Nokia X2 - specifications. Nokia X2 - Specifications Information on the type of loudspeakers and supported by the audio technology

Slightly grown and improved version of "smartphone for Android applications"

Big changes were overwhelmed by the Microsoft mobile division by this summer. Nokia committed to the budget line asha. The software giant abandoned the McLaren ambitious project. A ruler Nokia X was decided to translate to Windows Phone, stopping all kinds of relationships with the Android platform. But a little earlier, the manufacturer managed to present the second generation of these smartphones, about which we will tell in today's review.

The main characteristics of Nokia X2 (RM-1013)

• Singlery System: Qualcomm Snapdragon 200 MSM8210
• Central processor: 2 Cortex-A7 kernels (Armv7-a) @ 1.2 GHz
• Graphics processor: Adreno 302
• Operating system: Nokia X 2.0
• Display: IPS, 4,3 ", 800 × 480, 217 ppi
• RAM: 1 GB
• Internal memory: 4 GB
• MICROSD memory card support (up to 32 GB)
• Support two micro-SIM SIM cards in standby mode
• Communication GSM 850/900/1800/1900 MHz, WCDMA 900/2100 MHz
• Wi-Fi 802.11b / g / n
• Bluetooth 4.0.
• GPS / A-GPS / GLONASS
• Rear camera: 5 MP with autofocus and flash (video shoot 720p)
• Front camera: 0.3 Mp
• Battery: Removable, 1800 mA · h
• Dimensions: 121.7 × 68.3 × 11.1 mm
• Mass: 150 g

	Nokia X2.	Nokia X.	Explay atom	OPPO MUSE R821
Screen	4.3 ", IPS	4 ", IPS	4 ", TN	4 ", IPS
Resolution	800 × 480, 217 ppi	800 × 480, 233 ppi	800 × 480, 233 ppi	800 × 480, 233 ppi
SOC.	Qualcomm Snapdragon 200 MSM8210 @ 1.2 GHz (2 Arm Cortex-A7 kernels)	Qualcomm Snapdragon S4 Play MSM8225 @ 1 GHz (2 Arm Cortex-A5 kernels)		MediaTek MT6572 @ 1.2 GHz (2 Arm Cortex-A7 kernels)
GPU.	Adreno 302.	Adreno 203.	MALI-400 MP	MALI-400 MP
Oz	1 GB	512 MB	512 MB	512 MB
Flash Memory	4 GB	4 GB	4 GB	2.5 GB
Memory card support	microSD (up to 32 GB)	microSD.	microSD.	microSD.
SIM card support	2 × micro-sim	2 × micro-sim	3 × mini-sim	MINI-SIM + Micro-SIM
Operating system*	Nokia x 2.0	AOSP 4.1.2 with the shell Nokia Glance Screen	Google Android 4.2.2.	Google Android 4.2.
Battery	removable, 1800 mA · h	removable, 1500 mA · h	removable, 2000 mA · h	removable, 1700 mA · h
Cameras	relean (5 MP; video - 720p), frontal (0.3 mp)	relean (3 MP)		relean (3 mp; video - 720p), frontal (0.3 mp)
Size, mass	122 × 68 × 11.1 mm, 150 g	116 × 63 × 10.4 mm, 127 g	126 × 64 × 13 mm, 142 g	123 × 64 × 9.9 mm, 125 g
average price	T-10891269.	T-10724875.	T-10695244.	T-10515322.
Offers Nokia X2.

* - at the time of writing the appropriate article

The second model Nokia X no longer looks like "Global" from all sides. The amount of RAM increased to a comfortable gigabyte, a front camera and an outbreak appeared, a more powerful SOC was installed. But the price has grown, and the amount is noticeable for the budget segment.

Equipment

Nokia X2 comes with the same accessory kit as its predecessor. Only headphones were repainted in normal black. "Bright Nokia X2" did not benefit.

By the way, the headset has no call to receive a call, so that when the smartphone calls, you will have to extract out of your pocket. Cable for connecting to PC is still not selected.

Design

Externally, Nokia X2 is not much different from the predecessor. At first glance, only an additional button "Home" is thrown under the display, which shifted the "Back" button to the left.

The main feature of the design of Nokia X2 is a two-layer case, made by the same technology as in Nokia Asha 500/502/503. The bottom layer is made of colored polycarbonate. Upper - from almost transparent polymer material, slightly tinted in the color of the bottom layer.

The original Nokia X looked like a toy, in many ways because of the infertility plastic case. The second generation in this regard turned out to be much more interesting.

Phones with a two-layer case on the market are not common, which allows Nokia X2 due to the originality of winning next to the low-speed neighbors along the store window.

The rear speaker is now aligned in the center. Flash is placed above the camera.

With a careful study of the lens and flash, it can be seen that the back cover is poorly adjusted to the main part of the smartphone housing.

The mechanical buttons have not changed almost not, only the volume swing is now divided by a slot.

The Micro-USB connector was moved from the bottom face to the top, to the headphone output. The 3.5-mm slot is shifted, but its hole is covered with an outer layer of the case. The remaining faces of the smartphone functional elements are deprived.

To open the smartphone, it is necessary to press on the lower corners of the case and simultaneously on the rear panel, just like in the Nokia X. Already after several such manipulations, the colored lid begins to lighten to luxury and peel in the lower left corner area - the previous model in this regard was hopefully .

Access to SIM1 and MicroSD is possible only with the rechargeable battery. Please note that "Nokia" appeared on the first model sticker, and here "Microsoft Mobile".

The second SIM card connector is located so to be accessible and during the work of the smartphone. The hot-swappable function works here perfectly, the card is quickly determined by the phone on the go without reboot. Another pleasant improvement in the series.

The quality of the assembly of the Nokia X2 is inferior to the original. It is worth five or six to remove the back cover, and it already begins to lighten to the body, which can sometimes be caught even on rumor. In general, the second version of the smartphone has become more interesting both with aesthetic and functional point of view, but no fundamental changes followed. Perhaps we will see more bold designer moves with the transition of the series on Windows.

Screen

The front surface of the screen is made in the form of a glass plate with a mirror-smooth surface resistant to the appearance of scratches. Judging by the reflection of objects anti-glare screen properties are no worse than the screenGoogle Nexus 7 (2013) (hereinafter just Nexus 7). For clarity, we give a photo on which the white surface is reflected in the disabled screens of both devices (Nokia X2 - right, then they can be distinguished by size):

The screen at Nokia X2 is even a bit darker (brightness of photographs 99 against 101 at Nexus 7). The tripling of the reflected objects in the Nokia X2 screen is very weak, this suggests that between the outer glass (it is the sensor of the touch) and the surface of the matrix there is no air gap ( oGS type screen - One Glass Solution). Due to the smaller number of boundaries (type of glass-air) with highly different refractive ratios, such screens look better in conditions of strong external illumination, but their repairs in the case of cracked exterior glass costs much more expensive, since it accounts for a whole screen. On the outer surface of the screen, it seems that there is a special oleophobic (grease-repellent) coating, but its efficiency is lowTherefore, traces from fingers appear quickly, and to remove them you need to spend a relatively much effort.

When manually controlled brightness, its maximum value was ordage 455 CD / m², and minimal - 9 cd / m². The maximum brightness is high, and given the good anti-glare properties, with a bright daylight, the image on the screen should be well distinguishable. In complete darkness, brightness can be reduced to a comfortable level. There is no automatic brightness adjustment over the illumination sensor. The sensor between the front speaker and the camera can be taken for photosensitive, but the CPU-Z indicates that this is a proximity sensor.

At any level of brightness there is a modulation of rectangular pulses with a 100% amplitude and a frequency of 300 Hz. In high brightness, the filling coefficient is high, almost 100%, so the flickering of the screen is missing, with a decrease in brightness, the filling coefficient decreases, and the flicker can already be seen, for example, with a quick movement of the eyes (or phone relative to the eye). Depending on the individual characteristics, such modulation can lead to increased fatigue. And may not lead.

This screen uses iPS type matrix. Micrographs demonstrate a typical structure of subpixels for IPS:

For comparison, you can familiarize yourself with the micrographic gallery of the screens used in mobile technology.

The screen has good viewing angles without a significant shift of colors, even at large viewing deviations from perpendicular to the screen and without inverting (except the most dark with the rejection of the view of one diagonal) shades. For comparison, we give the photo on which the same images are displayed on the Nexus 7 and Nokia X2 screens, while the brightness of the screens is initially installed by about 200 kD / m² (on a white field in full screen), and the color balance on the camera is forcibly switched to 6500 K. Perpendicular to the plane screens White field:

Note the acceptable uniformity of the brightness and color tone of the white field. And test picture:

The color rendition is good and color saturated from both screens, but the color balance varies slightly. Now at an angle of about 45 ° to the plane and to the side of the screen:

It can be seen that the colors have slightly changed from both screens, but Nokia X2 contrast has decreased to a greater extent due to a greater decrease in the brightness and strong decrease of black, and the blueness is clearly added. And white field:

The brightness at an angle in both screens has decreased noticeably (at least 5 times, based on the difference in exposure), but in the case of Nokia X2, the brightness drop is significantly larger. At the same time, the color tone of the white field on the Nokia X2 screen has changed somewhat. The black field during the diagonal deviation is highlighted strongly (especially taking into account the general drop in the brightness of the image) and acquires a purple or red-violet shade. Photos below, this is demonstrated (brightness of white areas in the perpendicular plane of the screens direction at the screens of the screens):

And at a different angle:

With perpendicular view, the uniformity of the black field is mediocre, since in several places around the edge, the black is noticeably evolving, and the entire screen in some spots:

Contrast (approximately in the center of the screen) is normal - about 700: 1. The response time when switching a black-white-black-black is 21 ms (10 ms incl. + 11 ms off.). The transition between halftons of gray 25% and 75% (for the numerical color value) and back in total it takes 32 ms. Built according to 32 points with an equal interval in the numerical value of the shade of the gray gamma curve did not reveal the bore in the lights, nor in the shadows, and the indicator of the approximating power function turned out to be 2.15, which is insignificantly lower than the standard value of 2.2, while the real gamma The curve deviates little from power dependence:

Color coverage is slightly different from SRGB:

The spectra show that the matrix light filters to moderately mix the components to each other:

At the same time, the coordinates of red and green colors are not very far away from the corresponding vertices of SRGB, as a result, the colors of images - drawings, photos and films, - srgb-oriented space (and such an overwhelming majority), have natural saturation and shade. The balance of shades on the gray scale is not ideal, since the color temperature is not much higher than the standard 6500 K, however, the deviation from the spectrum of an absolutely black body (ΔE) is greater than 10 (due to excess green), which even for the consumer device is considered not a very good indicator. However, the variation of the color temperature and ΔE is small, which has a positive effect on the visual perception of the color balance. Dark areas of the gray scale can not be considered, since the balance of colors does not matter, and the measurement error of the color characteristics on the low brightness is large.

Let's summarize. The screen has quite high maximum brightness and has good anti-block propertiesTherefore, the device without problems can be used outdoors even a summer sunny day. In complete darkness, brightness can be reduced to a comfortable level. True, the brightness will have to be adjusted manually, as there is no mode with automatic adjustment of the brightness. The dignity of the screen should include the absence of air gap in the screen layers close to the SRGB color coverage and good - with a visual assessment - a color balance. To disadvantages - weak oleophobic coating, low stability black to view rejection from perpendicular to the plane of the screen, fast image brightness drop at an angle, not very good black field uniformity. We note and PWM brightness control with a frequency of 300 Hz, which can also be a disadvantage in case of individual intolerance. In general, the quality of the screen is compromise, although not to say that bad.

Sound

The rear speaker in Nokia X2, it seems, was only a little shifted, and on this innovation ended. Impressions from listening remained about the same as in the first model. The sound quality corresponds to expectations from budgetary smartphones. At the maximum volume of distortion does not appear.

As for the colloquial dynamics, here some progress is noticeable. Nokia X2 no longer sinwiths. But about the crystal purity of the connection, which is peculiar to the flagships, does not dream here.

Conversation with the help of a smartphone can not be written. There is a FM radio, which requires headphones.

Telephone part and communication

The Nokia X2 is equipped with two micro-SIM format slots, and one of them supports the "hot replacement" function that does not require the reboot of the smartphone. Any cards can be assigned to data transmission, in this regard they are equal. Collaboration is organized in Dual Standby mode - both SIM cards are available in standby mode.

Wi-Fi 802.11 b / g / n is supported and creating an access point via Wi-Fi, USB and Bluetooth. Navigation in the Nokia X2 works fine, in less than a minute detects many satellites, and not only GPS and GLONASS, but also the Chinese Baidow system. And immediately binds to them.

USB OTG smartphone is not supported, but the low memory can be expanded using MicroSD. Of the 4 GB of internal memory available 2.25 GB. The inclusion of the smartphone takes 50 seconds, which is much more average.

Camera

Nokia X2 stepped far ahead in photography features photo and video. The original model had one-single camera permitting only 3 megapixel. In the second version of the smartphone, she gradually grown to 5 megapixel and got outbreak. In addition, there was a front camera with a resolution of 0.3 mp.

The work of the main chamber commented on Anton Solovyov:

	The sharpness according to the plans is not bad.
	Noise handles noises only in weak shadows. In the strengths they are noticeable, but they are not thrown into the eyes.
	Despite some noise, the sky color is quite smooth.
	On the right you can notice the blur zone.
	The number of the nearest car will be distinguished, but more distant numbers are no longer possible to disassemble.
	Sharping on wires is practically absent.
	With macro shot, the camera copes well.
	The camera text can be done well, but not all characters are well distinguishable.

For his 5 MP, the camera is not so bad, although she has a lot of problems. Noise is trying to work as careful as possible, and as a result practically does not produce visible improvements. On the other hand, the sensor is noise enough "softly", and noise in the eyes are not thrown. The optics in the chamber is quite good. For some reason, there are blur zones, but in general, the pictures are quite sharp on the field and by plans. In this case, optics can work more than the sensor can perceive. Nevertheless, the camera is quite good, but it works not at all and will not cope not with all the plots. But shooting a large text or general plans for her.

Maximum video resolution, which is capable of camera Nokia X2 - 1280 × 720.

The video is not too clear due to a low bit rate. Although if you remember that Nokia X shot a maximum of 352 × 288, progress is obvious.

Software

Nokia X2 is running the Nokia X2 2.0 operating system (apparently, based on Android 4.3). From the original OS installed in Nokia X, it differs only by appearance. The structure of the system remained unchanged. The main screen contains applications labels in the form of tiles, as in Windows. The shift to the left opens the list of all applications, and the shift of the law - Fastlane alert tape. The operating system works, in general, stably, but sometimes the interface is slowedized, especially when switching between applications and when configuring the desktop

Nokia and Yandex branded shops are available for installing applications. Play Store is missing. Moreover, you will not even be able to add a Google account to import contacts and other information. Fix it easy.

Pre-installation of the driver and getting root rights is easy to implement through the utility. During installation on the phone, the query will pop up from the application side - confirm them. Through Nokia X2 Tools you can also put Play Market. But in our case he had a serious drawback: the program did not tie to the purchase account. Therefore, we took advantage of an alternative method.

Play Market is installed about the same way as Google Services in Ramos I10 Pro. Only you need to copy all three files, including vending.apk. And take them from this. After copying and changing permission to restart the smartphone. Play Market installed.

In the new version of Nokia X, it became even a little closer to the original Android. Now we can call the shift from above two separate menus, with alerts and switches. This somewhat expands the functionality, the icons are placed more than before

Nokia X Achilles Fifth was Internet surfing, namely very slow rendering of web pages. In the second version of the smartphone, the Opera browser is installed as a standard. We viewed a lot of web pages through it and chrome. Impressions turned out to be much more pleasant, only in rare cases, the drawing lagged for a split second, and even then on very loaded sites.

Performance

For the second generation, Nokia X also chosen a single-chip production system for Qualcomm. From the next-generation basic series - Qualcomm Snapdragon S200, model MSM8210.

The central processor consists of two Cortex-A7 nuclei (Armv7-a architecture) with a frequency of 1.2 GHz. The graphics use the Adreno 302 chip 30. The configuration is very budget, more from Nokia X2 should not be waited. Fortunately, the manufacturer has expanded the amount of RAM to one gigabyte, which cannot but affect the performance favorable way.

Performance growth allows Snapdragon 200 easily bypass in Antutu 4 MediaTek MT6572, very common in budget smartphones. Previous Nokia X on this was not capable. And for GeekBench 3 there is no special difference: in both SOs, processor kernels are installed with the same characteristics. It is strange that it was not followed twice the amount of RAM.

	Nokia X2. (Qualcomm Snapdragon 200)	Nokia X. (Qualcomm Snapdragon S4 Play)	Explay atom MEDIATEK MT6572)	OPPO MUSE R821 MEDIATEK MT6572)
3DMark Ice Storm (more - better)	4094	2338	1882	1905
3DMark Ice Storm Extreme (More - Better)	2252	1296	812	939
3DMark Ice Storm Unlimited (More - Better)	3710	2245	—	—
Nenamark 2.	53.0 FPS.	32.3 FPS.	41.9 FPS.	—
Basemark X Middle Quality (more - better)	3682	—	—	—
Bonsai Benchmark.	1634 (23,3 FPS)	823 (11.7 fps)	—	—
Epic Citadel High Quality	42.9 FPS.	23.4 FPS.	—	—
EPIC CITADEL ULTRA HIGH QUALITY	32.3 FPS.	—	—	—

In synthetic 3DMark, superiority over MT6572 becomes more than double. Even in the most demanding mode, Epic Citadel Snapdragon 200 single-grip system demonstrates a decent result.

Google Chrome's trials Snapdragon 200 Single System conquers a similar MediaTek. Based on hardware capabilities, Nokia X2 could swing on medium games, but a very small amount of internal memory does not allow this. It is worth installing several third-party applications to replenish the spaces of the firmware, and, for example, not the most heavy Asphalt 8 will complain about the lack of memory. Fans of the X series are still incident to the casual entertainment.

Video playback

The MHL interface, like the Mobility DisplayPort, we did not find in this smartphone, so I had to restrict ourselves to testing the display of the video files on the device itself. To do this, we used a set of test files with one division by the frame with an arrow and a rectangle (see "Methods for testing the playback devices and displaying the video signal. Version 1 (for mobile devices)"). Screen shots with shutter speed in 1 C helped determine the nature of the output of video files with various parameters: resolution ranged (1280 × 720 (720p) and 1920 × 1080 (1080p) pixels) and frame rate (24, 25, 30, 50 and 60 frame / from). In the tests we used a regular video player. Test results are reduced to the table:

Note: If in both columns Uniformity and Pass Green estimates are exhibited, it means that, most likely, when viewing the films of artifacts caused by uneven alternation and passage of frames, or will not be seen at all, or their number and notice will not affect the preservation of viewing. Red marks indicate possible problems associated with playing relevant files.

If you restrict ourselves to the movie 24-25 frame / s, then by the frame output criterion, the quality of the video files on the screen of the smartphone itself is good, since frames (or frames) can be output with more or less uniform intervals and without frames. The displayed brightness range is equal to the standard range of 16-235, that is, in the shadows and in the lights there are all gradations of shades in the case of regular video files.

Let's try to play the top five files of common formats.

Format	Container, video, sound	MX Video Player.	Full video player
DVDRip.	AVI, XVID 720 × 400 2200 Kbps, MP3 + AC3	reproduces normal	reproduces normal, subtitles not
Web-DL SD	AVI, XVID 720 × 400 1400 Kbps, MP3 + AC3	reproduces normal	reproduces normal, subtitles not
Web-DL HD	MKV, H.264 1280 × 720 3000 Kbps, AC3	reproduces normal	reproduced without sound
BDRip 720p	MKV, H.264 1280 × 720 4000 Kbps, AC3	reproduces normal	reproduced without sound
BDRip 1080p.	MKV, H.264 1920 × 1080 8000 Kbps, AC3	reproduces normal	reproduced without sound

The new budget platform Nokia X2 works well with all five common formats, while its predecessor did not cope even with 720p. Hardware decoding AC3 tracks is not supported.

Battery life

The capacity of the Nokia X2 battery is 1800 mAh. Before the round value, the developers did not reach, but it is already better than the modest 1500 mA · h in the first modification.

The battery consumption is not even on the entire period of discharge, during the calculations it is worth adding about 6% of the time that the smartphone holds on the last percentage.

	Battery capacity	Reading mode	Video mode	3D game mode
Nokia X2.	1800 mA · h	12 h 40 min	7 h 45 min	4 h 25 min
Nokia X.	1500 mA · h	14 h 15 min	6 h 50 min.	3 h 50 min
Explay atom	2000 mA · h	9 h 50 min	5 h 40 min	—
OPPO MUSE R821	1700 mA · h	20 h 30 min	10 h 30 min	—
OPPO MIRROR R819.	2000 mA · h	10 h 20 min	8 h 20 min	5 h 00 min
Fly Luminor IQ453	2000 mA · h	10 h 00 min	7 h 00 min	4 h 10 min
Alcatel Ot Idol X	2000 mA · h	10 h 00 min	6 h 40 min	4 h 00 min

Autonomy Nokia X2 has become more balanced compared to the predecessor. In the reading mode, the smartphone holds less, but still not inferior to most competitors. But the more powerful SOC is more efficient to spend the charge in more loaded modes, allowing you to increase the battery life in games and when playing video. Charging the smartphone from the adapter from the configuration (5 V, 0.75 a) takes about four hours.

Conclusion

The Nokia X line continues to develop. In the second version of the device expanded functionality, stability improved, some annoying problems were corrected. Nokia X2 could boldly compete on all fronts with more non-zero budget smartphones, but it is difficult because of the increased price. The list of competitive advantages of the device is still the original design, although the deterioration of the quality of the assembly spoiled the impression. We hope that in the third version of Nokia X, the volume of flash memory will be increased to a viable 8 GB, and mobile Windows will leave something for the modest needs of the user.

Information about the brand, model and alternative names of a particular device, if any.

Design

Information on sizes and weight of the device presented in different units of measurement. Used materials offered colors, certificates.

Width Information about width - meant the horizontal side of the device when it is standard orientation during use.	68.3 mm (millimeters) 6.83 cm (centimeters) 0.22 ft (ft) 2.69 IN (inches)
Height Information about height - meant the vertical side of the device when it is standard orientation during use.	121.7 mm (millimeters) 12.17 cm (centimeters) 0.4 ft (ft) 4.79 IN (inches)
Thickness Information about the thickness of the device in different units of measurement.	11.1 mm (millimeters) 1.11 cm (centimeters) 0.04 ft (ft) 0.44 In (inches)
Weight Information about the weight of the device in different units of measurement.	149 g (grams) 0.33 LBS (pounds) 5.27 OZ (ounce)
Volume The approximate volume of the device calculated on the basis of the size provided by the manufacturer. Refers to devices with a form of rectangular parallelepiped.	92.26 cm³. (Cubic centimeters) 5.6 in³. (cubic inches)
Colors Information about the colors in which this device is available on sale.	Green Yellow The black White Grey Orange

SIM-card

The SIM card is used in mobile devices to save data certifying the authenticity of mobile services subscribers.

Mobile networks

Mobile network is a radio system that allows multiple mobile devices to exchange data among themselves.

Mobile communication technology and data transfer rate

Communication between devices in mobile networks is carried out through technologies that provide different data transfer rates.

Operating system

The operating system is system software, controlling and coordinating the hardware components in the device.

SOC (crystal system)

The system on the crystal (SOC) includes all the most important hardware components of the mobile device in one chip.

SOC (crystal system) The system on the crystal (SOC) integrates various hardware components, such as a processor, a graphics processor, memory, periphery, interfaces, etc., as well as the Softera needed for their operation.	Qualcomm Snapdragon 200 MSM8210
Technological process Information on the technological process to which the chip is made. The nanometers in the nanometers measured half the distance between the elements in the processor.	28 nm (nanometers)
Processor (CPU) The main function of the processor (CPU) of the mobile device is the interpretation and execution of instructions contained in software applications.	ARM Cortex-A7
Processor discharge The processor bit (bits) of the processor is determined by the size (in bits) of registers, targeted tires and tires for data. 64-bit processors have a higher performance compared to 32-bit, which are more productive for their part than 16-bit processors.	32 bits
Architecture of a set of commands Instructions are the commands with which the software is set / manages the operation of the processor. Information about the command set (ISA) that the processor can perform.	Armv7.
Second Level Cache Memory (L2) L2 (Level 2) Cache memory is slower than L1, but in return, it is distinguished by a large range that allows caching more data. It, as well as L1, is much faster than system memory (RAM). If the processor does not detect the requested data in L2, it continues to search them in L3 cache (if available) or in RAM memory.	1024 KB (kilobytes) 1 MB (megabytes)
Kingdom of processor cores The core of the processor performs software instructions. There are processors with one, two or more nuclei. The presence of a larger number of nuclei increases performance, allowing parallel execution of a plurality of instructions.	2
Processor clock frequency The processor clock frequency describes its speed by means of cycles per second. It is measured in megahertz (MHz) or Gighellians (GHZ).	1200 MHz (Meghertz)
Graphic Processor (GPU) The graphics processor (GPU) processes the calculations for various 2D / 3D graphic applications. In mobile devices, it is used most often by games, consumer interface, video applications, etc.	Qualcomm Adreno 302.
RAM (RAM) RAM (RAM) is used by the operating system and all installed applications. Data that are stored in RAM is lost after turning off or restarting the device.	1 GB (gigabytes)
RAM type (RAM) Information about the type of RAM (RAM) used by the device.	LPDDR2.

Built-in memory

Each mobile device has a built-in (non-removable) memory with a fixed volume.

Memory cards

Memory Cards are used in mobile devices to increase the amount of memory to save data.

Screen

The mobile device screen is characterized by its technology, resolution, pixel density, diagonal length, color depth, etc.

Type / Technology One of the main characteristics of the screen is the technology on which it is manufactured and on which the quality of the information image directly depends.	IPS.
Diagonal Mobile devices the screen size is expressed by the length of its diagonal, measured in inches.	4.3 in (inches) 109.22 mm (millimeters) 10.92 cm (centimeters)
Width Approximate screen width	2.21 In (inches) 56.19 mm (millimeters) 5.62 cm (centimeters)
Height Approximate screen height	3.69 IN (inches) 93.66 mm (millimeters) 9.37 cm (centimeters)
Aspect ratio The ratio of the size of the length of the screen to its short side	1.667:1 5:3
Resolution Screen resolution shows the number of pixels vertically and horizontally screen. Higher resolution means a clearer image item.	480 x 800 pixels
Pixel density Information on the number of pixels on a centimeter or an inch screen. Higher density allows you to show information on the screen with clearer items.	217 PPI (pixels per inch) 85 ppcm. (pixels for centimeter)
Color depth The color color depth reflects the total number of bits used for the color components in one pixel. Information about the maximum number of colors that the screen may show.	24 bits 16777216 Flowers
Screen Approximate area in percent, occupied by the screen on the front panel of the device.	63.52% (interest)
Other features Information about other features and screen characteristics.	Cucitive Multitach Resistance to scratches
	ClearBlack Display.

Sensors

Various sensors perform various quantitative measurements and convert physical indicators to signals that the mobile device recognizes.

Rear camera

The main mobile camera camera is usually located on its rear panel and can be combined with one or more additional cameras.

Sensor type Information about the camera sensor type. Some of the most widely used types of sensors in mobile devices cameras are CMOS, BSI, ISoCell, etc.	CMOS (Complemenient Metal-Oxide Semiconductor)
Sensor size Information about the sizes of the photo sensor used in the device. Usually cameras with a larger sensor and with a smaller pixel density offer higher image quality despite the lower resolution.	3.6 x 2.7 mm (millimeters) 0.18 in (inches)
Pixel size Pixels are usually measured in microns. Large pixels are able to capture more light and, therefore, provide better surveillance with low lighting and a wider dynamic range than smaller pixels. On the other hand, smaller pixels allow you to increase the resolution while saving the same sensor size.	1.406 μm (Mikrometters) 0.001406 mm (millimeters)
Crop-factor Crop-factor is the ratio between the size of the full-frame sensor (36 x 24 mm, the equivalent frame of the standard 35 mm film) and the size sensor sizes of the device. The specified number is the ratio of the diagonals of the full-frame sensor (43.3 mm) and the photo sensor of a particular device.	9.61
Svetlomila	f / 2.7
Focal length The focal length indicates the distance in millimeters from the sensor to the optical center of the lens. The equivalent focal length (35 mm) is the focal length of the mobile device chamber, equalized to the focal length of the 35mm full-length sensor, in which the same viewing angle will be reached. It is calculated by multiplying the real focal length of the camera of the mobile device to the crop factor of its sensor. Crop-factor can be defined as a ratio between diagonals 35 mm of a full-format sensor and a mobile device sensor.	3.13 mm (millimeters) 30.11 mm (millimeters) * (35 mm / Full Frame)
Type of outbreak Rear (rear) mobile cameras mainly use LED flashes. They can be in configuration with one, two or more light sources and differ in shape.	Led.
Image resolution	2560 x 1920 pixels 4.92 MP (Megapixels)
Video resolution	1280 x 720 pixels 0.92 MP (megapixels)
Video recording speed (personnel frequency) Information about the maximum recording speed (frames per second, FPS) supported by the camera at maximum resolution. Some of the most basic speed recording speeds 24 FPS, 25 FPS, 30 FPS, 60 FPS.	30 frames / sec (Frames per second)
Characteristics Information on additional software and hardware features of the rear (rear) camera.	Autofocus Digital zoom Geographic labels Touch focus Exposition compensation

Front-camera

Smartphones have one or more frontal chambers of various designs - POP-UP camera, swivel camera, cutout or hole in the display, camera under the display.

Svetlomila Lights (also known as a diaphragm, aperture or F-number) is an indicator of a lens aperture size that determines the amount of light falling onto the sensor. The lower the number F, the greater the diaphragm and the greater the light reaches the sensor. Typically indicates the number F corresponding to the maximum possible aperture of the diaphragm.	f / 2.8.
Image resolution One of the main characteristics of the cameras is the resolution. It is the number of horizontal and vertical pixels in the image. For convenience, smartphone manufacturers often indicate permission in megapixels, indicating an approximate number of pixels in millions.	640 x 480 pixels 0.31 MP (megapixels)
Video resolution Information on the maximum allowing video allowing that can record the camera.	640 x 480 pixels 0.31 MP (megapixels)

Audio

Information on the type of loudspeakers and supported by the audio technology.

Radio

Mobile radio radio is a built-in FM receiver.

Location

Information on navigation and location devices supported by the device.

Wi-Fi

Wi-Fi is a technology that provides wireless communication for data transfer to close distances between different devices.

Bluetooth

Bluetooth is the standard of secure wireless data transfer between different devices of different types for short distances.

Version There are several versions of Bluetooth, while each subsequent improves communication speed, coverage, contributes to more easily detecting and connecting devices. Information about the Bluetooth version of the device.	4.0
Characteristics Bluetooth uses different profiles and protocols that provide faster data exchange, energy savings, improve device detection, etc. Some of these profiles and protocols that support the device are shown here.	A2DP (Advanced Audio Distribution Profile) AVRCP (Audio / Visual Remote Control Profile) FTP (File Transfer Profile) GAVDP (Generic Audio / Video Distribution Profile) HFP (Hands-Free Profile) HID (Human Interface Profile) HSP (Headset Profile) OPP (OBJECT PUSH PROFILE) Pan (Personal Area Networking Profile) PBAP / PAB (Phone Book Access Profile) HS.

USB

USB (Universal Serial Bus) is an industrial standard that allows different electronic devices to exchange data.

Plug for headphones

This is an audio connector, which is also called the audio connector. The most widely used standard in mobile devices is 3.5 mm headphone jack.

Connecting devices

Information on other important connection technologies supported by the device.

Browser

The web browser is a software application for accessing and viewing information on the Internet.

Browser Information on some basic characteristics and standards supported by the device browser.

HTML HTML5. CSS 3.

Sound File Formats / Codecs

Mobile devices support different formats and codecs of sound files that are respectively preserved and encoded / decoded digital audio data.

Formats / Codecs Video Files

Mobile devices support different formats and codecs of video files that are respectively preserved and encoded / decoded digital video data.

Battery

Mobile batteries differ from each other in its capacity and technology. They provide an electrical charge needed for their operation.

Capacity The battery capacity shows the maximum charge that it is capable of saving, measured in milliamme aperture.	1800 mA · h (milliamper watch)
A type The type of battery is determined by its structure and, more specifically used by chemicals. There are different types of batteries, while most often in mobile devices are used lithium-ion and lithium-ion-polymer batteries.	Li-Ion (lithium-ion)
Talk time 2G. The time of the conversation in 2G is the period of time for which the battery charge is discharged completely at a continuous conversation in 2G network.	10 h (clock) 600 min (minutes) 0.4 days
2G waiting time Waiting time in 2G is the time period for which the battery charge is discharged completely when the device is in standby mode (STAND-BY) and connected to 2G network.	552 h (hours) 33120 min (minutes) 23 days
Talk time 3G. The conversation time in 3G is the time period for which the battery charge is discharged completely with a continuous conversation in the 3G network.	13 h (hours) 780 min (minutes) 0.5 days
3G waiting time Waiting time in 3G is a period of time for which the battery charge is discharged completely when the device is in standby mode (Stand-BY) and connected to 3G network.	552 h (hours) 33120 min (minutes) 23 days
Characteristics Information on some additional characteristics of the device battery.	Removable
	Battery Model: BV-5S

Specific absorption coefficient (SAR)

The SAR level indicates the number of electromagnetic radiation absorbed by the human body during using the mobile device.

SAR level for head (EU) The SAR level indicates the maximum number of electromagnetic radiation, which is subject to the human body if you hold the mobile device next to the ear in the negotiation position. In Europe, the maximum allowable SAR value for mobile devices is limited to 2 W / kg per 10 grams of human tissue. This standard is established by the Cenelec Committee in accordance with IEC standards, subject to ICNIRP instructions from 1998.	0.81 W / kg (Watt per kilogram)
SAR level for body (EU) The SAR level indicates the maximum number of electromagnetic radiation, which is subject to the human body if you keep your mobile device at the thigh level. The maximum allowable SAR value for mobile devices in Europe is 2 W / kg per 10 grams of human tissue. This standard is established by the Cenelec Committee subject to the ICNIRP instructions from 1998 and IEC standards.	0.78 W / kg (Watt per kilogram)
SAR level for head (USA) The SAR level indicates the maximum number of electromagnetic radiation, which is exposed to the human body if you hold the mobile device next to the ear. The maximum value used in the United States is 1.6 W / kg per 1 gram of human tissue. Mobile devices in the United States are controlled by CTIA, and FCC spends tests and sets them SAR values.	0.99 W / kg (Watt per kilogram)
Body SAR Level (USA) The SAR level indicates the maximum number of electromagnetic radiation, which is subject to the human body if you keep your mobile device at the thigh level. The highest permissible SAR value in the United States is 1.6 W / kg per gram of human tissue. This value is set by FCC, and CTIA controls the Mobile Device Compliance with this standard.	0.53 W / kg (Watt per kilogram)

All orders in the status of "expecting payment" after the day will be automatically canceled without prior notice.

In our online store the price of goods indicated on the site pages is final.

Payment procedure by electronic money, bank card, from a mobile account:

• After placing the order, your order will be placed in your personal account with the status. Waiting for checks"
• Our managers will check the presence in stock, and put the selected goods to the reserve. At the same time change the status of your order on " Paid". Next to the status" Paid"The link will appear" Pay"By clicking on which you will move to the selection page of the Robokassa site payment.
• After selecting the method and payment of the order, the status will automatically change to " Paid"Next, in the shortest possible time, the goods will be sent to the delivery method of delivery selected during the order formation process.

1. Cash payment

Cash is possible to pay the courier purchased goods purchased by you (delivering your goods), or in the store (with pickup). With cash, you are issued a commodity check, a cash check.

ATTENTION!!! Cash on delivery do not work, so payment upon receipt of the postal package is impossible!

2. Payment by bank transfer

For legal entities, we have provided for the opportunity to pay for purchases using cashless calculation. In the process of forming an order, select the payment method for cashless payments and enter the account data.

3. Payment via the payment terminal

Robokassa - allows you to accept payments from customers usingbank cards, at any electronic currencyusing servicesmobile commerce (MTS, MegaFon, Beeline), payments throughinternet bank leading banks of the Russian Federation, payments through ATMs, throughinstant payment terminalsas well as withapplications for iPhone.