Galaxy Note20 Ultra OLED Display Technology Shoot-Out
Dr. Raymond M. Soneira
President, DisplayMate Technologies
Corporation
Copyright © 1990-2020 by DisplayMate
Technologies Corporation. All Rights Reserved.
This article, or any part
thereof, may not be copied, reproduced, mirrored, distributed or incorporated
into any other work without
the prior written permission of DisplayMate Technologies Corporation
|
Galaxy Note20 Ultra
|
Introduction and Overview
The key element for a great
Smartphone has always been a truly innovative and top performing display, and
the best leading edge Smartphones have always flaunted their super high tech
displays. It is the display performance that determines how good and how
beautiful everything on the Smartphone looks, including the camera photos and
all of your Apps, and also how readable and how usable the screen is in high
ambient lighting. The Display is the crown jewel of the Smartphone!
In this Display Technology Shoot-Out article series we only
cover the Very Best State-of-the-Art Top
Performing and Top Tier Smartphone Displays. The articles are designed
to promote Display Performance so that consumers, reviewers, and journalists
all recognize and appreciate Display Excellence, and also to reward and
encourage manufacturers to produce top performing displays for their products.
The Galaxy Note20 Ultra is Samsung’s newest Flagship
Smartphone with the latest most advanced state-of-the-art OLED Display with a Full
Screen design. With mobile OLED display technology advancing faster than
ever, there are many important new display performance enhancements and
improvements. The Galaxy Note20 Ultra has the
latest dual-edge curved screen Flexible OLEDs,
which are developed and manufactured by Samsung
Display. Every new OLED generation has
provided significant enhancements and improvements that make their first appearance
on Samsung Galaxy Smartphones, and the Galaxy
Note20 Ultra has again Raised the Bar significantly higher.
In this article we Lab test, measure, analyze, and evaluate in-depth the
Display on the Galaxy Note20 Ultra. This is
an independent scientific objective Lab test and analysis of OLED displays
written for consumers and journalists. It is the latest edition in our ten year
article series that has Lab tested, tracked and analyzed the development of
mobile OLED displays and display technology, from its early beginnings in 2010,
when OLED displays started out in last place, into a rapidly improving and
evolving display technology that now has a commanding first place lead and
continues pushing ahead aggressively.
Conclusion Preview
Below is the Galaxy Note20 Ultra Display Performance Summary from the Conclusion section:
Based on our extensive Lab Tests and Measurements the Galaxy Note20 Ultra has a Very Impressive Excellent Top
Tier World Class Smartphone Display with
close to Text Book Perfect Calibration
Accuracy and Performance that is Visually
Indistinguishable From Perfect. Based
on our objective Lab Tests and Measurements the Galaxy
Note20 Ultra receives a DisplayMate Best
Smartphone Display Award earning DisplayMate’s highest ever Display Performance Grade of A+ and setting or
matching 11 Smartphone Display Performance Records.
OLED Display Performance
OLED has evolved into a highly refined and mature display technology
that now produces the best and highest performance displays for Smartphones.
The Galaxy Note20 Ultra is the latest in a new generation of OLED Smartphones.
OLEDs have now evolved and emerged as the premium mobile Smartphone display
technology. OLED Display Performance continues to provide major Record Setting
improvements with every new generation. For the Galaxy
Note20 Ultra, Samsung has concentrated
on significantly raising the on-screen Absolute
Picture Quality and Absolute Color Accuracy
of the OLED display by implementing Precision Factory Display
Calibration, moving the overall Galaxy Note20
Ultra display performance up to impressive Record
Setting Outstanding levels with 11 Display
Performance Records, including Absolute Color
Accuracy at a very impressive 0.5 JNCD
that is Visually Indistinguishable From Perfect.
This shift in emphasis from
primarily improving the Display Hardware Performance to enhancing the overall
display Picture Quality and Color Accuracy is an important step that
DisplayMate Technologies has been pushing for many years in our Display Technology Shoot-Out
article series, so it is great to see manufacturers improving and then
competing on these DisplayMate Objective Lab Measurement Metrics.
The Move to OLED Displays
LCDs are a great cutting edge high performance display technology for
Tablets to TVs, but for small handheld Smartphones, OLED displays provide a
number of major advantages over LCDs including: being much thinner, much
lighter, without needing a bezel, providing a rimless edge-to-edge design. They
can be made flexible and into curved screens, plus they have very fast Response Times, better Viewing Angles, and an Always On display mode.
The very fast Response Times of OLED displays makes the new Higher 90 Hz and 120 Hz Screen Refresh Rates possible, which improves image Scrolling and Videos, plus
Motion and Gaming Performance in Apps.
Many of the OLED performance advantages result from the fact that every
single sub-pixel in an OLED display is independently directly electrically
powered to emit light, so only the active image sub-pixels draw power based on
their individual brightness levels. OLEDs can also provide better color
accuracy, image contrast accuracy, and screen uniformity because the LCD irregularities
and variations in their Backlights introduce color and brightness variations
and irregularities over the screen.
As the result of their very versatile power management capabilities,
OLEDs are not only more power efficient than LCDs for most image content, but
they now deliver much higher Peak Brightness than LCDs because the maximum
power can be delivered to just the sub-pixels that are needed for producing the
current image. However, for mostly all white screen content, LCDs are likely to
remain brighter and more power efficient for a while.
OLED
displays now have tremendous performance advantages over LCDs, so high-end and
flagship Smartphones need OLED displays in order to compete at the
state-of-the-art performance levels, securing OLED as the definitive premier
display technology for Top Tier Smartphones in the foreseeable future over the
next 3-5 years. With the continuing improvements in OLED hardware performance,
picture quality, and precision accuracy, it will be much harder for new display
technologies to challenge OLED.
New and Improved Galaxy Note20 Ultra Display
Performance Highlights
These are just a few of the New and Improved Galaxy
Note20 Ultra Display Performance Highlights that we will be covering in detail
throughout the article:
· The Galaxy Note20 Ultra has both the common Display 60 Hz
Refresh Rate plus a New Adaptive Higher Frequency 120
Hz Refresh Rate that noticeably improves the Smoothness in image
Scrolling and Videos, plus Motion and Gaming Performance in Apps, and may also
reduce Screen Flicker that some people experience.
· The Galaxy Note20 Ultra Display Peak
Brightness is 680 nits in Normal Mode and 1,609
nits in High Brightness Mode, which is 21-23
percent higher than on the Galaxy Note10+.
· The Galaxy Note20 Ultra High
Brightness Mode reaches its Peak Display
Brightness at a new Lower Ambient Light Level of 20,000 lux,
which corresponds to Full Outdoor Daylight that is not in Direct Sunlight. This further improves Outdoor screen readability in Medium
as well as High Ambient Light.
· The Galaxy Note20 Ultra Display Power Efficiency is 16 percent higher than on the Galaxy Note10+.
· The Galaxy Note20 Ultra sets or matches 11 Smartphone Display Performance Records including 4 that are Rated Visually
Indistinguishable From Perfect.
· The Galaxy Note20 Ultra Highlights and Performance Results section below will
cover all the above and more in detail.
It is particularly noteworthy that the Galaxy Note20
Ultra OLED Display has significantly increased and improved both the Display
Brightness and the Display Power Efficiency at the same time.
Article Overview
This Galaxy Note20 Ultra article has the following major
sections:
· Highlights: The Highlights and Performance Results section has
detailed information and analysis on the Galaxy Note20 Ultra display.
· Features: The Display Performance Functions
and Features section lists all of the major functions and features.
· Records: The Display
Performance Records section lists the Lab Measurement performance records
of the display.
· Conclusions: The Galaxy Note20 Ultra Conclusions section summarizes all
of the Results, Features, Functions, and Records.
· Measurements: The Display Shoot-Out Lab Measurements Comparison Table has all
of the detailed measurements and test details.
· Future of OLED: The Future of OLED Smartphones
examines the evolution of OLED displays.
· Performance in Ambient Light:
Improving Display
Performance for Real World Ambient Light.
We will cover all of the these Display Performance Topics
and much more, with in-depth expert comprehensive display tests, measurements
and analysis that you will find nowhere else.
The Display Shoot-Out
To examine the
performance of the new Galaxy Note20 Ultra OLED
Display we ran our in-depth series of Mobile Display Technology
Shoot-Out Lab Tests and Measurements in order to determine how the latest
OLED displays have improved. We take display quality very seriously and provide
extensive in-depth objective analysis based on detailed laboratory tests and
measurements, and extensive viewing tests with both test patterns, test images
and test photos. To see how far OLED and LCD mobile displays have progressed
see our 2010
Smartphone Display Shoot-Out, and for a real history lesson see our
original 2006
Smartphone Display Shoot-Out.
Samsung provided DisplayMate Technologies with pre-release production
units of the Galaxy Note20 Ultra so that we could perform our well known
objective and comprehensive DisplayMate Lab tests, measurements, and analysis,
explaining in-depth the new display performance results for consumers,
reviewers, and journalists as early as possible.
Galaxy Note20 Ultra Highlights and
Performance Results
In this section we review and explain the principal
results from the extensive DisplayMate Lab Tests and Measurements
in the following categories: Display
Specifications, Overall Assessments, Screen Reflections, Brightness
and Contrast,
Colors and Intensities,
Absolute Color Accuracy, Viewing Angles, OLED Spectra,
Display Power.
Display Lab Tests and
Measurement Data Table
All of the Results in this
article are based Entirely on our Objective and Extensive DisplayMate Lab Tests
and Measurements.
See the Display Shoot-Out Lab
Measurements Comparison Table below for the complete set of DisplayMate Lab
Tests and Measurements.
Main Topics Covered
This Display Highlights and
Performance Results section has detailed information and analysis on the
Galaxy Note20 Ultra Display for the main topics
listed below.
You can skip this section and go directly to the Galaxy Note20 Ultra Conclusions for a Summary of all the
Display Test Results.
· Large 6.9 inch Full Screen Display
· Front Camera O-hole
· 3K High Resolution Display
· New Higher Adaptive 120 Hz
Display Refresh Rate
· Record Very High
Absolute Color Accuracy
· High Contrast Accuracy
and Intensity Scale Accuracy
· Record Peak Luminance that is Independent of the on-screen
Image Content
· Record Color Accuracy and
Intensity Scales that are Independent of the Image Content
· Industry Standard Color Gamuts
· Automatic Color Management
· Selectable Screen Modes
· Record Setting Natural
DCI-P3 Screen Mode
· Record Setting Natural
sRGB Screen Mode
· Vivid Screen Mode with User Adjustable White Point
· Vivid Screen Mode in Ambient Light
· Record High Screen
Brightness and Performance in High Ambient Light
· Record High Brightness
Mode
· High
Dynamic Range Mobile HDR10+ Display
· Viewing Angle Performance
· Blue Light Spectrum
· Night Mode Blue Light Filter for Better Night Viewing
· Front and Back Dual Ambient Light Sensors
· Interactive Personalized Automatic Brightness
· Vision Accessibility Display Modes
· Super Dimming Mode
· Always On Display Mode
· Diamond Pixels
· Viewing Tests Performance
· Display Power Efficiency
· Display Related Enhancements
· Large 6.9 inch Full Screen Display with a Wide Aspect Ratio
of 19.3 : 9
The Galaxy Note20 Ultra
has a large 6.9 inch State-of-the-Art Curved Full Screen Flexible OLED display that fills almost the entire front face of the
phone from edge-to-edge. While the OLED display itself is flexible, the screen
remains rigid under an outer hard Cover Glass.
The display also has a form factor with a taller height to width Aspect Ratio of 19.3 : 9 = 2.14, which is
21% larger than the 16 : 9 = 1.78 on most Smartphones (and widescreen
TVs) because the display now has the same overall shape as the entire phone. It
is taller in Portrait mode and wider in Landscape mode. This provides extra
space for Notifications and for displaying multiple Apps and content
simultaneously on-screen side-by-side.
The main screen has rounded corners and is curved along both the left
and right edges, which provides two additional user configurable Edge Screen areas that can
be viewed from both the front or the sides, and even when the phone is placed
face down. This is particularly helpful for status messages, notifications,
memos, an Edge Clock, and a Night Clock in the Always
On Display mode, which we cover below.
· Front Camera O-hole
Minimizing the thickness of any bezels and borders that appear around the
display is now a major priority for both consumers and manufacturers.
The major challenge has been minimizing the space required for the
various sensors, camera, and speaker on the front of the phone. In the past the
approach was to reserve a black border area along the entire top edge of the
phone. This resulted in an increased overall size of the phone, so a new
approach was to let the display fill the front face of the phone, but then cut
out a middle slot from the display at the very top for the camera and sensors.
However, this then significantly cuts into the standard rectangular shape of
the display, and eliminates some of the image content that is supposed to
appear there, including in photos, videos, and Apps.
Instead, the Galaxy Note20 Ultra display has a newly developed very
small circular O-hole at the very top center of the screen for the front facing
selfie camera and sensors. The Front Camera O-hole is just 3.5mm in diameter, and it
takes up only a tiny 0.1% of the total display area, a key factor in the high 92% Front View Screen-to-Body Ratio for the Galaxy Note20 Ultra.
The O-hole is implemented as a clear window opening within the OLED
display, something that cannot be done with LCD technology because of its
embedded Liquid Crystal. The O-hole appears as a very sharp very well defined
circle because of the fine Diamond Sub-Pixel structure of the OLED display.
· 3K High Resolution Quad HD+ 3088x1440 Display with 496
pixels per inch
As a result of its larger display size and larger Aspect
Ratio, the Galaxy Note20 Ultra has a 3K Higher
Resolution Quad HD+ display with 3088x1440
pixels and 496 pixels per inch, with 4.4
Mega Pixels, more than double the number on your HDTV. It can display more than
four complete HD 1280x720 images at once. The display has Diamond Pixels (see below) and Sub-Pixel Rendering with 496 pixels per inch (ppi),
providing significantly higher image sharpness than can be resolved with normal
20/20 Vision at the typical viewing distances of 10 inches or more for
Smartphones, so the display appears perfectly sharp.
The Galaxy Note20 Ultra uses Sub-Pixel
Rendering, which further improves image sharpness because the individual
Red, Green and Blue Sub-Pixels are treated as independent addressable image
elements and are not bound together into fixed Pixels, so the closest sub-pixel
is used when rendering the image. In some cases Sub-Pixel Rendering can make
the screen appear to have up to 3 times the resolution of traditional Pixel
Rendering. As a result, for Smartphones it is
absolutely pointless to further increase the display resolution and pixels per
inch (ppi) up to 4K (3840x2160 pixels) for a marketing wild goose chase into
the stratosphere, with no visual benefit for humans!
· New Higher Adaptive 120 Hz Display Refresh Rate
The Galaxy Note20 Ultra has both the common Display 60 Hz Refresh Rate plus a New Adaptive Higher Frequency 120 Hz Refresh Rate that noticeably improves the Smoothness in image Scrolling
and Videos, plus Motion and Gaming Performance in Apps, and may also reduce
Screen Flicker that some people experience. The very fast Response Times of
OLED displays makes the Higher 120 Hz Refresh Rate possible.
On the Galaxy Note20 Ultra the Display
Refresh Rate Frequency and Motion Smoothness
can either be manually set to a Fixed Standard
60 Hz Rate, or to an Adaptive Mode that
automatically adjusts both the Refresh Rate [anywhere from 60 Hz up to 120 Hz]
and the image Frame Rate [anywhere from 10 Hz up to 120 Hz] based on how the
on-screen image content is currently changing, which can reduce the Display
Power and increase the running time on battery.
The Adaptive Mode Higher Frequency 120 Hz Display Refresh Rate is only
currently supported for the Full HD+ 2316x1080 Resolution mode.
· Record Very High
Absolute Color Accuracy for Calibrated Screen Modes
All of the recent model Galaxy OLED Smartphones have
supported multiple Color Gamut Standards for different image and picture
content, including both DCI-P3 and sRGB / Rec.709. For each of the Calibrated Screen
Modes we carefully measure the Absolute Color Accuracy
using an advanced series of spectroradiometer measurements with 41 Reference Colors that provide a detailed map of
the Color Accuracy throughout the entire Color Gamut for each Screen Mode.
Absolute Color Accuracy is measured in terms of Visual Just Noticeable
Color Differences,
JNCD. See this Figure for an explanation
and Visual Definition of JNCD and the detailed Color Accuracy Plots
showing the measured Color Errors for the 41 Reference
Colors for each of the Color Gamuts.
The Galaxy Note20 Ultra has a
Record Setting Absolute
Color Accuracy of 0.5 JNCD, which is Visually Indistinguishable From Perfect, and almost certainly considerably better than your
existing Smartphone, living room HDTV, Tablet, Laptop, and computer monitor.
See the detailed Absolute Color Accuracy Plots
with 41 Reference Colors for the Calibrated
Screen Modes, which are covered and measured individually below.
· High Contrast
Accuracy and Intensity Scale Accuracy
The
Intensity Scale (sometimes called the Gray Scale) not only controls the Image
and Picture Contrast within all displayed images but it also controls how the
Red, Green and Blue primary colors mix to produce all of the on-screen colors.
So if the Intensity Scale doesn't accurately follow the Standard that is used
to produce virtually all consumer content then the Image Colors, Image
Contrast, and their Brightness Intensities will be wrong everywhere in all
images. Unfortunately, many manufacturers are quite sloppy with the Intensity
Scale on their displays (because it is logarithmic and not linear).
Fortunately, the Intensity Scale on Galaxy Note20 Ultra is a close match of the
Intensity Scale Standard, which is essential for High Absolute Color Accuracy.
See Figure 3 for a plot of the
measured Intensity Scale and the Contrast and Intensity Scale section for measurements and details.
· Record Peak Luminance that is Independent of the on-screen Image
Content
On almost all existing OLED displays the Peak Brightness
(Luminance) changes with the Average Picture Level APL of the on-screen image,
increasing by as much as 50 percent or more between High APL and Low APL. This
increasing High Brightness effect can be very useful in improving screen
readability in High Ambient Light, and also to highlight certain on-screen
image content. But the changing display Brightness can distort the brightness
relationships when viewing photos, in videos, and other images.
As a result, Samsung has been reducing this variation in
Peak Brightness for all the Screen Modes except the Vivid mode, which takes
advantage of this High Brightness effect. For example, on the Galaxy Note8, the
Luminance variation was 38 percent. Beginning
with the Galaxy S9 the Luminance Variation has gone down to 6% or less, with the Galaxy Note20 Ultra at a 5% Luminance Variation with APL. But as we discuss
next, the real reason for doing this is actually to improve the Absolute Color
Accuracy and Absolute Contrast Accuracy of the display. See the Screen Brightness section for the measurements and
details.
· Record Color Accuracy
and Intensity Scales that are Independent of the on-screen Image Content
The Absolute Color Accuracy and
Intensity Scale of the display should not change as the on-screen image content
changes.
As we discussed above, the first step is to make sure
that the Peak Brightness (Luminance) of the display does not change with the
Average Picture Level APL of the on-screen image because High Color Accuracy is
impossible when that occurs.
With the continuing improvements in display performance
we have added a new set of advanced tests that measure the variations in the
Absolute Color Accuracy and the Intensity Scales with changing
Average Picture Level APL, comparing the Shifts between Low APL and 50% High APL.
Previous generation displays with large Peak Luminance changes with APL
typically show Large Shifts in the Intensity
Scale and Large Shifts in Absolute Color
Accuracy with APL. Since the Galaxy Note20 Ultra has a small 5% change in Luminance with APL, we expect Small Shifts in Accuracy with APL, which we analyze
next...
The Variation
in the Intensity Scales between Low APL and 50% APL is shown in this Figure. Any
change in the Intensity Scale will affect the Absolute Color Accuracy. There is
only a very small Shift in the Intensity Scales, with the Gamma varying from 2.12 for Low APL to 2.16 for
50% APL. As a result, we expect the Absolute Color Accuracy to only show
small variations with APL.
The Variation
in the Absolute Color Accuracy between Low APL and 50% APL for the Natural
sRGB and DCI-P3 Modes is shown in Figure 4. The Color
Shifts with APL are very small, with an Average Color
Shift of just 0.5 JNCD and the Largest Color
Shifts only 1.0 JNCD for the Natural Modes. In addition, the White Point Shifts with APL are just 0.2 JNCD.
All the Shifts with APL are very small and Excellent. See
this Figure for an
explanation and visual definition of JNCD and
the Color APL Shifts section for measurements and details.
· Industry Standard Color Gamuts
The Galaxy Note20 Ultra supports the two most important Industry Standard Color Gamuts: the sRGB / Rec.709 Color
Gamut that is used for most current consumer
content, and the new Wide DCI-P3 Color Gamut that is used in 4K Ultra HD TVs. The DCI-P3 Gamut is
26 percent larger than the sRGB / Rec.709 Gamut. However, Automatic Color Management provides support for a
large number of other Standard and Non-Standard Color Gamuts...
· Automatic Color Management
Most Smartphones and Tablets generally provide only one
to up to several fixed Color Gamuts. The Galaxy Note20 Ultra has Automatic Color Management that automatically
switches to the proper Color Gamut for any displayed image content that has an
ICC Profile that falls within the OLED Wide Color Space, so images
automatically appear with the correct colors, neither over-saturated or
under-saturated. Automatic Color Management with
multiple and varying Color Gamuts is a very useful and important
state-of-the-art capability that all manufacturers will need to provide in the
future.
· Selectable Screen Modes
The Galaxy Note20 Ultra provides 2 user selectable Screen Modes that provide control of the vividness of
displayed images for each Color Gamut. They are the Natural
Mode, which provides the most Accurate Colors, and the Vivid Mode, which provides a Vibrant and Dynamically
adjustable Wide Color Gamut up to the Full Native Color Gamut of the OLED
display.
Use Display Settings to switch
between the Selectable Screen Modes.
See this Figure for the Color Gamuts and Color Modes
and the Colors and Intensities section for
the measurements and details. Note that the Vivid mode
is the standard and factory default Screen Mode. Use Display Settings to switch
between the Screen Modes. We discuss each of the tested Screen Modes
next…
· Record Setting DCI-P3 Natural Mode with a Very
Accurate Standard DCI-P3 Color Gamut
The Galaxy Note20 Ultra has the newest Standard Wide Color Gamut called DCI-P3
for Digital Cinema
Initiative, which is being used for 4K
Ultra HD TVs and in Digital Cinema for the movie industry. So the Galaxy Note20
Ultra can display the latest high-end 4K video content. The DCI-P3 Gamut is 26
percent larger than the Rec.709 Gamut used in 2K Full HD TVs, both are compared
in this accurately colorized Reference
Figure. The larger DCI-P3 Color Gamut and its wider range of more saturated
colors are also useful in many advanced imaging applications, including HDR High Dynamic Range, which is discussed below.
The measured Color Gamut
of the DCI-P3 Natural mode is a Very Accurate 100 percent of the Standard DCI-P3
Color Gamut, and the measured Absolute Color
Accuracy is a Record Setting Very Accurate 0.7 JNCD,
which is Visually Indistinguishable From Perfect,
and almost certainly considerably better than your existing Smartphone, living
room HDTV, Tablet, Laptop, and computer monitor.
The Galaxy Note20 Ultra is one of the first displays to
reach full 100% of the DCI-P3 as the result of using a new high saturation “Deep Red” OLED. See the Color
Accuracy section and the detailed Color Accuracy Plots for
the measurements and details. Select the Natural mode
using Display Settings – it is not the default screen mode for the Galaxy
Note20 Ultra.
· Record Setting sRGB
Natural Mode with a Very Accurate Standard sRGB / Rec.709 Color Gamut
The sRGB Natural mode
provides a very accurate Color and White Point calibration for the Standard sRGB / Rec.709 Color Gamut that is used to
produce most current consumer content for digital cameras, TVs, the internet,
and computers, including photos, videos, and movies.
The measured Color Gamut
of the sRGB Natural mode is a Very Accurate 100 percent of the Standard sRGB /
Rec.709 Color Gamut, and the measured Absolute
Color Accuracy is a Record Setting Very Accurate 0.5 JNCD, which
is Visually Indistinguishable From Perfect, and almost certainly considerably better than
your existing Smartphone, living room HDTV, Tablet, Laptop, and computer
monitor.
Use the Natural mode for
the best color and image accuracy for most current consumer content, which is
especially important when viewing photos from family and friends (because you
often know exactly what they actually should look like), for some TV shows,
movies, and sporting events with image content and colors that you are familiar
with, and also for viewing online merchandise, so you have a very good idea of
exactly what colors you are buying and are less likely to return them. See the Color Accuracy section and the detailed Color Accuracy Plots for
the measurements and details. Select the Natural mode
using Display Settings – it is not the default screen mode for the Galaxy Note20
Ultra.
· Vivid Screen Mode with the Largest Color Gamut
The Vivid mode has the
Wide Native OLED Color Gamut. It provides significantly higher Color
Saturation, with a large 135 percent of the Standard
sRGB / Rec.709 Color Gamut and 108 percent of
the Standard DCI-P3 Color Gamut, very close to the highest that we have
ever measured for Smartphones and Tablets (142% and 113%). The Vivid mode also
provides real-time Adaptive processing that can dynamically adjust images and
videos. For some applications it will vary the White Point, Color Gamut, and
Color Saturation based on the image content and the color of the surrounding
ambient lighting measured by the Ambient Light Sensor (which measures color in
addition to brightness).
Some people like the more Saturated and Vibrant Colors,
plus it is useful for special applications, and especially when using the
Galaxy Note20 Ultra in medium to high levels of Ambient Light, because it
offsets some of the reflected light glare that washes out the on-screen image
colors. We examine the change in the Color Gamut with Ambient Light below. See
the Color Accuracy section for the measurements
and details. Select the Vivid mode using Display
Settings – it is the factory default screen mode for the Galaxy Note20 Ultra.
· Vivid Screen Mode with a User Adjustable White Point
The default White Point for
the Vivid mode has an Intentionally somewhat Bluish 7,140
K Color Temperature. The Galaxy Note20 Ultra has a user adjustable White
Point with Color Balance slider controls that
allows users to change color of White for the Vivid mode. The slider controls
allow the White Point Color Temperature to range from
6,100 K, which is slightly warmer than the Standard D65 White, up to 8,200 K, which has a moderate Bluish Tint that
some people like. So with the Galaxy Note20 Ultra you can set the Color of
White that you prefer.
· Vivid Mode Offsets the Loss of Color Saturation and Color
Gamut in Ambient Light
The Vivid mode is particularly useful in moderate to high
levels of Ambient Light because its larger Native
Color Gamut offsets some of the loss of Color Saturation and Color Gamut
that occurs when using the other Accurately Calibrated Standard Screen Modes.
This Figure
shows the measured decrease in the Vivid and Natural Modes with increasing
Ambient Light, from 0 lux, which is perfectly dark, up through 2,000 lux, which
corresponds to typical outdoor daylight in shade.
At 500 lux, which
corresponds to typical office lighting, the measured on-screen Color Gamut for
the Natural modes decreases to 89%. At 1,000 lux, which corresponds to very bright indoor
lighting or outdoor daylight with an overcast sky, the measured on-screen Color
Gamut decreases to 80%, and at 2,000 lux the measured on-screen Color Gamut
decreases to 65%. This loss of color saturation
and wash out in Ambient Light is well known to all display users.
The way to improve the display color accuracy and
performance in Ambient Light is to start with a larger Color Gamut, like the
Vivid mode, which is shown in this Figure compared
to the Natural modes for 0 lux up through 2,000 lux. At 1,000 lux the Vivid
mode provides a much better match to the sRGB / Rec.709 Color Gamut than the
sRGB Natural mode. The Vivid mode also provides a good match to the DCI-P3
Color Gamut at 500 lux. So the Vivid mode provides
more accurate on-screen colors in moderate to high Ambient Lighting than the
Calibrated Natural Modes, which are designed and calibrated for Low Ambient
Light. Applying Dynamic Color Management based on the current Ambient
Light lux level in the future will able to further improve color accuracy over
a wide range of Ambient Light levels, which we discuss further in the Improving Display Performance for Real World Ambient
Light section in the Conclusion.
· Record High Screen Brightness and Performance in High Ambient
Lighting
Mobile displays are often used under relatively bright
Ambient Lighting, which washes out the image color saturation and contrast,
reducing picture quality and making it harder to view or read the screen. To be
usable in High Ambient Light a display needs a dual combination of high Screen Brightness and low Screen
Reflectance – the Galaxy Note20 Ultra has both. This is extremely important
for screen readability, picture quality, and color accuracy in Ambient Light.
With Automatic Brightness turned Off and the Brightness
slider set Manually to Maximum, the Galaxy Note20 Ultra produces between 469 cd/m2 and 680
cd/m2 (nits), based on the current Screen Mode and the Average Picture Level APL of the image content, which
is 21-28 percent brighter than the Galaxy Note10+, and
among the very brightest that we have ever measured for a Smartphone with
Automatic Brightness turned Off. See the Screen Brightness section for the measurements and
details.
The measured Galaxy Note20 Ultra Screen
Reflectance is 4.4 percent, very close to the lowest that we have ever
measured for a Smartphone of 4.3%. Our Contrast Rating
for High Ambient Light quantitatively measures screen visibility and
image contrast under bright Ambient Lighting – the higher the better. As a
result of its high Brightness and low Reflectance, the Galaxy Note20 Ultra has
a Contrast Rating for High Ambient Light that
ranges from 107 to 155, among the very highest that we
have ever measured for a Smartphone. See the Screen
Reflectance section for the measurements and details.
· Record High Brightness Mode with Automatic Brightness On
On the Galaxy Note20
Ultra the Maximum Screen Brightness can go much higher when Automatic Brightness is turned On, so that users
can’t permanently park the Manual Brightness slider to very high values, which
would run down the battery quickly. High Screen
Brightness is only needed for High Ambient Light, so turning Automatic
Brightness On will provide better high ambient light screen visibility and also
longer battery running time.
When Automatic Brightness
is turned On, the Galaxy Note20 Ultra has a High Brightness Mode that produces between 1,011 cd/m2 and
1,609 cd/m2 (nits) in High Ambient Light, which is where High
Brightness is really needed, and is considerably Brighter than with Manual Brightness
when Automatic Brightness is turned Off.
For the Galaxy Note20 Ultra the High Brightness Mode
reaches its Peak Brightness at a new Lower
Ambient Light Level of 20,000 lux, which corresponds to Full Outdoor
Daylight that is not in Direct Sunlight. This further
improves Outdoor screen readability in Medium as well as High Ambient Light.
The 1,011 nits is for the
Natural Mode with an All
White Full Screen 100% Average Picture Level APL image, which is the
most challenging image for an OLED display because all the pixels are at full
power. For the Vivid Mode with an All White Full Screen it is
1,037 nits. These are Record Setting Brightness for OLED displays with 100%
Average Picture Level APL images.
The Galaxy Note20 Ultra has a Record
Peak Brightness of 1,609 nits, which is
23% higher than on the Galaxy Note10+. See the Brightness
and Contrast, the High Ambient Light and
the Screen Reflections sections for the measurements
and details.
· High Dynamic Range Mobile HDR10+ Display
The Galaxy Note20 Ultra can play 4K High Dynamic Range
content made for 4K UHD TVs. High Dynamic Range
(HDR) is the newest performance enhancement feature developed for the latest 4K
Ultra HD TVs. The Galaxy Note20 Ultra has the new enhanced Mobile HDR10+ that
supports Dynamic Metadata and Dynamic Tone Mapping.
HDR provides expanded Color, Contrast, and Brightness of
video content. In order to provide HDR, the Galaxy Note20 Ultra has the
required Digital Cinema DCI-P3 Wide Color Gamut, plus perfect Blacks and an
Infinite Contrast Ratio from its OLED display, and a peak Brightness of over
1,000 nits that is needed for High Dynamic Range. The Galaxy Note20 Ultra can
play the latest streamed mobile HDR videos, and its built-in video processor
also allows it to provide an Expanded Dynamic Range for standard
video content that produces an HDR-like effect.
· Viewing Angle Performance
While Smartphones are
primarily single viewer devices, the variation in display performance with
viewing angle is still very important because single viewers frequently hold
the display at a variety of viewing angles. The angle is often up to 30
degrees, more if the phone is resting on a table or desk.
While LCDs typically
experience a 55 percent or greater decrease in Brightness at a 30 degree
Viewing Angle, the OLED Galaxy Note20 Ultra display shows a much smaller 35
percent decrease in Brightness at 30 degrees. This also applies to multiple
side-by-side viewers as well, and is a significant advantage of OLED displays.
All
displays have Color Shifts with Viewing Angle:
The Color Shift of White, which is the most common
background color is particularly noticeable on many OLED and LCD displays.
The Galaxy Note20 Ultra
has a relatively small White Shift of 2.6 JNCD at 30
degrees, which is unlikely to be noticeable for typical Viewing Angles.
The
Color Shifts throughout the entire Color Gamut vary as combinations of the
Primary Color Shifts:
The Color Shifts for the
Green and Blue Primaries are relatively small, with 1.4
JNCD for Green and 3.4 JNCD for Blue at 30
degrees. The Color Shift for the Red Primary
is larger at 4.2 JNCD at 30 degrees, which may
be noticeable for some color content, but should not appear objectionable. Almost all current model Smartphone OLED displays have
either 1 or 2 Primary Color Shifts greater than 3.5 JNCD at 30 degrees Viewing
Angle. See the Viewing Angles section for
the measurements and details.
· Blue Light Spectrum
The Galaxy Note20 Ultra has received an SGS Eye Care
Certification based on its reduction of potentially harmful very short
wavelength Blue Light, which has been further reduced by an additional 13%
compared to the Galaxy Note10+. This has been accomplished with a new Blue OLED
with an improved light spectrum that has a reduced short wavelength component.
The Improved Blue Light Spectrum also works in conjunction with the Night Mode Blue Light Filter...
· Night Mode Blue Light Filter for Better Night Viewing
The Night Mode Blue Light Filter on the Galaxy Note20
Ultra is designed to change the color balance of the display in order to reduce
the amount of Blue Light produced by the display, which some recent research
indicates can affect how well users sleep afterwards. In a separate article we
explain and analyze the Blue Light issue for displays. The Galaxy Note20 Ultra
includes a user adjustable slider (called Filter Opacity) to vary the amount of
Blue Light produced by the display and a timer that allows the Blue Light
Filter to be turned on and off automatically every day. The measured variation
in the display light spectrum with the adjustable Blue Light Filter is shown in
this Figure
and below.
As the Blue Light Filter Opacity setting is increased, the
amount of Blue light emitted by the display decreases. When that happens, White
and all screen colors take on an increasing yellowish tint and color cast. At
the Middle setting the measured White Color
Temperature decreases to 5,650 K, and at the Maximum setting it decreases to 2,600 K, the Color Temperature of traditional
incandescent lighting, which is yellowish. With the Blue Light Filter turned On
and the Opacity at its Maximum setting, the measured Blue Light component from
the Galaxy Note20 Ultra is reduced by 80 percent. Turning down the screen
Brightness will further decrease the amount of Blue Light. The measured display spectra for several of the Blue Light Filter settings
are included in this Figure and
below.
· Front and Back Dual
Ambient Light Sensors for Improved Automatic Brightness Settings
Other Smartphones and
Tablets have just a single Ambient Light Sensor on the front of the screen that
measures the amount of light falling on the front of the screen. When Automatic
Brightness is turned On, the display Brightness is adjusted based on this
single measured value. But that is only part of the story because the phone is
often in the shadow of your head, so the front ambient light level is often
reduced there. However, your eyes are generally more adapted to the surrounding
ambient light level that is behind and around the phone, which needs to be
taken into account in setting the proper screen Brightness, particularly with
the most common back lighting situations that exist when holding the phone.
I proposed dual Ambient
Light Sensors back in 2010, with an article
that described “How Automatic Brightness Should Work.”
The Galaxy Note20 Ultra together with the Galaxy S and Galaxy Note phones
starting with the Galaxy S8 are the only Smartphones to have a second Ambient
Light Sensor on the back that also measures the surrounding ambient light
behind the phone and then uses both measured values to adjust the display
Brightness based on the front and back lighting. The Galaxy Note20 Ultra
Automatic Brightness Control has also been enhanced to provide improved
response and transition times with changing ambient light levels to give your
eyes the proper amount of time to adjust to the new levels.
· Interactive Personalized Automatic Brightness Control that
Works Well
The Galaxy Note20 Ultra
has an Interactive Personalized Automatic Brightness
Control that learns and stores the display brightness settings that you
make for varying ambient light levels, so from then on you get your own
customized personal visual brightness preferences instead of some
pre-programmed manufacturer settings found in other Smartphones, Tablets, and
TVs. I proposed this back in 2010, with an article
that described “How Automatic Brightness Should Work.”
The Galaxy S9 was the first Smartphone to do Automatic Brightness correctly.
When Automatic
Brightness is turned On (under Display Settings), if you adjust the Brightness
Slider, the Galaxy Note20 Ultra will remember your setting along with the
current Ambient Light level that is measured by its Ambient Light Sensors
(ALS). From then on the Galaxy Note20 Ultra will automatically adjust the
screen Brightness by measuring the current ambient light level and then
adjusting the display Brightness based on the settings that you have previously
made, so you’ll get a customized screen Brightness setting that you’ve
previously trained it to produce for the current level of ambient light – and
you can continue to tweak and adjust it as needed. Other smartphones operate
using the antiquated opposite approach based on factory set defaults, which
work backwards and poorly, and often results in users disabling Automatic
Brightness.
· Vision Accessibility Display Modes
The Galaxy Note20 Ultra
has a number of Vision Accessibility display modes to help people with vision
impairments.
A Color Lens mode provides 12 types of color filtering
with selective transparency to improve the readability of text. A Color Adjustment mode allows display colors to be
adjusted interactively based on their visual similarity and appearance using a
simple finger drag and place method.
Other Vision
Accessibility display modes include: Color Adjustment
modes, Color Inversion, High Contrast Themes, High Contrast Fonts, Font
Size, Font Style, Custom Downloadable Fonts, Area Magnification, and Screen Magnification.
· Super Dimming Mode
The Galaxy Note20 Ultra also has a Super Dimming Mode that allows the Maximum Screen
Brightness to be set all the way down to just 2 cd/m2
(nits) using the Brightness Slider. This is perfect for night use on a beside
table, and useful for working comfortably without eye strain or bothering
others in very dark environments, or affecting the eye’s dark adaptation, such
as when using a telescope. The display still provides full 24-bit color and the
picture quality remains excellent.
· Always On Display Mode
The Galaxy Note20 Ultra has an Always
On Display AOD mode that takes advantage of the very low power
capability of an OLED display when most of the image pixels are black, because
every sub-pixel is independently powered, and therefore doesn’t use any power
when black. The AOD mode is super power efficient and typically requires only 3
to 5 percent of the maximum display power. So when the phone is off (in
standby) it is possible to always display some text and graphics on a black
background all day and all night without a significant power drain that would
reduce the battery running time. The Always On Display mode uses only 50 to 100
mW (milli-Watts) in normal daytime ambient light, and much less in the dark
mode at night. For moving AOD content, such as in an Analog Clock with a second
hand, the display is updated via Integrated Circuit hardware rather than App
software, resulting in lower power consumption. A feature on the Galaxy Note20
Ultra also allows you to a add personal photo to the Always On Display.
The Always On Display can produce an illuminated main screen image 24
hours a day so you can always discreetly check it with just a glance. It shows various personalized clock and calendar screens,
plus status messages, memos, notifications, and images on the main screen when
the phone is off (in standby). It measures the ambient light and provides 4
Brightness levels from night and day. It will stay off when the phone display
is face down, or if it senses a dark confined space like a pocket or handbag.
The day mode has a measured Luminance of 40 cd/m2 (nits) on a black background, which is very readable but not
distracting for normal indoor ambient lighting, and is visible outdoors if you
shade the screen with your hand. The night mode is entered for very low Ambient
Light lux levels and runs like the Super
Dimming Mode down to as low as 2 nits, so it
makes a great Night Clock that won’t disturb you if it is on your bedside
table.
· Diamond Pixels
A
high resolution screen shot (provided by Samsung) shows an interesting
design and sub-pixel arrangement for the Galaxy Note20 Ultra, which Samsung
calls Diamond Pixels.
First of all, the Red, Green, and Blue sub-pixels have very different sizes –
Blue is by far the largest because it has the lowest light emission efficiency,
and Green is by far the smallest because it has the highest efficiency. The
alternating Red and Blue sub-pixel arrangement leads to a 45 degree diagonal
symmetry in the sub-pixel layout. This allows vertical, horizontal, and
particularly diagonal line segments and vectors to be drawn with reduced aliasing
and artifacts. In order to maximize the sub-pixel packing and achieve the
highest possible pixels per inch (ppi), that leads to diamond rather than
square or stripe shaped Red and Blue sub-pixels. But not for the Green
sub-pixels, which are oval shaped because they are squeezed between two much
larger and different sized Red and Blue sub-pixels. It’s a form of high-tech
display art…
· Viewing Tests Performance
The calibrated Natural
Modes on the Galaxy Note20 Ultra provide very nice, pleasing and Very Accurate
Colors and Picture Quality. The very challenging set of DisplayMate Test and
Calibration Photos that we use to evaluate picture quality looked absolutely stunning and Beautiful, even to my
experienced hyper-critical eyes.
The Absolute Color Accuracy of the Galaxy Note20 Ultra display is 0.5
JNCD, which is Visually Indistinguishable From
Perfect, and almost certainly considerably
better than your existing Smartphone, living room HDTV, Tablet, Laptop, and
computer monitor, as demonstrated in our extensive Absolute Color Accuracy Lab
Measurements.
In order to see the High Color Accuracy, the Display Setting needs to be
set to the Natural Mode, which Automatically Switches to the proper Gamut for
the current on-screen content.
For indoor and low ambient light viewing use the Natural mode for most standard consumer content including
digital camera, TV, internet, and computer content, including photos, videos,
and movies, and also for your online purchases in order to see accurate product
colors, and also for viewing the newest DCI 4K Ultra HD TV and Digital Cinema
content and videos, including HDR content.
The Vivid mode provides
significantly more Vibrant and Saturated Colors, which some people prefer. The
Vivid mode is also recommended for viewing in medium to high levels of ambient
light because it offsets some of the reflected light glare that washes out the
image colors, which is demonstrated in this Figure for
ambient light levels up through 2,000 lux.
· Display Power Efficiency
The Galaxy Note20 Ultra has 16%
Higher Display Power Efficiency than the Galaxy Note10+.
While LCDs remain more power efficient for images with
mostly full screen white content (like all text screens on a white background,
for example), OLEDs are more power efficient for typical mixed image content
because they are emissive displays so their power varies with the Average
Picture Level (average Brightness) of the image content over the entire screen.
For LCDs the display power is fixed and independent of
the image content. But for OLEDs, the display power decreases with the type of
image content. Black pixels and sub-pixels don’t use any power so screens with
Black or dark backgrounds are very power efficient for OLEDs. Photos and videos
also have relatively low Average Picture Levels and so require much less power
on OLEDs than LCDs. Currently, OLED displays are more power efficient than LCDs
for Average Pictures Levels of 70 percent or less, and LCDs are more power
efficient for Average Picture Levels above 70 percent. Since both technologies
are continuing to improve their power efficiencies, the crossover will continue
to change with time.
The Galaxy Note20 Ultra also has 4 user selectable Performance and Power Saving modes that reduce the
Display Power by lowering the screen Brightness and Resolution, and also a Dark
Mode Theme setting that darkens the background for Wallpapers and many Apps,
which can significantly reduce display power and more than double the running
time on battery.
All of our tests and measurements were performed in the High Performance and Optimized Modes. See the Display Power section for the measurements and
details.
· Display Related Enhancements
· The
Galaxy Note20 Ultra has the new Gorilla Glass 7 Victus,
which provides much higher resistance to breakage.
· The
Galaxy Note20 Ultra is IP68 water resistant in
up to 5 feet of water for up to half an hour, which means you can comfortably
view the display in typical wet indoor and outdoor conditions – even carefully
use it in a tub or shower, and it should be fine if you accidentally drop it in
a sink or toilet.
· The
Galaxy Note20 Ultra can be used with Polarized Sunglasses
in both the Portrait and Landscape orientations unlike LCDs, which generally
work in only one of the two orientations.
· The
Galaxy Note20 Ultra accepts a microSD card,
which makes it easier to add large photo and video files.
Galaxy Note20 Ultra Conclusions: A Record
Setting Impressive Smartphone Display…
The primary goal of this Display Technology Shoot-Out
article series has always been to publicize and promote display excellence
so that consumers, journalists and even manufacturers are aware of and
appreciate the very best in displays and display technology. We point out which
manufacturers and display technologies are leading and advancing the
state-of-the-art for displays by performing comprehensive and objective
scientific Lab Tests and Measurements together with in-depth analysis. We point
out who is leading, who is behind, who is improving, and sometimes
(unfortunately) who is back pedaling… all based solely on the extensive
objective careful Lab measurements that we also publish, so that everyone can
judge the data for themselves as well…
OLED Display
Evolution:
What is particularly significant and impressive is that
Samsung has been systematically improving OLED display performance with every
Galaxy generation since 2010, when we started tracking OLED
displays. The first notable OLED Smartphone, the Google
Nexus One, came in decidedly last place in our 2010 Smartphone
Display Shoot-Out. As a result of the improvements with each new
generation, mobile OLED display technology now has a commanding first place
lead and continues pushing ahead aggressively. The Galaxy
Note20 Ultra continues the impressive improvements in mobile OLED
displays and technology. As a result, OLEDs have developed into excellent
Smartphone displays that now significantly outperform the best LCD Smartphones.
With the continuing improvements in OLED hardware
performance, picture quality, and precision accuracy, it will be much harder
for new display technologies to challenge OLED.
Summary of the Galaxy Note20 Ultra Display
Functions, Features, and Performance Records:
The Galaxy Note20 Ultra
has many major and important state-of-the-art Display Performance Functions,
Features, and Performance Records that are summarized in this Conclusion and
the sections below.
See the Display Performance Functions and Features section
below for a Summary.
See the Display Performance Records section below
for the list of Records.
See the Display Assessments
section below for the Performance Evaluations..
See the Highlights and Performance
Results section above for a detailed overview with expanded discussions and
explanations.
See the Display Shoot-Out Lab
Measurements Comparison Table section below for the complete set of
detailed DisplayMate Lab measurements and tests.
The Galaxy Note20 Ultra has the following
State-of-the-Art Display Performance Functions and Features:
· A State-of-the-Art Curved
Screen Flexible OLED display that is
manufactured on a flexible plastic substrate so that it can bend around corners
on both sides of the phone to provide two curved Edge Display areas that can be viewed
and controlled from both the front or the sides. While the OLED display itself
is flexible, the screen remains rigid under an outer hard Cover Glass.
· A Full Screen design
with a large 6.9 inch
OLED display that fills almost the entire
front face of the Galaxy Note20 Ultra from edge-to-edge, providing a
significantly larger display for the same phone size. The Galaxy Note20 Ultra
display has a high 92%
Screen-to-Body Ratio. The Home button and
Navigations buttons are now incorporated within the touchscreen display.
· The Galaxy
Note20 Ultra display has a newly developed very small circular O-hole at the
very top center of the screen for the front facing selfie camera and sensors.
The Camera O-hole is just 3.5mm in diameter, taking up only a tiny 0.1% of the total display area, a key factor in the high 92%
Screen-to-Body Ratio for the Galaxy Note20 Ultra.
· A new display form
factor with a taller height to width Aspect
Ratio of 19.3 : 9 = 2.14, which is 21% larger
than the 16 : 9 = 1.78 on most Smartphones (and widescreen TVs) because
the display now has the same overall shape as the entire phone. It is taller in
Portrait mode and wider in Landscape mode. This provides extra space for
Notifications and for displaying multiple Apps and content simultaneously
on-screen side-by-side.
· 3K High Resolution 3088 x 1440 Full HD+ Display with 496 pixels per inch, and Diamond Pixels
with Sub-Pixel Rendering for enhanced sharpness
and higher Peak Brightness.
· The Galaxy
Note20 Ultra display appears Perfectly Sharp for
normal 20/20 Vision at Typical Smartphone Viewing Distances of 10 to 18 inches
(25 to 46 cm).
· New Adaptive Higher Frequency 120 Hz Display Refresh Rate
that noticeably improves the Smoothness in image Scrolling and Videos, plus
Motion and Gaming Performance in Apps, and may also reduce Screen Flicker that
some people experience. The Adaptive Mode Higher Frequency 120 Hz Display
Refresh Rate is only currently supported for the Full HD+ 2316x1080 Resolution
mode.
· Very Low Screen Reflectance
of 4.4 percent.
· Image Luminance that is
Independent of the on-screen Image Content with only a 5 percent Luminance Shift with Average Picture Level APL.
· Peak
Display Brightness of 680 nits in Normal Mode and 1,609 nits in High Brightness Mode.
· High Brightness Mode
with 100% APL Full Screen Peak Display Brightness of 1,037 nits, which significantly improves screen
visibility in very high Ambient Light, and also provides the high screen
Brightness needed for HDR.
· The High Brightness
Mode reaches its Peak Brightness at a new Lower
Ambient Light Level of 20,000 lux, which corresponds to Full Outdoor
Daylight that is not in Direct Sunlight. This further
improves Outdoor screen readability in Medium as well as High Ambient Light.
.
· Very High Absolute Color Accuracy
(0.5 JNCD) that is Visually Indistinguishable
From Perfect.
· High
Image and Picture Contrast Accuracy and Intensity Scale Accuracy (2.12
Gamma).
· Color Accuracy and Intensity Scales that are Independent
of the Image Content.
· Automatic Color Management that automatically switches to the proper Color Gamut for
any displayed image content that has an ICC Profile within the OLED Wide
Color Space, so images automatically appear with the correct colors, neither
over-saturated or under-saturated.
· 2 Industry Standard Calibrated Color Gamuts: the sRGB / Rec.709 Color
Gamut that is used for most current consumer
content, and the new Wide DCI-P3 Color Gamut that is used in 4K Ultra HD TVs. The DCI-P3 Gamut is
26 percent larger than the sRGB / Rec.709 Gamut.
· 2 Selectable Screen Modes that
provide user control of the color from the Accurate Natural Mode to the Vivid Mode.
· A full 100%
DCI-P3 Color Gamut with the Natural mode that is also
used for 4K Ultra HD TVs, so the Galaxy Note20 Ultra can display the
latest high-end 4K video content. The DCI-P3 Gamut is 26 percent larger than
the Rec.709 Gamut that is used in 2K Full HD TVs.
· A larger Native Color Gamut with
a new high saturation “Deep Red” OLED,
resulting in a very impressive 108% of DCI-P3
and 135% of sRGB / Rec.709 Gamuts that also
provides much better on-screen Colors in High Ambient Light.
· A new
Blue OLED with an improved light spectrum Certified by SGS that reduces the
amount of potentially harmful very short wavelength Blue Light while still
maintaining the same full wide Color Gamut.
· A Night Mode with
a Blue Light Filter
that allows the user to adjust and reduce the amount of blue light from the
display for better night viewing and improved sleep.
· A Video Enhancer
that provides HDR-like Expanded Dynamic Range for all videos that don’t have
HDR coding.
· High Dynamic Range Mobile HDR10+ Display which allows the
Galaxy Note20 Ultra to play 4K High Dynamic Range content produced for 4K UHD TVs. The Galaxy Note20 Ultra has the new
enhanced Mobile HDR10+ that supports Dynamic Metadata and Tone Mapping.
· Front and
back Dual Ambient Light
Sensors for significantly improved Automatic Brightness settings.
· User Adjustable White Point
with Color Balance slider controls that can change
the color of White for the Vivid mode.
· Always On Display
mode and Personalized
Auto Brightness Control.
· Small Brightness Shifts and
Color Shifts with Viewing Angle,
particularly White, which is the most used
background color.
· Vision Accessibility
Display Modes to help people with vision impairments.
· The Galaxy Note20
Ultra can be used with Polarized Sunglasses
in both the Portrait and Landscape orientations unlike LCDs, which generally
work in only one of the two orientations.
· A strong
curved Gorilla Glass 7 Victus protecting the
display.
The Galaxy
Note20 Ultra sets or matches 11 Smartphone Display Performance Records for:
Numerical Performance
Differences that are Visually Indistinguishable are considered Matched and Tied
Performance Records.
· Highest Absolute Color Accuracy (0.5 JNCD) – Visually Indistinguishable From Perfect.
· Smallest Shift in Color
Accuracy and Intensity Scale with the Image Content APL (0.4 JNCD) – Visually Indistinguishable From Perfect.
· Smallest Shift in Image
Contrast and Intensity Scale with the Image Content APL (0.04 Gamma) – Visually Indistinguishable From Perfect.
· Smallest Change in
Peak Luminance with the Image Content Average Picture Level APL (5
percent) – Visually Indistinguishable From Perfect.
· Highest Full Screen
Brightness for OLED Smartphones (1,037 nits at 100% APL).
· Highest Peak Display Brightness (1,609 nits at Low
APL).
· Largest Native Color Gamut (108% DCI-P3 and 135% sRGB /
Rec.709).
· Highest Contrast Ratio (Infinite).
· Lowest Screen Reflectance (4.4 percent).
· Highest Contrast Rating in Ambient Light (236 for 100%
APL and 366 for Peak Brightness).
· Highest Visible Screen Resolution 3K (3088x1440) – 4K Does Not Appear Visually Sharper on a Smartphone.
DisplayMate
Best Smartphone Display Award for the Galaxy Note20 Ultra
OLED has evolved into a highly refined and mature display technology that
now produces the best and highest performance displays for Smartphones.
OLED Display Performance continues to provide major Record Setting
improvements with every new generation.
With consumers now spending rapidly increasing amounts of
time watching content on their Smartphones, the shift in emphasis from
primarily improving Display Hardware Performance to enhancing the overall
display Picture Quality and Color Accuracy is an important step that
DisplayMate Technologies has been pushing for many years in our Display
Technology Shoot-Out article series, so it is great to see
manufacturers improving and then competing on these DisplayMate
Objective Lab Measurement Metrics.
For the Galaxy Note20 Ultra,
Samsung has concentrated on significantly raising the on-screen Absolute Picture Quality and Absolute
Color Accuracy of the OLED display by implementing Precision Factory Display Calibration, moving the
overall Galaxy Note20 Ultra display performance
up to Record Setting Outstanding Levels.
DisplayMate Display Performance Ratings:
All
of the Results in this article are based Entirely on our Objective and
Extensive DisplayMate Lab Tests and Measurements that are all listed in a
section below.
To
get a DisplayMate
A Display Performance Rating the display must get All Green [Very Good
to Excellent] Ratings for All of the Display Tests and Measurements [except for Color Shifts
at 30 degrees Viewing Angle, which are deemed less important].
And
to get a DisplayMate
A+ Display Performance Rating the Average Absolute Color Accuracy and the
Average Absolute Color Accuracy Shifts with Average Picture Level APL must All
be less than 1.0 JNCD, and the Largest Color Errors must All be less
than 3.0 JNCD.
The Galaxy Note20 Ultra display meets all of the criteria and
requirements for a DisplayMate A+ Grade and Performance Rating.
DisplayMate Display Performance Rating and
Best Smartphone Display Award
Based on our extensive Lab Tests and Measurements the Galaxy Note20 Ultra has a Very Impressive Excellent Top
Tier World Class Smartphone Display with
close to Text Book Perfect Calibration
Accuracy and Performance that is Visually
Indistinguishable From Perfect. Based
on our objective Lab Tests and Measurements the Galaxy
Note20 Ultra receives a DisplayMate Best
Smartphone Display Award earning DisplayMate’s highest ever Display Performance Grade of A+ and setting or
matching 11 Smartphone Display Performance Records
that are listed above.
See the links below for all of the Galaxy Note20 Ultra
Measurements, Analysis, and Assessments:
Data Tables: See
the Display Shoot-Out Lab Measurements Comparison Table
section below for all of the measurements and details.
Highlights: See
the Highlights and Performance Results section above
for expanded discussions and explanations.
Features: See the Display Performance Functions and Features
section above.
Records: See
the Display Performance Records section above.
Assessments: See
the Display Assessments section below for the
evaluation details.
OLED
displays now have tremendous performance advantages over LCDs, so high-end and
flagship Smartphones need OLED displays in order to compete at the
state-of-the-art performance levels, securing OLED as the definitive premier
display technology for Top Tier Smartphones in the foreseeable future over the
next 3-5 years. With the continuing improvements in OLED hardware performance,
picture quality, and precision accuracy, it will be much harder for new display
technologies to challenge OLED.
Follow DisplayMate
on Twitter to learn about our upcoming Smartphone display technology
coverage.
The Future of OLED Smartphones
The Galaxy Note20 Ultra is the latest in a new generation of OLED Smartphones.
OLEDs have now evolved and emerged as the premium mobile Smartphone display
technology. More than two dozen manufacturers
already make OLED Smartphones, and the new Full Screen Display design using a
flexible OLED will be the new Flagship for all the upcoming future Top Tier
Smartphones.
LCDs are a great cutting edge high performance display technology for
Tablets to TVs, but for small handheld Smartphones, OLED displays provide a
number of major advantages over LCDs including: being much thinner, much
lighter, without needing a bezel providing a rimless edge-to-edge design. They
can be made flexible and into curved screens, plus they have very fast Response Times, better Viewing Angles, and an Always On display mode. The
very fast Response Times of OLED displays makes the new Higher 90 Hz and 120 Hz Screen Refresh Rates possible.
Many of the OLED performance advantages result from the fact that every
single sub-pixel in an OLED display is independently directly electrically
powered to emit light, so only the active image sub-pixels draw power based on
their individual brightness levels. OLEDs can also provide better color
accuracy, image contrast accuracy, and screen uniformity because the LCD
irregularities and variations in their Backlights introduce color and
brightness irregularities and variations over the screen.
As the result of their very versatile power management capabilities,
OLEDs are not only more power efficient than LCDs for most image content, but
they now deliver much higher peak Brightness than LCDs because the maximum
power can be delivered to just the sub-pixels that are needed for producing the
current displayed image. However, for mostly all white screen content LCDs are
likely to remain brighter and more power efficient for a while.
OLED displays are also manufactured on flexible substrates that can
bend, which allows the screens to be curved and rounded and provides a number
of innovative new screen geometries. The most popular one is expanding the
front main screen so that it extends around to both the right and left sides of
the phone by bending around the corners like on the Galaxy Note20 Ultra, and on
earlier models like the Galaxy Round and the newest Galaxy Fold.
As a result, OLED displays now have tremendous performance advantages
over LCDs, so high-end and flagship Smartphones need OLED displays in order to
compete at the state-of-the-art performance levels, securing OLED as the
definitive premier display technology for Top Tier Smartphones in the
foreseeable future over the next 3-5 years. With the continuing improvements in
OLED hardware performance, picture quality, and precision accuracy, it will be
much harder for new display technologies to challenge OLED.
The main production and availability issue for the next several years
will be that the demand for high performance OLED displays will significantly
exceed the manufacturing capacity as we discuss in Flagship 2017
OLED Smartphones.
Follow DisplayMate on Twitter to learn
about these developments and our upcoming display technology coverage.
Improving the
Next Generation of Mobile Displays
The Galaxy Note20 Ultra
has a very high resolution 3K 3088x1440 pixel display with 496 pixels per inch
(ppi) producing images that look perfectly sharp with normal 20/20 Vision under
all normal viewing conditions, which always includes some ambient light that
always lowers the visible image contrast and perceived image sharpness
(Modulation Transfer MTF). Note that displays are
almost never viewed in absolute darkness under perfect viewing conditions with
ideal image content. Some clueless reviewers have been pining for 4K
3840x2160 Smartphones, which would require almost double the pixels, memory,
and processing power of the 3088x1440 display on the Galaxy Note20 Ultra, but there
would be no visual benefit for humans! As a result, it is absolutely pointless to further increase
the display resolution and pixels per inch (ppi) for a marketing wild goose
chase into the stratosphere, with no visual benefit for humans!
Improving Display Performance
for Real World Ambient Light Viewing Conditions
With screen size and resolution already functionally
maxed out, manufacturers should instead dedicate their efforts and resources
into improving real world display performance in ambient light by using
advanced technology to restore and compensate for the loss of color gamut,
color saturation, and image contrast due to ambient light, something that every
consumer will benefit from, and will also immediately notice and appreciate –
providing a true sales and marketing advantage…
Currently all existing displays
are Accurate only when viewed in Absolute Darkness 0 lux. The most
important improvements for OLED and LCD mobile displays will come from
improving their image and picture quality and screen readability in Real World Ambient Light, which washes out the screen
images, resulting in Reduced Image Contrast, Reduced Color Saturation, and Reduce Color Accuracy. The key will be in lowering the Screen Reflectance and implementing Dynamic Color Management with automatic real-time
modification of the display’s native Color Gamut and Dynamic
Intensity Scales based on the measured Ambient Light level in order to
have them compensate for the reflected light glare and image wash out that
causes a loss of color saturation and image contrast from ambient light as
discussed in our Innovative
Displays and Display Technology and SID
Display Technology Shoot-Out articles.
The displays, technologies, and
manufacturers that succeed in implementing this new real world high ambient
light performance strategy will take the lead in the next generations of mobile
displays… Follow DisplayMate
on Twitter to learn about these developments and our upcoming display
technology coverage.
DisplayMate Display Optimization Technology
All
Smartphone, Tablet, Monitor and TV displays can be significantly improved using
DisplayMate’s proprietary very advanced scientific analysis and mathematical
display modeling and optimization of the display hardware, factory calibration,
and driver parameters. We help manufacturers with expert display procurement,
prototype development, display performance improvement and optimization,
testing displays to meet contract specifications, and production quality
control so that they don’t make mistakes similar to those that are exposed in
our public Display Technology Shoot-Out series for consumers. This article is a
lite version of our advanced scientific analysis – before the benefits of our DisplayMate Display Optimization
Technology, which can correct or improve all of these issues. If you are a
display or product manufacturer and want to significantly improve display
performance for a competitive advantage then Contact DisplayMate Technologies.
|
Galaxy Note20 Ultra
|
Display Shoot-Out Lab Measurements
Comparison Table
Below we
examine in-depth the OLED display performance of the Samsung
Galaxy Note20 Ultra based on objective
Lab measurement data
and criteria
in the following sections: Display Specifications,
Overall Assessments, Screen
Reflections, Brightness and Contrast,
Colors and Intensities, Absolute Color Accuracy, Viewing Angles, OLED
Spectra, Display Power.
For
additional background and comparison information see this earlier article
covering the Galaxy
Note10+ Display Technology Shoot-Out.
For
comparisons with the other leading Smartphone displays see our Mobile Display Technology
Shoot-Out series.
Detailed Test and Measurement Comparisons between
the Galaxy Note20 Ultra and Galaxy Note10+
You can directly compare the data and measurement results
for the Galaxy Note20 Ultra with the Galaxy Note10+ display in detail
by using a Tabbed web browser with our comprehensive Lab
measurements and analysis for each of the displays.
For each Tab click on a Link below. The entries are
mostly identical with only minor formatting differences,
so it is easy to make detailed side-by-side comparisons
by simply clicking through the Tabs.
Samsung Galaxy Note20 Ultra Lab Measurements Comparison Table
Samsung
Galaxy Note10+ Lab Measurements Comparison Table
All of the Measurements were performed in the
High Performance and Optimized Power Modes with the Adaptive 120 Hz Setting.
|
Categories
|
Samsung
Galaxy Note20 Ultra
|
Comments
|
|
Display Technology
|
Flexible
OLED Display
with Diamond Pixels
6.9 inch
Diagonal / 17.4 cm Diagonal
Excluding the Rounded
Corners
|
Flexible Organic Light Emitting Diode
Diamond Pixels with
Diagonal Sub-Pixel Symmetry.
|
|
Screen Aspect Ratio
|
19.3 : 9 =
2.14
New Higher
Aspect Ratio
Most
Smartphones and Widescreen TVs have 16 : 9 = 1.78
|
Height to Width Aspect Ratio
Galaxy Note20 Ultra display screen is
21% longer than
most Smartphones and widescreen 16:9 TV
content.
|
|
Screen Size
|
2.90
x 6.23 inches
7.37 x
15.81 cm
|
Display Width and Height in inches and
cm.
|
|
Screen Area
|
18.1
square inches / 116.5 square cm
After
Subtracting the Camera Opening but not the Rounded Corners
|
A better measure of size than the
diagonal length.
|
|
Supported Color Gamuts
|
Vivid mode
– Wide OLED Color Gamut with Higher Contrast
Natural
DCI-P3 mode – DCI-P3 Standard Color Gamut
Natural
sRGB mode – sRGB / Rec.709 Standard Color Gamut
Automatic
Color Management for Content with ICC Color Profiles
|
The Galaxy Note20 Ultra supports 2
Standard
Color Gamuts: sRGB and the new wider
DCI-P3
Color Gamut that is used in 4K Ultra HD
TV content.
|
|
Display Refresh Rates
|
Display
Frames Per Second FPS
Normal
FPS: 60 Hz
Default FPS
Setting: New Higher 120 Hz for Smoother Scrolling and Motion
|
Higher Refresh Rates improve image
Scrolling and
Videos, plus Motion and Gaming
Performance in Apps,
and may reduce Screen Flicker that some
people experience.
|
|
Display Resolution
|
3088 x 1440
pixels
New 3K
Quad HD+
|
Screen Pixel Resolution.
Quad HD can display four 1280x720 HD
images.
|
|
Total Number of Pixels
|
4.4 Mega
Pixels
|
Total Number of Display Pixels.
|
|
Pixels Per Inch PPI
|
496 PPI
with Diamond Pixels
Excellent
|
Sharpness depends on the viewing distance
and PPI.
See this on
the visual acuity for a true Retina Display
|
|
Sub-Pixels Per Inch
|
Red
351 SPPI
Green
496 SPPI
Blue
351 SPPI
|
Diamond Pixel displays have only half the
number of
Red and Blue Sub-Pixels as RGB Stripe
displays.
See Diamond Pixels
|
|
Total Number of Sub-Pixels
|
Red
2.2 Million Sub-Pixels
Green 4.4
Million Sub-Pixels
Blue
2.2 Million Sub-Pixels
|
Number of Mega Sub-Pixels for Red,
Green, Blue.
Diamond Pixel displays have only half the
number of
Red and Blue Sub-Pixels as RGB Stripe
displays.
At High PPI this is generally not visible
due to the
use of Sub-Pixel Rendering.
|
|
20/20 Vision Distance
where Pixels or Sub-Pixels
are Not Resolved
|
6.9
inches / 17.6 cm for White and Green Sub-Pixels with 20/20 Vision
9.8
inches / 24.9 cm for Red and Blue Sub-Pixels with 20/20 Vision
|
For 20/20 Vision the minimum Viewing
Distance
where the screen appears perfectly sharp
to the eye.
At 10 inches from the screen 20/20 Vision
is 344 PPI.
|
|
Display Sharpness
at Typical Viewing Distances
|
Galaxy Note20 Ultra
Display appears Perfectly Sharp
Pixels are
not Resolved with 20/20 Vision
at Typical
Viewing Distances of
10 to
18 inches
25 to 46
cm
|
The Typical Viewing Distances for this
screen size
are in the range of 10 to 18 inches or
25 to 46 cm.
Also note that eye’s resolution is much
lower for
Red and Blue color content than White
and Green.
|
|
Appears Perfectly Sharp
at Typical Viewing Distances
|
Yes
|
Typical Viewing Distances are 10 to 18
inches
or 25 to 46 cm for this screen size.
|
|
Overall Assessments
This section summarizes
the results for all of the extensive Lab Measurements and Viewing Tests
performed on the display.
See Screen Reflections, Brightness
and Contrast, Colors and Intensities,
Viewing Angles, OLED
Spectra, Display Power.
The
Galaxy Note20 Ultra has ICC Color Management that automatically switches to
the appropriate Color Gamut for the on-screen content.
Here
we provide results for the Vivid mode, which has the Native Wide Color Gamut of the OLED
display,
the
Natural DCI-P3 mode, which is calibrated for the new DCI-P3 Gamut that is used
in 4K Ultra HD TVs, and
the
Natural sRGB mode, which is calibrated for the sRGB / Rec.709 Gamut that is used for most current
consumer photo, video,
web, and computer content.
|
Categories
|
Vivid
mode
Wide Color
Gamut
|
Natural
mode
DCI-P3
Content
|
Natural
mode
sRGB
Content
|
Comments
|
|
Viewing Tests
in Subdued Ambient Lighting
|
Very Good
Images
Photos and
Videos
have Vivid
Color
and Higher
Contrast
Wide Color
Gamut Mode
Intentionally
Vivid Colors
|
Excellent
Images
Photos and
Videos
have
Excellent Color
and
Accurate Contrast
Accurate
DCI-P3 Content
|
Excellent
Images
Photos and
Videos
have
Excellent Color
and
Accurate Contrast
Accurate
sRGB Content
|
The Viewing Tests examine the accuracy
of
photographic images by comparing the
displays
to a calibrated studio monitor and TV.
|
|
Variation with Viewing Angle
Colors and Brightness
See Viewing Angles
|
Color
Shifts
Small to
Medium
with
Viewing Angle
Small
Brightness Shifts
with
Viewing Angle
|
Color
Shifts
Small to
Medium
with Viewing
Angle
Small
Brightness Shifts
with
Viewing Angle
|
Color
Shifts
Small to
Medium
with
Viewing Angle
Small
Brightness Shifts
with
Viewing Angle
|
The Galaxy Note20 Ultra display has a
relatively small
decrease in Brightness with Viewing
Angle and
relatively small Color Shifts with
Viewing Angle.
See the Viewing Angles section for details.
|
|
Overall Display Assessment
Lab Tests and Measurements
|
Excellent
OLED Display
Wide Color
Gamut Mode
|
Excellent
OLED Display
Accurate
DCI-P3 Content
|
Excellent
OLED Display
Accurate
sRGB Content
|
The Galaxy Note20 Ultra OLED Display
performed
very well in the Lab Tests and
Measurements.
|
|
|
|
Absolute Color Accuracy
Measured over Entire Gamut
See Figure 2 and Colors
|
Good Color
Accuracy
Colors
More Saturated
Intentionally
Vivid Colors
|
Excellent
Color Accuracy
Color
Errors are Very Small
Accurate
DCI-P3 Content
|
Excellent
Color Accuracy
Color
Errors are Very Small
Accurate
sRGB Content
|
Absolute
Color Accuracy is measured with a
Spectroradiometer
for 41
Reference Colors
uniformly
distributed within the entire Color Gamut.
See
Figure 2 and Colors for details.
|
|
Image Contrast Accuracy
See Figure 3 and Contrast
|
Very Good
Accuracy
Image
Contrast
Intentionally
High
|
Very Good
Accuracy
Image
Contrast
Very
Accurate
|
Very Good
Accuracy
Image
Contrast
Very
Accurate
|
The
Image Contrast Accuracy is determined by
measuring
the Log Intensity Scale and Gamma.
See
Figure 3 and Contrast for details.
|
|
Performance in Ambient Light
Display Brightness
Screen Reflectance
Contrast Rating
See Brightness and Contrast
See Screen Reflections
|
High
Display Brightness
Record Low
Reflectance
High
Contrast Rating
for
Ambient Light
Higher
Brightness with
Auto
Brightness On
|
High
Display Brightness
Record Low
Reflectance
High
Contrast Rating
for
Ambient Light
Higher
Brightness with
Auto Brightness
On
|
High
Display Brightness
Record Low
Reflectance
High
Contrast Rating
for
Ambient Light
Higher
Brightness with
Auto
Brightness On
|
Smartphones
are seldom used in the dark.
Screen
Brightness and Reflectance determine
the
Contrast Rating for High Ambient Light.
See
the Brightness and Contrast section for details.
See
the Screen Reflections section for details.
|
|
Overall Display Calibration
Image and Picture Quality
Lab Tests and Viewing Tests
|
Wide Color
Gamut Mode
Intentionally
Vivid Colors
and Higher
Image Contrast
|
Excellent Calibration
Accurate
DCI-P3 Content
|
Excellent Calibration
Accurate
sRGB Content
|
Galaxy Note20 Ultra display has a
Natural Mode that
delivers accurately calibrated colors
and images
and a Vivid Color Mode that is preferred
by
some users and for some applications.
|
|
|
Overall Display Grade
Overall
Assessment
|
Overall Galaxy Note20 Ultra
Display Grade is Excellent A+
DisplayMate Best
Smartphone Display Award
with 11 Smartphone
Display Performance Records
An Excellent Top Tier
World Class Smartphone Display
Samsung continues to systematically
improve OLED Displays
|
The Galaxy Note20 Ultra display delivers
Excellent
Image Quality, has both Natural Color
Accurate
modes and a Vivid Mode with a Wide Color
Gamut,
has High Screen Brightness and low
Reflectance,
has good Viewing Angles, and is an all
around
Top Performing Smartphone Display.
|
|
Wide Color
Gamut Mode
Also Best
for Viewing in
High
Ambient Light
|
Accurate DCI-P3
Content
For Viewing
4K UHD TV
DCI-P3
Cinema Content
|
Accurate
sRGB mode
For Viewing
Most Content
Photo Video
Movie Web
|
Categories
|
Vivid
mode
Wide Color
Gamut
|
Natural
mode
DCI-P3
Content
|
Natural
mode
sRGB
Content
|
Comments
|
|
The Galaxy
Note20 Ultra sets or matches 11 Smartphone Display Performance Records for:
Numerical Performance
Differences that are Visually Indistinguishable are considered Matched and
Tied Performance Records.
· Highest Absolute Color Accuracy (0.5 JNCD) – Visually Indistinguishable From Perfect.
·
Smallest Shift
in Color Accuracy and Intensity Scale with the Image Content APL (0.4
JNCD) – Visually Indistinguishable From Perfect.
·
Smallest Shift
in Image Contrast and Intensity Scale with the Image Content APL (0.04
Gamma) – Visually Indistinguishable From Perfect.
·
Smallest Change
in Peak Luminance with the Image Content Average Picture Level APL (5
percent) – Visually Indistinguishable From Perfect.
·
Highest Full
Screen Brightness for OLED Smartphones (1,037 nits at 100% APL).
· Highest Peak Display Brightness (1,609 nits at Low
APL).
· Largest Native Color Gamut (108% DCI-P3 and 135% sRGB /
Rec.709).
· Highest Contrast Ratio (Infinite).
· Lowest Screen Reflectance (4.4 percent).
· Highest Contrast Rating in Ambient Light (236 for
100% APL and 366 for Peak Brightness).
· Highest Visible
Screen Resolution 3K (3088x1440) – 4K Does
Not Appear Visually Sharper on a Smartphone.
|
|
Screen Reflections
All display screens are mirrors good enough to use
for personal grooming – but that is actually a very bad feature…
We measured the light reflected from all directions
and also direct mirror (specular) reflections, which are much more
distracting and cause more eye strain. Many
Smartphones still have greater than 10 percent reflections that make
the screen much harder to read even in moderate
ambient light levels, requiring ever higher brightness settings that
waste precious battery power. Manufacturers should
reduce the mirror reflections with anti-reflection coatings and
matte or haze surface finishes.
Our Lab Measurements include Average
Reflectance for Ambient Light from All Directions and for Mirror Reflections.
We use an Integrating Hemisphere and a
highly collimated pencil light beam together with a Spectroradiometer.
Note that the Screen
Reflectance is exactly the same for all of the Galaxy Note20 Ultra Screen
Modes.
The Galaxy Note20 Ultra has close to the
lowest Screen Reflectance level that we have ever measured for a Smartphone.
These results are extremely important
for screen readability, picture quality, and color accuracy in ambient light.
|
Categories
|
Galaxy
Note20 Ultra
|
Comments
|
|
Average Screen Reflection
Light From All Directions
|
Record Low
4.4 percent
for
Ambient Light Reflections
Excellent
|
Measured using an Integrating Hemisphere
and
a Spectroradiometer.
The lowest value we have ever measured
for a Smartphone is 4.3 percent.
|
|
Mirror Reflections
Percentage of Light Reflected
|
Record Low
5.4 percent
for Mirror Reflections
Very Good
|
These are the most annoying types of
Reflections.
Measured using a Spectroradiometer and a
narrow
collimated pencil beam of light
reflected off the screen.
The lowest value we have ever measured
for a Smartphone is 5.3 percent.
|
|
Brightness and Contrast
The Contrast Ratio
is the specification that gets the most attention, but it only applies for
low ambient light, which is seldom
the case for mobile displays.
Much more important is the Contrast
Rating for High Ambient Light, which indicates how easy it is to read
the screen under
high ambient lighting and depends on both
the Maximum Brightness and the Screen Reflectance. The larger the better.
The display’s actual on-screen Contrast Ratio changes with the Ambient Light lux
level and is proportional to the Contrast Rating.
|
Categories
|
Vivid
mode
Wide Color
Gamut
|
Natural
mode
DCI-P3
Content
|
Natural
mode
sRGB
Content
|
Comments
|
|
Home Screen Peak Brightness
Measured for White
|
Brightness
638 cd/m2
Excellent
|
Brightness
470 cd/m2
Very Good
|
Brightness
470 cd/m2
Very Good
|
The Peak Brightness for White on the
Home Screen.
|
|
Measured Average Brightness
50% Average Picture Level
|
Brightness
583 cd/m2
Excellent
|
Brightness
486 cd/m2
Very Good
|
Brightness
488 cd/m2
Very Good
|
This is the Brightness for typical
screen content
that has a 50% Average Picture Level.
|
|
Measured Full Brightness
100% Full Screen White
|
Brightness
518 cd/m2
Excellent
|
Brightness
496 cd/m2
Very Good
|
Brightness
498 cd/m2
Very Good
|
This is the Brightness for a screen that
is entirely
all white with 100% Average Picture
Level.
|
|
Measured Peak Brightness
1% Average Picture Level
|
Brightness
680 cd/m2
Excellent
|
Brightness
469 cd/m2
Very Good
|
Brightness
471 cd/m2
Very Good
|
This is the Peak Brightness for a screen
that
has only a tiny 1% Average Picture
Level.
|
|
Dynamic Brightness
Change in Luminance with
Average Picture Level APL
|
24 percent
Decrease
Intentionally
Large
|
5 percent
Decrease
Very Good
|
5 percent
Decrease
Very Good
|
This is the percent Brightness decrease
with APL
Average Picture Level. Ideally should be
0 percent.
|
|
Low Ambient Light
|
|
Lowest Peak Brightness
Super Dimming Mode
Brightness Slider to Minimum
|
2 cd/m2
For Very
Low Light
|
2 cd/m2
For Very
Low Light
|
2 cd/m2
For Very
Low Light
|
This is the Lowest Brightness with the
Slider set to
Minimum. This is useful for working in
very dark
environments. Picture Quality remains
Excellent.
|
|
Black Brightness at 0 lux
at Maximum Brightness Setting
|
0 cd/m2
Outstanding
|
0 cd/m2
Outstanding
|
0 cd/m2
Outstanding
|
Black Brightness is important for Low
Ambient Light,
which is seldom the case for mobile
devices.
|
|
Contrast Ratio at 0 lux
Relevant for Low Ambient Light
|
Infinite
Outstanding
|
Infinite
Outstanding
|
Infinite
Outstanding
|
Only relevant for Low Ambient Light,
which is seldom the case for mobile
devices.
|
|
High Brightness Mode
Automatic Brightness in High Ambient
Light
|
|
Measured High Brightness Mode
50% Average Picture Level
|
High
Brightness Mode
1,240 cd/m2
Excellent
|
High
Brightness Mode
1,202 cd/m2
Excellent
|
High
Brightness Mode
1,196 cd/m2
Excellent
|
This is the Brightness for typical
screen content
that has a 50% Average Picture Level.
|
|
Measured High Brightness Mode
100% Full screen White
|
High
Brightness Mode
1,037 cd/m2
Excellent
|
High
Brightness Mode
1,017 cd/m2
Excellent
|
High
Brightness Mode
1,011 cd/m2
Excellent
|
This is the Brightness for a screen that
is entirely
all white with 100% Average Picture
Level.
|
|
Measured High Brightness Mode
1% Average Picture Level
|
High
Brightness Mode
1,609 cd/m2
Excellent
|
High
Brightness Mode
1,537 cd/m2
Excellent
|
High
Brightness Mode
1,524 cd/m2
Excellent
|
This is the Peak Brightness for a screen
that
has only a small 1% Average Picture
Level.
|
|
High Ambient Light Contrast Rating
|
|
Contrast Rating
for High Ambient Light
The Higher the Better
for Screen Readability
in High Ambient Light
|
118 – 155
With Manual
Brightness
Very Good
236 – 366
High
Brightness Mode
Excellent
|
107 – 113
With Manual
Brightness
Very Good
231 – 349
High
Brightness Mode
Excellent
|
107 – 113
With Manual
Brightness
Very Good
230 – 346
High
Brightness Mode
Excellent
|
Depends on the Screen Reflectance and
Brightness.
Defined as Maximum Brightness / Average Reflectance.
The display’s actual on-screen Contrast
Ratio
changes with the Ambient Light lux level
and
is proportional to the Contrast Rating.
|
|
Screen Readability
in High Ambient Light
|
Very Good A
With Manual
Brightness
Excellent A+
With Auto
Brightness On
|
Very Good A
With Manual
Brightness
Excellent A+
With Auto
Brightness On
|
Very Good A
With Manual
Brightness
Excellent A+
With Auto
Brightness On
|
Indicates how easy it is to read the
screen
under High Ambient Lighting. Depends on
both the Screen Reflectance and
Brightness.
See High
Ambient Light Screen Shots
|
|
Colors and Intensities
The Color Gamut, Intensity Scale, and White
Point determine the quality and accuracy of all displayed images and
all
the image colors. Bigger is definitely Not Better
because the display needs to match all the Standards that were used
when the content was produced.
The Galaxy Note20 Ultra Natural mode has
ICC Color Management that automatically switches to the appropriate Color
Gamut
for the current on-screen content.
|
Categories
|
Vivid
mode
Wide Color
Gamut
|
Natural
mode
DCI-P3 Content
|
Natural
mode
sRGB
Content
|
Comments
|
|
Color of White
Color Temperature in degrees
Measured in the dark at 0 lux
See Figure 1
|
7,140 K
1.6 JNCD
from D65 White
User
Adjustable
from 6,100
K to 8,200 K
White is
Somewhat Bluish
Intentionally
Bluish Mode
For Some
Applications
the White Point Will Vary
with the
Ambient Lighting
|
6,527 K
0.1 JNCD
from D65 White
Very Close
to Standard
Accurate
DCI-P3 Content
See Figure 1
|
6,526 K
0.1 JNCD
from D65 White
Very Close
to Standard
Accurate
sRGB Content
See Figure 1
|
D65 with 6,500 K is the standard color
of White
for most Consumer Content and needed for
accurate color reproduction of all
images.
JNCD is a Just Noticeable Color Difference.
White Point accuracy is more critical than
other colors.
See Figure 1
for the plotted White Points.
See Figure 2 for the
definition of JNCD.
|
|
Color Gamut
Measured in the dark at 0 lux
See Figure 1
|
108
percent
DCI-P3
Cinema Gamut
Intentionally
Vivid Colors
Wide Color
Gamut Mode
135
percent
sRGB /
Rec.709 Gamut
Intentionally
Vivid Colors
Wide Color
Gamut Mode
See Figure 1
|
100
percent
DCI-P3
Cinema Gamut
Very Close
to Standard
Accurate
DCI-P3 Content
See Figure 1
|
100
percent
sRGB /
Rec.709 Gamut
Very Close
to Standard
Accurate
sRGB Content
See Figure 1
|
Most current consumer content uses sRGB /
Rec.709.
The new 4K UHD TVs and Digital Cinema use
DCI-P3.
A Wide Color Gamut is useful in High
Ambient Light
and for some applications. It can be used
with Color
Management to dynamically change the
Gamut.
See Figure 1
|
|
Absolute Color Accuracy
|
|
Absolute Color Accuracy
Average Color Error at 0 lux
For 41 Reference Colors
Just Noticeable Color Difference
See Figure 2
|
Average Color Error
From sRGB
/ Rec.709
Δ(u’v’)
= 0.0283
7.1 JNCD
Intentionally
Vivid Colors
Wide Color
Gamut Mode
See Figure 2
|
Average Color Error
From
DCI-P3
Δ(u’v’)
= 0.0029
0.7 JNCD
Excellent
Accuracy
Accurate
DCI-P3 Content
See Figure 2
|
Average Color Error
From sRGB
/ Rec.709
Δ(u’v’)
= 0.0021
0.5 JNCD
Excellent
Accuracy
Accurate
sRGB Content
See Figure 2
|
JNCD is a Just Noticeable Color Difference.
See Figure 2 for the
definition of JNCD and for the
Accuracy Plots showing
the measured Color Errors.
Color Errors below 2.0 JNCD are
Excellent
Color Errors 2.0 to 3.5 JNCD are
Very Good.
Color Errors 3.5 to 7.0 JNCD are
Good.
Color Errors above 7.0 JNCD are
Poor.
|
|
Absolute Color Accuracy
Largest Color Error at 0 lux
For 41 Reference Colors
Just Noticeable Color Difference
See Figure 2
|
Largest Color Error
From sRGB
/ Rec.709
Δ(u’v’)
= 0.0570
14.3 JNCD
for 100%
Yellow-Red
Intentionally
Vivid Colors
Wide Color
Gamut Mode
See Figure 2
|
Largest Color Error
From
DCI-P3
Δ(u’v’)
= 0.0073
1.8 JNCD
for 100%
Cyan-Blue
Excellent
Accuracy
Accurate
DCI-P3 Content
See Figure 2
|
Largest Color Error
From sRGB
/ Rec.709
Δ(u’v’)
= 0.0065
1.6 JNCD
for 75% Red
Excellent
Accuracy
Accurate
sRGB Content
See Figure 2
|
JNCD is a Just Noticeable Color Difference.
See Figure 2 for the
definition of JNCD and for the
Accuracy Plots showing
the measured Color Errors.
Color Errors below 2.0 JNCD are
Excellent
Color Errors 2.0 to 3.5 JNCD are
Very Good.
Color Errors 3.5 to 7.0 JNCD are
Good.
Color Errors above 7.0 JNCD are
Poor.
|
|
Changes in Absolute Color Accuracy with Average Picture Level APL
Measured Shifts in the Absolute Color Accuracy with Image Content
from Low 1% APL to High 50% APL
|
|
Shift in the Color of White
Just Noticeable Color Difference
See Figure 4
|
White
Point Color Shift
from Low
to High APL
Δ(u’v’)
= 0.0012
0.3 JNCD
Excellent
|
White Point
Color Shift
from Low
to High APL
Δ(u’v’)
= 0.0006
0.2 JNCD
Excellent
See Figure 4
|
White Point
Color Shift
from Low
to High APL
Δ(u’v’)
= 0.0009
0.2 JNCD
Excellent
See Figure 4
|
JNCD is a Just Noticeable Color Difference
See Figure 2 for the
definition of JNCD.
See Figure 4 for the
measured Color Shifts.
Color Shifts below 2.0 JNCD are
Excellent
Color Shifts 2.0 to 3.5 JNCD are
Very Good.
Color Shifts 3.5 to 7.0 JNCD are
Good.
Color Shifts above 7.0 JNCD are
Poor.
|
|
Average Color Shift
For 41 Reference Colors
Just Noticeable Color Difference
See Figure 4
|
Vivid mode
Intentionally
Variable
|
Average
Color Shift
from Low
to High APL
Δ(u’v’)
= 0.0017
0.4 JNCD
Excellent
See Figure 4
|
Average
Color Shift
from Low
to High APL
Δ(u’v’)
= 0.0020
0.5 JNCD
Excellent
See Figure 4
|
JNCD is a Just Noticeable Color Difference.
See Figure 2 for the
definition of JNCD.
See Figure 4 for the
measured Color Shifts.
Color Shifts below 2.0 JNCD are
Excellent
Color Shifts 2.0 to 3.5 JNCD are
Very Good.
Color Shifts 3.5 to 7.0 JNCD are
Good.
Color Shifts above 7.0 JNCD are
Poor.
|
|
Largest Color Shift
For 41 Reference Colors
Just Noticeable Color Difference
See Figure 4
|
Vivid mode
Intentionally
Variable
|
Largest Color Shift
from Low
to High APL
Δ(u’v’)
= 0.0038
1.0 JNCD
for 50%
Cyan-Blue
Excellent
See Figure 4
|
Largest Color Shift
from Low
to High APL
Δ(u’v’)
= 0.0039
1.0 JNCD
for 50%
Cyan-Blue
Excellent
See Figure 4
|
JNCD is a Just Noticeable Color Difference
See Figure 2 for the
definition of JNCD.
See Figure 4 for the
measured Color Shifts.
Color Shifts below 2.0 JNCD are
Excellent
Color Shifts 2.0 to 3.5 JNCD are
Very Good.
Color Shifts 3.5 to 7.0 JNCD are
Good.
Color Shifts above 7.0 JNCD are
Poor.
|
|
|
|
Dynamic Brightness
Change in Luminance with
Average Picture Level APL
|
24 percent
Decrease
Intentionally
Large
|
5 percent
Decrease
Very Good
|
5 percent
Decrease
Very Good
|
This is the percent Brightness decrease
with APL
Average Picture Level. Ideally should be
0 percent.
|
|
Intensity Scale and
Image Contrast
See Figure 3
|
Smooth
Slightly Curved
Very Good
Intentionally
Variable
See Figure 3
|
Very
Smooth and Straight
Very Good
Slightly
Less Steep
See Figure 3
|
Very
Smooth and Straight
Very Good
Slightly
Less Steep
See Figure 3
|
The Intensity Scale controls image
contrast needed
for accurate Image Contrast and Color
reproduction.
See Figure 3
|
|
Gamma for the Intensity Scale
Larger has more Image Contrast
See Figure 3
|
2.49
Variable
Intensity Scale
Gamma
Intentionally High
|
2.12
Very Good
Intensity Scale
Gamma
Slightly Too Low
|
2.12
Very Good
Intensity Scale
Gamma
Slightly Too Low
|
Gamma is the log slope of the Intensity
Scale.
Gamma of 2.20 is the standard and needed
for
accurate Image Contrast and Color
reproduction.
See Figure 3
|
|
Image Contrast Accuracy
|
Very Good
|
Very Good
|
Very Good
|
See Figure 3
|
|
Viewing Angles
The variation of
Brightness, Contrast, and Color with Viewing Angle is especially important
for Smartphones because
of their larger screen
and multiple viewers. The typical manufacturer 176+ degree specification for
LCD Viewing Angle
is nonsense because that
is where the Contrast Ratio falls to a miniscule 10. For most LCDs there are
substantial
degradations at less
than ±30 degrees, which is not an atypical Viewing Angle for Smartphones and
Tablets.
The
Viewing Angle variations are essentially identical for all of the Galaxy
Note20 Ultra Screen Modes.
Note
that the Viewing Angle performance is also very important for a single viewer
because the Viewing Angle can vary
significantly
based on how the Smartphone is held. The Viewing Angle can be very large if
resting on a table or desk.
The Galaxy Note20 Ultra
display has a Brightness (Luminance) fall off with Viewing Angle that is much
smaller than the best LCD displays.
The White Point Color Shift is
the most viewer noticeable Color Shift with Viewing Angle because it is often
the screen background.
Note
that we now list the Color Shifts for each individual Primary Color instead
of only listing the Maximum Color Shift,
which
had up to a higher 5.0 JNCD threshold for receiving a Very Good Green Rating.
With the new 3.5 JNCD metric
almost
all current model OLED Smartphone Displays would receive a Yellow Rating for
one or more of the Primary Colors.
|
Categories
|
Vivid
mode
Wide Color
Gamut
|
Natural
mode
DCI-P3
Content
|
Natural
mode
sRGB
Content
|
Comments
|
|
Brightness Decrease
at a 30 degree Viewing Angle
|
35 percent
Decrease
Small
Decrease
Very Good
|
Most screens become less bright when
tilted.
LCD decrease is generally greater than 50
percent.
|
|
Contrast Ratio at 0 lux
at a 30 degree Viewing Angle
|
Infinite
Contrast Ratio
Outstanding
|
A measure of screen readability when the
screen
is tilted under low ambient lighting.
|
|
White Point Color Shift
at a 30 degree Viewing Angle
|
Small Color
Shift
Δ(u’v’)
= 0.0102
2.6 JNCD
Very Good
|
JNCD is a Just Noticeable Color Difference.
See Figure 2 for the
definition of JNCD.
Color Shifts below 3.5 JNCD are Very
Good
|
|
Color Shifts for the Primaries
|
|
Red Primary Color Shift
at a 30 degree Viewing Angle
|
Medium
Color Shift
Δ(u’v’)
= 0.0169
4.2 JNCD
Good
|
JNCD is a Just Noticeable Color Difference.
See Figure 2 for the
definition of JNCD.
Color Shifts 3.5 to 7.0 JNCD are
Good.
|
|
Green Primary Color Shift
at a 30 degree Viewing Angle
|
Small Color
Shift
Δ(u’v’)
= 0.0072
1.8 JNCD
Excellent
|
JNCD is a Just Noticeable Color Difference.
See Figure 2 for the
definition of JNCD.
Color Shifts below 2.0 JNCD are
Excellent
|
|
Blue Primary Color Shift
at a 30 degree Viewing Angle
|
Medium
Color Shift
Δ(u’v’)
= 0.0136
3.4 JNCD
Very Good
|
JNCD is a Just Noticeable Color Difference.
See Figure 2 for the
definition of JNCD.
Color Shifts below 3.5 JNCD are Very
Good.
|
|
|
|
Color Shifts for Color Mixtures
at a 30 degree Viewing Angle
Reference Brown (255, 128, 0)
|
Small
Color Shift
Δ(u’v’)
= 0.0065
1.6 JNCD
Excellent
|
JNCD is a Just Noticeable Color Difference.
Color Shifts for non-IPS LCDs are about 10
JNCD.
Reference Brown is a good indicator of
color shifts
with angle because of unequal drive
levels and
roughly equal luminance contributions
from Red
and Green. See Figure 2 for the
definition of JNCD.
|
|
Display Spectra
The Display Spectra for the Screen Modes and for the Night Mode Blue Light
Filter
are measured in Figure 5 below.
The Blue Light Filter is designed to change the color
balance of the display in order to reduce the amount of Blue Light
produced by the display,
which some recent research indicates can affect how well users sleep
afterwards.
Display Power Consumption
The display power was measured using a Linear
Regression between Luminance and AC Power with a fully charged battery.
All of the Measurements were performed
in the Galaxy Note20 Ultra High Performance Power Mode with the Adaptive 120
Hz Setting.
Since the displays have different screen sizes and
maximum brightness, the display power values below are also scaled
to the same screen Brightness (Luminance) and same
screen area in order to compare their Relative Power
Efficiencies.
Comparison with LCDs
While LCDs remain more power efficient for images with
mostly full screen white content (like all text screens on a
white background, for example), OLEDs are more power
efficient for typical mixed image content because they are
emissive displays so their power varies with the
Average Picture Level (average Brightness) of the image content over
the entire screen. For OLEDs, Black pixels and
sub-pixels don’t use any power so screens with Black backgrounds are
very power efficient for OLEDs. For LCDs the display
power is fixed and independent of image content.
For OLEDs the Display Power
depends on the Picture Content.
An entirely Black OLED Screen
uses 0 watts of Display Power.
Currently, OLED displays are
more power efficient than LCDs for Average Pictures Levels of 70 percent or
less, and
LCDs are more power efficient
for Average Picture Levels above 70 percent.
Since both technologies are continuing to improve their
power efficiencies, the crossover will continue to change with time.
Comparison with the Galaxy Note10+
Below we compare the Relative Display
Power Efficiencies of the Galaxy Note20 Ultra with the Galaxy Note10+.
The results are also
scaled for the same Luminance and Screen Area.
The Galaxy Note20 Ultra has
16% Higher Display Power Efficiency than the Galaxy Note10+.
|
|
Categories
|
Galaxy
Note10+
|
Galaxy
Note20 Ultra
|
Comments
|
|
Average Display Power
Maximum Brightness at
50% Average Picture Level
|
50% Average
Picture Level
1.30 watts
with 465
cd/m2
17.6 inch2
Screen Area
|
50% Average
Picture Level
1.40 watts
with 583
cd/m2
18.1 inch2
Screen Area
|
This measures the Average Display Power
for
a wide range of image content.
|
|
Relative Power Efficiency
50% Average Picture Level
Compared to Galaxy Note10+
For the same Note10+ 465 cd/m2
For the same Screen Area
|
Relative Average Power 100%
1.30 watts
with the same 465 cd/m2
with the same 17.6 inch2
Screen Area
|
Relative Average Power 84%
1.09 watts
with the same 465 cd/m2
with the same 17.6 inch2
Screen Area
|
This
compares the Relative Power Efficiency
by
scaling the measured Display Power to the
same
Screen Brightness and same Screen Area
as
the Galaxy Note10+.
|
|
|
|
Maximum Display Power
Full White Screen
at Maximum Brightness
|
Maximum
Power
Full Screen
White
2.40 watts
with 414
cd/m2
17.6 inch2
Screen Area
|
Maximum
Power
Full Screen
White
2.60 watts
with 518
cd/m2
18.1 inch2
Screen Area
|
This measures the Maximum Display power
for
a screen that is entirely Peak White.
|
|
Relative Power Efficiency
Maximum Display Power
Compared to Galaxy Note10+
For the same Note10+ 414 cd/m2
For the same Screen Area
|
Relative Maximum Power 100%
2.40 watts
with the same 414 cd/m2
with the same 17.6 inch2
Screen Area
|
Relative Maximum Power 84%
2.02 watts
with the same 414 cd/m2
with the same 17.6 inch2
Screen Area
|
This
compares the Relative Power Efficiency
by
scaling the measured Display Power to the
same
Screen Brightness and same Screen Area
as
the Galaxy Note10+.
|
|
|
|
|
|
|
About the Author
Dr. Raymond Soneira is
President of DisplayMate Technologies Corporation of Amherst, New Hampshire,
which produces display calibration, evaluation, and diagnostic products for
consumers, technicians, and manufacturers. See www.displaymate.com. He is a research
scientist with a career that spans physics, computer science, and television
system design. Dr. Soneira obtained his Ph.D. in Theoretical Physics from
Princeton University, spent 5 years as a Long-Term Member of the world famous
Institute for Advanced Study in Princeton, another 5 years as a Principal
Investigator in the Computer Systems Research Laboratory at AT&T Bell
Laboratories, and has also designed, tested, and installed color television
broadcast equipment for the CBS Television Network Engineering and Development
Department. He has authored over 35 research articles in scientific journals in
physics and computer science, including Scientific American. If you have any
comments or questions about the article, you can contact him at dtso.info@displaymate.com.
DisplayMate Display Optimization Technology
All
Smartphone, Tablet, Monitor and TV displays can be significantly improved using
DisplayMate’s proprietary very advanced scientific analysis and mathematical
display modeling and optimization of the display hardware, factory calibration,
and driver parameters. We help manufacturers with expert display procurement,
prototype development, display performance improvement and optimization,
testing displays to meet contract specifications, and production quality
control so that they don’t make mistakes similar to those that are exposed in
our public Display Technology Shoot-Out series for consumers. This article is a
lite version of our advanced scientific analysis – before the benefits of our DisplayMate Display Optimization
Technology, which can correct or improve all of these issues. If you are a
display or product manufacturer and want to significantly improve display
performance for a competitive advantage then Contact DisplayMate Technologies.
About DisplayMate Technologies
DisplayMate Technologies specializes in proprietary advanced
scientific display calibration and mathematical display optimization to deliver
unsurpassed objective performance, picture quality and accuracy for all types
of displays including video and computer monitors, projectors, TVs, mobile
displays such as Smartphones and Tablets, and all display technologies
including LCD, OLED, 3D, LED, LCoS, Plasma, DLP and CRT. This article is a lite version of
our intensive scientific analysis of Smartphone and Smartphone mobile displays
– before the benefits of our advanced mathematical DisplayMate Display Optimization
Technology, which can correct or improve many of the display deficiencies. We offer DisplayMate display
calibration software for consumers and advanced DisplayMate display diagnostic
and calibration software for technicians and test labs.
For
manufacturers we offer Consulting Services that include advanced Lab testing
and evaluations, confidential Shoot-Outs with competing products, calibration
and optimization for displays, cameras and their User Interface, plus on-site
and factory visits. We help manufacturers with expert display procurement,
prototype development, and production quality control so they don’t make
mistakes similar to those that are exposed in our Display Technology Shoot-Out
series. See our world renown Display
Technology Shoot-Out public article series for an introduction and preview.
DisplayMate’s
advanced scientific optimizations can make lower cost panels look as good or better
than more expensive higher performance displays. If you are a display or
product manufacturer and want to turn your display into a spectacular one to
surpass your competition then Contact
DisplayMate Technologies to learn more.
Article Links: Galaxy
Note10+ OLED Display Technology Shoot-Out
Article Links: Galaxy
S20 Ultra OLED Display Technology Shoot-Out
Article Links: Display
Color Gamuts Shoot-Out NTSC to Rec.2020
Article Links: Absolute
Color Accuracy Display Technology Shoot-Out
Article Links: Watching
Displays at Night
Article Links: Display Technology Shoot-Out
Article Series Overview and Home Page
Copyright © 1990-2020 by DisplayMate
Technologies Corporation. All Rights Reserved.
This article, or any part
thereof, may not be copied, reproduced, mirrored, distributed or incorporated
into any other work without
the prior written permission of DisplayMate Technologies Corporation
