Apple iPhone 5 Preliminary unofficial specifications

Apple iPhone 5 Read opinions Compare Related phones In the news  (new) POPULARITY Daily interest 32% Total hits: 1080674 VOTING RESULTS Design 7.1 Features 7.1 Performance 7.1 12345678910 12345678910 12345678910  Votes: 24499 Preliminary unofficial specifications Image courtesy of 9to5mac.com GENERAL 2G Network GSM 850 / 900 / 1800 / 1900   CDMA 800 / 1900 - for Verizon 3G Network HSDPA 850 / 900 / 1900 / 2100   CDMA2000 1xEV-DO - for Verizon 4G Network LTE 700 MHz Class 17 / 2100 - for AT&T   LTE 700 MHz Class 13 - for Verizon Announced Exp. announcement 2012, September Status Rumored. Exp. release 2012, October BODY Dimensions 123.8 x 58.5 x 7.6 mm Weight - DISPLAY Type LED-backlit IPS TFT[각주:1], capacitive touchscreen[각주:2], 16M colors Size 640 x 1136 pixels, 4.0 inches (~326 ppi pixel density) Multitouch Yes Protection Corning Gorilla Glass[각주:3], oleophobic coating[각주:4] SOUND Alert types Vibration, propriety ringtones Loudspeaker Yes 3.5mm jack Yes MEMORY Card slot No Internal 16/32/64 GB storage, 1 GB RAM DATA GPRS Yes EDGE Yes Speed DC-HSDPA[각주:5], 42 Mbps; HSDPA, 21 Mbps; HSUPA, 5.76 Mbps, LTE, 73 Mbps; Rev. A, up to 3.1 Mbps WLAN Wi-Fi 802.11 a/b/g/n, Wi-Fi Plus Cellular Bluetooth Yes, v4.0 with A2DP[각주:6] NFC TBD USB Yes, v2.0 CAMERA Primary 12 MP, autofocus[각주:7], LED flash Features Touch focus[각주:8], geo-tagging[각주:9], face detection[각주:10], HDR[각주:11] Video Yes, 1080p@30fps[각주:12], LED video light, video stabilization, geo-tagging[각주:13] Secondary Yes, videocalling over Wi-Fi and 3G/4G FEATURES OS iOS 6[각주:14] Chipset Apple A6[각주:15] CPU Quad-core 1.2 GHz Sensors Accelerometer[각주:16], gyro, proximity, compass Messaging iMessage, SMS (threaded view), MMS, Email, Push Email Browser HTML (Safari) Radio No GPS Yes, with A-GPS[각주:17] support and GLONASS[각주:18] Java No Colors Black, White   - nanoSIM[각주:19] card support only - Active noise cancellation with dedicated mic - Siri natural language commands and dictation - iCloud cloud service - Twitter and Facebook integration - TV-out - iMaps[각주:20] - iBooks PDF reader - Audio/video player and editor - Image editor - Voice memo/command/dial BATTERY   Standard battery, Li-Po Stand-by Talk time

As flowing Links from http://www.gsmarena.com/apple_iphone_5-4910.php

Memory it is upgrade from iPhone4, Video 1080p@30fps support it means support HD quality.

iPhone5 dosen't support NFC service but  Covering 27 purchase to the date of payment contractors do not want to purchase to confirm the completion of the contract Mobile that helps Apple patent was secured.

More detail info from NFC issue 9to5 Mac What happen and why?

Always wonder bought IT Equipment overheating issue for all IT equipment no longer life than current status. I have experience of exchange for overheating issue before. As also Macbook Pro Retina Display 975KH/A also same issue have. 

  Apple Co., Ltd.  new technology to produce new products every year whenever the product sold in the market. Basic life period of the equipment due to excessive heat generation is reduced due to its products, many went on to create the trends, and loved by many users from that, obviously, but the most important thing to worry about quality.iPhone 5 metal back plate when the validity of the heat of the unit by itself to fill the question.

Carrier-specific frequency possession

Frequency	SK Telecom	KT	LG U+
2.3 Ghz	30 Mhz (Wibro)	30 Mhz (Wibro)	-
2.1 Ghz	60 Mhz	40 Mhz (3G)	20 Mhz (Newly, LTE On Schedule)
1.8 Ghz	20 Mhz (Newly, LTE On Schedule)	20 Mhz(2G)	20 Mhz(2G)
900 Mhz	-	20 Mhz(LTE)	-
800 Mhz	10Mhz(LTE),20Mhz(2G)	10 Mhz  (Newly, LTE On Schedule)	20 Mhz(LTE)
Total	140 Mhz	120 Mhz	60 Mhz

Korean Version (http://reddreams.tistory.com/409)

From This month New Smartphone roll out Smartphone getting started form since 2009. Many product arrived Korea Market with competition. 

Manufacture company always focus on new technology company own product. And most important thinks is focus at customer service.

As little different with Camera Spec 12 Mega Pixel to 8 Mega Pixel. Tree microphone front, back, bottom.  

And Korean supplier is SKT & KT only.

I wish to successfully roll out on October, Price same as iPhone4s roll out since year 2011 could be.

1. LCDs are available to display arbitrary images (as in a general-purpose computer display) or fixed images which can be displayed or hidden, such as preset words, digits, and 7-segment displays as in a digital clock. They use the same basic technology, except that arbitrary images are made up of a large number of small pixels, while other displays have larger elements. [본문으로]
2. A capacitive touchscreen panel consists of an insulator such as glass, coated with a transparent conductor such as indium tin oxide (ITO).[17][18] As the human body is also an electrical conductor, touching the surface of the screen results in a distortion of the screen's electrostatic field, measurable as a change in ent to the controller for processing. Unlike a resistive touchscreen, one cannot use a capacitive touchscreen through most types of electrically insulating material, such as gloves; one requires a special capacitive stylus, or a special-application glove with an embroidered patch of conductive thread passing through it and contacting the user's fingertip. This disadvantage especially affects usability in consumer electronics, such as touch tablet PCs and capacitive smartphones in cold weather. In response, there are gloves on the market with one or more fingertips that include conductive material, thus overcoming this limitation. The largest capacitive display manufacturers continue to develop thinner and more accurate touchscreens, with LCD touchscreens for mobile devices now being produced with 'in-cell' technology that eliminates a layer, by building the capacitors inside the LCD itself. This type of touchscreen reduces the visible distance (within millimetres) between the user's finger and what the user is touching on the screen, creating a more direct contact with the content displayed and enabling taps and gestures to be even more responsive. [본문으로]
3. Gorilla Glass, manufactured by Corning, is an alkali-aluminosilicate sheet glass engineered for a combination of thinness, lightness and damage-resistance – and used primarily as the cover glass for portable electronic devices including mobile phones, portable media players, and laptop computer displays, and a few televisions screens.[1] The material's primary properties are its strength, allowing thin glass without fragility, its high scratch resistance and its hardness – with a Vickers hardness test rating of 622 to 701.[2] According to its manufacturer, the material can be recycled.[3] Initially developed in 2006, Gorilla Glass by 2010 had been used in approximately 20 percent of mobile handsets worldwide, roughly 200 million units.[4] The material is now marketed in its second generation, Gorilla Glass 2. [본문으로]
4. Lipophobicity, also sometimes called lipophobia (from the Greek lipos "fat"), is a chemical property of chemical compounds which means "fat rejection", literally "fear of fat". Lipophobic compounds are those not soluble in lipids or other non-polar solvents. From the other point of view, they do not absorb fats. "Oleophobic" (from the Latin oleum "oil") refers to the physical property of a molecule that is repelled from oil. The most common lipophobic/oleophobic substance is water. Fluorocarbons are also lipophobic and oleophobic. [본문으로]
5. Dual Cell (DC-)HSDPA is the natural evolution of HSPA by means of carrier aggregation in the downlink.[2] UMTS licenses are often issued as 10 or 15 MHz paired spectrum allocations. The basic idea of the multicarrier feature is to achieve better resource utilization and spectrum efficiency by means of joint resource allocation and load balancing across the downlink carriers. An advanced HSPA network can theoretically support up to 28 Mbit/s and 42 Mbit/s with a single 5 MHz carrier for Rel7 (MIMO with 16QAM) and Rel8 (64-QAM + MIMO), in good channel conditions with low correlation between transmit antennas. An alternative method to double the data rates is to double the bandwidth to 10 MHz (i.e. 2x5MHz) by using DC-HSDPA. Additionally, some diversity and joint scheduling gains can also be expected[3] with improved QoS for end users in poor environment conditions where existing techniques such as MIMO spatial multiplexing cannot be used to increase data rates. In 3GPP a study item was completed in June 2008. The outcome can be found in technical report 25.825.[4] New HSDPA User Equipment categories 21-24 have been introduced that support DC-HSDPA. DC-HSDPA can support up to 42 Mbit/s, but unlike HSPA, it does not need to rely on MIMO transmission. [본문으로]
6. This profile defines how high quality audio (stereo or mono) can be streamed from one device to another over a Bluetooth connection. For example, music can be streamed from a mobile phone, to a wireless headset, hearing aid & cochlear implant streamer, car audio, or from a laptop/desktop to a wireless headset. A2DP was initially used in conjunction with an intermediate Bluetooth transceiver that connects to a standard audio output jack, encodes the incoming audio to a Bluetooth-friendly format, and sends the signal wirelessly to Bluetooth headphones that decode and play the audio. Bluetooth headphones, especially the more advanced models, often come with a microphone and support for the Headset (HSP), Hands-Free (HFP) and Audio/Video Remote Control (AVRCP) profiles. A2DP is designed to transfer a uni-directional 2-channel stereo audio stream, like music from an MP3 player, to a headset or car radio.[1] This profile relies on AVDTP and GAVDP. It includes mandatory support for the low-complexity SBC codec (not to be confused with Bluetooth's voice-signal codecs such as CVSDM), and supports optionally: MPEG-1, MPEG-2, MPEG-4, AAC, and ATRAC, and is extensible to support manufacturer-defined codecs, such as apt-X. Some Bluetooth stacks enforce the SCMS-T digital rights management (DRM) scheme. In these cases, it is impossible to connect certain A2DP headphones for high quality audio. [본문으로]
7. An autofocus (or AF) optical system uses a sensor, a control system and a motor to focus fully automatic or on a manually selected point or area. An electronic rangefinder has a display instead of the motor; the adjustment of the optical system has to be done manually until indication. The methods are named by the used sensor: active, passive and hybrid. [본문으로]
8. In touch focus devices, the user can select which part of the image the camera should focus on by touching the corresponding object in the viewfinder. Touch focus is available only in cameras with a touch screen. Read more: http://wiki.answers.com/Q/What_is_touch_focus#ixzz26DoCn2s9 [본문으로]
9. Geotagging (also written as GeoTagging) is the process of adding geographical identification metadata to various media such as a geotagged photograph or video, websites, SMS messages, QR Codes[1] or RSS feeds and is a form of geospatial metadata. This data usually consists of latitude and longitude coordinates, though they can also include altitude, bearing, distance, accuracy data, and place names. [본문으로]
10. Face detection is a computer technology that determines the locations and sizes of human faces in arbitrary (digital) images. It detects facial features and ignores anything else, such as buildings, trees and bodies. [본문으로]
11. High dynamic range imaging (HDRI or HDR) is a set of methods used in imaging and photography, to allow a greater dynamic range between the lightest and darkest areas of an image than current standard digital imaging methods or photographic methods. HDR images can represent more accurately the range of intensity levels found in real scenes, from direct sunlight to faint starlight, and is often captured by way of a plurality of differently exposed pictures of the same subject matter. [본문으로]
12. 1080p is a set of HDTV high-definition video modes that are characterized by 1080 horizontal lines of vertical resolution[1] and progressive scan, meaning the image is not interlaced as is the case with the 1080i display standard. The term assumes a widescreen aspect ratio of 16:9, thus implying a resolution of 1920 × 1080 (2.1 megapixels). [본문으로]
13. Geotagging (also written as GeoTagging) is the process of adding geographical identification metadata to various media such as a geotagged photograph or video, websites, SMS messages, QR Codes[1] or RSS feeds and is a form of geospatial metadata. This data usually consists of latitude and longitude coordinates, though they can also include altitude, bearing, distance, accuracy data, and place names. Geotagging can help users find a wide variety of location-specific information. For instance, one can find images taken near a given location by entering latitude and longitude coordinates into a suitable image search engine. Geotagging-enabled information services can also potentially be used to find location-based news, websites, or other resources.[2] Geotagging can tell users the location of the content of a given picture or other media or the point of view, and conversely on some media platforms show media relevant to a given location. [본문으로]
14. iOS (previously iPhone OS) is a mobile operating system developed and distributed by Apple Inc. Originally released in 2007 for the iPhone and iPod Touch, it has been extended to support other Apple devices such as the iPad and Apple TV. Unlike Microsoft's Windows CE (Windows Phone) and Google's Android, Apple does not license iOS for installation on non-Apple hardware. As of June 12, 2012, Apple's App Store contained more than 650,000 iOS applications, which have collectively been downloaded more than 30 billion times.[3] It had a 23% share of the smartphone operating system units sold in the first quarter of 2012, behind only Google's Android.[4] In June 2012, it accounted for 65% of mobile web data consumption (including use on both the iPod Touch and the iPad).[5] At the half of 2012, there were 410 million devices activated.[6] [본문으로]
15. A6 is Apple Limited Company new product at 2012 to iPhone5 quad-core processor. Mainly important part form smartphone. [본문으로]
16. An accelerometer is a device that measures proper acceleration, also called the four-acceleration. This proper acceleration is associated with the weight of a test mass. For example, an accelerometer on a rocket far from any gravitational influences (assume gravitation is zero) that is accelerating through space due to the force from its engine, will measure the rate of change of the velocity of the rocket relative to any inertial frame of reference, because such changes require application of a (rocket) force that can be felt (as weight), for any mass. However, the proper acceleration measured by an accelerometer is not necessarily the coordinate acceleration (rate of change of velocity), when gravity becomes involved [본문으로]
17. generally abbreviated as A-GPS or aGPS, is a system which can under certain conditions improve the startup performance, or time-to-first-fix (TTFF), of a GPS satellite-based positioning system. It is used extensively with GPS-capable cellular phones, as its development was accelerated by the U.S. FCC's 911 requirement to make the location of a cell phone available to emergency call dispatchers [본문으로]
18. GLONASS (Russian: ГЛОНАСС; IPA: [ɡlɐˈnas] - Глобальная Навигационная Спутниковая Система), acronym for Globalnaya Navigatsionnaya Sputnikovaya Sistema or Global Navigation Satellite System, is a radio-based satellite navigation system operated for the Russian government by the Russian Aerospace Defence Forces. It both complements and provides an alternative to the United States' Global Positioning System (GPS) and is currently the only alternative navigational system in operation with global coverage and of comparable precision. [본문으로]
19. As more components are integrated into smaller silicon chips, power consumption becomes a major concern. Detailed current information about each circuit component is critically important to the designer. Designs must be optimized for minimum power consumption. NanoSim is a transistor-level power simulator and analysis tool for CMOS and BiCMOS circuit designs. NanoSim’s accurate power and current measurements and extensive diagnosis capabilities enable you to successfully design for lower power [본문으로]
20. News is out that Apple was the company who had acquired C3 Technologies last August (and shut it down). C3 is a mapping company known for its capacity to build maps that include 3D buildings, textures and all (like Nokia does). Unlike many mapping companies that rely on a combination of satellite photos and GPS information, C3 could build maps and textured building models with planes (see video in the full post). This is a technique that allows for multiple (relatively shallow) angles, which is necessary to create textures for every sides of buildings, and that is simply impossible with high altitude satellites. The downside of this technique is that the amount of terrain covered by a plane is much smaller than what a satellite can cover. That said, Apple can probably buy the “big picture” data from someone else. Anyway, you can guess where this is going…As I recently said in my review of the iPhone 4S, Google is using Google Maps as a key differentiation for Android handsets, and unfortunately, Apple’s handsets have been lagging in features for some time now. We have identified mapping as a “killer app” for smartphones, and every serious contender will end up having some sort of proprietary mapping technology. Microsoft, Nokia, Google do, and Apple aims to get this capability as wellOf course, Apple probably wants to “re-invent” mapping, but it is easier said than done, and we will have to see if the addition of 3D buildings, as beautiful as they are, actually add real value to a mapping service. In the short term, Apple needs to catch up with Google Maps first, and break free from Google on that front. I suspect that within a year, Apple will introduce iMaps, or whatever they will call it. I would love to see a mapping service where I can search and build my route on a PC, then seamlessly retrieve the information on my smartphone. Apple could easily do that with iCloud, and so far, nobody has done something that is seamless. What would you like to see in an “iMap” app? Post a comment below. [본문으로]