Sentences with phrase «require backlights»

Existing e-paper displays do not require backlights like traditional LCD screens, which make them power efficient.

OLED, as it's known, allows manufacturers to create bright displays that don't require the backlighting of today's screens; that means they'll consume less energy and be cheaper to make.

OLED screens are considered far superior than LCD displays, in that OLED screens are more capable of displaying deeper black levels (since they do not require a backlight source).

Just to clarify, An OLED does not require a backlight.

The low power screens don't require a backlight, instead relying on ambient lighting like an E Ink screen.

Like e-ink displays before it, the new Ricoh screen doesn't require any backlighting and uses very little power.

The OLED screens use much more power than the Mirasol screens, as they require a backlight source for their operations.

In particular, E Ink's technology doesn't require backlighting, which results in roughly the same reflective quality as paper.

Reflective displays don't require a backlight, as LCDs do, and can be read outdoors.

Unlike LCDs, OLEDs do not require a backlight, beause they are emissive by nature.

The fact that the eInk provides amazing contrast, great readability in any situation you could read a normal book in, requires no backlight, and contributes to the impressive battery life all give it the edge.

However, because the eInk display mimics ink, it requires no backlighting — so just like traditional books when you are reading in the dark you need a light source.

Apple also is keen to move to organic light - emitting diodes, which are even thinner and don't require a backlight...»

Due to this simple construction, AMOLED screens can be extremely thin and do not require a backlight.

Apple also is keen to move to organic light - emitting diodes, which are even thinner and don't require a backlight, they said.

OLED: Organic light - emitting diode screens are an expensive alternative to LCDs and don't require a backlight.

OLED panels are extremely thin and require no backlight.

This is partly due to the transflective display, which doesn't require a backlight in sunlight, and therefore should save battery life.

OLED displays do not require backlighting because each pixel gives off its own light, so they draw less battery power.

And, as an AMOLED doesn't require a backlight, because it consists of an active matrix of OLED pixels which can be individually turned on and off, it's much more power efficient when compared to a traditional LCD.

Because they don't require backlighting, OLED panels can be much thinner than other display technologies.

Because OLED doesn't require a backlight, it's considered an emissive technology.

OLED's best feature which trumps LCD is that it does not require backlighting.

Unlike traditional LCD displays, microLED displays don't require backlighting, while also offering an increased color range and higher resolution graphics.

The technology has the advantages of OLED like not requiring a backlight, very high contrast ratios, deep blacks, and lower power consumption.

Micro-LED displays do not require backlighting like traditional LCDs, and they provide improved color gamut and higher resolution.

Although G.skill is best known for its memory, it produces a variety of enthusiast - oriented products, including the Ripjaws Gaming Mouse and KM570 MX keyboard, which doesn't require software to adjust its completely configurable (and animated) backlighting.

When Bon Appétit moved into our new offices, we made sure that our kitchen was stocked with everything required for mixing and fixing drinks: sinks, refrigerators, an ice machine, and, yep, a backlight wall of booze.

Unlike LCDs and most other digital screens, e-paper displays are designed to look like ink on paper, with no backlighting required.

There are several forms of e-paper technology which all share the same couple of primary goals: (1) reject backlighting to be easier on the eyes; and (2) «imprint» an image on the screen that would require no further power until the reader wishes to change the page.

Since even the most energy - efficient models require some form of backlighting, they can quickly draw - down a power supply.

In theory, such a screen could be «printed» electronically, would hold its contents without consuming power, could be viewed using reflected light (rather than the backlight required for LCD screens), and could be «erased» and «rewritten» as often as desired.

Viewing an LCD in direct sunlight requires a very powerful backlight, which draws even more power.

iPads use LCD technology in their touchscreens and have LED (light emitting diode) backlights, which require more power.

MicroLED shares many benefits with OLED; each microscopic LED can emit its own light — no backlight is required — and that creates the deep blacks and lush colors normally reserved for OLED sets.

- GB settings: — reworked image choosing / cropping - supports Google Photos and potentially other gallery apps — added automatic clean up of GB app picker cache (saves storage space)- Lockscreen status bar lock policy: option to allow status bar expand on secured lock screen — allows peeking on notifications even if lock screen is secured — access to quick settings prohibited — makes UNC ActiveScreen «expand notification panel» mode work on secured lock screen - Display tweaks: — added option for emulating battery charging light: ------ allows charging light on devices lacking native support (e.g. Nexus 5)------ pending notification light has priority over charging light ------ charging light color changes lineary according to current battery level (requires RGB LED hardware)------ whether led is constantly ON or «breathing» depends on LED driver (can not be affected by GB)-- button backlight notifications adjusted to follow Pulse notification delay - Power tweaks: added option for proximity wake up (prevents accidental wake up)(Android 4.2 + only)- Recents panel: allow live wallpaper on high end GFX devices (no option; Android 4.2 + only)- Updated Japanese translation (thanks to WedyDQ10)- Updated French translation (thanks to ch - vox)- Updated Chinese (Simplified) translation (thanks to liveasx)- Updated Chinese (Traditional) translation (thanks to momomok)- Updated Polish translation (thanks to xtrem007)- Updated Russian translation (thanks to gaich)- Updated Portuguese (PT) translation (thanks to bgcngm)- Updated Spanish translation (thanks to jvbferrer)- Updated Slovak and Czech translations

LED TVs use LED backlighting instead, which uses less power, produces less heat, and requires less space.

So, for a standard 1080p screen with 1920 × 1080 resolution, with each pixel getting three Micro LED backlights all to itself, that's more than six million MicroLED lights — each of which can be brighter, dimmer, or completely turned off, as the picture's color reproduction requires.

HDR requires a more powerful backlight, and the curve just makes that even more visible than it was before.

These screens differ from traditional LCD displays in that each pixel emits its own light, so a backlight is not required.

OLEDs don't require a separate backlight and can deliver deep blacks, strikingly sharp pictures and excellent viewing angles so that every seat on the couch is in the sweet spot.

The LCD panel used is cheap quality that requires strong backlight which consumes twice the battery compared to nokia / samsung / sony panels.

That means each sub-pixel products its own light and doesn't require a dedicated backlight like LCD.

LCD requires an additional backlight component to create an image, whereas the pixels in a self - contained OLED display light up individually.

In any LCD panel, the presence of a backlight provides some measure of lighting to every single pixel, even when none is required.