The history of Apple
LCDs started in 1984 when the Apple Flat Panel Display was introduced for the
Apple IIc computer, principally to enhance the IIc's portability (see
Apple IIc Portability enhancements). This monochrome display was capable of 80 columns by 24 lines, as well as double hi-res graphics, but had an odd aspect ratio (making images look vertically squished) and required a very strong external light source, such as a desk lamp or direct sunlight to be used. Even then it had a very poor contrast overall and was quite expensive (US$600), contributing to its poor sales and consequently it dropping from the market not long after its introduction. An estimated 10,000 IIc LCDs were produced.
Portable displays The next attempt at a flat panel was with the
Macintosh Portable. More of a "
luggable" than a laptop, it contained a high-resolution,
active-matrix, 1-bit black & white, 9.8″ LCD with 640×400 resolution. Like the IIc Flat Panel, it was not backlit and required a bright light source to be used. A second generation model employed a backlit LCD. The PowerBook and MacBook series would continue to use LCDs, following an industry-wide evolution from black-and-white to grayscale to color and ranging from 9″ to 17″. Two primary technologies were used, active matrix (higher quality and more expensive) and
passive matrix displays (lower quality and cheaper). By 1998 all laptops would use active-matrix color LCDs, though the
Newton products and
eMate portables would continue to use black and white LCDs. Apple's current
MacBook portable displays include LED backlighting and support either 2560×1600 or 2880×1800 pixel resolutions depending on screen size. The
iPod series used black-and-white or color LCDs, the
iPhone line uses LCD and
OLED displays, and the
Apple Watch uses OLED.
All-In-Ones In 1997, Apple released the
Twentieth Anniversary Macintosh (TAM), its first all-in-one desktop with an LCD. Drawing heavily from PowerBook technology, the TAM featured a 12.1″ active matrix LCD capable of displaying up to 16 bit color at 800×600. While Apple chose to retain traditional and cheaper CRTs for its all-in-one desktop line for the next 4 years, the TAM is undoubtedly the predecessor for the successful LCD-based
iMac line of all-in-one desktops starting with the
iMac G4 released in 2002. A substantial upgrade over the TAM, it contained a 15″ LCD supporting up to 1024×768 resolution. It was followed by a 17″ and 20″ models boasting resolution of up to 1680 × 1050. In 2005, the
iMac G5 dropped the 15″ configuration and in 2007, the
new iMac dropped the 17″ and added a 24″ to the line-up, further boosting resolution to 1920 x 1200. In October 2009, new iMac models moved to 16:9
aspect ratio screens at 21.5 and 27 inches.
External displays The first desktop color flat-panel was introduced on March 17, 1998, with the 15″
Apple Studio Display (15-inch flat panel) which had a resolution of 1024×768. After the
eMate, it was one of the first Apple products to feature translucent plastics, two months before the unveiling of the
iMac. Apple called its dark blue color "azul". It had a
DA-15 input as well as
S-video,
composite video, ADB and audio connectors, though no onboard speakers. In January 1999 the coloring was changed to match the blue and white of the new Power Macintosh G3s, and the connector changed to DE-15
VGA. The 22″ widescreen
Apple Cinema Display was introduced in August 1999, simultaneously with the
Power Mac G4 and in the beginning was sold only as an option to the Power Mac G4, selling for US$3,999. It had a native resolution of 1600×1024 and used a
DVI connector. The display had a striped look on the bezel, similar to previous Studio Displays and iMacs. In December, the colors of the 15″ display were changed to "graphite" to match the new Power Mac G4s, and the input was changed from VGA to DVI, the audio and video features dropped, and the ADB functionality replaced by a two-port USB hub. In 2000 the 22″ Cinema Displays switched to the
ADC interface, and the 15″ Studio Display was remodeled to match the Cinema Display's easel-like form factor and also featured the Apple Display Connector. In 2001 an LCD-based 17″ Studio Display was introduced, with a resolution of 1280×1024. In 2002 Apple introduced the
Cinema Display HD which had a 23″ widescreen display with a resolution of 1920×1200. In 2003 Apple introduced the 20″ Cinema Display with a resolution of 1680×1050 to replace the discontinued 22″ display. In 2004 a new line was introduced, utilizing the same 20″ and 23″ panels alongside a new 30″ model, for $3,299. The displays had a sleek aluminum enclosure with a much narrower bezel than their predecessors. The 20″ model featured a 1680×1050 resolution, the 23″ 1920×1200, and the 30″ 2560×1600. The 30″ version requires a dual-link interface, because a single-link DVI connection (the most common type) doesn't have enough bandwidth to provide a picture to a display of this resolution. Initially, the only graphics cards that could power the new 30″ display were the
Nvidia GeForce 6800 DDL series, available in both GT and Ultra forms. The DDL suffix signified the dual-link DVI capability. The less expensive of the two cards retailed for US$499, raising the net cost of owning and using the display to nearly $3,800. Later graphics options included
Nvidia's
Quadro FX 4500; the card included two dual-link DVI connectors which allowed a
Power Mac G5 to run two 30″ Cinema Displays simultaneously with the total number of pixels working out to 8.2 million. In 2006 along with the introduction of the
Mac Pro, Apple lowered the price of the 30″ Cinema Display to US$1999. The Mac Pro featured an
Nvidia GeForce 7300GT as the graphics card in its base configuration which is capable of running a 30″ Cinema Display and another 23″ display simultaneously. The original Mac Pro was also available with both ATI's
Radeon X1900XT card and Nvidia's
Quadro FX 4500 as build-to-order options. The X1900XT and FX 4500 are each capable of driving two 30″ Cinema Displays.
LED Cinema Display With the introduction of the
Unibody MacBook family, Apple introduced the 24-inch LED Cinema Display, its first desktop display to use the new
Mini DisplayPort connector, and also the first with an LED-backlit LCD. It had built-in speakers, a powered 3-port USB hub on the rear, an
iSight camera and microphone, and a
MagSafe power adapter for laptops. It also connected by USB for peripherals. It has a resolution of 1920×1200 and retailed for US$899.00. In 2010 it was replaced with a new 27-inch version with a resolution of 2560×1440.
Thunderbolt Display In 2011 Apple released the Apple Thunderbolt Display, replacing the Mini DisplayPort and USB connector with a
Thunderbolt plug for display and data. A
Gigabit Ethernet port, a
FireWire 800 port and a
Thunderbolt 2 port were added as well, and the iSight camera was upgraded with a 720p
FaceTime camera. On June 23, 2016, Apple announced it had discontinued the Thunderbolt Display, ending Apple's production of standalone displays.
LG UltraFine After Apple discontinued production of standalone displays in 2016, they partnered with
LG to design the UltraFine line, with a 21.5-inch 4096x2304 display (22MD4KA-B) and 27-inch 5120x2880 display (27MD5KA-B), released in November 2016 alongside the
Thunderbolt 3-enabled
MacBook Pro. Both displays use a
USB-C connector, with the 27-inch version integrating Thunderbolt 3 connectivity. On the rear of the displays is a three port USB-C hub. The 21.5-inch version provides up to 60W charging power, while the 27-inch provides up to 85W. The 21.5-inch is compatible with all Macs with a
USB-C port, while the 27-inch version can only be used natively at full resolution with Macs with
Thunderbolt 3, which includes all Macs with USB-C except the
Retina MacBook. The 27-inch model is compatible with older Thunderbolt 2-equipped Macs using an adapter, but is limited to displaying their maximum output resolution. Both models include integrated stereo speakers, while the 27-inch model also includes a 1080p FaceTime-compatible camera. Like previous Apple displays, there are no physical buttons on the display, and brightness and speaker volume are controlled by a connected computer. LG acknowledged that early production 5K models lacked shielding for radio interference and could become inoperable if placed near a wireless router and introduced a repair program. In May 2019, the 21.5-inch model was discontinued and replaced with a 23.7-inch 3840x2160 model (24MD4KL-B) which added Thunderbolt 3 connectivity, auto-brightness, and increased the power output to 85W for laptops. In July 2019, the 27-inch model (27MD5KL-B, 27MD5KB-B) was updated with USB-C video input, adding compatibility with the 3rd generation
iPad Pro at
4K resolution, auto-brightness, and increased power output to 94W for laptops. Apple stopped selling the displays in March 2022 following the release of the
Apple Studio Display, but the displays are still in production and sold by LG.
Pro Display XDR Apple announced the Pro Display XDR at the 2019
WWDC, the first Apple-branded display since the
Apple Thunderbolt Display was discontinued in 2016. The display contains a 6016×3384
6K color-calibrated Extreme Dynamic Range (XDR) panel. The Pro Display XDR was discontinued in March 2026 in favour of the new Studio Display XDR.
Studio Display Apple announced the Apple Studio Display at the March 2022 Apple Special Event. It features a 27-inch, 5K Retina monitor, with 5120-by-2880 resolution at 218 pixels per inch, 600 nits brightness, wide color (P3), and True Tone technology.
Studio Display XDR Apple announced the Apple Studio Display XDR in March 2026. It features a 27-inch, 5K Retina XDR display, with 5120-by-2880 resolution at 218 pixels per inch and True Tone technology. Compared to the Studio Display, the Studio Display XDR adds a 120Hz refresh rate with adaptive sync, mini-LED backlighting, and P3 + Adobe RGB wide color gamut. It has up to 1000 nits SDR brightness and 2000 nits peak HDR brightness. ==Connectors==