are all based on a 35 mm frame size. For cameras with a smaller or larger frame size, crop factors should be used to compare the ranges (check out this post for the reason why). Here are the ranges for the 6 focal length ranges as commonly accepted by photographers, although these may vary slightly.
Lens Range | Focal Length (35 mm frame) | Focal Length (1.5x Crop Sensor) |
Ultra-Wide Angle | < 20 mm | < 14mm |
Wide Angle | 20mm - 35mm | 14mm – 24mm |
Normal | 35mm – 70mm | 24mm - 47mm |
Short Telephoto | 70mm – 105mm | 47mm - 70mm |
Telephoto | 105mm – 300mm | 70mm – 200mm |
Super Telephoto | > 300mm | > 200mm |
As stated early on, this post will focus on the wide and ultra-wide angle ranges. Lenses in these ranges allow you to capture an image with an angle of view that is wider than normal human vision. As such there are both technical and artistic advantages to using a wide angle lens. Wide angle lenses can have an effect on images by distorting the perception of depth. A shot taken of two objects that are not in the same plane from the camera using a normal lens with roughly reproduce the perception of depth between the objects as witnessed by looking at them. However when using a wide angle lens, the perception of depth is distorted so the objects look further away from each other than they are in real life. This distortion can be used both practically and artistically. By getting up close to a subject with a wide angle lens, you can make the subject stand out from the background. The near subject will look very near and much larger than subjects in the background. Conversely, subjects further away from the lens will look very far away and smaller. When shooting with a wide angle lens, it increases the focus on the near subject. This effect can also be used to deceive the viewer intentionally be changing the proportions of the subjects. While used artistically can have the effect described above. However, it can also be used intentionally by altering the perceived spatial relationships of the viewer. This technique is often used by real estate agents when taking photographs of the interior views of a structure (house, building, etc). This effect can make the rooms look larger than they are in real life. While this may be seen as deceiving (and trust me the realtors know they are doing this), it also allows the photograph to capture more of the space with a single photo and can give a better idea of the space than one shot with a normal lens.
On the same note, the use of a wide angle lens can also allow the photographer to capture more of a scene than would otherwise be possible. For example, when shooting a large group of people, a photographer may opt to use a wide angle lens to capture everyone without having to position themselves very far away from the group (or maybe there is not space to be that far away). This can be a real advantage. Landscape photographers also tend to use wide angle lenses to be able accentuate the vastness of a scene. For example a shot of the Grand Canyon would have more impact when taken with a wide angle lens rather than a normal lens as it intentionally makes the scene look even bigger than it already is resulting in a greater impact.
Using a wide angle lens has some considerations that need to be accounted for by the photographer. First off, as pointed out above, a wide angle lens distorts the perception of distance in a photograph. It also distorts the perception of the depth of field, or the area in front of and behind the subject that is considered to be in acceptable focus. As a result, the use of a wide aperture has a less dramatic effect with a wide angle lens as it does with a normal or telephoto lens. This is not just a negative, but a positive effect as well. It potentially allows the photographer to take a photo using a wider aperture, allowing in more light, with less of an effect on the depth of field. This can be very useful. Additionally, a wide angle lens captures more light than lenses of longer focal lengths as it is collecting the light from a much larger angle. As such, cameras with wide angle lenses can usually be hand held a slower shutter speeds than those of greater length. Also, wide angle lenses, due to the nature of the short focal length, tend to be physically shorter as well (not always true, but often). The shorter length lessens the effect of handshake from the photographer. The “Sunny 16 Rule” is a standard that all photographers should know. It states that at f/16 on sunny day, the slowest shutter speed that can be handheld is 1 over the focal length of the lens. For a normal 50mm lens, this would be 1/50th of a second (why the most commonly used shutter speed acknowledged for handholding is 1/60th of a second). That means for telephoto lens of 200mm focal length, the slowest shutter speed for hand holding would be 1/200th of a second. On the side relating to wide angle lenses, a 20mm lens could potentially be handheld at 1/20th of a second. This rule is no exact as it also depends on the steadiness of the hands of the photographer, but it is a good approximation.
An additional consideration is a negative of wide angle lenses (although can be used artistically). Wide angle lens tends to distort the view of straight lines in an image. Although considered rectilinear, meaning that the lens should make straight lines look straight, distortion can still be apparent when using wide angle lenses. Manufacturers go to great pains to correct this distortion in the design of the lens. However, in ultra-wide angle lenses, the distortion can still be present. This type of distortion is known as barrel distortion as it causes straight lines to bow out towards the sides of the frame like the shape of a barrel. This effect is often minimal in the center of the image, but can become predominant at the edges of the frame. Thankfully, many of the popular post-processing software can easily correct this type of distortion, but if you happen to still work with film, this is a big consideration when shooting.
Lastly, most filters can be used on a wide angle lens, but there are a few exceptions. The first exception is with the use of polarized filters. Due to the polarization of light by the filter and the angle of view, polarized filters can cause problems when shooting (the polarization can causes darkness and patterns around the edge of the frame). The second exception is with the use of ultra-wide angle lenses. In the ultra-wide range, the metal ring used on circular filters, or the filter holders for square filters, can often be seen in the view of the lens. To get rid of this you would need to crop the photo which reduces the effective benefit of using an ultra-wide angle lens. Thankfully filter manufacturers make low profile circular filters and low profile holders for square filters, however if you lens is really wide it may not matter. I happen to use Tiffen’s wide angle filters and have no major issues when using my 10-24mm zoom lens at 10mm (15mm on a 35mm frame). Any wider though and I would not be able to use a filter on my lens. The last exception is also with ultra-wide lenses. Due to the design of lenses at the very short focal lengths to allow for a very wide angle of view (approaching 180 degrees), often the front element of the lens can actually be convex in shape. One example of this is the 8-16mm lens from Tokina. This causes issues when trying to attach a flat filter on the front of the lens. Be sure to read up on your lens before buying filters (or even the lens if you want one that you can use filters with).
That’s it for this week. I am trying to keep these ones shorter as some of my past posts have been very long. Using wide angle lenses can be great both artistically and for practical purposes. Thankfully many of the lenses that come with entry level and mid-level DSLRs usually encompass part of the wide-angle range (Nikon’s usually start at 18mm). This can allow you to test out using the range before investing in a dedicated wide angle prime or zoom lens. Like any of your lenses, you should practice using them and you will get the hang of it. As always, get out and shoot.
Monday, June 6, 2011
Small Wonders – What to Look for in Compact Digital/Point-and-Shoot Cameras
From the start I said I would focus this blog primarily on DSLRs and would only occasionally touch on ILCs and point and shoot cameras. However, similar to last week’s post being tied to my 365 challenge, I also decided to make this week’s post about what I did the following week in my challenge: put down the DSLR and pick up a point and shoot (P/S). In doing so I learned a lot about how to manipulate the settings on the camera, but also a lot about the advantages and disadvantages of this type of camera and some features you may want to look out for if you are in the market for one. So this post will be focused on “small” world of compact P/S cameras.
First off, some may argue that the type of camera I am talking about is probably more appropriately named as a compact digital camera rather than point-and-shoot for two reasons. The first reason is that, if you really think about it, all cameras work by aiming the lens at a subject (point) and actuating the shutter release (shoot), particularly so as most cameras have a full automatic mode regardless of the type. However, I believe the name came about as a way to market the cameras as being simple to use, and that they are based around their automatic functionality, whereas DSLRs, and somewhat ILCs, are based around ability to control the camera and allow the photographer to customize the shot. The second reason is because compact digital camera better describes one of the biggest advantages of the class of cameras, which is their size. DSLRs and ILCs require more space to carry and to store, making them less easy to use quickly particularly when traveling, or just want to bring the camera along just in case a photo op should arise. Compact digital cameras can be carried in a purse or a pocket for quick access and little effort to transport. The term point-and-shoot may have been a better term for this class of cameras if we were talking about the film days as they were not really all that compact due to the film itself and the film advance mechanisms, although they were smaller than the their DSLR counterparts. Now with that being said, it is true today that there are some “compact digital cameras” that are not all that compact as they try to bridge the marketing space between the small pocket cameras and the bulkier DSLR, which is why I will now define what class of camera I am talking about, and for the purposes of this blog, refer to them all as “point-and-shoot,” or P/S for short.
So what is a P/S camera? In general terms, a P/S camera is one that is designed to be used primarily in automatic mode to properly expose the photos. It also contains the camera body, flash and lens all in one, often compact, package. In addition most point-and-shoot cameras rely on the LCD screen to allow the photographer to visualize and frame the subject matter. There may be a better definition out there, but as I am writing this post, this is the description that I have devised for this class of camera.
Now to get beyond the general and to get into the specifics of the camera, I will touch on both functionality (both how it works, and features you may want) and also practical usage of this type of camera. In my past post I have touched on a few of these items very briefly, so I apologize if I am repeating anything here, but I think it is best to capture all of this discussion in this post.
Before I get into specifics on features, let’s take a minute here and discuss good brands for P/S cameras. The major players in the DSLR market are also the major players for P/S. However, while I acknowledged back on my post at the end of April that Nikon and Canon are really a toss-up when it comes to DSLRs, Canon actually takes the edge when it comes to point and shoot cameras. This discrepancy between the two brands is narrowing as the most recent offers from Nikon have caught up a bit, but the usability and the image quality from Canon P/S is still superior to Nikon. That being said, there are also great cameras from Olympus, Sony, Sanyo, Samsung, Kodak, Fuji, Panasonic, etc which all can produce great photos. Actually there are more good options for P/S than there are for DSLR. And as they are all in one packages, you do not need to worry about expandability and compatibility when choosing one. Do your research on the brand and model and you will be happy with the camera you get.
With that out of the way let’s talk more about the features of a P/S camera that you should look out for when selecting a camera. The two biggest are the image sensor and the lens, both of which you don’t have much option on as the camera maker has picked the lens and sensor that work best with the size camera they are making. In general, but always, the larger P/S will have a better lens and a better sensor than the very small compact models. This is all due to space considerations. The smaller cameras need to sue a smaller sensor (which tend to have more noise especially in low light) and also have a shorter zoom range as the larger zoom lens requires more room for the zoom mechanism and actual glass size. You should also test out the quality of the glass, you don’t have much choice, but most camera makers use a decent lens with Nikon and Canon using their own lenses and many others using lenses from excellent 3rd party makers like Carl Zeiss. Now as I said the size of the camera does not always dictate quality. For example many people swear by the camera in the Apple iPhone 4, and I have seen some great photos shot with them that rival the quality of the mid-size compact digitals even though it has a tiny sensor and a tiny lens. But this is the exception rather than the rule. So when picking a point and shoot, if you want better image quality at the sacrifice of size, you should aim for the larger P/S, but if you are after size, you should look at the compact models. It all depends on what you put your emphasis on when looking at cameras.
Adjustability is the next on my list after image quality, but I also prefer a DSLR over a P/S for the same reason. Some point and shoot cameras, primarily the slightly larger ones, give you the ability to tweak settings such as aperture and shutter speed, exposure compensation, in addition to ISO, through the menu system rather than relying on the automatic mode. Now this is not as convenient as a DSLR’s buttons and dials, but at least you still have the option. Many cameras will not give you the option, except maybe for ISO settings, but default to “Auto.” If you want some control over your photos rather than relying on the camera, look for a model that lets you tweak the settings. If this is not important to you, then don’t worry about this. All P/S have automatic as their default operating mode.
If you want some control, but not the fine control of the settings mentioned above, many P/S come with scene modes. These modes tweak what settings the camera picks based on the type of scene you tell the camera you are shooting. Some examples of the scene modes are sports, night time, portrait, macro, etc. and each one adjusts the camera differently. For example a sports mode will likely use a faster shutter speed to stop motion, and turn on a continuous autofocus to be able to maintain focus on moving objects. On flip side, the portrait mode will likely use a larger aperture to soften the background and also will turn on the red-eye reduction if flash is required. Each of these scene modes can be helpful to adjust the camera enough to get a better photo than one with straight automatic mode. You should look to see if the camera has these options and how easy they are access.
Movie mode is being added to many cameras now a day and was in P/S long before they made it to DSLRs. I personally don’t ever use the movie mode, but if you foresee yourself wanting the option then you want to make sure that it has what you want. Many of the newest cameras today will shoot in 720p high definition. It should be noted though that the movies gathered using a compact P/S will likely be of lesser quality than those from a dedicated camcorder.
As the LCD is the main way that you can tell what you are shooting at and what your final photo looks like, you should make sure that it is a good quality. Test out some shot and check out the color reproduction and the size (this is largely dependent on the size of the camera you are looking to buy). Some cameras today are incorporating touch screens to allow you to adjust settings. I typically prefer physical buttons, but some of these touch screens work pretty well.
Another consideration is whether it uses digital or optical zoom. Digital zoom is a gimmick and I have never used it to take a quality photograph. Why is this? All digital zoom does it increase the size of the pixels in the output photograph to make it appear that you got a more zoomed in shot. This is at a great expense of image quality. All of the noise, mistakes, and flaws of your photo are also magnified electronically, and the images are not great. If you really want a closer shot, you should either move closer with you feet, or max out the optical zoom on your camera and crop the photo afterward using photo processing software. You will end up with a much better shot. Optical zoom works just like a zoom lens for a DSLR. It moves around the optical elements in the glass to focus a smaller angle of light onto the sensor. Back in the 1990s when the first regular available compact digital cameras were coming out, most of them would offer very short 2xoptical zoom and then use ridiculous 5x digital zooms and advertize the camera as having 10x zoom capability. While not wrong, the shots taken at 10x zoom were worthless. Now a day you can find much larger optical zooms on P/S cameras with actual optical 3-10x zooms, or on the larger P/S up to 30x or 40x optical zoom. In my mind, focus on the optical zoom range of the lens/camera and any digital zoom feature they advertise is a free extra feature if you want it.
You may also want to consider whether or not the camera will output RAW files. Almost all P/S will output files as a JPEG which is a compressed image file. During compression there can be aritifacts or noise introduced into the image. For most photos this is not a problem, but for some they can ruin the photo particularly if you open it, edit and save it again and again as each time it will recompress the file. RAW files are exactly what they sound like. They are the raw image data that the image sensor collects. With RAW files and the appropriate software (please note this as your standard image viewers cannot open RAW files) you can adjust many of the features of the photograph. And as it has not already compressed the photo it will do so while preserving the image quality. When you are done you can then save it as a JPEG, meaning it is only compressed once. The other advantage is that most RAW files are non-destructive meaning that if you make changes and save the file, you can open it up and get back to the original file but just undoing the changes. If you edit in JPEG and save, the original file is overwritten with the changes. While you may be able to adjust some of the settings back, you will never get back the original shot in the same quality. Now I’ve made a huge case for wanting a camera that outputs in RAW in addition to JPEG. But, practically, you really only need or want a camera with RAW file output if you plan on doing editing, and even then, working with a good editor with JPEGs is fine for the majority of people. In fact many pros will shoot in JPEG as it saves them the steps of processing and converting the RAW file (but it should be noted they also have the skill to get photos just right straight out of the camera). My preference is RAW, but you will be fine with just JPEG output. Also, often times ,the cameras that offer RAW output are higher end P/S and cost more as well.
Lastly is the flash. On compact digital cameras you really do not have a whole lot of options. Every point and shoot will have a built in flash, it will not be fantastic, but will do the job, and it is highly unlikely there will be an option to use an external flash. So, the most important thing to consider here is the ergonomics of the location. The camera designers do a good job of placing the flash where it works and it out of your way, but as everyone holds a camera a little different, you should pick up the camera and hold it as if you were shooting just to make sure your hands, fingers, etc do not block the flash.
Now that I have gone through some of the common features, you may have noticed that the P/S cameras can do a lot that the DSLRs can, but why would you pick one over a DSLR and vice versa. Compared to a DSLR, the biggest advantage of a P/S camera is the size and portability followed by cost. Recently I went out for a walk decided to bring along the point and shoot camera rather than my DSLR. The first think I noticed was how easy it was to bring along. As everything is contained in a single compact package there is no need for accessories or bags. Additionally the ease of sliding it into your pocket and going on your way is a great advantage over a DSLR. With that said, the ability to put in your pocket it obviously based on the size of the camera. If you have a small compact point and shoot, as most people do, then this remain an advantage. However, if you have a larger point and shoot, such as the Nikon P series of cameras, this will not be possible, but a simple case is all that is needed as they are still smaller than your standard DSLR with a lens attached (and typically lighter too). Why is size and portability such an advantage? This may be obvious, but its because your can bring your camera with you wherever you go and never miss a great shot because you decided not to lug around your DSLR. In my mind this is a great reason to have one.
The second reason to opt for a P/S over a DSLR is cost. Because P/S cameras tend to be simpler and don’t have to accommodate different lens options and accessories, and because they often don’t need the same software power that DSLRs require, they tend to be much cheaper. If you are getting into photography or just wanting a camera to take some snap shots, a P/S is definitely the economical way to go. An entry level DSLR kit (includes a lens) from am major manufacturer easily starts between $500 and $600. On the other hand you can get a basic P/S for under $100 and even the top line ones are $300 or $400 dollars.
Now that I have just made a case for wanting a P/S camera over a DSLR, now I am going to highlight some of the disadvantages that should really be considered before deciding which path is right for you. The first plays off the last advantage around cost. Due to the goal to keep costs down for the P/S segment of the market, often the lens, image sensor, and processing power of the camera are inferior to that in a DSLR. While this may not be noticeable to the casual photographer just looking to capture some fun moments with friends, it becomes readily apparent if you have ever compared picture samples side-by-side. And before I continue on, I need to say that the lower quality camera does not mean it is not possible to grab some fantastic high quality photographs using a P/S. This is not the case at all, however there is a difference when you compare the shots you can get with good glass on a good DSLR compared to a good P/S.
The second disadvantage, which is also an obvious one, is that there us a lack of expandability when working with a P/S camera. By their nature, P/S is supposed to be a full camera system in one package. Because of this, there are not options to try out different lenses, add on a better flash (or remotely control an external flash), or even use a filter on the end of the lens (although some P/S cameras do have the option to use a bracket to be able to attach a standard round filter, but this is not common). If you want to upgrade anything, you need to buy a new camera. The catch is that even replacing the camera can be, and often is, much cheaper than upgrading your camera body, or getting a new lens for a DSLR.
The next, which I highlighted early on, is the lack of flexibility to adjust settings, focus points, etc while shooting. Some high end P/S will offer some of these adjustments, such as adjusting your exposure settings, or picking where to focus, but if they do exist, they are often buried in the menu system of the camera which is not very useful if you are trying to adjust on the fly as a great shot reveals itself. Again, while this is a disadvantage, it is one that is intended as these cameras are designed around letting the camera do the technical thinking and letting the person simply compose and decide when to take the shot.
There are also some technical hurdles which are not easily overcome in the world of point and shoot cameras and they all surround the image sensor. The first technical issue comes when trying to shoot in low light. Due to the very small size of the sensor and the desire by both consumers and manufacturers to pack in many megapixels on that small senor, you end up with poor low light shooting. This power performance is due to pixel crowding. Many times the sensor in a point and shoot can be as small as a few millimeters wide and a few millimeters tall. On this smaller area is packed millions of light sensing pixels. Because they are so tightly packed if one pixel is struck by a photon of light it can often cause a response in the surrounding pixels as well but at varying levels. This adjacent excitation results in digital noise and can ruin a picture if it is prevalent, and becomes even more evident in dark areas of a photo (usually a common occurrence in low light shots). This noise during bright day light is often not much of an issue as most of the pixels are being excited and the effect from adjacent pixels is not evident. However, in lower light, in order to get the proper exposure, the camera will open the aperture and lengthen the time the shutter stays open. But because the aperture can only open so wide, and the shutter speed can only be so long before shaking of the users hand cause blur, most cameras well then increase the ISO. Increasing ISO basically takes the signal from the sensor and increases the amplifications. This is fine for most signals, but as P/S already have noise present, the noise is also amplified making the situation even worse. Again, this is a function of the size of the senor, which is a function of the size of the camera. This is also happens to be an issue for DSLRs (see my post on cropped versus full-frame image sensors), but not nearly as much.
The second effect of a small image sensor is an impact of the depth of field. A camera when it focuses, only focuses on a single plane of light at a particular distance from the camera. Depth of field is the area in front of and in back of that plane where the subject matter is in acceptable focus. In the world of DSLRs photographers will use the aperture setting to either allow for a lot of depth of field (for such shots as landscapes) to capture all of the photo in focus, or purposely opening up the aperture to blur the foreground and background (such as for portraiture) to make the subject stand out from the surroundings. Typically on a DSLR if you use a larger aperture (small f-number) you get a shallow depth of field and if you use a small aperture (large f-number) you get a deeper depth of field. If you have ever used a P/S camera and are familiar with this effect of aperture on the depth of field, you will have noticed that even if the camera picks a small f-number, such as f/3, which would normally provide a shallow depth of field, the image actually has a large depth of field. In fact, unless using the close-up/macro mode and being very close to a subject (depth of field is also dependent on the distance between the camera and the subject), you will hardly ever see the blurring effect by using a large aperture (small f-number). Why is this? Wouldn’t the same aperture provide the same effect regardless of the camera? In short, no. Just like a smaller sensor means that the perceived focal length of a lens is longer (again see my post on cropped and full-frame image sensors) it can also have the same effect on the depth of field. For effect on focal length a crop factor must be applied. For example a point and shoot may have a crop factor of 8x or greater. Often the actual focal length of a lens on a small point and shoot would only be 6.25mm, but due to the crop factor, it would provide the same view as a 50mm lens on a full-frame DSLR. This 8x crop factor also works on the aperture and associated depth of field. In order to determine the effective aperture, you must also multiple by the crop factor of the sensor. For example, if shooting a picture of a person 10 feet away, and the camera selects f/3 for an aperture, the effective aperture size in terms of depth of field is f/24 which is very small and provides a long depth of field. It should be noted, that this has no effect on the amount of light let in by the aperture at f/3, but it does on the depth of field. This phenomenon is a product of the small sensor size on what is known as the “circle of confusion” which dictates the depth of field of a sensor and lens (aperture) set up. I will cover this more in the future, but for this post all that is needed to be known is the effect on images from a P/S camera. So why then is this a disadvantage? It is a disadvantage as you lose the creative control over adjusting this depth of field based on your subject matter. The camera will still produce a fine image, but everything will be in focus. Again, there are exceptions when shooting in “macro mode” but the effect on depth of field is small (only slight blurring at larger apertures).
Just like there are advantages and disadvantages that should be considered around P/S cameras, there are also a couple of technique considerations as well. P/S cameras are designed to use the LCD to compose and frame the shot. However, in order to do this, you must hold the camera away from your body to allow you to see the screen. When using a DSLR, or a camera with a viewfinder, you should hold the camera up to your eye to see the image, and tuck in your elbows which makes for a more stable shooting position (or part of it). Since this is not possible when using a P/S, care should be taken particularly in low light, to hold the camera steady. In very low light, or macro situations, a tripod should be used similar to when a tripod should be used for a DSLR. This not only gives a stable platform for the shot, but also potentially restrict the camera to lower ISO setting (if an option on your camera) forcing the camera to use a longer exposure. This will result in lower noise (but beware of the subject as a moving subject will blue with longer exposures). All point and shoot cameras have a threaded slot in the bottom to allow it to be attached to a tripod. The good thing is that more portable (lighter) tripods can be used as they do not need to hold up a lot of weight. Without trying to sell any one product I do have to highlight the Joby Gorillapod as a great option for a portable, flexible tripod with options for point and shoots and even for DSLRs.
The next consideration has to do with the macro mode. Although not true macro functionality (see last week’s post), the macro mode will allow the photographer to get closer to the subject. It does this by restricting the zoom range of the lens and also changes the focus mechanism to get close to the subject using the same built in lens (a benefit of a small sensor). The change is focusing also puts the camera into a continuous focusing mode which will constantly hunt to maintain focus. Because of this second point, the big consideration here is battery life. This mode will definitely wear down your battery faster so care should be taken to turn it on and off when needed.
Everything else about shooting with a point and shoot is the same as shooting with any camera. It is all about light and composition.
Now that I have run through features, advantages, disadvantages and technique, what would I buy? A DSLR or a point and shoot? Well, as you already know, I do own a few DSLRs. And up until this point, I do not own a P/S camera of my own (I borrow my fiancĂ©’s if I want to use one). You may then think the answer if obvious, but it is really not. I actually do want a point and shoot camera, but only to complement my DSLRs. It all depends on what, where and when you are shooting. If I want to ensure my pictures are of high quality, need the flexibility of the DSLR, and can bring it along easily, I will reach for my DSLR every time. However, there are times where wanting to bring a camera, but not wanting to lug around a DSLR, when a point and shoot is the perfect option. At some point I do plan on buying a point and shoot to have as a pocket camera to either bring by itself or in addition to my DSLR when I head out to shoot. And when I do, I will consider all I have presented above and more to make sure I pick the right one for me and my wants and needs. The bottom line is that DSLRs and P/S are different tools that perform the same function. Depending on what you want to shoot, your budget and your personal preferences, both types of cameras will do the job. Whatever you have in your camera gear, get out and capture the world.
First off, some may argue that the type of camera I am talking about is probably more appropriately named as a compact digital camera rather than point-and-shoot for two reasons. The first reason is that, if you really think about it, all cameras work by aiming the lens at a subject (point) and actuating the shutter release (shoot), particularly so as most cameras have a full automatic mode regardless of the type. However, I believe the name came about as a way to market the cameras as being simple to use, and that they are based around their automatic functionality, whereas DSLRs, and somewhat ILCs, are based around ability to control the camera and allow the photographer to customize the shot. The second reason is because compact digital camera better describes one of the biggest advantages of the class of cameras, which is their size. DSLRs and ILCs require more space to carry and to store, making them less easy to use quickly particularly when traveling, or just want to bring the camera along just in case a photo op should arise. Compact digital cameras can be carried in a purse or a pocket for quick access and little effort to transport. The term point-and-shoot may have been a better term for this class of cameras if we were talking about the film days as they were not really all that compact due to the film itself and the film advance mechanisms, although they were smaller than the their DSLR counterparts. Now with that being said, it is true today that there are some “compact digital cameras” that are not all that compact as they try to bridge the marketing space between the small pocket cameras and the bulkier DSLR, which is why I will now define what class of camera I am talking about, and for the purposes of this blog, refer to them all as “point-and-shoot,” or P/S for short.
So what is a P/S camera? In general terms, a P/S camera is one that is designed to be used primarily in automatic mode to properly expose the photos. It also contains the camera body, flash and lens all in one, often compact, package. In addition most point-and-shoot cameras rely on the LCD screen to allow the photographer to visualize and frame the subject matter. There may be a better definition out there, but as I am writing this post, this is the description that I have devised for this class of camera.
Now to get beyond the general and to get into the specifics of the camera, I will touch on both functionality (both how it works, and features you may want) and also practical usage of this type of camera. In my past post I have touched on a few of these items very briefly, so I apologize if I am repeating anything here, but I think it is best to capture all of this discussion in this post.
Before I get into specifics on features, let’s take a minute here and discuss good brands for P/S cameras. The major players in the DSLR market are also the major players for P/S. However, while I acknowledged back on my post at the end of April that Nikon and Canon are really a toss-up when it comes to DSLRs, Canon actually takes the edge when it comes to point and shoot cameras. This discrepancy between the two brands is narrowing as the most recent offers from Nikon have caught up a bit, but the usability and the image quality from Canon P/S is still superior to Nikon. That being said, there are also great cameras from Olympus, Sony, Sanyo, Samsung, Kodak, Fuji, Panasonic, etc which all can produce great photos. Actually there are more good options for P/S than there are for DSLR. And as they are all in one packages, you do not need to worry about expandability and compatibility when choosing one. Do your research on the brand and model and you will be happy with the camera you get.
With that out of the way let’s talk more about the features of a P/S camera that you should look out for when selecting a camera. The two biggest are the image sensor and the lens, both of which you don’t have much option on as the camera maker has picked the lens and sensor that work best with the size camera they are making. In general, but always, the larger P/S will have a better lens and a better sensor than the very small compact models. This is all due to space considerations. The smaller cameras need to sue a smaller sensor (which tend to have more noise especially in low light) and also have a shorter zoom range as the larger zoom lens requires more room for the zoom mechanism and actual glass size. You should also test out the quality of the glass, you don’t have much choice, but most camera makers use a decent lens with Nikon and Canon using their own lenses and many others using lenses from excellent 3rd party makers like Carl Zeiss. Now as I said the size of the camera does not always dictate quality. For example many people swear by the camera in the Apple iPhone 4, and I have seen some great photos shot with them that rival the quality of the mid-size compact digitals even though it has a tiny sensor and a tiny lens. But this is the exception rather than the rule. So when picking a point and shoot, if you want better image quality at the sacrifice of size, you should aim for the larger P/S, but if you are after size, you should look at the compact models. It all depends on what you put your emphasis on when looking at cameras.
Adjustability is the next on my list after image quality, but I also prefer a DSLR over a P/S for the same reason. Some point and shoot cameras, primarily the slightly larger ones, give you the ability to tweak settings such as aperture and shutter speed, exposure compensation, in addition to ISO, through the menu system rather than relying on the automatic mode. Now this is not as convenient as a DSLR’s buttons and dials, but at least you still have the option. Many cameras will not give you the option, except maybe for ISO settings, but default to “Auto.” If you want some control over your photos rather than relying on the camera, look for a model that lets you tweak the settings. If this is not important to you, then don’t worry about this. All P/S have automatic as their default operating mode.
If you want some control, but not the fine control of the settings mentioned above, many P/S come with scene modes. These modes tweak what settings the camera picks based on the type of scene you tell the camera you are shooting. Some examples of the scene modes are sports, night time, portrait, macro, etc. and each one adjusts the camera differently. For example a sports mode will likely use a faster shutter speed to stop motion, and turn on a continuous autofocus to be able to maintain focus on moving objects. On flip side, the portrait mode will likely use a larger aperture to soften the background and also will turn on the red-eye reduction if flash is required. Each of these scene modes can be helpful to adjust the camera enough to get a better photo than one with straight automatic mode. You should look to see if the camera has these options and how easy they are access.
Movie mode is being added to many cameras now a day and was in P/S long before they made it to DSLRs. I personally don’t ever use the movie mode, but if you foresee yourself wanting the option then you want to make sure that it has what you want. Many of the newest cameras today will shoot in 720p high definition. It should be noted though that the movies gathered using a compact P/S will likely be of lesser quality than those from a dedicated camcorder.
As the LCD is the main way that you can tell what you are shooting at and what your final photo looks like, you should make sure that it is a good quality. Test out some shot and check out the color reproduction and the size (this is largely dependent on the size of the camera you are looking to buy). Some cameras today are incorporating touch screens to allow you to adjust settings. I typically prefer physical buttons, but some of these touch screens work pretty well.
Another consideration is whether it uses digital or optical zoom. Digital zoom is a gimmick and I have never used it to take a quality photograph. Why is this? All digital zoom does it increase the size of the pixels in the output photograph to make it appear that you got a more zoomed in shot. This is at a great expense of image quality. All of the noise, mistakes, and flaws of your photo are also magnified electronically, and the images are not great. If you really want a closer shot, you should either move closer with you feet, or max out the optical zoom on your camera and crop the photo afterward using photo processing software. You will end up with a much better shot. Optical zoom works just like a zoom lens for a DSLR. It moves around the optical elements in the glass to focus a smaller angle of light onto the sensor. Back in the 1990s when the first regular available compact digital cameras were coming out, most of them would offer very short 2xoptical zoom and then use ridiculous 5x digital zooms and advertize the camera as having 10x zoom capability. While not wrong, the shots taken at 10x zoom were worthless. Now a day you can find much larger optical zooms on P/S cameras with actual optical 3-10x zooms, or on the larger P/S up to 30x or 40x optical zoom. In my mind, focus on the optical zoom range of the lens/camera and any digital zoom feature they advertise is a free extra feature if you want it.
You may also want to consider whether or not the camera will output RAW files. Almost all P/S will output files as a JPEG which is a compressed image file. During compression there can be aritifacts or noise introduced into the image. For most photos this is not a problem, but for some they can ruin the photo particularly if you open it, edit and save it again and again as each time it will recompress the file. RAW files are exactly what they sound like. They are the raw image data that the image sensor collects. With RAW files and the appropriate software (please note this as your standard image viewers cannot open RAW files) you can adjust many of the features of the photograph. And as it has not already compressed the photo it will do so while preserving the image quality. When you are done you can then save it as a JPEG, meaning it is only compressed once. The other advantage is that most RAW files are non-destructive meaning that if you make changes and save the file, you can open it up and get back to the original file but just undoing the changes. If you edit in JPEG and save, the original file is overwritten with the changes. While you may be able to adjust some of the settings back, you will never get back the original shot in the same quality. Now I’ve made a huge case for wanting a camera that outputs in RAW in addition to JPEG. But, practically, you really only need or want a camera with RAW file output if you plan on doing editing, and even then, working with a good editor with JPEGs is fine for the majority of people. In fact many pros will shoot in JPEG as it saves them the steps of processing and converting the RAW file (but it should be noted they also have the skill to get photos just right straight out of the camera). My preference is RAW, but you will be fine with just JPEG output. Also, often times ,the cameras that offer RAW output are higher end P/S and cost more as well.
Lastly is the flash. On compact digital cameras you really do not have a whole lot of options. Every point and shoot will have a built in flash, it will not be fantastic, but will do the job, and it is highly unlikely there will be an option to use an external flash. So, the most important thing to consider here is the ergonomics of the location. The camera designers do a good job of placing the flash where it works and it out of your way, but as everyone holds a camera a little different, you should pick up the camera and hold it as if you were shooting just to make sure your hands, fingers, etc do not block the flash.
Now that I have gone through some of the common features, you may have noticed that the P/S cameras can do a lot that the DSLRs can, but why would you pick one over a DSLR and vice versa. Compared to a DSLR, the biggest advantage of a P/S camera is the size and portability followed by cost. Recently I went out for a walk decided to bring along the point and shoot camera rather than my DSLR. The first think I noticed was how easy it was to bring along. As everything is contained in a single compact package there is no need for accessories or bags. Additionally the ease of sliding it into your pocket and going on your way is a great advantage over a DSLR. With that said, the ability to put in your pocket it obviously based on the size of the camera. If you have a small compact point and shoot, as most people do, then this remain an advantage. However, if you have a larger point and shoot, such as the Nikon P series of cameras, this will not be possible, but a simple case is all that is needed as they are still smaller than your standard DSLR with a lens attached (and typically lighter too). Why is size and portability such an advantage? This may be obvious, but its because your can bring your camera with you wherever you go and never miss a great shot because you decided not to lug around your DSLR. In my mind this is a great reason to have one.
The second reason to opt for a P/S over a DSLR is cost. Because P/S cameras tend to be simpler and don’t have to accommodate different lens options and accessories, and because they often don’t need the same software power that DSLRs require, they tend to be much cheaper. If you are getting into photography or just wanting a camera to take some snap shots, a P/S is definitely the economical way to go. An entry level DSLR kit (includes a lens) from am major manufacturer easily starts between $500 and $600. On the other hand you can get a basic P/S for under $100 and even the top line ones are $300 or $400 dollars.
Now that I have just made a case for wanting a P/S camera over a DSLR, now I am going to highlight some of the disadvantages that should really be considered before deciding which path is right for you. The first plays off the last advantage around cost. Due to the goal to keep costs down for the P/S segment of the market, often the lens, image sensor, and processing power of the camera are inferior to that in a DSLR. While this may not be noticeable to the casual photographer just looking to capture some fun moments with friends, it becomes readily apparent if you have ever compared picture samples side-by-side. And before I continue on, I need to say that the lower quality camera does not mean it is not possible to grab some fantastic high quality photographs using a P/S. This is not the case at all, however there is a difference when you compare the shots you can get with good glass on a good DSLR compared to a good P/S.
The second disadvantage, which is also an obvious one, is that there us a lack of expandability when working with a P/S camera. By their nature, P/S is supposed to be a full camera system in one package. Because of this, there are not options to try out different lenses, add on a better flash (or remotely control an external flash), or even use a filter on the end of the lens (although some P/S cameras do have the option to use a bracket to be able to attach a standard round filter, but this is not common). If you want to upgrade anything, you need to buy a new camera. The catch is that even replacing the camera can be, and often is, much cheaper than upgrading your camera body, or getting a new lens for a DSLR.
The next, which I highlighted early on, is the lack of flexibility to adjust settings, focus points, etc while shooting. Some high end P/S will offer some of these adjustments, such as adjusting your exposure settings, or picking where to focus, but if they do exist, they are often buried in the menu system of the camera which is not very useful if you are trying to adjust on the fly as a great shot reveals itself. Again, while this is a disadvantage, it is one that is intended as these cameras are designed around letting the camera do the technical thinking and letting the person simply compose and decide when to take the shot.
There are also some technical hurdles which are not easily overcome in the world of point and shoot cameras and they all surround the image sensor. The first technical issue comes when trying to shoot in low light. Due to the very small size of the sensor and the desire by both consumers and manufacturers to pack in many megapixels on that small senor, you end up with poor low light shooting. This power performance is due to pixel crowding. Many times the sensor in a point and shoot can be as small as a few millimeters wide and a few millimeters tall. On this smaller area is packed millions of light sensing pixels. Because they are so tightly packed if one pixel is struck by a photon of light it can often cause a response in the surrounding pixels as well but at varying levels. This adjacent excitation results in digital noise and can ruin a picture if it is prevalent, and becomes even more evident in dark areas of a photo (usually a common occurrence in low light shots). This noise during bright day light is often not much of an issue as most of the pixels are being excited and the effect from adjacent pixels is not evident. However, in lower light, in order to get the proper exposure, the camera will open the aperture and lengthen the time the shutter stays open. But because the aperture can only open so wide, and the shutter speed can only be so long before shaking of the users hand cause blur, most cameras well then increase the ISO. Increasing ISO basically takes the signal from the sensor and increases the amplifications. This is fine for most signals, but as P/S already have noise present, the noise is also amplified making the situation even worse. Again, this is a function of the size of the senor, which is a function of the size of the camera. This is also happens to be an issue for DSLRs (see my post on cropped versus full-frame image sensors), but not nearly as much.
The second effect of a small image sensor is an impact of the depth of field. A camera when it focuses, only focuses on a single plane of light at a particular distance from the camera. Depth of field is the area in front of and in back of that plane where the subject matter is in acceptable focus. In the world of DSLRs photographers will use the aperture setting to either allow for a lot of depth of field (for such shots as landscapes) to capture all of the photo in focus, or purposely opening up the aperture to blur the foreground and background (such as for portraiture) to make the subject stand out from the surroundings. Typically on a DSLR if you use a larger aperture (small f-number) you get a shallow depth of field and if you use a small aperture (large f-number) you get a deeper depth of field. If you have ever used a P/S camera and are familiar with this effect of aperture on the depth of field, you will have noticed that even if the camera picks a small f-number, such as f/3, which would normally provide a shallow depth of field, the image actually has a large depth of field. In fact, unless using the close-up/macro mode and being very close to a subject (depth of field is also dependent on the distance between the camera and the subject), you will hardly ever see the blurring effect by using a large aperture (small f-number). Why is this? Wouldn’t the same aperture provide the same effect regardless of the camera? In short, no. Just like a smaller sensor means that the perceived focal length of a lens is longer (again see my post on cropped and full-frame image sensors) it can also have the same effect on the depth of field. For effect on focal length a crop factor must be applied. For example a point and shoot may have a crop factor of 8x or greater. Often the actual focal length of a lens on a small point and shoot would only be 6.25mm, but due to the crop factor, it would provide the same view as a 50mm lens on a full-frame DSLR. This 8x crop factor also works on the aperture and associated depth of field. In order to determine the effective aperture, you must also multiple by the crop factor of the sensor. For example, if shooting a picture of a person 10 feet away, and the camera selects f/3 for an aperture, the effective aperture size in terms of depth of field is f/24 which is very small and provides a long depth of field. It should be noted, that this has no effect on the amount of light let in by the aperture at f/3, but it does on the depth of field. This phenomenon is a product of the small sensor size on what is known as the “circle of confusion” which dictates the depth of field of a sensor and lens (aperture) set up. I will cover this more in the future, but for this post all that is needed to be known is the effect on images from a P/S camera. So why then is this a disadvantage? It is a disadvantage as you lose the creative control over adjusting this depth of field based on your subject matter. The camera will still produce a fine image, but everything will be in focus. Again, there are exceptions when shooting in “macro mode” but the effect on depth of field is small (only slight blurring at larger apertures).
Just like there are advantages and disadvantages that should be considered around P/S cameras, there are also a couple of technique considerations as well. P/S cameras are designed to use the LCD to compose and frame the shot. However, in order to do this, you must hold the camera away from your body to allow you to see the screen. When using a DSLR, or a camera with a viewfinder, you should hold the camera up to your eye to see the image, and tuck in your elbows which makes for a more stable shooting position (or part of it). Since this is not possible when using a P/S, care should be taken particularly in low light, to hold the camera steady. In very low light, or macro situations, a tripod should be used similar to when a tripod should be used for a DSLR. This not only gives a stable platform for the shot, but also potentially restrict the camera to lower ISO setting (if an option on your camera) forcing the camera to use a longer exposure. This will result in lower noise (but beware of the subject as a moving subject will blue with longer exposures). All point and shoot cameras have a threaded slot in the bottom to allow it to be attached to a tripod. The good thing is that more portable (lighter) tripods can be used as they do not need to hold up a lot of weight. Without trying to sell any one product I do have to highlight the Joby Gorillapod as a great option for a portable, flexible tripod with options for point and shoots and even for DSLRs.
The next consideration has to do with the macro mode. Although not true macro functionality (see last week’s post), the macro mode will allow the photographer to get closer to the subject. It does this by restricting the zoom range of the lens and also changes the focus mechanism to get close to the subject using the same built in lens (a benefit of a small sensor). The change is focusing also puts the camera into a continuous focusing mode which will constantly hunt to maintain focus. Because of this second point, the big consideration here is battery life. This mode will definitely wear down your battery faster so care should be taken to turn it on and off when needed.
Everything else about shooting with a point and shoot is the same as shooting with any camera. It is all about light and composition.
Now that I have run through features, advantages, disadvantages and technique, what would I buy? A DSLR or a point and shoot? Well, as you already know, I do own a few DSLRs. And up until this point, I do not own a P/S camera of my own (I borrow my fiancĂ©’s if I want to use one). You may then think the answer if obvious, but it is really not. I actually do want a point and shoot camera, but only to complement my DSLRs. It all depends on what, where and when you are shooting. If I want to ensure my pictures are of high quality, need the flexibility of the DSLR, and can bring it along easily, I will reach for my DSLR every time. However, there are times where wanting to bring a camera, but not wanting to lug around a DSLR, when a point and shoot is the perfect option. At some point I do plan on buying a point and shoot to have as a pocket camera to either bring by itself or in addition to my DSLR when I head out to shoot. And when I do, I will consider all I have presented above and more to make sure I pick the right one for me and my wants and needs. The bottom line is that DSLRs and P/S are different tools that perform the same function. Depending on what you want to shoot, your budget and your personal preferences, both types of cameras will do the job. Whatever you have in your camera gear, get out and capture the world.
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