Two rival TV brands use very similar acronyms to describe their best TVs. But QLED and OLED are as different as leopards and lions.
For the last few years Samsung, the , has been branding its best TVs “QLED.” In is bigger than ever, with seven series encompassing 28 different models. From to TVs designed to look like , QLEDs represent of pinnacle of what Samsung’s formidable TV engineers can bring to market.
But it’s not the pinnacle of picture quality. That honor goes to OLED TVs.
Based on the last few years of CNET’s LG OLED TVs have all delivered better overall image quality than Samsung QLED TVs. The latest example in 2018 pitted against . The LG won, even though it costs less. The Q9 is still an excellent performer however, and delivers the best non-OLED image I tested in 2018 — but not because of QLED technology.,
I haven’t tested any 2019 OLED or QLED TVs yet. If I was a betting man, however, I’d pick OLED to beat the best QLED TV once again this year. Here’s why.
A QLED TV is an LCD TV with quantum dots
Here’s a quick summary of the two technologies.
- OLED stands for “organic light emitting diode.”
- QLED (according to Samsung) stands for “quantum dot LED TV.”
- OLED is a fundamentally different technology from LCD, the major type of TV today.
- QLED is a variation of LED LCD, adding a quantum dot film to the LCD “sandwich.”
- OLED is “emissive,” meaning the pixels emit their own light.
- QLED, like LCD, is, in its current form, “transmissive” and relies on an LED backlight.
The main takeaway from all that is that QLED is closer to regular old LCD than it is to OLED, which I (and most other experts) consider a distinctly different class of television, much like .
are microscopic molecules that, when hit by light, emit their own, differently colored light. In QLED TVs the dots are contained in a film, and the light that hits them is provided by an LED backlight. That light then travels though a few other layers inside the TV, including a liquid crystal (LCD) layer, to create the picture. The light from the LED source is transmitted through the layers to the screen’s surface, which is why we say “transmissive.”
Samsung has been using quantum dots in this way, and debuted the . Samsung says those quantum dots have evolved over time — that color and light output have improved, for example. In my experience however, improvements caused by better quantum dots are much less evident than those caused by other image quality factors (see below).
An OLED TV is not an LCD TV at all
LCD is the dominant technology in flat-panel TVs and has been for a long time. It’s cheaper than OLED, especially in larger sizes, and numerous panel makers worldwide, including LG itself, can manufacture it.
OLED is different because it doesn’t use an LED backlight to produce light. Instead, light is produced by millions of individual OLED sub-pixels. The pixels themselves — tiny dots that compose the image — emit light, which is why it’s called an emissive display technology. That difference leads to all kinds of picture quality effects, some of which favor LCD (and QLED), but most of which benefit OLED.
QLED vs. OLED: image quality compared
Based on my reviews, here’s some general comparisons I’ve made between the two.
QLED TV picture quality varies more than OLED. Samsung has a bunch of QLED series, and the most expensive perform a lot better than the cheaper ones. That’s mainly because the biggest improvements in the picture quality of Samsung’s sets don’t have much to do with quantum dots. In TVs like theand Q9, they’re the result of better full-array local dimming, bright highlights and better viewing angles, which help them significantly outperform QLED TVs that .
Meanwhile every OLED TV I’ve reviewed has very similar image quality — all have earned a 10/10 in picture quality in my tests. There is some variation among different OLED TVs, but they’re not nearly as significant as the differences between various QLED TV series.
OLED has better contrast and black level. One of the most important image quality factors is black level, and their emissive nature means OLED TVs can turn unused pixels off completely, for literally local dimming, let some light through, leading to more washed-out, grayer black levels and blooming around bright sections.. QLED/LCD TVs, even the best ones with the most effective full-array
QLED is brighter. The brightest QLED and LCD TVs can get brighter than any OLED model, which is a particular advantage in bright rooms and with. In my tests, however, OLED TVs can still get plenty bright for most rooms, and their superior contrast still allows them to deliver a better overall HDR image than any QLED/LCD TV I’ve tested.
OLED has better uniformity and viewing angles. With LCD-based displays, different areas of the screen can appear brighter than others all the time, and backlight structure can also be seen in some content. Even the best LCDs also fade, lose contrast and become discolored when seen from seats other than the sweet spot directly in front of the screen. OLED TVs have almost perfectly uniform screens and maintain fidelity from all but the most extreme angles.
Resolution, color, video processing and other image quality factors are basically the same. Both QLED and OLED can achieve 8K resolution, although 8K QLED TVs are sure to be less expensive than 8K OLED models for a long time (there’s only one 8K OLED right now). Neither technology has major inherent advantage in color or video processing areas. Check outfor more details.
QLED can get bigger and smaller (and cheaper)
There’s only three sizes of OLED TV on the market today: 55-inch, 65-inch and 77-inch. Once LG’s 88-inch 8K OLED comes out, that’ll make four.
Meanwhile Samsung’s QLED TVs come in 43-inch, 49-inch, 55-inch, 65-inch, 75-inch, 82-inch, 85-inch and, yes, 98-inch sizes. Of course non-QLED LCD TVs can get even smaller.
The highest-end, best-performing QLED models like the Q8, Q9 and the 8K resolution Q900A cost more or around the same amount as the cheapest OLED TV. But there are numerous other, less-expensive QLED series as well.
What about OLED burn-in?
Burn-in happens when a persistent part of the image onscreen — navigation buttons on a phone, or a channel logo, news ticker or a scoreboard on a TV, for example — remains as a ghostly background no matter what else appears onscreen. All OLED screens can burn-in, and from everything we know, they’re more susceptible than LCD displays, including QLED.
All things considered, however, burn-in shouldn’t be a problem for most people. From all of the evidence we’ve seen, burn-in is typically caused by leaving a single, static image element, like a channel logo, onscreen for a very long time, repeatedly. That’s an issue if you keep Fox News, ESPN or MSNBC onscreen for multiple hours every day and don’t watch enough other programming, for example. But as long as you vary what’s displayed, chances are you’ll never experience burn-in.
Check outfor more.
Future outlook for OLED vs. QLED TVs
Until I test 2019 OLED or QLED TVs against one another I won’t know for sure which one wins in 2019.
Forits high-end QLED image quality again in an effort to beat OLED, while LG has, aside from a processing bump, mostly stood pat. LG’s to be that much better than their predecessors, and the same goes for . But given the differences between OLED and QLED tech, it would surprise me if those 2019 QLED improvements allowed it to beat OLED overall.
What about 2020 and later? Samsung is actually working on a version of QLED that does use emissive technology, much like OLED and plasma. Known as, it dispenses with the liquid crystal layers and uses quantum dots themselves as the light source.
Emissive QLED TVs have the potential to match the absolute black levels and “infinite” contrast ratio of OLED, with better power efficiency, better color and more. That’s pretty exciting, but it’ll be a few years before we see emissive QLED TVs available for sale. Hopefully by then they’ll think up a new acronym (EQLEDs?).
Before that we’ll get. It’s another emissive technology, again spearheaded by Samsung, that seems closer to market than direct-view quantum dot. As you might guess from the name, it uses millions of teeny-tiny LEDs as pixels. MicroLED has the potential for the same perfect black levels as OLED with no danger of burn-in. It can deliver higher brightness than any current display technology, wide-gamut excellent color and doesn’t suffer the viewing angle and uniformity issues of LCD. It doesn’t involve quantum dots, at least not yet, but who knows what might happen when it comes to market. QDMLED, anyone?
For now, however, OLED rules the picture quality roost over QLED. At least until somebody.
Update, Feb. 28, 2019: This article was originally published Feb. 8, 2017. It has been updated extensively.