Subscribe Now
Trending News

Blog Post

Webcams aren’t good enough

Webcams aren’t good enough 

After consulting numerous webcam buying guides and reviews, purchasing a handful of the most popular models, and testing them in varying lighting situations, I can’t escape the grim truth: there are no good webcams. Even webcams recommended by reputable outlets produce poor quality imagery—a significant failing, given it’s the one job they’re supposed to provide.

Uneven color. Blown highlights. Smudgy detail, especially in low light. Any affordable webcam (even at the high end of affordability, $100+), uses inadequate and typically years-old hardware backed by mediocre software that literally makes you look bad. You might not notice this if you’re using video software that makes your own image small, but it will be obvious to other people on the call.

See for yourself: the video below shows the market-leading webcams (the C920, the Kiyo and the Brio) at the same time and under the same conditions, alongside an iPhone as a benchamark.

Comparing the options.
  • The Logitech C920 suffers from a number of issues, most notably the exposure issues.
  • The Razer Kiyo also suffers with exposure, as well as lagging and freezing frames.
  • The Logitech Brio struggles to keep up with movement, and seems to be applying a skin-smoothing filter.
  • The iPhone Pro gives a great quality picture, natural colour, and is the only option that doesn’t struggle with focus.

Why are webcams like this? After all, small-camera technology has improved exponentially since the current crop of “best” webcams hit the market, but it’s all happened in our phones. To illustrate this, I’m pitting the most popular webcams against Camo, the software that leverages the camera and imaging technology of the iPhone, iPad, and iPod touch to make you look significantly better. Even if Camo weren’t in the picture, though, the output from the top-rated webcams is still lacking.

Putting them to the test

For testing, I gathered a collection of top-rated and top-selling standalone webcams, plus one cheap knockoff model (I’ll let you guess which one that is). Numbers shown are the companies’ suggested retail prices:

  • Logitech Brio 4K Pro ($199)
  • Logitech StreamCam ($169)
  • Razer Kiyo ($99)
  • Logitech C920 ($80)
  • Adwaita 8 MP Ultra HD 4K Webcam ($50)

To contrast, I gathered a small collection of iPhones running Reincubate Camo, including the oldest supported model I could find; the app runs on any device running iOS 12 or later, which includes the iPhone 5s and iPod touch 6:

  • iPhone 11 Pro (my everyday phone, $999)
  • iPhone SE (2019 model, $399)
  • iPhone 6 (2015, which I bought used and unlocked autumn 2020 for $90)

The latest iPhone models are obviously more expensive than the webcams, but they also do much more than act as cameras. While I wouldn’t rule it out, I doubt that anyone is going to buy a new iPhone solely to use as a webcam. More likely is that someone would use their main phone, repurpose an older model that’s no longer in active use, or buy a used model.
Testing was done on a 16-inch MacBook Pro (2019 model).

A few notes on the photos: Unless specifically noted, the images were captured using the webcam’s default settings. The iPhones were connected using Camo, but none of the app’s adjustment tools were employed; what you see is what the camera delivered.

The room in which they were captured is in a partially exposed basement with two windows and light yellow walls. The room’s lighting includes a ceiling light fixture with consumer LED bulbs sold as 5000K Daylight, and one decorative hanging lamp. In other words, it’s a pretty typical room for working at home and participating in video conferences.

The MacBook’s internal webcam is grainy
The C920 is smoother, but struggles with colour
The iPhone is the clear winner
From left to right: an internal webcam vs the C920 vs Camo running on an iPhone 11 Pro.

I also set up a pair of external 15.4-inch Dazzne Desk Mount LED Video Lights for more illumination, particularly when shooting at night; I note in which shots they were turned on. As I’ll discuss later, the importance of having enough light available can’t be underestimated, and it applies to all of the webcams discussed here.

The video feeds were viewed in Zoom in a private meeting, since Zoom has become the de facto standard for video conferences. Zoom and other services sometimes limit the broadcast resolution to optimize the amount of bandwidth being used, so it’s likely the people on the other end of your call won’t see the same image quality you do. In my testing, the performance in Zoom on a private call was comparable to viewing the video feed in QuickTime Player (choosing File> New Movie Recording), which doesn’t do streaming.

Lastly, placement: All the cameras were set up above my laptop screen for easy switching between them, so you’ll see slightly different angles of each model. I wasn’t focused on perfect composition this time around.

Cramming six webcams into roughly the same space.
Cramming six webcams into roughly the same space.

Before I get into the specific webcam comparisons, let’s highlight some universal issues.

Problems with third-party webcams

Each webcam tested suffered in its own unique way, but generally speaking, the following failings were the most noticeable.

  • Exposure problems and hot spots: The first task of a webcam is to automatically take into account the lighting in the scene and adjust the brightness accordingly. In an attempt to ensure that the object at the center of the frame (that’s you) is well-lit, the cameras usually increase the brightness everywhere else. That reasoning is solid, but if a window or lamp is in the shot, it’s likely blown out to pure white and distracting to your viewers. Even in rooms that seem reasonably lit, it’s also not uncommon for that light to spill onto you and overexpose features such as your forehead or cheekbones. Although I’ll take a bright scene over an underexposed one every time (for reasons we’ll get into), hot spots and overexposure are simply distracting.

    The 8-year-old Logitech C920 is still somehow recommended as one of the best webcams.
    The 8-year-old Logitech C920 is still somehow recommended as one of the best webcams.
  • Color problems and white balance: Another automatic adjustment webcams need to nail is color fidelity, and this one is just as problematic as exposure. From a viewer’s perspective, white balance (also known as color temperature) determines whether you look frosty-cool or orange. Am I really as rosy-cheeked as I look? Heck, is that even my actual skin color? Too often the answer is no.

    The Logitech Brio, the most expensive webcam in this comparison, tends toward pink hues.
    The Logitech Brio, the most expensive webcam in this comparison, tends toward pink hues.
  • Focus issues: The webcams I looked at all offer autofocus to try to keep the subject crisp, except for one inexpensive no-name camera with a fixed focal range (or, in marketing-speak, “fixed focus for consistent depth of field,” which translates to “sit far enough away from the camera that you’re in its sweet spot”). Some cameras do a poor job of actually hitting auto-focus, while others are slow to act. If you tend to move as you talk, the webcam can “bounce” as it locks focus, loses it, then finds it again. Again, distracting.

    The newest webcam in this comparison is the Logitech StreamCam.
    The newest webcam in this comparison is the Logitech StreamCam.
  • Image softness: Poor autofocus can lead to a soft image, but that’s not the only culprit. Some cameras just don’t retain detail you expect to see, or they seem to be applying smoothing to skin.

    The texture of my skin here, shot with the Brio is more akin to turning on the
    The texture of my skin here, shot with the Brio is more akin to turning on the “Touch Up My Appearance” setting in some video-conferencing software.
  • Low light performance: Admittedly, low-light situations are difficult for any camera, and webcams use various methods for dealing with it. However, for several reasons webcams are typically terrible when there isn’t enough light; or, I should say, when the webcam thinks it doesn’t have enough light.

The StreamCam image is washed out and struggles to focus
The iPhone image provides better colour and detail
The first image was shot by the StreamCam at night with the room’s overhead lighting on. Compare that to the second shot, which shows Camo running on an iPhone 11 Pro under the same conditions.
  • Scarcity and price gouging: Because of the sudden shift to remote work and school, even these supposedly “quality” webcams are still difficult to find, and being sold at premium prices. The alternative is to gamble on a mass of no-name clones.
  • Software: Controls for making manual adjustments to override the auto settings are either insufficient, confusing, or nonexistent. As one example, the macOS version of Logi Capture, an application that controls some of the features exclusive to the Logitech StreamCam, is up to version 2.02 and still in beta (I have the crashes to prove it).
  • E-waste: What happens to devices that don’t meet expectations? They end up in drawers or landfills (or drawers and then landfills), or shipped around the world in bulk to be torn apart and recycled. (Last year saw 53.6 million metric tons of electronic waste generated.) And don’t forget the packaging, shipping materials, and transportation costs to get the webcam into that drawer in the first place.
  • Audio: Each of the standalone webcams includes one or more microphones to capture audio, at varying levels of competence. I’m not analyzing their audio here because you’re far better off buying an inexpensive USB microphone, or even using the earbuds that came with your phone, to get better audio quality.
  • Processor burden: Capturing, encoding, decoding, and streaming video in real time is a processor-intensive task. On the iPhone, dedicated hardware handles a lot of the work rendering the image and processing the video, taking those tasks from the phone’s main processor. Standalone webcams, however, merely push the signal along for your computer to deal with. Logitech did once provide a hardware encoder, but these have been gradually and quietly phased out.

Now, let’s look at each webcam in more detail.

Significant flaws in the most popular webcams

Logitech C920

When the C920 is routinely cited as the best webcam for most people, I start to wonder if someone is pulling a large-scale prank, because that doesn’t match with what I’ve seen with my own eyes. On its own, the C920 suffers from terrible overexposure, poor white balance, and fuzzy focus, even in well-lit situations.

Logitech C920
Logitech C920 with lights set to 10 percent
Logitech C920 with lights set to 35 percent
Logitech C920 at night under room lighting
I tried out the C920 at various light settings, but it struggled in every scenario.

In fact, when I increase the power of my light panels, you can see the camera working hard to compensate: the exposure is reduced, but then jumps back up again, as if it’s been designed to make sure there are blown out areas at any cost.The C920 tries to balance the lighting, but it just can’t do it.

The Logitech C920 attempting to compensate for bad lighting.

Logitech C920 vs. iPhone 6 Selfie

Okay, let’s do a worst-worst comparison. With most of the webcams, adding more light improved the image; adding plenty of foreground light to the subject triggered them to reduce the exposure in the background, for one thing. The C920, however, just saw more light and continued to overexpose. The white balance is all off, desaturating the entire scene.

Of the iPhone lineup, the front-facing Selfie camera in the iPhone 6 is the poorest on paper, and turned out to be the worst performer. It’s terribly blown out in both the window and my face, but the white balance and contrast is much better than the C920’s output. It’s not my first choice, certainly, but at least I don’t look green.

Logitech C920 with lights set to 35 percent
iPhone 6 - Selfie Camera with lights set to 35 percent
Here’s the C920 on the left compared to the selfie camera of an iPhone 6 (a five-year-old model at the time of writing) on the right. Each camera was tested under the same light conditions.

Logitech Brio

The standout feature of the Brio is its 4K resolution, the ability to record at 3840 by 2160 pixels. That sounds great, because we’re trained to think that “more X is better,” where X equals resolution, megapixels, gigabytes, gigahertz, and all sorts of other technical specifications. However, higher resolution has tradeoffs.

The general idea behind resolution is that with more recorded pixels, you view more detail and end up with a sharper image. Early HD cameras recorded at 720p resolution (1280 by 720 pixels); now, YouTube doesn’t even apply its HD label to anything under 1080p (1920 by 1080 pixels). 4K (3840 by 2160 pixels) resolution is now commonplace on televisions (with 8K starting to crowd in on showrooms and online retailers).

The difficulty of higher resolution is the increased demand in processing: capturing and processing 2 million pixels per frame (1080p) in real-time requires more processing power than 900,00 pixels per frame (720p) (both numbers rounded down). 4K needs to push nearly 8.3 million pixels per frame. Video encoding schemes compress that data to a more manageable level, but because the cameras do not include dedicated encoding hardware, that work is performed by the computer’s processor, putting more strain on the system.

To set the Brio to record in 4K mode, you need to run the separate Logitech Capture program. On my less-than-one-year-old MacBook Pro, switching to 4K introduces significant lag, up to 4 seconds, making a video chat unworkable. Also, to get that 4K stream into your video conferencing software, you need to specify Logitech Capture as the video source. But for our purposes here, the more important consideration is bandwidth, because a 4K livestream is a lot of data going into a pipe that is automatically compressed and reduced in transit by the companies hosting the services. So, ultimately, unless you’re recording something local, 4K is wasted.

The detail is much improved in the 4K-resolution still photo taken with the Logitech Capture app. (It's still struggling with the highlights on my face, though.)
The detail is much improved in the 4K-resolution still photo taken with the Logitech Capture app. (It’s still struggling with the highlights on my face, though.)

As noted earlier, the more glaring problems with the Brio are how it blows out bright areas, renders colors oddly, and how it seems to be smoothing skin.

In normal or very low light, the Brio image gets noisy and loses detail. It includes a feature that Logitech calls Rightlight 3, or “Rightlight 3 with HDR” that is intended to do a better job of balancing gain and noise. However, nothing in the Mac versions of Logitech’s settings software mentions Rightlight, and there’s just a single HDR switch that makes a very small difference when it’s turned on. The hardware also includes an infrared sensor that is used only under Windows 10 for its Windows Hello unlocking feature.

Logitech Brio with lights set to 10 percent
Logitech Brio with lights set to 10 percent and HDR enabled
Logitech Brio at night under room lighting
Logitech Brio at night under room lighting and HDR enabled
The images on the left show the standard Brio video output, with the images on the right showing the same light settings, but with HDR enabled.

The more light I could throw at the scene, the better quality I got, particularly in terms of detail. That meant turning my video lights up to 65 percent intensity, which is bright enough to make me squint and feel like I’m in a studio. I have a hard time believing most people would create a setup like this for calling into meetings at work.

Logitech Brio with lights set to 35 percent
Logitech Brio with lights set to 65 percent
The Brio performed much better when the lights were set to 65% (on the right) compared to 35% (the left).

To create the image on the right, I had to turn the video lights up to 65 percent, which is not an ideal or, I suspect, common solution for most people.

Here’s what my setup looked like.
Here’s what my setup looked like.

Logitech Brio vs. iPhone 6

One important characteristic of the preceding photos is how much light was in the scene. To our eyes, the daylight scene illuminated by window light looks pretty natural. But to the cameras, the scene was underexposed, which is likely why the Brio shots above are somewhat dim and lack shadow detail. Adding more light to the foreground makes a big difference.

For the next comparison, I turned on the video lights, facing me, at about 10 percent of their maximum output and a color temperature setting of 5000K (to match the temperature of the ceiling bulbs, although the room’s lights were off). The Brio’s image is certainly better than the one earlier, although the window is still a white rectangle (but this time with some hint that something is outside). The highlights on my face are better, though the definition in my beard is still smudgy. With more light, we also see that the skin looks smoother and has an odd pink flush to it. White balance overall is improved.

Logitech Brio with external lighting set to 10 percent
iPhone SE - Wide Camera with lights set to 10 percent
The Brio (left) provides less definition than the iPhone SE (right).

Up against the Brio in the same lighting situation is the 2019 iPhone SE (informally referred to as the iPhone SE 2). The color balance is better, there’s more definition in the window—though it’s still mostly blown out—and the beard looks more textured. My face looks a little too red, though.

Logitech Brio with lights set to 35 percent
Wide Camera with lights set to 35 percent
The iPhone 11 Pro version of this shot shows good color balance, good detail, and no blown-out areas.
Both cameras are improved with more light, but the iPhone SE has the edge over the Brio.

Increasing the power of the light panels makes a big difference; and these photos feel like the cameras are in situations they’re more comfortable with. We see some detail through the window in the Brio’s photo, the lighting on my face is more balanced, and the background colors seem better. However, my face looks even more pink and processed.
The iPhone SE image is also much improved. Although my face still looks a little oversaturated, there’s more visible texture to my skin and beard, and overall the colors are better.

Logitech Brio 4K Pro vs. the iPhone 11 Pro

Logitech Brio 4K Pro
iPhone 11 Pro - Wide Camera
The iPhone 11 Pro (right) provides more definition and better colour than the Brio (left).

These shots were made using just the light coming in from the windows at the left and right edges of the picture. It was a foggy morning, so the light was naturally diffused. Areas that stand out in the Brio image are the completely blown-out window at left, and the generally fuzzy image quality overall. This is a case where my salt-and-pepper beard is helpful, because in this case it shows that the camera is bunching the hair into a pixelated mass. The colors are also muted, turning the yellow walls into a pasty eggshell color.

In the image from the iPhone 11 Pro Wide lens (the default “1x” view), there’s definition in the window. In fact, you can see that it is a window, and make out the deck and fence outside. (That’s due to the iPhone’s continuous HDR processing.) The color on my face looks more natural, if a bit red, and there’s well-rounded shadow detail from the light coming in at the right side of the frame. The white balance is better in the iPhone version: the walls are the right shade of pale yellow, and white areas like the window frame and books on the shelves look white, not too warm or cool.

The Brio also has an HDR option, which you can enable or disable using the Logitech Capture app (a free download) that lets you configure settings. However, the feature is basically useless.

Logitech Brio 4K Pro with HDR enabled
Logitech Brio 4K Pro with HDR enabled

Logitech StreamCam

Considering the StreamCam is the newest webcam of the lot, I was expecting more improvements to image quality compared to the other Logitech models. However, it exhibits many of the same issues: blown-out whites, a surprisingly soft image in even moderate lighting, and some of the same appearance of skin smoothing. The camera’s f/2.0 lens allows in extra light, but it doesn’t seem to make a dramatic difference. The StreamCam feels like a non-4K version of the Brio, with a few features thrown in if you use the Logitech Capture alongside it.

Those features aren’t compelling for our purposes. The StreamCam includes a sensor that indicates whether it’s in landscape or portrait mode—which shows up as sideways video in most applications. It also includes image stabilization…for a camera that is mounted and doesn’t move. One potentially useful feature is auto-framing, which (digitally) zooms in on your face and recomposes the shot as you move, keeping your face centered. It may be nice to track one’s face in a small window when streaming a video game, but in practice, it’s unnerving and draws attention to the camera moves, not the subject.

Logitech StreamCam with window light
Logitech StreamCam with lights set to 35 percent
Logitech StreamCam under room lighting
The Logitech StreamCam suffers from many of the same issues as the Brio, such as blown out whites and skin smoothing.

Logitech Streamcam vs. iPhone 6

In this comparison, I’ve pitted the newest webcam of the group, released in February 2020, against the oldest iPhone model, the iPhone 6 released in 2015.

Logitech StreamCam
iPhone 6 - Wide Camera
The newest webcam tested fails to match the quality of the oldest iPhone camera. The StreamCam (left) vs. the iPhone 6 (right).

Again, with the standalone webcam, we see the window in the back is all white, and the light from the other window is also blown out on the side of my face. The color is muted, and there’s not much definition in my beard; in fact, I look slightly out of focus.

The iPhone 6 version suffers from some of the same problems with its five-year-old camera. The window is blown out, and the shadows are fairly dark. However, the highlights on the side of my face are more controlled, the white balance is much better, and to my eye, the increased contrast gives the image more depth. The iPhone 6 image isn’t as good as the iPhone 11 Pro, but the camera and imaging technology in the latter are orders of magnitude more advanced than the iPhone 6’s sole rear camera.

Razer Kiyo

Recognizing that light is so important for webcams, accessory maker Razer created the Kiyo, which includes a built-in ring light around the front edge of the circular webcam body. Unfortunately, that light turns out to not help much. Yes, more light is better, but because the Kiyo also has a tendency to blow out highlights, the light mostly adds more overexposed areas. It’s not large enough to make a huge difference, even in dark scenes where it’s not fighting with other sources of illumination. And if you wear glasses, the ring light’s reflection can be distracting.

Razer Kiyo with window light
Razer Kiyo with window light and built-in light activated
Razer Kiyo under room light at night
Razer Kiyo under room light at night and built-in light activated
Razer Kiyo at night with just one decorative lamp on (seen reflected in the window), and the built-in light activated
Razer Kiyo with lights set to 10 percent
Razer Kiyo with lights set to 35 percent
The Razer Kiyo struggled under various light settings.

The Kiyo also suffers from slow autofocus that “bounces” as it hunts for its focus target. If you move while on a call or when you’re speaking, the Kiyo travels its full focus range before settling on the correct level.

The Kiyo struggles to focus.

The Razer Kiyo’s auto focus can be maddening from a viewer’s perspective.

The Razer and Adwaita webcams offer no settings software, leaving it to whichever capture application you’re using, if such controls are available.

Adwaita 4K USB 2.0 Webcam

I can’t say whether this inexpensive 4K webcam is representative of the market, but based on the pattern of many other consumer electronics devices, my suspicion is that several companies use the same components and rebrand their products. This device has a narrower lens than most, at 5.6mm, which means you end up cropped within the frame (or you need to move the webcam farther away from you).

The image sensor is capable of capturing 4K video, as I discussed earlier, that resolution doesn’t make sense for video conferencing. The image is grainy, and although it does a better job than the other webcams at providing detail in low-light situations, the white balance is usually off. The Adwaita lens is fixed focus.

The Razer and Adwaita webcams offer no settings software, leaving it to whichever capture application you’re using, if such controls are available.

Adwaita with window light
Adwaita with external lights set to 10 percent
Adwaita with external lights set to 35 percent
Adwaita at night under room lighting
The Adwaita webcam was tested under various light settings.

What the pros use

Setting aside issues of cost and availability for a moment, what would be the best camera for getting amazing video for your calls? For only $15,000 you can get onto the ground floor of a RED camera system, and work your way up from there.

More realistically, many video creators use DSLRs or mirrorless cameras with larger image sensors such as Sony’s Alpha series, paired with quality lenses that feature large apertures (and therefore shallow depths of field) for more control over light and the softness of the background. Those represent investments starting around $600 and can run to a couple thousand dollars depending on the body, lenses, and hardware such as an HDMI Capture Card to connect it all to the computer.

Depending on how you need to present yourself on video calls, however, that can be expensive overkill. The technology in iPhone models already allows for incredible levels of quality, as shown in the video below.

Using an iPhone as a webcam is easily the best option without dropping an excess of $1,000 for professional camera gear. Using the iPhone you already own, or a recent hand-me-down, a moderate investment in lighting, and Reincubate Camo, you can get excellent results and none of the frustration and hassle that accompanies standalone webcams.

Why are webcams so bad? (And why they won’t ever improve)

Webcam companies have done well with aged—and therefore less costly—components for years. The C920 is still cited as one of the best webcams on the market even though it was first introduced eight years ago in 2012. The Brio and Razer Kiyo hail from 2017, the StreamCam came out early in 2020, and you can see the results above.

Two main factors currently hinder serious webcam innovations, one a technical limitation and one a business shortcoming.

As with all photography, the way to create better images is to capture more light, and the method of capturing more light is to use larger image sensors and larger lenses. That’s why a consumer DSLR or mirrorless camera produces much better images than a webcam.

Primarily this is about size: webcams are designed as small devices that need to fit onto existing monitors or laptop lids, so they use small camera modules with tiny image sensors. These modules have been good enough for years, generating accolades, so there’s little incentive to change. The StreamCam appears to have a better camera and sensor, with an aperture of f/2.0; aperture isn’t listed for the other cameras.

Contrast this technology with the iPhone, which also includes small camera modules by necessity to fit them into a phone form factor. Apple includes better components, but just as important, incorporates dedicated hardware and software solely to the task of creating images. When you’re taking a photo or video with an iOS device, it’s processing the raw data and outputting an edited version of the scene.

Originally, Logitech’s higher-end webcams, such as the C920, also included dedicated MPEG processing hardware to encode the video signal, but removed it at some point (without changing the model numbers or otherwise indicating the change except for an undated blog post). The company justified the change because of the power of modern computers, stating, “there is no longer a need for in-camera encoding in today’s computers,” but that just shifts the processing burden to the computer’s CPU, which must decode raw video instead of an optimized stream. It’s equally likely Logitech made the change to reduce component costs and no longer pay to license the H.264 codec from MPEG LA, the group that owns MPEG patents.

That brings us to the other factor keeping webcam innovation restrained: manufacturers aren’t as invested in what has been a low margin business catering to a relatively small niche of customers. Apple’s research and development budget over six months is more than Logitech’s gross yearly revenue, because Apple realized that the iPhone’s camera could be a serious competitive advantage.

Read More

Related posts

© Copyright 2022, All Rights Reserved