camera viewfinder vs lcd screen pricelist

The benefits of the viewfinder and LCD screen are often compared with one another. Depending on whom you ask, you might hear remarkably different opinions on the usability of the two.

As discussed above, photography is all about precision. Viewfinders have been around long before LCD screens, and therefore many photographers find viewfinders more comfortable to work with.

Viewfinders offer much more precision when you are shooting, especially on a bright day. It allows you to focus on the small details. Viewfinders reduce image distortion and capture an accurate image. That’s why most DSLRs and high-end mirrorless cameras today still have viewfinders.

Running out of battery is a nightmare for photographers, especially if you don’t have any spares. That’s why viewfinders are considered optimal in these situations. Viewfinders use comparatively much less battery than LCD screens.

If you are shooting in an area where electricity is scarce, or don’t have access to a charger or backup batteries, the viewfinder will be a better choice for you.

Viewfinders are very convenient to use and provide smooth handling. When looking through the viewfinder, it’s easy to keep the camera steady. This makes the viewfinder an optimal choice when you need to zoom in or have a slightly heavier camera.

For many people, this extra effort of adjusting your eyeglasses is troublesome. However, some viewfinder cameras have a built-in diopter that can help make it easier to use with glasses.

Viewfinders can be much smaller compared to LCD screens. As a result, you may not be able to see everything you’re capturing in the viewfinder accurately. This drawback is very important for photographers who want to preview every single detail when taking a picture.

To see details on viewfinders, especially the electronic ones, you have to zoom in on the frame. However, this can lower the resolution of the preview. Luckily, if most of your shots consist of zoom shots, this may not bother you much.

What sets LCD screens apart from viewfinders is their ability to provide 100% image coverage to the photographer. In comparison, cameras with a viewfinder offer around 90-95% of the image, sometimes less.

What you see through the viewfinder doesn’t always end up in the final result. Small details can be crucial. That’s why this 5-10% difference in image coverage can be a significant reason why you might choose an LCD screen over the viewfinder.

When you are in a lower field-of-view, framing can be much more difficult. Many people can’t take a picture while lying on the ground using a viewfinder. This is where LCD screens come in. Flexible LCDs make it easier for you to capture images when you can’t reach awkward angles.

LCD screens produce great results for night photography. LCD screens are often used for night photography due to their bright image playback quality. They help you focus on the small details when you are shooting at night.

An evident shortcoming of the LCD screen is its lack of utility on a bright day. Because of the glare, many people cannot use their LCD screen at all on a sunny day. It’s hard to see anything on the LCD except the reflections.

Another drawback to using an LCD screen is its difficulty in handling it. Holding the camera while looking through the LCD screen is difficult and takes a lot of effort, especially when you are zooming and trying to be precise.

Another disadvantage of LCD screens is the fact that they can easily overexpose your image. This should not be a problem for seasoned photographers who can improve the quality of the image with better handling and precision.

Those were some of the benefits and drawbacks of using a viewfinder and LCD screen to consider. So, which one is best? The answer depends on your personal preferences and budget.

If you’re a traditional photographer, you’ll probably be more comfortable with the viewfinder. If you are a photographer who likes to focus on small details and image quality, you should opt for the LCD screen.

LCD screens are great, and the quality improves with each new generation of DSLR cameras appearing on the market. But, many professional photographers prefer to use a camera"s viewfinder. We explain the benefits and disadvantages of each.

LCD screens have advantages, but so do optical viewfinders. When it"s time to frame a photo with your DSLR camera, you need to decide which side of the viewfinder vs. LCD debate you lean. Unlike the optical viewfinder, the LCD screen displays the entire frame that the sensors capture. Optical viewfinders, even on a professional level DSLR, only show 90-95% of the image. You lose a small percentage on the edges of the image.

Digital SLRs aren"t light, and it"s easier to produce a crisp, sharp image when you hold the camera up to your eye to use the viewfinder. That way, you can support and steady the camera and lens with your hands. But, viewfinders are generally smaller than LCD screens. Viewfinders are also less convenient to use, especially if you wear glasses.

At the end of the day, though, as intelligent as digital cameras are, the human eye can resolve more detail than an LCD screen. You get a sharper and more accurate view of your image by using the viewfinder.

The biggest drawback with LCD screens is probably shooting in sunlight. Depending on the quality of the screen, you may not be able to use it in bright sunshine because of the glare. All you see are reflections off the screen. Also, the crystals contained within LCD screens tend to flare in bright sunlight, making the situation worse.

Holding the camera at arm"s-length while looking at the LCD screen—and then keeping the camera steady while zooming in on a subject—takes effort. When you use the LCD screen this way, you often end up with a blurry image.

No matter how good an LCD screen is, it"s unlikely to give an accurate overview of the image you took. Most overexpose an image by as much as one full stop. It"s best to acquire the technical knowledge about photography, rather than rely on the LCD screen to determine image quality. With this technical knowledge, you"ll have the confidence your settings are correct, and your images are properly exposed. So, in most cases, it"s best to use the viewfinder. But, if you like the convenience of an LCD, or you wear glasses, use the LCD. It"s mostly a matter of personal preference.

use the viewfinder may become impossible when the view gets worse as with presbyopia. in spite of the trouble that sunlight has on lcd, I can not use the viewfinder, for a variety of reasons that complicate and prevent it from being ready to take the photo,

- If I keep them in my hand, I can not use the camera and use all the control functions with only one hand, perhaps with a small compact that will always fire in automatic, but not with a mirrorlees.

If you still find a way to support his glasses, you have another problem, when you take glasses and look in the viewfinder, you have visual mismatch for a few seconds, then return the glasses, yet the visual mismatch, if you do studio photography, perhaps ok not a problem, but if you"re on the road, you have to seize the moment ..

In order to achieve good photos, ok important the feeling with their own camera, and with the world around you, the act of making a photograph has to be spontaneous, and more complicated, the less you are able to do photography, if it is too complicated passes the desire to do photography.

I use lcd from many advantages for action photo, I see both the image and all the controls of the camera, I am always ready to make photo adjustments a snap.

if I need to move area of focus, with lcd touch and very easy, I can take the photo, when in doubt click again with different setting, with memory card we have many great variation with, with the film was the most expensive ..

Having trouble making focus and framing decisions based on what you see in your DSLR viewfinder or LCD screen? You may need to think about an external version.

With more and more digital SLR cameras supporting high-definition video, many prosumers as well as professionals are favouring DSLRs over expensive, bulky, heavy and more limited dedicated video cameras.

But using what was initially designed as a replacement for 35mm film cameras is not without drawbacks. The very nature of SLR cameras with their moving mirrors means that the built-in viewfinder of a DSLR is useless when capturing video – the mirror is flipped aside to allow the sensor to capture the light – so videographers have to use the onboard LCD to monitor exactly what they are recording. These built-in screens drain camera batteries, have relatively low resolutions and are often all but unusable when used in strong ambient light. While they’re fine for a quick check of framing and exposure or to review footage once you can get into the shade, you really have to consider an external monitor or viewfinder to view video clearly and consistently at a resolution and scale where you can be certain what you have captured.

Monitors are LCD screens powered either by a built-in battery or, in some cases, the same batteries you use for your camera via adaptor plates (which means one less thing to pack). They attach to the camera using cables (HDMI, Composite, Component 3G or SDI) and can be mounted either on the camera or wherever is most convenient. The flexibility of mounting is especially important when using stabilisers, jibs, shoulder rigs, or any other arrangement where the camera may be placed at a distance from the operator. These screens, being self-powered, reduce the load on the camera batteries, giving you more shooting time between charges/changes. They can be larger than the built-in screens so you can review footage without straining your eyes, and often also have a higher resolution, allowing for a truer representation of what’s being shot.

Monitors also come in a range of sizes. The smaller units are more tailored to on-camera use and can be mounted on the hot shoe. Primarily designed to replace the built-in screens, they provide additional focus and exposure feedback. The larger units offer more features and are designed for mounting elsewhere. They tend to offer HDMI pass-through, as well as audio monitoring via 3.5mm headphone sockets and waveform monitoring.

As you can see there is a huge range of prices, resolution and features, and these are just a small sample of the monitors available. From this selection though, if you are looking for a smaller monitor, the ikan VL5 or Marshall Monitors V-LCD51 are your best bets. If you’re looking for something on a jib or in another application where weight and size are not issues, then the ikan VH8 with its larger screen and greater features might be suitable.

Viewfinders are a hood and eyepiece that can be attached to a monitor, blocking out ambient light. Some models are designed to attach to external monitors, while others connect directly to the LCD screen built into the camera.

Kinotehnik provides a range of viewfinders and appropriate mounting frames for most popular camera makes and models ranging in price from $135 to $165. Zacuto also offers viewfinders for use with or without their monitors. The Z-Finder Jr ($345) and Z-Finder Pro ($515) can be used without a monitor via a baseplate that screws into your DSLR’s tripod mount and uses the built-in screen. They can also be used in conjunction with the EVF Snap (US$641) or EVF Flip (US$736) monitors.

Regardless of whether you choose to use a monitor, a viewfinder, or a combination of the two, anything that helps ensure you’re getting the highest quality video is a worthwhile investment. After a day of shooting, there’s nothing worse than finding talking shadows or a polar bear in a blizzard.

While some photographers like the natural view offered by an optical viewfinder, an electronic viewfinder brings the advantage of being able to see the effect of the exposure, white balance and Picture Style settings being applied. If you apply the Monochrome Picture Style, for example, the image you see in the EVF will be mono, while with an OVF it will remain colour. This means you can use the image in an EVF to assess whether your settings suit the scene and to be confident you will get the result you want before pressing the shutter button. That"s especially helpful if, for example, the subject is backlit and you might need to use some exposure compensation.

In this way, an EVF is especially useful for relatively inexperienced photographers, because it enables you to see the effects of camera settings at the shooting stage, not just assess them afterwards. For many, it makes photography more intuitive.

Another advantage of an EVF is that it can compensate for low light levels, which means you always have a clear view of the subject. Conversely, with an optical viewfinder you"re seeing the scene with the ambient light level, which means that in dark conditions it can be difficult to compose a shot or to focus.

On the other hand, because the image you see in an EVF has to be processed before it can be displayed, all EVFs suffer from some degree of lag. Although the latest mirrorless cameras such as the EOS R5 have EVFs with a refresh rate of 120fps and the lag is only a matter of milliseconds, this can still matter if you"re shooting fast-moving action and split-second timing is critical. As technologies continue to develop, the lag is likely to get shorter and shorter, but an OVF works at the speed of light, which means in effect no lag at all. For this reason, many photographers shooting sports, wildlife or other subjects involving fast action still prefer a DSLR.

In addition, when you"re using an EVF you"re actually looking at a small screen, and even though this has a very high refresh rate, an OVF can be more comfortable over a long period of usage. This means that if you"re shooting wildlife or sports where you have to keep your eye to the viewfinder for a very long time waiting for the action to happen, an OVF could be preferable.

An articulating or vari-angle LCD – commonly called a flip screen – is a useful addition to a camera. The screen is mounted on a swivel, allowing you to flip the screen away from the camera body and rotate the LCD 360 degrees.

Flip screens have traditionally been useful for taking photos at unusual angles. For instance, framing a bug’s-eye view from ground level used to mean setting your camera down low and awkwardly trying to see through the optical viewfinder. There was usually a lot of guesswork involved.

With a vari-angle, or flip screen, you can now set the camera up at ground level and angle the articulating LCD up towards you and frame the scene in live view.

Likewise, a flip screen allows you to shoot overhead by swivelling the screen down. Street photographers might also appreciate a swivel screen because it can let you shoot more discreetly. Shooting from the hip is a lot easier with a flip screen and gives you more control. Hold the camera against your body and angle the swivel screen upwards so you can frame your shot, then shoot discreetly.

Despite all these advantages for shooting stills, it’s probably the rise of vlogging that has seen the popularity of cameras with flip screens soar. Like shooting self-portraiture, vlogging requires placing yourself on the other side of the camera, and before flip screens were a thing this required a lot of careful setup and trial and error.

But swivel LCD touchscreens mean you can now place your camera in front of you, frame your shot accordingly and simply tap the screen to take a picture or start recording. If you have even modest ambitions to post videos on YouTube, a camera with an articulating screen will undoubtedly be the best option for you. In this guide we’ll round up the best cameras with flip screens.

Metering: 384-zone metering with Evaluative metering (linked to All AF points), Partial metering (approx. 6.1% of viewfinder at centre), Spot metering: Centre spot metering (approx. 3.1% viewfinder at centre), Centre weighted average metering

The Canon EOS R5 leaves little doubt that Canon is now serious about the mirrorless camera market. It has phenomenal specification with features like a 45Mp full-frame sensor, phase detection autofocusing that covers the whole frame, eye AF for humans and animals that works in video and stills mode and a class-leading viewfinder paired with a vari-angle touchscreen.

The Canon EOS R5 is built to a similar standard to the Canon EOS 5D Mark IV and has a magnesium alloy construction along with weatherproof seals. Its handling is also similar, but the control arrangement has changed to accommodate the vari-angle screen.

It’s great to have a vari-angle screen on the EOS R5. It makes it much easier to shoot video from above or below head-height while keeping the kit size and weight down. Also, as the screen is touch-sensitive you can control the camera with a few taps.

While the R6’s viewfinder is the same size as the R5’s (it’s a 0.5-inch type), its resolution is lower at 3.69million dots instead of 5.76million. That’s the same as in the EOS R and on par with the electronic viewfinders in the Sony A9 and Nikon Z7. It’s a great EVF specification for a camera of this level.

There’s also a 3-inch vari-angle touchscreen with 1.62million dots. We’re a fan of vari-angle screens because they make shooting portrait or landscape format images from above or below head-height much easier than a fixed screen. And a tilting screen is only of help with landscape format images.

Both the viewfinder and the screen provide an accurate preview of the image as it will be captured. Overall, Canon’s control arrangement on the R6 and use of touch control is excellent and the vari-angle screen is a real asset.

After we reviewed the Sony A7 III, a flip-out touchscreen was at the top of our wishlist for improvements we’d like to see on the next iteration of Sony’s full-frame all-rounder. Sure enough, Sony has given the A7 IV a vari-angle screen that can be flipped face forward or be angled to help compose low- or high-level shots in either landscape of portrait orientation.

What’s more, the A7 IV’s 3-inch 1,036,800-dot screen is touch-sensitive and users can now navigate the menus and settings with a tap. In previous Sony touchscreen LCDs, you were limited to setting the AF point via touch.

Sony has also carefully thought through the design, as well, placing the A7 IV’s mic port just above the screen on the side of the camera so it can still move freely when an external mic is plugged in.

OM System has given the OM-1 a very bright 1.62-million dot vari-angle touchscreen. It’s a 3-inch screen and like on the OM-D E-M1 III and OM-D E-M1X and it’s mounted on a vari-angle hinge. This vari-angle hinge means the screen can be angled for clear visibility whether you’re shooting in landscape or portrait orientation.

Like the screens on existing Olympus Micro Four Thirds cameras, the OM-1’s screen is touch sensitive. It responds quickly to a tap and it’s a shame that OM System’s hasn’t extended the touch control to the new main menu.

In overcast conditions and indoors, the OM-1’s screen gives an excellent view it also performs well in brighter conditions. my toughest test for this was when skiing on a bright sunny day trying to video my companions ahead of me. Keeping them framed as we all moved over the piste was challenging, but thankfully, I was able to see them on the screen.

Although Panasonic Lumix S5 is smaller than the GH5, it has a well-proportioned and ergonomically shaped grip. A rubber-like coating also ensures that the camera feels secure in your hand. It’s also weather-sealed so you don’t need to worry if the weather changes when you’re out on a shoot.

Despite the shrinkage in size and weight, the Panasonic Lumix s5 has both a 3-inch 1,840,000-dot vari-angle touchscreen and a 2,360,000-dot OLED electronic viewfinder built-in.

The Panasonic GH5 has a vari-angle screen and it was high on the request list for the S-series camera when their development announcement was made. However, the S1 and S1R have 3-way tilting screens. These are useful if you’re shooting in landscape and portrait format images, but they’re not as intuitive or flexible to use as a vari-angle screen and they can’t be seen from in front of the camera.

Happily, the Lumix S5’s screen delivers what many were hoping for and it can be flipped around to face forwards. It means that the S5 could also be a good full-frame vlogging camera.

Further good news is that, like the viewfinder, the S5’s screen provides an excellent preview of the image. If you’re shooting outdoors in bright conditions it’s worth activating the Live View Boost to brighten screen to make the scene easier to see. The screen is also very responsive to touch.

The Panasonic GH6 has a 3.0-inch 1,840K-dot tilt and free-angle touchscreen with an aspect ratio of 3:2 on its rear. The tilting aspect of the screen isn’t immediately obvious, but pressing the button underneath the monitor’s bottom left corner releases the mechanism so the screen can be tilted up from the bottom.

There are two stop points in the screen’s tilt movement. The first one is at the right point to enable the screen to be flipped out to the side of the camera without catching on the viewfinder while the second one at about 45° gives a more comfortable viewing able when shooting at waist-height.

To the uninitiated, the tilt and free-angle combination may seem a bit over the top but it means that the screen can be flipped out and twisted to face forwards, up or down, without fouling on any of the cables that may be connected to the ports on the left side of the camera (mic, USB-C and full-size HDMI).

With 1.84-million dots, the 3-inch screen gives a good view of the scene and doesn’t suffer to badly from reflections even in sunny conditions (at least not in March in the UK). However, even when shooting video, there are times when it’s preferable to use the 3,680k-dot 0.76x OLED viewfinder. This has a contrast ratio of 10,000:1 and gives a sharp, accurate preview of the scene.

The GH5 is Panasonic’s flagship compact system or mirrorless camera and it has a mini-DSLR design, featuring a high-quality electronic viewfinder and vari-angle touch-screen. As a Micro Four Thirds camera it’s compatible with an extensive collection of Micro Four Thirds mount lenses from Panasonic and Olympus as well as third-party manufacturers.

While its viewfinder is still a 21mm OLED device, its resolution has been bumped up from 2,360,000 dots to 3,680,000 dots from the GH4 and the magnification is 0.76x rather than 0.67x. It provides a very clear and detailed view of the scene.

Panasonic has also upgraded the rear screen and it now measures 3.2-inches across the diagonal and has 1,620,000 dots. It’s still a vari-angle unit but instead of an OLED screen it’s an RGBW LCD. It provides a nice sharp view and the revised menu, which has fewer pages but more lines, is clear. The screen also responds quickly to tap of your finger.

The GH5 is a complex camera and it will take some getting to know, but all the main controls that you want on a shot-by-shot basis, for example to adjust exposure and white balance or to set the AF point are within easy reach. There are also plenty of customisable buttons to help you get it working as you want.

As well as a host of improvements to its video specification, the Sony A7S III introduces the highest-resolution electronic viewfinder we’ve seen to date and it’s the first Sony A7-series camera to feature a vari-angle screen.

According to Sony, the 3-inch vari-angle screen wasn’t a request for the A7S III, it was a demand. It’s certainly something I’ve mentioned on many occasions.

In the past, the argument against one has been that a vari-angle hinge is less robust than a fixed screen and that ‘most dedicated videographers use an external monitor’. Those two points may still be true, but one of the key benefits of using a camera like the A7S III is its small size. If you start having to add an external monitor it makes it bigger and heavier.

It’s good to see that there’s an option to show a red outline around the on-screen image when the camera is recording. There are times when this is more useful than the usual flashing red dot.

After the 8K-capabilities of the Canon EOS R5, the Sony A7S III might seem a bit of an anti-climax. We’re sure some videographers were hoping for a big jump in resolution from the 12mp A7S II. However, Sony already has the 61Mp A7R IV and the 24Mp A7 III, so sticking with 12Mp means that the A7S III has even better low-light capability than its predecessor but with a much better autofocus system, a vari-angle screen and the highest-resolution viewfinder around.

As with Canon’s full-frame mirrorless cameras, including the flagship Canon EOS R3, the R7 has a vari-angle touchscreen. This is great for composing low- and high-level shots in landscape or portrait orientation. Because Canon has embraced full-touch control, it’s also useful for changing camera settings with a tap.

Overall, Canon’s new flagship APS-C mirrorless camera has a layout and design all of its own, yet it retains some of those signature Canon design marks that will help people quickly adapt to using it.

Although the 0.39-inch 2.36million-dot electric viewfinder on the Canon EOS RP doesn’t match those in recent high-end mirrorless cameras for resolution, it still provides a decent preview of images. And let’s not forget, the RP is much more affordable than other new full-frame mirrorless cameras.

With Exposure Simulation activated, you get an accurate view of the final image’s brightness as well as the colour. However, if you want to see the depth of field, you’ll need to customise one of the camera’s buttons to that purpose. Or of course, you can take a quick shot. That could be avoided, however, if Canon showed the preview with the selected aperture applied.

Like the EVF, the 3-inch screen’s 1.04-million-dot resolution doesn’t really wow these days, but the fact that it’s mounted on a vari-angle hinge is great. That means you can twist it around to give you a clear view whichever angle you’re shooting from. And unlike a tilting screen, it’s useful if you’re shooting in portrait or landscape orientation.

We love that Canon has enabled the RP’s touchscreen to be used for browsing the Quick and main menu, selecting settings and browsing through images as well as setting the AF point. It really speeds using the camera and makes it more intuitive. It’s also good that this isn’t at the expense of physical buttons and dials.

Viewfinder: 0.5 inch 5.76 million-dot OLED Color Viewfinder with 100% coverage Eyepoint: approx. 24mm Diopter adjustment: -5~+3m-1 Magnification: 0.8× with 50mm lens

Among the many improvements Fujifilm put into the X-H2S over the X-H1 is an upgrade of the LCD screen. Instead of the 3-way tilting screen of the X-H1, the X-H2S has a vari-angle screen that can be flipped out and rotated to face forward for vlogging. This means it’s useful when the camera is above or below head-height in landscape or portrait orientation.

There are a number of handling changes in the X-H2S in comparison with the X-H1, and anyone looking at the camera with fresh eyes cannot fail to be impressed by its build and capability.

In simple terms, a live view LCD is the large LCD on the back of the digital SLR camera that lets you preview the photo you"re about to take. This provides you with a second way of composing your photos - the first would involve looking through the viewfinder. Thus, Live View is the alternative (electronic) viewfinder to using the (optical) viewfinder on a DSLR camera that you would normally use.

Bring your creativity to life with the Nikon D5600 digital camera. It features 24.2 effective megapixels, an EXPEED 4 image-processing engine, and has an ISO range of 100-25600 that captures beautiful and vibrant images and time-lapse movies even in low light situations. With Bluetooth and the Nikon SnapBridge app of the camera you can transfer the images to your compatible smart devices. Enjoy ease-of-use and intuitive control with the D5600’s touch interface.

You have successfully cast your voteLogin to view resultScroll through images swiftly with the all-new frame advance bar, or easily trim an area of the image by pinching it out. The touch feature lets you make adjustments to a pre-assigned camera setting using your thumb, without looking away from the viewfinder, including auto sensitivity control on/off switching.

The camera features a vari-angle touch screen LCD monitor, which not only allows users to shoot self-portraits, but also makes low-angle and high-angle shooting easier, even when holding the camera in a vertical orientation.

Handy and economical, the Sony Alpha 24.3MP Digital SLR Camera lets you take your imaging beyond the capability of a DSLR. Ideal to be carried for your hiking and trekking trips, the Sony mirrorless camera has a large image sensor and bright lenses that make the best use of the light you have. The smart image processor ensures sharp, low-noise images even without a flash. The rechargeable battery, tiltable screens and customization make it an easy upgrade for any image enthusiast.

Sony A5100 is a perfect camera for travellers due to its amazing quality of pictures and videos. Moreover, its rotating screen helps to provide a good reference while selfies.

It works in real-time, which means that you can check details, such as the degree of background blur (bokeh), brightness and color vividness on the rear LCD monitor before you press the shutter button.

The Panasonic Lumix DC-FZ10002 is a hybrid camera that lets you capture stunning pictures. It boasts of a superior 16x optical zoom LEICA lens with the minimum aperture extended to F11, a high-performance sensor, creative 4K feature and a responsive shooting. The FZ1000 II captures crisp and clear images with minimal noise, thanks to the 1-inch incorporated High-Sensitivity MOS sensor.

Because of its large size, the sensor processes a high amount of light and helps produce impressive shots. For precise focusing, the DSLR comes with an OLED viewfinder with 2360k-dor high resolution and the three buttons with it let you have easy access to the menu.

Hi, yeah, I would say that 6 MP was enough for general purpose studio portraits. For years we sorta saw that as the holy grail of digital - the point at which we (the portrait chain) could actually make the jump from film to full digital. For us, a high-quality 8x10 inch color print was the minimum requirement, and a 6 MP camera could do this.

You (JDM) are probably not familiar, but our headquarters was practically in your backyard (I know from posts where you"re from). We were a bit north of you, city across the river. If you know any of the photo professors from your local university, they"d be familiar (back then we always had summer interns from their photography degree programs). Anyway, it was a substantially large operation, and we probably saw near every viable camera option. To help make this point I sat in on presentations from Phase One, Megavision, and even Foveon with a proposed studio camera. As a large user of Kodak, Konica, and Fuji paper they made sure we had the opportunity to look at any cameras in their bailiwick. I mostly did the initial screening.

Essentially, none of these early cameras (nor the ones suggested by JDM) were suitable. For our purposes. The EOS DCS 1 had enough resolution, at 6 megapixels, but... wanna see your images? Download to a your computer vis SCSI, then use an image processing program to view. Whatayoudo if someone blinked? Usher the family back into the camera room? I guess you could. The digital backs had enough resolution, and could tether. But... no blur filter so moire out the wazoo. Unless you knew specifically how to avoid it for specific fabrics, etc. And if you can"t keep your sensor protected from dust, well... everybody knows what happens. This sort of stuff is sorta OK if you do low volume hi-price work and can afford the retouch time. But for mass market portrait work, with appointments booked all day... no good.

Point-and-shoot digital cameras have small image sensors, and so lower image quality. However, if not planning major enlargements for the images, this can be more than good enough for most users.

A SLR camera is a single lens reflex camera. As an SLR camera has a reflex mirror, it allows you to see through the viewfinder the real image that the film will see. It works a little like a periscope, and when the shutter button is clicked, the mirror is quickly moved out of the way, so the image is directed at the exposed film.

A digital camera is a camera that captures photographs in digital memory. Most cameras produced today are digital,photographic film. Digital cameras are now widely incorporated into mobile devices like smartphones with the same or more capabilities and features of dedicated cameras (which are still available).

Digital and digital movie cameras share an optical system, typically using a lens with a variable diaphragm to focus light onto an image pickup device.shutter admit a controlled amount of light to the image, just as with film, but the image pickup device is electronic rather than chemical. However, unlike film cameras, digital cameras can display images on a screen immediately after being recorded, and store and delete images from memory. Many digital cameras can also record moving videos with sound. Some digital cameras can crop and stitch pictures and perform other elementary image editing.

In the 1960s, Eugene F. Lally of the Jet Propulsion Laboratory was thinking about how to use a mosaic photosensor to capture digital images. His idea was to take pictures of the planets and stars while travelling through space to give information about the astronauts" position.Texas Instruments employee Willis Adcock"s film-less camera (US patent 4,057,830) in 1972,

The Cromemco Cyclops was an all-digital camera introduced as a commercial product in 1975. Its design was published as a hobbyist construction project in the February 1975 issue of RAM (DRAM) memory chip.

Steven Sasson, an engineer at Eastman Kodak, invented and built a self-contained electronic camera that used a CCD image sensor in 1975.Fujifilm began developing CCD technology in the 1970s.

Nikon has been interested in digital photography since the mid-1980s. In 1986, while presenting to Photokina, Nikon introduced an operational prototype of the first SLR-type electronic camera (Still Video Camera), manufactured by Panasonic.pixels. Storage media, a magnetic floppy disk inside the camera allows recording 25 or 50 B&W images, depending on the definition.

At Photokina 1988, Fujifilm introduced the FUJIX DS-1P, the first fully digital camera, capable of saving data to a semiconductor memory card. The camera"s memory card had a capacity of 2 MB of SRAM (static random-access memory), and could hold up to ten photographs. In 1989, Fujifilm released the FUJIX DS-X, the first fully digital camera to be commercially released.Toshiba"s 40 MB flash memory card was adopted for several digital cameras.

The first commercial camera phone was the Kyocera Visual Phone VP-210, released in Japan in May 1999.pixel front-facing camera.digital images, which could be sent over e-mail, or the phone could send up to two images per second over Japan"s Personal Handy-phone System (PHS) cellular network.Samsung SCH-V200, released in South Korea in June 2000, was also one of the first phones with a built-in camera. It had a TFT liquid-crystal display (LCD) and stored up to 20 digital photos at 350,000-pixel resolution. However, it could not send the resulting image over the telephone function, but required a computer connection to access photos.J-SH04, a Sharp J-Phone model sold in Japan in November 2000.cell phones had an integrated digital camera and by the early 2010s, almost all smartphones had an integrated digital camera.

The two major types of digital image sensor are CCD and CMOS. A CCD sensor has one amplifier for all the pixels, while each pixel in a CMOS active-pixel sensor has its own amplifier.back-side-illuminated CMOS (BSI-CMOS) sensor. The image processing capabilities of the camera determine the outcome of the final image quality much more than the sensor type.

The resolution of a digital camera is often limited by the image sensor that turns light into discrete signals. The brighter the image at a given point on the sensor, the larger the value that is read for that pixel.

Depending on the physical structure of the sensor, a color filter array may be used, which requires demosaicing to recreate a full-color image. The number of pixels in the sensor determines the camera"s "pixel count".

An image sharpness is presented through the crisp detail, defined lines, and its depicted contrast. Sharpness is a factor of multiple systems throughout the DSLR camera by its ISO, resolution, lens and the lens settings, the environment of the image and its post processing. Images have a possibility of being too sharp but it can never be too in focus.

A digital camera resolution is determined by a digital sensor. The digital sensor indicates a high level of sharpness can be produced through the amount of noise and grain that is tolerated through the lens of the camera. Resolution within the field of digital still and digital movie is indicated through the camera"s ability to determine detail based on the distance which is then measured by frame size, pixel type, number, and organization although some DSLR cameras have resolutions limited it almost impossible to not have the proper sharpness for an image. The ISO choice when taking a photo effects the quality of the image as high ISO settings equates to an image that is less sharp due to increased amount of noise allowed into the image along with too little noise can also produce an image that is not sharp.

Digital camera, partially disassembled. The lens assembly (bottom right) is partially removed, but the sensor (top right) still captures an image, as seen on the LCD screen (bottom left).

Single-shot capture systems use either one sensor chip with a Bayer filter mosaic, or three separate image sensors (one each for the primary additive colors red, green, and blue) which are exposed to the same image via a beam splitter (see Three-CCD camera).

The third method is called scanning because the sensor moves across the focal plane much like the sensor of an image scanner. The linear or tri-linear sensors in scanning cameras utilize only a single line of photosensors, or three lines for the three colors. Scanning may be accomplished by moving the sensor (for example, when using color co-site sampling) or by rotating the whole camera. A digital rotating line camera offers images consisting of a total resolution that is very high.

Improvements in single-shot cameras and image file processing at the beginning of the 21st century made single shot cameras almost completely dominant, even in high-end commercial photography.

Cameras that use a beam-splitter single-shot 3CCD approach, three-filter multi-shot approach, color co-site sampling or Foveon X3 sensor do not use anti-aliasing filters, nor demosaicing.

Firmware in the camera, or a software in a raw converter program such as Adobe Camera Raw, interprets the raw data from the sensor to obtain a full color image, because the RGB color model requires three intensity values for each pixel: one each for the red, green, and blue (other color models, when used, also require three or more values per pixel).

Cameras with digital image sensors that are smaller than the typical 35 mm film size have a smaller field or angle of view when used with a lens of the same focal length. This is because angle of view is a function of both focal length and the sensor or film size used.

The crop factor is relative to the 35mm film format. If a smaller sensor is used, as in most digicams, the field of view is cropped by the sensor to smaller than the 35 mm full-frame format"s field of view. This narrowing of the field of view may be described as crop factor, a factor by which a longer focal length lens would be needed to get the same field of view on a 35 mm film camera. Full-frame digital SLRs utilize a sensor of the same size as a frame of 35 mm film.

Common values for field of view crop in DSLRs using active pixel sensors include 1.3x for some Canon (APS-H) sensors, 1.5x for Sony APS-C sensors used by Nikon, Pentax and Konica Minolta and for Fujifilm sensors, 1.6 (APS-C) for most Canon sensors, ~1.7x for Sigma"s Foveon sensors and 2x for Kodak and Panasonic 4/3-inch sensors currently used by Olympus and Panasonic. Crop factors for non-SLR consumer compact and bridge cameras are larger, frequently 4x or more.

The resolution of a digital camera is often limited by the image sensor that turns light into discrete signals. The brighter the image at a given point on the sensor, the larger the value that is read for that pixel. Depending on the physical structure of the sensor, a color filter array may be used, which requires demosaicing to recreate a full-color image. The number of pixels in the sensor determines the camera"s "pixel count". In a typical sensor, the pixel count is the product of the number of rows and the number of columns. Pixels are square and is often equal to 1, for example, a 1,000 by 1,000 pixel sensor would have 1,000,000 pixels, or 1 megapixel. On full-frame sensors (i.e., 24 mm 36 mm), some cameras propose images with 20–25 million pixels that were captured by 7.5–m photosites, or a surface that is 50 times larger.

Digital cameras come in a wide range of sizes, prices and capabilities. In addition to general purpose digital cameras, specialized cameras including multispectral imaging equipment and astrographs are used for scientific, military, medical and other special purposes.

Compact cameras are usually designed to be easy to use. Almost all include an automatic mode, or "auto mode", which automatically makes all camera settings for the user. Some also have manual controls. Compact digital cameras typically contain a small sensor which trades-off picture quality for compactness and simplicity; images can usually only be stored using lossy compression (JPEG). Most have a built-in flash usually of low power, sufficient for nearby subjects. A few high end compact digital cameras have a hotshoe for connecting to an external flash. Live preview is almost always used to frame the photo on an integrated LCD. In addition to being able to take still photographs almost all compact cameras have the ability to record video.

Compacts often have macro capability and zoom lenses, but the zoom range (up to 30x) is generally enough for candid photography but less than is available on bridge cameras (more than 60x), or the interchangeable lenses of DSLR cameras available at a much higher cost.Autofocus systems in compact digital cameras generally are based on a contrast-detection methodology using the image data from the live preview feed of the main imager. Some compact digital cameras use a hybrid autofocus system similar to what is commonly available on DSLRs.

Typically, compact digital cameras incorporate a nearly silent leaf shutter into the lens but play a simulated camera sound for skeuomorphic purposes.

For low cost and small size, these cameras typically use image sensor formats with a diagonal between 6 and 11 mm, corresponding to a crop factor between 7 and 4. This gives them weaker low-light performance, greater depth of field, generally closer focusing ability, and smaller components than cameras using larger sensors. Some cameras use a larger sensor including, at the high end, a pricey full-frame sensor compact camera, such as Sony Cyber-shot DSC-RX1, but have capability near that of a DSLR.

Starting in 2011, some compact digital cameras can take 3D still photos. These 3D compact stereo cameras can capture 3D panoramic photos with dual lens or even single lens for play back on a 3D TV.

Rugged compact cameras typically include protection against submersion, hot and cold conditions, shock and pressure. Terms used to describe such properties include waterproof, freeze-proof, heatproof, shockproof and crushproof, respectively. Nearly all major camera manufacturers have at least one product in this category. Some are waterproof to a considerable depth up to 100 feet (30 m);

GoPro and other brands offer action cameras which are rugged, small and can be easily attached to helmets, arms, bicycles, etc. Most have wide angle and fixed focus, and can take still pictures and video, typically with sound.

The 360-degree camera can take picture or video 360 degrees using two lenses back-to-back and shooting at the same time. Some of the cameras are Ricoh Theta S, Nikon Keymission 360 and Samsung Gear 360. Nico360 was launched in 2016 and claimed as the world"s smallest 360-degree camera with size 46 x 46 x 28 mm (1.8 x 1.8 x 1.1 in) and price less than $200. With virtual reality mode built-in stitching, Wifi, and Bluetooth, live streaming can be done. Due to it also being water resistant, the Nico360 can be used as action camera.

Bridge cameras physically resemble DSLRs, and are sometimes called DSLR-shape or DSLR-like. They provide some similar features but, like compacts, they use a fixed lens and a small sensor. Some compact cameras have also PSAM mode.manual focus mode and some have a separate focus ring for greater control.

Big physical size and small sensor allow superzoom and wide aperture. Bridge cameras generally include an image stabilization system to enable longer handheld exposures, sometimes better than DSLR for low light conditions.

As of 2014, bridge cameras come in two principal classes in terms of sensor size, firstly the more traditional 1/2.3" sensor (as measured by image sensor format) which gives more flexibility in lens design and allows for handholdable zoom from 20 to 24 mm (35 mm equivalent) wide angle all the way up to over 1000 mm supertele, and secondly a 1" sensor that allows better image quality particularly in low light (higher ISO) but puts greater constraints on lens design, resulting in zoom lenses that stop at 200 mm (constant aperture, e.g. Sony RX10) or 400 mm (variable aperture, e.g. Panasonic Lumix FZ1000) equivalent, corresponding to an optical zoom factor of roughly 10 to 15.

Some bridge cameras have a lens thread to attach accessories such as wide-angle or telephoto converters as well as filters such as UV or Circular Polarizing filter and lens hoods. The scene is composed by viewing the display or the electronic viewfinder (EVF). Most have a slightly longer shutter lag than a DSLR. Many of these cameras can store images in a raw format in addition to supporting JPEG.

In bright sun, the quality difference between a good compact camera and a digital SLR is minimal but bridge cameras are more portable, cost less and have a greater zoom ability. Thus a bridge camera may better suit outdoor daytime activities, except when seeking professional-quality photos.

In late 2008, a new type of camera emerged, called a DSLR camera that does not require a reflex mirror, a key component of the former. While a typical DSLR has a mirror that reflects light from the lens up to the optical viewfinder, in a mirrorless camera, there is no optical viewfinder. The image sensor is exposed to light at all times, giving the user a digital preview of the image either on the built-in rear LCD screen or an electronic viewfinder (EVF).

These are simpler and more compact than DSLRs due to not having a lens reflex system. MILCs, or mirrorless cameras for short, come with various sensor sizes depending on the brand and manufacturer, these include: a small 1/2.3 inch sensor, as is commonly used in bridge cameras such as the original Pentax Q (more recent Pentax Q versions have a slightly larger 1/1.7 inch sensor); a 1-inch sensor; a Micro Four Thirds sensor; an APS-C sensor found in Sony NEX series and α "DSLR-likes", Fujifilm X series, Pentax K-01, and Canon EOS M; and some, such as the Sony α7, use a full frame (35 mm) sensor, with the Hasselblad X1D being the first medium format mirrorless camera. Some MILCs have a separate electronic viewfinder to compensate the lack of an optical one. In other cameras, the back display is used as the primary viewfinder in the same way as in compact cameras. One disadvantage of mirrorless cameras compared to a typical DSLR is its battery life due to the energy consumption of the electronic viewfinder, but this can be mitigated by a setting inside the camera in some models.

Olympus and Panasonic released many Micro Four Thirds cameras with interchangeable lenses that are fully compatible with each other without any adapter, while others have proprietary mounts. In 2014, Kodak released its first Micro Four Third system camera.

While most digital cameras with interchangeable lenses feature a lens-mount of some kind, there are also a number of modular cameras, where the shutter and sensor are incorporated into the lens module.

The first such modular camera was the Minolta Dimâge V in 1996, followed by the Minolta Dimâge EX 1500 in 1998 and the Minolta MetaFlash 3D 1500 in 1999. In 2009, Ricoh released the Ricoh GXR modular camera.

At CES 2013, Sakar International announced the Polaroid iM1836, an 18MP camera with 1"-sensor with interchangeable sensor-lens. An adapter for Micro Four Thirds, Nikon and K-mount lenses was planned to ship with the camera.

There are also a number of add-on camera modules for smartphones, they are called lens-style cameras (lens camera or smart lens). They contain all the essential components of a digital camera inside a DSLR lens-shaped module, hence the name, but lack any sort of viewfinder and most controls of a regular camera. Instead, they are connected wirelessly and/or mounted to a smartphone to be used as its display output and operate the camera"s various controls.

Sony Cyber-shot QX series "Smart Lens" or "SmartShot" cameras, announced and released in mid 2013 with the Cyber-shot DSC-QX10. In January 2014, a firmware update was announced for the DSC-QX10 and DSC-QX100.DSC-QX30 as well as the Alpha ILCE-QX1,Sony E-mount instead of a built-in lens.

Kodak PixPro smart lens camera series, announced in 2014. These include: the 5X optical zoom SL5, 10X optical zoom SL10, and the 25X optical zoom SL25; all featuring 16MP sensors and 1080p video recording, except for the SL5 which caps at 720p.

Olympus Air A01 lens camera, announced in 2014 and released in 2015, the lens camera is an open platform with an Android operating system and can detach into 2 parts (sensor module and lens), just like the Sony QX1, and all compatible Micro Four Thirds lenses can then be attached to the built-in lens mount of the camera"s sensor module.

Digital single-lens reflex cameras (DSLR) is a camera with a digital sensor that utilizes a reflex mirror to split or direct light into the viewfinder to produce an image.

The sensor also known as a full-frame sensor is much larger than the other types, typically 18mm to 36mm on the diagonal (crop factor 2, 1.6, or 1).interchangeable lenses for versatility by removing it from the lens mount of the camera, typically a silver ring on the front side of DSLRs.

Digital Still Camera (DSC), such as the Sony DSC cameras, is a type of camera that doesn"t use a reflex mirror. DSCs are like point-and-shoot cameras and are the most common type of cameras, due to their comfortable price and its quality.

Cameras with fixed semi-transparent mirrors, also known as DSLT cameras, such as the Sony SLT cameras, are single-lens without a moving reflex mirror as in a conventional DSLR. A semi-transparent mirror transmits some of the light to the image sensor and reflects some of the light along the path to a pentaprism/pentamirror which then goes to an optical view finder (OVF) as is done with a reflex mirror in DSLR cameras. The total amount of light is not changed, just some of the light travels one path and some of it travels the other. The consequences are that DSLT cameras should shoot a half stop differently from DSLR. One advantage of using a DSLT camera is the blind moments a DSLR user experiences while the reflecting mirror is moved to send the light to the sensor instead of the viewfinder do not exist for DSLT cameras. Because there is no time at which light is not traveling along both paths, DSLT cameras get the benefit of continuous auto-focus tracking. This is especially beneficial for burst-mode shooting in low-light conditions and also for tracking when taking video.

A rangefinder is a device to measure subject distance, with the intent to adjust the focus of a camera"s objective lens accordingly (open-loop controller). The rangefinder and lens focusing mechanism may or may not be coupled. In common parlance, the term "rangefinder camera" is interpreted very narrowly to denote manual-focus cameras with a visually-read out optical rangefinder based on parallax. Most digital cameras achieve focus through analysis of the image captured by the objective lens and distance estimation, if it is provided at all, is only a byproduct of the focusing process (closed-loop controller).

A San Francisco cable car, imaged using an Alkeria Necta N4K2-7C line scan camera with a shutter speed of 250 microseconds, or 4000 frames per second.

A line-scan camera traditionally has a single row of pixel sensors, instead of a matrix of them. The lines are continuously fed to a computer that joins them to each other and makes an image.frame grabber which resides in a PCI slot of an industrial computer. The frame grabber acts to buffer the image and sometimes provide some processing before delivering to the computer software for processing. Industrial processes often require height and width measurements performed by digital line-scan systems.

Many industrial applications require a wide field of view. Traditionally maintaining consistent light over large 2D areas is quite difficult. With a line scan camera all that is necessary is to provide even illumination across the “line” currently being viewed by the camera. This makes sharp pictures of objects that pass the camera at high speed.

Such cameras are also commonly used to make photo finishes, to determine the winner when multiple competitors cross the finishing line at nearly the same time. They can also be used as industrial instruments for analyzing fast processes.

Line-scan cameras are also extensively used in imaging from satellites (see push broom scanner). In this case the row of sensors is perpendicular to the direction of satellite motion. Line-scan cameras are widely used in scanners. In this case, the camera moves horizontally.

This type of digital camera captures information about the light field emanating from a scene; that is, the intensity of light in a scene, and also the direction that the light rays are traveling in space. This contrasts with a conventional digital camera, which records only light intensity.

Many devices have a built-in digital camera, including, for example, smartphones, mobile phones, PDAs and laptop computers. Built-in cameras generally store the images in the JPEG file format.

Mobile phones incorporating digital cameras were introduced in Japan in 2001 by J-Phone. In 2003 camera phones outsold stand-alone digital cameras, and in 2006 they outsold film and digital stand-alone cameras. Five billion camera phones were sold in five years, and by 2007 more than half of the installed base of all mobile phones were camera phones. Sales of separate cameras peaked in 2008.

There are many manufacturers that lead in the production of digital cameras (commonly DSLRs). Each brand embodies different mission statements that differ them from each other outside of the physical technology that they produce. While the majority of manufacturers share modern features amongst their production of cameras, some specialize in specific details either physically on camera or within the system and image quality.

A Nikon D200 camera with a Nikon 17-55 mm / 2,8 G AF-S DX IF-ED lens and a Nikon SB-800 flash. Flashes are used as attachment to a camera to provide light to the image, timed with the shutter of the camera.

Canon EF 70-200 f/2.8 lens mounted on a Canon 7D camera body. Lenses of varying lengths can be equipped onto main camera bodies to provide different perspectives for an image taken.

Sales of traditional digital cameras have declined due to the increasing use of smartphones for casual photography, which also enable easier manipulation and sharing of photos through the use of apps and web-based services. "Bridge cameras", in contrast, have held their ground with functionality that most smartphone cameras lack, such as optical zoom and other advanced features.

In response to the convenience and flexibility of smartphone cameras, some manufacturers produced "smart" digital cameras that combine features of traditional cameras with those of a smartphone. In 2012, Nikon and Samsung released the Coolpix S800c and Galaxy Camera, the first two digital cameras to run the Android operating system. Since this software platform is used in many smartphones, they can integrate with some of the same services (such as e-mail attachments, social networks and photo sharing sites) that smartphones do and use other Android-compatible software.

In an inversion, some phone makers have introduced smartphones with cameras designed to resemble traditional digital cameras. Nokia released the 808 PureView and Lumia 1020 in 2012 and 2013; the two devices respectively run the Symbian and Windows Phone operating systems, and both include a 41-megapixel camera (along with a camera grip attachment for the latter).Galaxy S4 Mini with the Galaxy Camera.Leica fixed lens equivalent of 28 mm at F2.8, can take RAW image and 4K video, has 21 mm thickness.Huawei P20 Pro is an android Oreo 8.1 has triple Leica lenses in the back of the smartphone with 40MP 1/1.7" RGB sensor as first lens, 20MP 1/2.7" monochrome sensor as second lens and 8MP 1/4" RGB sensor with 3x optical zoom as third lens.bokeh image with larger high dynamic range, whereas combination of mega pixel first lens and optical zoom will produce maximum 5x digital zoom without loss of quality by reducing the image size to 8MP.

After a big dip of sales in 2012, consumer digital camera sales declined again in 2013 by 36 percent. In 2011, compact digital cameras sold 10 million per month. In 2013, sales fell to about 4 million per month. DSLR and MILC sales also declined in 2013 by 10–15% after almost ten years of double digit growth.

Film camera sales hit their peak at about 37 million units in 1997, while digital camera sales began in 1989. By 2008, the film camera market had died and digital camera sales hit their peak at 121 million units in 2010. In 2002, cell phones with an integrated camera had been introduced and in 2003 the cell phone with an integrated camera had sold 80 million units per year. By 2011, cell phones with an integrated camera were selling hundreds of millions per year, which were causing a decline in digital cameras. In 2015, digital camera sales were 35 million units or only less than a third of digital camera sales numbers at their peak and also slightly less than film camera sold number at their peak.

Early cameras used the PC serial port. USB is now the most widely used method (most cameras are viewable as USB mass storage), though some have a FireWire port. Some cameras use USB PTP mode for connection instead of USB MSC; some offer both modes.

Other cameras use wireless connections, via Bluetooth or IEEE 802.11 Wi-Fi, such as the Kodak EasyShare One. Wi-Fi integrated Memory cards (SDHC, SDXC) can transmit stored images, video and other files to computers or smartphones. Mobile operating systems such as Android allow automatic upload and backup or sharing of images over Wi-Fi to photo sharing and cloud services.

Cameras with integrated Wi-Fi or specific Wi-Fi adapters mostly allow camera control, especially shutter release, exposure control and more (tethering) from computer or smartphone apps additionally to the transfer of media data.

Cameraphones and some high-end stand-alone digital cameras also use cellular networks to connect for sharing images. The most common standard on cellular networks is the MMS Multimedia Messaging Service, commonly called "picture messaging". The second method with smartphones is to send a picture as an email attachment. Many old cameraphones, however, do not support email.

A common alternative is the use of a card reader which may be capable of reading several types of storage media, as well as high speed transfer of data to the computer. Use of a card reader also avoids draining the camera battery during the download process. An external card reader allows convenient direct access to the images on a collection of storage media. But if only one storage card is in use, moving it back and forth between the camera and the reader can be inconvenient. Many computers have a card reader built in, at least for SD cards.

Many modern cameras support the PictBridge standard, which allows them to send data directly to a PictBridge-capable computer printer without the need for a computer.

An instant-print camera, is a digital camera with a built-in printer.instant camera which uses instant film to quickly generate a physical photograph. Such non-digital cameras were popularized by Polaroid with the SX-70 in 1972.

Many digital cameras include a video output port. Usually sVideo, it sends a standard-definition video signal to a television, allowing the user to show one picture at a time. Buttons or menus on the camera allow the user to select the photo, advance from one to another, or automatically send a "slide show" to the TV.

Some DVD recorders and television sets can read memory cards used in cameras; alternatively several types of flash card readers have TV output capability.

Cameras can be equipped with a varying amount of environmental sealing to provide protection against splashing water, moisture (humidity and fog), dust and sand, or complete waterproofness to a certai