Display Technologies

Question 1

Tiny liquid crystal molecules

Answer 1

Sub-pixels

Question 2

A tiny distinct group of three sub-pixels - one red, one green, one blue

Answer 2

Pixel

Question 3

Process to create an image by charging each area at the same time

Answer 3

Static Charging

Question 4

Process to create color by varying the amount of voltage on the wires making different levels of red, green, and blue

Answer 4

Passive Matrix

Question 5

Type of liquid crystal display (LCD) that replaced the passive matrix technology used in most portable computer displays

Answer 5

Thin Film Transister (TFT)/Active Matrix

Question 6

Creates the image

Answer 6

LCD Panel

Question 7

Illuminates the image so you can see it

Answer 7

Backlights

Question 8

Sends power to the backlights that need AC electricity

Answer 8

Inverters

Question 9

LCD panel type that is the fastest but only offers adequate color

Answer 9

Twisted Nematic (TN) Panels

Question 10

LCD panel type that displays beautiful color

Answer 10

In-Plane Switching (IPS) Panels

Question 11

LCD panel type that falls somewhere in between TN and IPS panels in responsiveness and color accuracy

Answer 11

Vertical Alignment (VA) Panels

Question 12

Typical implementation for backlights where the LCD has two backlights: one at the top and one at the bottom

Answer 12

Edge LED Backlighting

Question 13

Puts a bank of LEDs behind the panel, providing better uniformity of image. More expensive and uses more power than edge LED backlighting

Answer 13

Direct LED Backlighting

Question 14

Technology used in early LCDs that were popular for its low power use, even brightness, and long life

Answer 14

Cold Cathode Fluorescent Lamp (CCFL)

Question 15

Describes the number of pixels on a display

Answer 15

Resolution

Question 16

The resolution that an LCD monitor is designed to run. Higher than native cannot be run, lower than native will severely degrade the image quality

Answer 16

Native resolution

Question 17

Edge-blurring technology that softens the jagged corners of the pixels when running at lower than native resolution

Answer 17

Interpolation

Question 18

640x480 resolution

Answer 18

VGA

Question 19

1366x768 resolution

Answer 19

WXGA

Question 20

1920x1080 resolution

Answer 20

1080p/FHD (full high definition)

Question 21

The number of pixels arranged on the screen

Answer 21

Aspect Ratio

Question 22

Aspect ratio for a typical widescreen monitor running at 1920x1080

Answer 22

16:9

Question 23

Aspect ratio for a video workstation monitor running at 3440x1440

Answer 23

21:9

Question 24

The combination of the resolution and physical size of a display. Higher number means that a smaller, hi-res monitor will look substantially better than a much larger monitor running at the same resolution

Answer 24

Pixels Per Inch (PPI)

Question 25

The strength of an LCD monitor’s backlights, measuring in nits. Average LCD panels are around 300 nits

Answer 25

Brightness

Question 26

Screen fade out when looking at a screen from a certain angle. IPS panels have 2.5 times better angle than TN panels

Answer 26

Viewing Angle

Question 27

The amount of time it takes for all of the sub-pixels on the panel to change from one state to another. Measured in milliseconds (ms) with lower being better

Answer 27

Response Rate

Question 28

Response rate measurement for how long it takes the pixels to go from pure black to pure white

Answer 28

Black-to-white (BtW)

Question 29

Response rate measurement for how long it takes the pixels to go from one gray state to another. Always faster than BtW

Answer 29

Gray-to-gray (GtG)

Question 30

How often a screen can change or update completely. Measured in hertz

Answer 30

Refresh Rate

Question 31

The difference between the darkest and lightest spots that the monitor can display

Answer 31

Contrast Ratio

Question 32

Measurement of the difference between a full-on, all-white screen, and a full-off, all-black screen

Answer 32

Dynamic Contrast Ratio

Question 33

The amount of colors an LCD panel can display. Reflected in the bit-depth if the panel: x bit depth corresponds to 2^x color variations

Answer 33

Color Depth

Question 34

Generate an image in one device and then use light to throw it onto a screen or some other ibject

Answer 34

Projector

Question 35

Proprietary tech from TI that uses a single processor and an array of tiny mirrors to project a front-view image. Softer image than LCD, uses more electricity but not as heavy as LCD projectirs

Answer 35

Digital Light Processing (DLP)

Question 36

The amount of light given off by a light source from a certain angle that is perceived by the human eye

Answer 36

Lumen

Question 37

The size of the image at a certain distance from the screen

Answer 37

Throw

Question 38

Standard lamp for many years. Produce a tremendous amount of lumens in a small form factor. Drawbacks are excessive heat and fan noise, an average life span of about 3000 hours, and the expense to replace them

Answer 38

Metal Halide Lamp

Question 39

Use red, green, and blue LEDs to provide light. They don’t heat up so fans are smaller and quieter. Don’t offer nearly as much in the way of lumens as metal halide, but they have lifespans of 20,000+ hours

Answer 39

LED Lamp

Question 40

Produce vibrant, high-contrast images and very little heat; can last 30,000+ hours. Expensive but the price is coming down

Answer 40

Laser Lamps

Question 41

Create an immersive experience by mounting two high-resolution screens into a headset that blocks external visual sensory input. Uses OLED tech

Answer 41

Virtual Reality headset

Question 42

Display tech where an organic compound provides the light for the screen, thus eliminating the need for backlight or inverter. Used in high-end TVs and small devices such as smart watches, smartphones, and VR headsets

Answer 42

Organic Light-Emitting Diode (OLED)/Active Matrix OLED (AMOLED)

Question 43

A 15-pin, three row, D-type monitor connector. Goes by many other names such as D-shell, D-subminiature connector, DB-15, DE15, and HD15. The oldest and least-capable monitor connection type

Answer 43

VGA Connector

Question 44

Special video connector designed for digital-to-digital connections; most commonly seen on PC video cards and LCD monitors

Answer 44

DVI (Digital Visual Interface)

Question 45

DVI for analog (for backward compatibility if the monitor maker so desires)

Answer 45

DVI-A

Question 46

DVI for digital

Answer 46

DVI-D

Question 47

DVI interchangeable, accepts either DVI-D or DVI-A

Answer 47

DVI-I

Question 48

Has a max bandwidth of 165 MHz which limits the max resolution of a monitor to 1920x1080 at 60Hz or 1280x1024 at 85Hz. Variety of DVI-D and DVI-I

Answer 48

Single-Link DVI

Question 49

Uses more pins to double throughput and thus grant higher resolutions. With it, you can have displays up to 2048x1536 at 60Hz. Variety of DVI-D and DVI-I

Answer 49

Dual-Link DVI

Question 50

Single multimedia connection that includes both high-definition video and audio. Used to connect a computer to LCDs, projectors, and headsets

Answer 50

High Definition Multimedia Interface (HDMI)

Question 51

Digital video connector used by some Apple Mac desktop models and some PCs, notably from Dell. Designed by VESA as a royalty-free connector to replace VGA and DVI

Answer 51

DisplayPort (DP)

Question 52

An open standards connector interface that is primarily used to connect peripherals to devices, including mobile devices, if they have a corresponding port

Answer 52

Thunderbolt

Question 53

The small version of DisplayPort

Answer 53

Mini DisplayPort (mDP)

Question 54

Wired video transmission system to carry uncompressed HD video over Cat5a or Cat6 network cables

Answer 54

HDBaseT

Question 55

Menu enabling a number of adjustments on a monitor. All monitors provide two main functions: physical screen adjustment and color adjustment

Answer 55

Onscreen Display (OSD)

Question 56

A screen or display bracket that follows the industry standard - established by the Video Electronics Standard Association - which specifies size, location, and type of mounting points

Answer 56

VESA Mount

Question 57

Design architecture for the expansion bus on the computer motherboard that enabled system components to be added to the computer. Used parallel communication. Local bus standard, meaning that devices added to a computer through this port used the processor at the motherboard’s full speed (up to 33 MHz) rather than at the slower 8-MHz speed of the regular bus. Moved data 32 or 64 bits at a time rather than the 8 or 16 bits the older ISA buses supported

Answer 57

Peripheral Component Interconnect (PCI)

Question 58

A 32/64-bit expansion slot designed by Intel specifically for video that ran at 66 MHz and yielded throughput of at least 254 Mbps. Later versions (2x, 4x, 8x) gave substantially higher throughput

Answer 58

Accelerated Graphics Port (AGP)

Question 59

Serialized processor that helps the CPU by taking over all of the 3D rendering duties

Answer 59

Graphics Processing Unit (GPU)

Question 60

Digital theft technology that stops audio and video copying between high-speed connections, such as HDMI, DisplayPort, and DVI. Also stops playback of content encrypted by this on devices designed to circumvent the system

Answer 60

High-Bandwidth Digital Content Protection (HDCP)