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For most customers, visiting a professional repair provider with certified technicians who use genuine Apple parts is the safest and most reliable way to get a repair. These providers include Apple and Apple Authorized Service Providers, and Independent Repair Providers, who have access to genuine Apple parts.* Repairs performed by untrained individuals using nongenuine parts might affect the safety of the device or functionality of the display. Apple displays are designed to fit precisely within the device. Additionally, repairs that don"t properly replace screws or cowlings might leave behind loose parts that could damage the battery, cause overheating, or result in injury.

Depending on your location, you can get your iPhone display replaced—in or out of warranty—by visiting an Apple Store or Apple Authorized Service Provider, or by shipping your iPhone to an Apple Repair Center. Genuine Apple parts are also available for out-of-warranty repairs from Independent Repair Providers or through Self Service Repair.*

* Independent Repair Providers have access to genuine Apple parts, tools, training, service guides, diagnostics, and resources. Repairs by Independent Repair Providers are not covered by Apple"s warranty or AppleCare plans, but might be covered by the provider"s own repair warranty. Self Service Repair provides access to genuine Apple parts, tools, and repair manuals so that customers experienced with the complexities of repairing electronic devices can perform their own out-of-warranty repair. Self Service Repair is currently available in certain countries or regions for specific iPhone models introduced in 2021 or later. To view repair manuals and order parts for eligible models, go to the Self Service Repair page.

All models15" : Early 2002, Original15" : Early 200317" : Mid 2002, Original17" : Mid 20031st Gen : Sport 38mm (Aluminium)1st Gen : Sport 42mm (Aluminium)20" : Late 2003, USB 2.0Aluminium Cinema Display : 20" DVIAluminium Cinema Display : 23" DVIAluminium Cinema Display : 30" DVI (2004/2005)Aluminium Cinema Display : LED 24" Mini DisplayPortAluminium Cinema Display : LED 27" Mini DisplayPortAluminium Cinema Display : LED 27" ThunderboltEarly 2019 : Early 2019, 2 ThunderboltEarly 2019 : Early 2019, 4 ThunderboltiBook : iBook G3 12"iBook : iBook G3 14"iBook G3 ClamShell : FireWireiBook G3 ClamShell : OriginaliBook G4 12" : Early 2004, 1GHziBook G4 12" : Late 2004, 1.2GziBook G4 12" : Mid 2005, 1.33GHziBook G4 12" : Original, 800MHziBook G4 14" : Early 2004iBook G4 14" : Late 2004, 1.33GziBook G4 14" : Mid 2005, 1.42GHziBook G4 14" : OriginaliMac 20" : Early 2008iMac 20" : Early/Mid 2009iMac 20" : OriginaliMac 21.5" : Early 2013 (Edu)iMac 21.5" : Early 2019iMac 21.5" : Late 2009iMac 21.5" : Late 2012iMac 21.5" : Late 2013iMac 21.5" : Mid 2010iMac 21.5" : Mid 2014iMac 21.5" : Mid/Late 2011iMac 24" : Early 2008iMac 24" : Early 2009iMac 24" : Original Mid 2007iMac 24" M : 2021, M1iMac 27" : 2017iMac 27" : 2019iMac 27" : 2020iMac 27" : Late 14/Mid 15iMac 27" : Late 2009iMac 27" : Late 2012iMac 27" : Late 2013iMac 27" : Late 2015iMac 27" : Mid 2010iMac 27" : Mid 2011iMac G5 17" : Ambient light sensoriMac G5 17" : iSightiMac G5 17" : OriginaliMac G5 20" : Ambient light sensoriMac G5 20" : iSightiMac G5 20" : OriginaliMac Intel : iMac Intel, White 24"iMac Intel, White 17" : Core 2 Duo late 2006iMac Intel, White 17" : Core Duo early 2006iMac Intel, White 17" : Intel Graphics mid/late 2006iMac Intel, White 20" : Core 2 Duo late 2006iMac Intel, White 20" : Core Duo early 2006 2.0GHziMac Pro 27" : 2017iPad 1 : Wi-FiiPad 1 : Wi-Fi + 3GiPad 2 : Wi-FiiPad 2 : Wi-Fi + 3GiPad 3rd Gen : Wi-FiiPad 3rd Gen : Wi-Fi + CellulariPad 4th Gen : Wi-FiiPad 4th Gen : Wi-Fi + CellulariPad Air 1st Gen : Wi-FiiPad Air 1st Gen : Wi-Fi + CellulariPad Air 2nd Gen : Wi-FiiPad Air 2nd Gen : Wi-Fi + CellulariPad mini 1 : Wi-FiiPad mini 1 : Wi-Fi + CellulariPad mini 2 (Retina) : Wi-FiiPad mini 2 (Retina) : Wi-Fi + CellulariPad Pro 9.7" : Wi-FiiPad Pro 9.7" : Wi-Fi + CellulariPhone : iPhone 3GiPhone : iPhone 3GSiPhone : iPhone 4iPhone : iPhone 4SiPhone : iPhone 5iPhone : iPhone 5CiPhone : iPhone 5SiPhone : iPhone 6iPhone : iPhone 6 PlusiPhone : iPhone 6SiPhone : iPhone 6S PlusiPhone : iPhone 7iPhone : iPhone 7 PlusiPhone : iPhone 8 PlusiPhone : iPhone SEiPhone : iPhone XRLate 2015 : Non-Retina (1920 x 1080)Late 2015 : Retina 4K (4096 x 2304)Late 2016 : Late 2016, Function KeyLate 2016 : Late 2016, Touch BarMacBook Air 11" : Early 2015MacBook Air 11" : Late 2010MacBook Air 11" : Mid 2011MacBook Air 11" : Mid 2012MacBook Air 11" : Mid 2013/Early 2014MacBook Air 13" : Early 2008MacBook Air 13" : Early 2015MacBook Air 13" : Early 2020MacBook Air 13" : Late 2008, NVIDIAMacBook Air 13" : Late 2010MacBook Air 13" : Late 2018, RetinaMacBook Air 13" : Late 2020, M1MacBook Air 13" : Mid 2009MacBook Air 13" : Mid 2011MacBook Air 13" : Mid 2012MacBook Air 13" : Mid 2013/Early 2014MacBook Air 13" : Mid 2017MacBook Air 13" : Mid 2019, True ToneMacBook Black/White : Early 2006, Core DuoMacBook Black/White : Early 2008, PenrynMacBook Black/White : Early 2009MacBook Black/White : Late 2006, Core 2 DuoMacBook Black/White : Late 2007, Santa RosaMacBook Black/White : Mid 2007, Core 2 DuoMacBook Black/White : Mid 2009MacBook Pro 13" : Early 2013MacBook Pro 13" : Early 2015MacBook Pro 13" : Early/Late 2011MacBook Pro 13" : Late 2012, RetinaMacBook Pro 13" : Late 2013MacBook Pro 13" : Late 2020, M1MacBook Pro 13" : Mid 2009MacBook Pro 13" : Mid 2010MacBook Pro 13" : Mid 2012MacBook Pro 13" : Mid 2014MacBook Pro 13" : Mid 2018MacBook Pro 15" : Early 2006, Core DuoMacBook Pro 15" : Early 2008, PenrynMacBook Pro 15" : Early 2013MacBook Pro 15" : Early 2019MacBook Pro 15" : Early/Late 2011MacBook Pro 15" : Late 2006, Core 2 DuoMacBook Pro 15" : Late 2008MacBook Pro 15" : Late 2013MacBook Pro 15" : Late 2016MacBook Pro 15" : Mid 2009MacBook Pro 15" : Mid 2010MacBook Pro 15" : Mid 2012, RetinaMacBook Pro 15" : Mid 2012, UnibodyMacBook Pro 15" : Mid 2014MacBook Pro 15" : Mid 2015MacBook Pro 15" : Mid 2017MacBook Pro 15" : Mid 2018MacBook Pro 15" : Mid/Late 2007, Santa RosaMacBook Pro 16" : 2019MacBook Pro 17" : Early 2006, Core DuoMacBook Pro 17" : Early 2009MacBook Pro 17" : Early/Late 2008, PenrynMacBook Pro 17" : Early/Late 2011MacBook Pro 17" : Late 2006, Core 2 DuoMacBook Pro 17" : Mid 2009MacBook Pro 17" : Mid 2010MacBook Pro 17" : Mid/Late 2007, Santa RosaMacBook Unibody : Late 2008, AluMacBook Unibody : Late 2009MacBook Unibody : Mid 2010Macintosh : Macintosh 128K/512KMacintosh : Macintosh PlusMid 2017 : Mid 2017, Function KeyMid 2017 : Mid 2017, Touch BarMid 2017 : Non-Retina (1920 x 1080)Mid 2017 : Retina 4K (4096 x 2304)Mid 2020 : Mid 2020, 2 ThunderboltMid 2020 : Mid 2020, 4 ThunderboltMonitors : Acrylic Apple TFT DisplaysPB G4 Alu 12" : 1.33GHzPB G4 Alu 12" : 1.5GHz, A1104PB G4 Alu 12" : DVI, 1GHzPB G4 Alu 12" : Original, 867MHzPB G4 Alu 15" : 1.5(BT1)/1.33, A1095PB G4 Alu 15" : 1.5(BT2)/1.67, A1106PB G4 Alu 15" : DLSD 1.67, A1138PB G4 Alu 15" : FW 800, 1.0/1.25, A1046PB G4 Alu 17" : 1.33GHz, A1052PB G4 Alu 17" : 1.5GHz, A1085PB G4 Alu 17" : 1.67GHz DLSD, A1139PB G4 Alu 17" : 1.67GHz SLSD, A1107PB G4 Alu 17" : 1GHz, A1013PB G4 Titanium : 400/500 Original, M5884PB G4 Titanium : 550/667 Gigabit, M8407PB G4 Titanium : 667/800 DVI, A1001PB G4 Titanium : 867MHz/1GHz, A1025PowerBook : PB 140/145/170PowerBook : PB 160/165/180PowerBook : PB 190/5300PowerBook : PB 520/540PowerBook : PB G3 PISMOPowerBook : PB G3 Wallstreet/PDQPowerBook : PowerBook 100PowerBook : PowerBook 150Retina 12" : Early 2015Retina 12" : Early 2016Retina 12" : Mid 2017

Apple Inc. sold a variety of LCD and CRT computer displays in the past. Apple paused production of their own standalone displays in 2016 and partnered with LG to design displays for Macs.Pro Display XDR was introduced, however it was expensive and targeted for professionals. Nearly three years later, in March 2022, the Studio Display was launched as a consumer-targeted counterpart to the professional monitor. These two are currently the only Apple-branded displays available.

In the beginning (throughout the 1970s), Apple did not manufacture or sell displays of any kind, instead recommending users plug-into their television sets or (then) expensive third party monochrome monitors. However, in order to offer complete systems through its dealers, Apple began to offer various third party manufactured 12″ monochrome displays, re-badged as the Monitor II.

Apple"s manufacture history of CRT displays began in 1980, starting with the Apple III business computer. It was a 12″ monochrome (green) screen that could display 80×24 text characters and any type of graphics, however it suffered from a very slow phosphor refresh that resulted in a "ghosting" video effect. So it could be shared with Apple II computers, a plastic stand was made available to accommodate the larger footprint of the display.

Three years later came the introduction of the Apple manufactured Apple IIc computer to help complement its compact size. This display was also the first to use the brand new design language for Apple"s products called Monitor 100, a digital RGB display for the Apple III and Apple IIe (with appropriate card), followed shortly by the 14″ ColorMonitor IIe (later renamed to ColorMonitor IIc (later renamed to AppleColor Composite Monitor IIc), composite video displays for those respective models. All of these Apple displays support the maximum Apple II Double Hi-Res standard of 560×192.

In 1986 came the introduction of the AppleColor RGB Monitor, a 12″ analog RGB display designed specifically for the Apple IIGS computer. It supported a resolution of 640×400 interlaced (640×200 non-interlaced) and could be used by the Macintosh II, in a limited fashion, with the Apple High Resolution Display Video Card. Also introduced that year was the Apple Monochrome Monitor, which cosmetically was identical to the former model but was a black and white composite display suitable in external appearance for the Apple IIGS, Apple IIc or Apple IIc Plus.

A new external AppleColor High-Resolution RGB Monitor was introduced in 1987 for the Macintosh II. It had a 13″ Trinitron CRT (the first Apple display to use an aperture grille CRT) with a fixed resolution of 640×480 pixels. The Macintosh II was a modular system with no internal display and was able to drive up to six displays simultaneously using multiple graphics cards. The desktop spanned multiple displays, and windows could be moved between displays or straddle them. In 1989, Apple introduced a series of monochrome displays for the Macintosh, the 20″ Macintosh Two Page Monochrome Display which could display two pages side by side, the 15″ Macintosh Portrait Display with a vertical orientation to display one page, and the 12″ High-Resolution Monochrome Monitor. In 1990, two 12″ displays were introduced for the low end, a 640×480 monochrome model and a 512×384 color model (560×384 for compatibility with Apple IIe Card), meant for the Macintosh LC. These were succeeded by the Apple Macintosh 16″ Color Display, and Apple Macintosh 20″ Color Display with resolutions of 640×480, 832×624 and 1152×870, respectively. There were also the Apple Performa Plus Display (a low-end Goldstar-built 14″ display with 640×480 resolution) for the Macintosh Performa series and the Apple Color Plus 14″ Display.

The third generation of displays marked the end of the monochrome display era and the beginning of the multimedia era. The first display to include built-in speakers was introduced in 1993 as the Multiple Scan series of displays began with the Multiple Scan 17 and 20 with Trinitron CRTs and the Multiple Scan 14 with shadow mask CRT, and would ultimately become Apple"s value line of shadow mask displays. The AppleVision series of displays then became the high-end display line, using 17″ and 20″ Trinitron CRTs and with AV versions containing integrated speakers. The AppleVision line was later renamed to Steve Jobs returned to Apple.

The Macintosh Color Classic introduced a 10″ color Trinitron display to the Classic compact Macintosh, with a slightly enhanced resolution of 512×384 (560×384 to accommodate the Apple IIe Card) like the standalone 12″ color display. Apple continued the all-in-one series with the larger 14″ Macintosh LC 500 series, featuring a 14″, 640×480 Trinitron CRT until the LC 580 in 1995, which heralded the switch to shadow mask CRTs for the remainder of Apple"s all-in-one computers until the switch to LCDs in 2002. The last Macintosh to include an integrated CRT was the eMac, which boosted the display area to 17″ with support up to 1280×960 resolution. It used a 4th generation flat-screen CRT and was discontinued in 2006.

The fourth generation of displays were introduced simultaneously with the Blue & White Power Macintosh G3 in 1999, which included the translucent plastics of the iMac (initially white and blue "blueberry", then white and grey "graphite" upon the introduction of the Power Mac G4). The displays were also designed with same translucent look. The Apple Studio Display series of CRT displays were available in a 17″ Diamondtron and a 21″ Trinitron CRT, both driven by an LG-Manufactured chassis. The 17″ displays were notorious for faulty flybacks and failing in a manner that could destroy the monitor and catch fire. It"s also reported that these monitors can destroy GPU"s, and sometimes the entire computer. The last Apple external CRT display was introduced in 2000 along with the Power Mac G4 Cube. Both it and the new LCD Studio Displays featured clear plastics to match the Cube, and the new Apple Display Connector, which provided power, USB, and video signals to the display through a single cable. It was available only in a 17″ flat screen Diamondtron CRT. It was discontinued the following year.

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 LCD displays were produced.

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 LCD displays, 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.

In 1997, Apple released the Twentieth Anniversary Macintosh (TAM), its first all-in-one desktop with an LCD display. 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.

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.

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

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 the NVIDIA 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 Mac Pro is also available with both the ATI Radeon X1900XT card and the NVIDIA Quadro FX 4500 as build-to-order options. Each of these cards is capable of driving two 30″ Cinema Displays.

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.

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.

After Apple discontinued production of standalone displays in 2016, they partnered with LG to design the UltraFine line, with a 21.5-inch 4K display (22MD4KA-B) and 27-inch 5K display (27MD5KA-B), released in November 2016 alongside the Thunderbolt 3-enabled MacBook Pro.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.

In May 2019 the 21.5-inch model was discontinued and replaced with a 23.7-inch model (24MD4KL-B) which added Thunderbolt 3 connectivity and increased the power output to 85W. In July 2019, the 27-inch model (27MD5KL-B) was updated with USB-C video input, adding compatibility with the 3rd generation iPad Pro at 4K resolution, and increased power output to 94W.Apple Studio Display, but the display is still in production according to LG.

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.

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.

The Apple Display Connector (ADC), which carries DVI, VGA, USB and power in one connector, was used on the PowerMac G4 and early models of the PowerMac G5.

Phono connector video out on the Apple II, II+, IIe, IIc, IIc+, IIGS, III, and III+. While not technically NTSC or PAL compatible, a suitable image would display on NTSC/PAL television monitors

The Apple Video Adapter was specially designed to allow users to connect to S-video or composite video devices. The video adapter cable plugs into the video output port (Mini-VGA) built into the back of certain Macintosh computers. The video output port supports VGA, S-Video and Composite video out. The Apple Video Adapter is for S-Video or Composite video output only, use a separate Apple VGA Adapter for VGA video output options. With the Apple Video Adapter you can connect to your TV, VCR, or overhead projector via S-Video or Composite cables.

The Apple VGA Display Adapter was specially designed to allow users to connect certain Macintosh computers to an extra VGA display or external projector (equipped with VGA) for 24-bit video-mirroring. The VGA cable from your external display or projector cable plugs into the Mini-VGA video port built into your Macintosh via the Apple VGA Display Adapter.

Compatible with: eMac, iMac G5, iMac G4 flat-panel, 12-inch PowerBook G4, or iBooks having a Mini-VGA port. Most Macintosh computers with the Mini-VGA port can also use the Apple Video Adapter for S-video & Composite output options.

"Apple"s Online Store Now Offering New 5K 27-Inch LG UltraFine Display". www.macrumors.com. Archived from the original on September 26, 2022. Retrieved April 3, 2020.

Welch, Chris (March 8, 2022). "Apple announces 27-inch 5K Studio Display for $1,599". The Verge. Archived from the original on March 15, 2022. Retrieved March 8, 2022.

1.Make sure the Apple smartphone is completely charged. Ensure the Apple lightning charging cable is not bent, frayed or broken to rule out a bad cable and to make sure that your iPhone 13 is charging. If the Apple iPhone 13 is completely dead, it will take a few seconds or even minutes of charging before displaying these icons:

Dropping the device on rocky surfaces, tile, hardwood floor or just dropping it in general is the biggest culprit of damaged iPhone screens. The Apple iPhone 13 display is one of the thinnest models to date and the display is even thinner than ever. The actual OLED panel underneath the iPhone 13 screen is about the size of an egg shell.

The Apple iPhone 13 screen requires specialized equipment to even complete the repair. Failure to use Apple’s heated display removal tool and the corresponding Apple iPhone 13 hot pocket can easily result in additional damage. The iPhone 13 screen replacement isn’t hard to do, but it’s very easy to mess up. A botched screen replacement often results in Face ID damage or FPC damage on the board which costs even more to fix.

If you have the necessary tools and equipment to complete the repair yourself… go for it! Just remember if damage occurs to any of the components that you have to remove or come into contact with during the screen replacement process, you will have to fix those or certain features such as face ID may not function as intended. Recently Apple launched aself-repair programwhere customers can rent the tools themselves, but after factoring in the $1,200 hold they put on your credit card and the rental fees they charge for the tools and equipment, most customers might as well just use an XiRepair service location to repair their Apple iPhone.

Our affordable iPhone screen replacement services replace your faulty screen with a brand new screen. This process turns a seemingly non-functional apple iPhone into a practically new Apple iPhone.