Lenovo acquired Motorola's mobile division from Google back in the fall of 2014, but so far there has been no effect of this merger for ordinary users - as before, Lenovo gadgets were released, and in parallel with them, smartphones under the Moto brand.
Just recently, it was announced that Moto smartphones will be sold under the Lenovo Moto brand. However, under no circumstances should you think that the Chinese company is going to strangle the famous brand. On the contrary, it seems that this symbiosis has benefited everyone.
Here Lenovo is updating its logo, making it simpler and moving away from a single color palette in favor of a variety of colors, and now it is releasing an update to the top Vibe line, in which that same American “breed” is imperceptibly, but felt.
In Belarus, Lenovo sells it as a flagship Vibe X3, and its simplified version, which has 2 names depending on the sales region - Lenovo A7010 or Vibe X3 Lite.
“Almost a flagship” received the same 5.5-inch Full HD display, stereo speakers and a similar design, but simpler characteristics and body materials.
Specifications
Screen: 5.5 inches, IPS, 1920×1080 pixels, Gorilla Glass 3 protection.
CPU: eight-core Mediatek MT6753 with a maximum frequency of 1.3 GHz.
Graphic arts: Mali-T720MP3.
Memory: 2 GB RAM, 32 GB storage, microSD support up to 128 GB.
Cameras: 5 MP – front, 13 MP – main.
Battery: 3300 mAh.
Networks: two microSIM cards, 3G/4G, Wi-Fi a/b/g/n/ac, Bluetooth 4.0.
Dimensions and weight: 153.6x76.5x9.2 mm, weight - 158 grams.
OS: Android 5.1.
Unobtrusively Lenovo
Unlike the flagship Vibe X3, the Lite version, for obvious reasons, saved on materials. There are plastic ends and the same removable plastic cover (which also happily collects fingerprints).
However, unlike its predecessor (K3 Note - see), the new product looks more solid - the mother-of-pearl has disappeared, the Lenovo logo does not “scream” from the back cover, but only unobtrusively reminds of the manufacturer.
In addition, the curve of the rear panel and symmetrical speaker grids on the front part, characteristic of Motorola (as well as LG and HTC), have appeared here. Something from Moto is also present in the curved top and bottom ends. In general, there is an infusion of fresh blood into the design of the device.
Compare the previously Lenovo-specific design of the K3 Note (right) and the new A7010 (Vibe X3 Lite):
The lid, although it gets dirty, does not slip in the hand (thanks to the bend for this), the buttons are in their places, and the case does not creak. The large gadget lies comfortably in your hand, see for yourself in a short video:
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However, there is also a small fly in the ointment - like the K3 Note, there is no backlight for the touch buttons under the screen.
The screen is much better than its predecessor
Despite the mid-budget status of the device, Lenovo did not skimp on a good IPS matrix. Yes, it does not reach flagship status, but at the same time it produces great brightness and excellent, realistic colors that practically do not “fading” when tilted. There's a lot of progress here.
Regarding clarity and resolution, we will once again say that for 5.5 inches the FullHD picture is more than sufficient. A good confirmation is the latest Apple iPhone 6s, which has similar diagonal and display resolution parameters.
Among the software features, there is smart brightness (additional brightness in the sun), as well as adaptive and night modes that allow you to protect your eyes.
Enough productivity for everyone
An interesting point is that the Lenovo A7010 has worse hardware than the K3 Note. The popular AnTuTu comparison test produces fewer “parrots” - 37,000 versus 44,200. But you really don’t notice this.
Almost pure Android 5.1 (another Moto feature) simply “flies” without a hint of lag or slowdown, the smartphone perfectly handles even “heavy” games like WOT Blitz (20-45 fps at maximum settings) and does not even get noticeably warm after half an hour of battle.
Another proof that optimization is no less important than powerful hardware.
8.5 hours video playback
Lenovo A7010 has a medium-sized battery (3300 mAh), but a fairly economical processor, which ultimately results in a day of work without charging under heavy loads (an hour of games, a couple of hours on the Internet, half an hour of calls and constant synchronization of Facebook, Skype and two email accounts). boxes).
At the same time, at the end of the day in this mode, you will still have 15-20% charge left. If you use the charge more economically, you can count on a couple of days of work.
In our test of continuous video playback at maximum brightness, the smartphone lasted 8.5 hours - a very good result.
Decent camera not for night photography
Let's finish our review with a camera test. There's nothing special here - the results are above average and will satisfy most users.
While filming in different modes, we did not identify any obvious disadvantages. The only exception was night shooting, however, miracles were not expected here. For examples of photos taken with the Lenovo A7010 (including selfies), see the gallery below:
Eventually
We liked the Lenovo A7010 (Vibe X3 Lite) for its balance. Everything here is solid and good, and at times you can feel the hand of Motorola engineers.
The gadget is well assembled, even without metal in the body, the cameras shoot at a solid “7” (out of 10), there are no complaints at all about the screen, as well as about the battery life. As for performance, it should be enough for 90% of potential buyers.
Only the price makes me wonder. For example, velcom sells a device for 6 million rubles, and for this money you can find several interesting alternatives. For example, the super popular Xiaomi Redmi Note 3, which is in no way inferior to it, can be purchased for 4.1 million rubles.
However, you should wait a little for the price to drop, and then the Lenovo A7010’s position will become even more attractive. There is something in this seemingly uninteresting middle peasant that attracts attention.
Simplified versions of the flagship are such a cunning marketing ploy to present an ordinary budget employee as something extraordinary. Today we are looking at a smartphone that has two variants of the name – the serial Lenovo A7010 and the spectacular selling one – Lenovo Vibe X3 Lite. Budget or lightweight flagship?
Design
Externally, Lenovo Vibe X3 Lite is a standard smartphone, without any special differences from its counterparts. The volume and power buttons are on the right side, the microUSB connector is on the bottom, and the headphone output is on the top.
I was pleasantly pleased with the soft touch on the rear panel - the white version that we tested looks stylish, and does not get dirty, scratch, or slip out of your hands.
The cover is removable, under it there is a battery, a slot for a microSD memory card and two slots for SIM cards.
The buttons here are touch sensitive, located under the screen. Whether this is more convenient than on-screen interface buttons is a matter of taste, but the fact that they are not highlighted here is a failure. In daylight this is not so important, but in slightly darker conditions you simply will not find them - they are completely invisible even with the minimum screen brightness.
On the back of the Lenovo Vibe X3 Lite, in addition to the already familiar camera eye, flash and noise reduction microphone, there is a fingerprint scanner. Conveniently, it reads the fingerprint in both vertical and horizontal positions of the smartphone. The speed and accuracy of operation is not the same as that of flagships, but much better than you expect from an inexpensive device.
Display
Lenovo Vibe X3 Lite has a 5.5-inch display with a resolution of 1920x1080 pixels. The pixel density is 401 ppi, the maximum brightness is 353 cd/m², the minimum is 17, the measured contrast is 1 in 1026. The picture looks very detailed and clear, and even upon close examination you will not be able to see individual pixels.
In terms of color rendering and gamma, the smartphone is of high quality, except that at maximum brightness the colors are a little overexposed and fade. If you like warmer shades or, on the contrary, cooler shades, in Vibe X3 Lite you can choose a color display scheme in the screen settings.
When changing viewing angles, the picture remains rich and contrasting and the text is easy to read. Therefore, watch what you read on the subway - a neighbor can easily spy on it. In the sun and indoors, the brightness is enough to see the image clearly. But the minimum brightness is a bit high, so be sure to use the night mode - it helps a lot to read the smartphone screen in the dark.
Vibe X3 Lite is positioned as a multimedia smartphone - a large Full HD display is complemented by two front 1.5 W stereo speakers with Dolby Atmos technology. The correct placement of the speakers really creates a stereo effect when watching movies, but it lacks low frequencies, so you'll have to limit yourself to movies - there's not enough bass for music. True, the smartphone perfectly compensates for its quality with quantity - the speakers are extremely loud, so you will hear a call even if the smartphone is in your bag.
Cameras
The main camera of the Lenovo Vibe X3 Lite with a 13 megapixel sensor takes good pictures in the daytime or with the flash, which is very powerful here. I don’t recommend shooting in the dark without a flash - the optics and sensor are not the brightest, and there is no stabilization system, so you will get a blurry picture with a lot of noise. So when shooting at night, I recommend thinking about a tripod or some kind of support.
The camera interface is minimalistic, but there are all the basic settings to get the most out of the camera. Of the special shooting modes, only panorama is preset.
Video is recorded in Full HD format, without any additional settings.
“Photographers on the run” will appreciate the smart function of quickly launching the camera by double-pressing the volume key. In 2 seconds, the camera turns on and immediately takes a photo, so you have time to catch birds in flight or a particularly funny cat sitting on your neighbor’s windowsill.
The front camera of the Lenovo Vibe X3 Lite is listed as five-megapixel, but the quality of the images hints that it is more likely a two-megapixel module, software interpolated to five - the face turns out to be quite blurred. But when photographing in the dark, it can easily compete with others thanks to its backlight function. This way, more light falls on the face and the photo turns out clearer, and unlike a flash, the light is soft and diffused, so it doesn’t hurt the eyes or make the face look flat, but neatly reveals the light-shadow pattern.
Performance
The Vibe X3 Lite's hardware is average - the MediaTek MT6753 with 2 GB of RAM does not pretend to be ultra-fast. In games, the situation turned out to be sad - Asfalt 8 at maximum graphics settings showed comics instead of normal video motion. There’s no need to even talk about the graphics details. So if you plan to play on this smartphone, then moderate your gaming fervor to Clash of clans or Angry birds.
The smartphone copes with everyday tasks without panic, loading applications quite smoothly and quickly. You can switch between them if you do not turn on the power saving mode - several applications are stored in the cache without unloading, so you can even continue a stopped game.
The Lenovo Vibe X3 Lite has 32 GB of internal memory; a microSD memory card can be installed if desired.
Software
Out of the box, the Lenovo Vibe X3 Lite comes with Android 5.1 Lollipop and Lenovo's proprietary shell with a number of pre-installed applications - an antivirus, an audio player and a couple of games. The system works great, even though the processor here is not the most powerful. Work screens scroll smoothly, applications launch quickly, and switching between them is easy. In this regard, working with a smartphone fully meets expectations for this price.
The fingerprint scanner works quite quickly and correctly. In addition to the smartphone unlocking function, several useful functions were added to the scanner - take a photo, instantly launch the camera, and so on.
Autonomy
The smartphone is powered by a 3300 mAh battery. With such characteristics, this is enough for one and a half to two days of work, or 15 hours of constant work - very good indicators for a modern smartphone.
Quite successful formed the basis for the Vibe X3 Lite model, information about which appeared on the Internet. It has already become a tradition that the website of the Ministry of Industry of China becomes a source of information about upcoming new products. That's where we got information about the Vibe X3 Lite, which is designated there as Lenovo K51c78.
Specifications Lenovo Vibe X3 Lite
The photos of the device themselves tell us a little about the smartphone, but a quick glance is enough to understand that the style is kept in the spirit of the Vibe X3. There are no keys or inscriptions on the front panel, only a screen and two speakers with an emphatically large grille at the top and bottom. The smartphone itself is large, the screen diagonal is 5.5 inches, dimensions are 153x75.9x8.7 mm, the frames are not the thinnest. The display will have FullHD resolution and will most likely be based on an IPS matrix. The device has a fingerprint scanner, a 13 megapixel main camera and a 5 megapixel front camera, a 3300 mAh battery and is controlled by Android 5.1. Judging by the available data, the hardware platform is an 8-core processor with a clock frequency of 1.3 GHz, 2 GB of RAM and 16 GB of internal memory. There is support for two SIM cards and all mobile network standards, including LTE. The estimated price tag for Lenovo Vibe X3 Lite will be $140.
Lenovo A7010 (aka Lenovo Vibe X3 Lite and Lenovo A7010a48) is one of the first mobile devices from a Chinese manufacturer that combines the features of Lenovo and Motorola smartphones. The device is a follower of the device, which managed to gain sufficient popularity in 2015 and at the same time has an original design, as well as good technical characteristics.
Equipment
The smartphone comes with: a protective film, a bumper, a microUSB cable, a charger and a set of instructions.
Specifications
The device has an 8-core MTK6753 processor with a clock frequency of 1.3 GHz, 2 GB of RAM and 32 GB of internal memory, of which about 24 GB is available to the user. There is support for microSD memory cards with a capacity of up to 128 GB. The Mali video processor, T720MP3, is responsible for graphics processing.
The display diagonal is 5.5 inches with a resolution of 1920 x 1080 pixels. The surface of the screen is covered with protective glass Gorilla Glass 3, which helps protect it from scratches.
There are two cameras: front 5 and main 13 MP with dual LED flash and capable of recording Full HD video at 30 frames per second.
The telephone module has two microSIM slots with support for 2G, 3G and 4G LTE networks. The dimensions of the device are 153.6 x 76.5 x 9 mm, and the weight is 160 grams.
Battery capacity is 3300 mAh. The device has two stereo speakers with support for Dolby Atmos enhanced sound technology.
Lenovo A7010 has OTG support, which allows you to connect all kinds of peripherals (keyboards, mice, modems) and storage devices (flash drives, hard drives) to it. There is also an NFC module.
In the AnTuTu test, the device scores 37175 points. The smartphone runs on Android 5.1 operating system
Appearance
The appearance of the device is very similar to the Moto line and this is not surprising, because it was the Motorola Mobility division that began developing Lenovo smartphones. The Lenovo Vibe X3 Lite body is made of aluminum with rounded edges, which gives the device a pleasant appearance. The removable back cover is plastic, not easily soiled.
On the front side of the smartphone there is a large 5.5-inch screen, three touch navigation buttons, a camera and sensors. In addition, there are two stereo speakers on the top and bottom with support for Dolby Atmos technology.
Video: unpacking a smartphone
On the back there is a camera with flash, a microphone, the Lenovo logo and a fingerprint scanner.
The power button and volume rocker are located on the right side of the smartphone.
The microUSB connector and microphone are located on the bottom edge. The smartphone is available in black and white colors.
Video: appearance, interface
Results
The Lenovo A7010 smartphone (Lenovo Vibe X3 Lite) is an interesting, affordable smartphone that will certainly gain popularity among people who want to get a mobile device with rich functionality at an affordable price.
The main advantages of a smartphone:
- high-quality assembly
- nice appearance
- powerful sound
- fingerprint scanner and NFC module
- OTG support
Information about the make, model, and alternative names of the specific device, if available.
Design
Information about the dimensions and weight of the device, presented in different units of measurement. Materials used, colors offered, certificates.
| Width Width information - refers to the horizontal side of the device in its standard orientation during use. | 76.5 mm (millimeters) 7.65 cm (centimeters) 0.25 ft (feet) 3.01 in (inches) |
| Height Height information - refers to the vertical side of the device in its standard orientation during use. | 154 mm (millimeters) 15.4 cm (centimeters) 0.51 ft (feet) 6.06 in (inches) |
| Thickness Information about the thickness of the device in different units of measurement. | 9.3 mm (millimeters) 0.93 cm (centimeters) 0.03 ft (feet) 0.37 in (inches) |
| Weight Information about the weight of the device in different units of measurement. | 175 g (grams) 0.39 lbs 6.17 oz (ounces) |
| Volume The approximate volume of the device, calculated based on the dimensions provided by the manufacturer. Refers to devices with the shape of a rectangular parallelepiped. | 109.56 cm³ (cubic centimeters) 6.65 in³ (cubic inches) |
| Colors Information about the colors in which this device is offered for sale. | Black White |
| Materials for making the case Materials used to make the device body. | Polycarbonate Aluminium alloy |
SIM card
The SIM card is used in mobile devices to store data that certifies the authenticity of mobile service subscribers.
Mobile networks
A mobile network is a radio system that allows multiple mobile devices to communicate with each other.
| GSM GSM (Global System for Mobile Communications) is designed to replace the analogue mobile network (1G). For this reason, GSM is often called a 2G mobile network. It is improved by the addition of GPRS (General Packet Radio Services), and later EDGE (Enhanced Data rates for GSM Evolution) technologies. | GSM 850 MHz GSM 900 MHz GSM 1800 MHz GSM 1900 MHz |
| TD-SCDMA TD-SCDMA (Time Division Synchronous Code Division Multiple Access) is a 3G mobile network standard. It is also called UTRA/UMTS-TDD LCR. It was developed as an alternative to the W-CDMA standard in China by the Chinese Academy of Telecommunications Technology, Datang Telecom and Siemens. TD-SCDMA combines TDMA and CDMA. | TD-SCDMA 1880-1920 MHz (X3c50) TD-SCDMA 2010-2025 MHz (X3c50) |
| UMTS UMTS is an abbreviation for Universal Mobile Telecommunications System. It is based on the GSM standard and belongs to 3G mobile networks. Developed by 3GPP and its biggest advantage is providing greater speed and spectral efficiency thanks to W-CDMA technology. | UMTS 850 MHz UMTS 900 MHz UMTS 1900 MHz UMTS 2100 MHz |
| LTE LTE (Long Term Evolution) is defined as a fourth generation (4G) technology. It is developed by 3GPP based on GSM/EDGE and UMTS/HSPA to increase the capacity and speed of wireless mobile networks. The subsequent technology development is called LTE Advanced. | LTE 1800 MHz LTE 2100 MHz LTE 2600 MHz LTE-TDD 2300 MHz (B40) LTE-TDD 2500 MHz (B41) LTE-TDD 2600 MHz (B38) LTE-TDD 1900 MHz (B39) (X3c50) LTE 900 MHz (X3c40) LTE 850 MHz (X3c40) LTE 800 MHz (X3c40) |
Mobile communication technologies and data transfer speeds
Communication between devices on mobile networks is carried out using technologies that provide different data transfer rates.
Operating system
An operating system is a system software that manages and coordinates the operation of hardware components in a device.
SoC (System on Chip)
A system on a chip (SoC) includes all the most important hardware components of a mobile device on one chip.
| SoC (System on Chip) A system on a chip (SoC) integrates various hardware components, such as a processor, graphics processor, memory, peripherals, interfaces, etc., as well as the software necessary for their operation. | Qualcomm Snapdragon 808 MSM8992 |
| Technological process Information about the technological process by which the chip is manufactured. Nanometers measure half the distance between elements in the processor. | 20 nm (nanometers) |
| Processor (CPU) The primary function of a mobile device's processor (CPU) is to interpret and execute instructions contained in software applications. | 2x 1.8 GHz ARM Cortex-A57, 4x 1.44 GHz ARM Cortex-A53 |
| Processor size The size (in bits) of a processor is determined by the size (in bits) of the registers, address buses, and data buses. 64-bit processors have higher performance compared to 32-bit processors, which in turn are more powerful than 16-bit processors. | 64 bit |
| Instruction Set Architecture Instructions are commands with which the software sets/controls the operation of the processor. Information about the instruction set (ISA) that the processor can execute. | ARMv8-A |
| Level 0 cache (L0) Some processors have L0 (level 0) cache, which is faster to access than L1, L2, L3, etc. The advantage of having such memory is not only higher performance, but also reduced power consumption. | 4 kB + 4 kB (kilobytes) |
| Level 1 cache (L1) Cache memory is used by the processor to reduce access time to more frequently used data and instructions. L1 (level 1) cache is small in size and works much faster than both system memory and other cache levels. If the processor does not find the requested data in L1, it continues to look for it in the L2 cache. On some processors, this search is performed simultaneously in L1 and L2. | 16 kB + 16 kB (kilobytes) |
| Level 2 cache (L2) L2 (level 2) cache is slower than L1 cache, but in return it has a higher capacity, allowing it to cache more data. It, like L1, is much faster than system memory (RAM). If the processor does not find the requested data in L2, it continues to look for it in the L3 cache (if available) or in RAM memory. | 2048 kB (kilobytes) 2 MB (megabytes) |
| Number of processor cores The processor core executes software instructions. There are processors with one, two or more cores. Having more cores increases performance by allowing multiple instructions to be executed in parallel. | 6 |
| CPU clock speed The clock speed of a processor describes its speed in terms of cycles per second. It is measured in megahertz (MHz) or gigahertz (GHz). | 1800 MHz (megahertz) |
| Graphics Processing Unit (GPU) The Graphics Processing Unit (GPU) handles calculations for various 2D/3D graphics applications. In mobile devices, it is most often used by games, consumer interfaces, video applications, etc. | Qualcomm Adreno 418 |
| GPU clock speed Running speed is the clock speed of the GPU, measured in megahertz (MHz) or gigahertz (GHz). | 600 MHz (megahertz) |
| Amount of random access memory (RAM) Random access memory (RAM) is used by the operating system and all installed applications. Data stored in RAM is lost after the device is turned off or restarted. | 3 GB (gigabytes) |
| Type of random access memory (RAM) Information about the type of random access memory (RAM) used by the device. | LPDDR3 |
| Number of RAM channels Information about the number of RAM channels that are integrated into the SoC. More channels mean higher data rates. | Dual channel |
| RAM frequency The frequency of RAM determines its operating speed, more specifically, the speed of reading/writing data. | 933 MHz (megahertz) |
Built-in memory
Each mobile device has built-in (non-removable) memory with a fixed capacity.
Memory cards
Memory cards are used in mobile devices to increase the storage capacity for storing data.
Screen
The screen of a mobile device 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 by which it is made and on which the quality of the information image directly depends. | IPS |
| Diagonal For mobile devices, screen size is expressed by the length of its diagonal, measured in inches. | 5.5 in (inches) 139.7 mm (millimeters) 13.97 cm (centimeters) |
| Width Approximate screen width | 2.7 in (inches) 68.49 mm (millimeters) 6.85 cm (centimeters) |
| Height Approximate screen height | 4.79 in (inches) 121.76 mm (millimeters) 12.18 cm (centimeters) |
| Aspect Ratio The ratio of the dimensions of the long side of the screen to its short side | 1.778:1 16:9 |
| Permission Screen resolution shows the number of pixels vertically and horizontally on the screen. Higher resolution means clearer image detail. | 1080 x 1920 pixels |
| Pixel Density Information about the number of pixels per centimeter or inch of the screen. Higher density allows information to be displayed on the screen with clearer detail. | 401 ppi (pixels per inch) 157 ppcm (pixels per centimeter) |
| Color depth Screen color depth reflects the total number of bits used for color components in one pixel. Information about the maximum number of colors that the screen can display. | 24 bit 16777216 flowers |
| Screen area Approximate percentage of screen area occupied by the screen on the front of the device. | 71.01% (percent) |
| Other characteristics Information about other screen features and characteristics. | Capacitive Multi-touch Scratch resistance |
| Corning Gorilla Glass 3 1500:1 contrast ratio 100% NTSC Viewing angle - 178° |
Sensors
Different sensors perform different quantitative measurements and convert physical indicators into signals that a mobile device can recognize.
Main camera
The main camera of a mobile device is usually located on the back of the body and is used for taking photos and videos.
| Sensor model Information about the manufacturer and model of the photo sensor used in the device's camera. | Sony IMX230 Exmor RS |
| Sensor type | |
| Sensor size Information about the dimensions of the photosensor used in the device. Typically, cameras with larger sensors and lower pixel densities offer higher image quality despite the lower resolution. | 5.99 x 4.5 mm (millimeters) 0.29 in (inches) |
| Pixel size The smaller pixel size of the photosensor allows more pixels per unit area, thus increasing resolution. On the other hand, a smaller pixel size can have a negative impact on image quality at high ISO levels. | 1.12 µm (micrometers) 0.00112 mm (millimeters) |
| Crop factor The crop factor is the ratio between the dimensions of the full-frame sensor (36 x 24 mm, equivalent to a frame of standard 35 mm film) and the dimensions of the device's photosensor. The indicated number represents the ratio of the diagonals of the full-frame sensor (43.3 mm) and the photosensor of a particular device. | 5.78 |
| ISO (light sensitivity) ISO indicators determine the level of light sensitivity of the photosensor. A lower value means weaker light sensitivity and vice versa - higher values mean higher light sensitivity, i.e. better ability of the sensor to work in low light conditions. | 100 - 1600 |
| Diaphragm | f/2 |
| Focal length Focal length is the distance in millimeters from the photosensor to the optical center of the lens. The equivalent focal length is also indicated, providing the same field of view with a full frame camera. | 4.7 mm (millimeters) 27.16 mm (millimeters) *(35 mm / full frame) |
| Flash type The most common types of flashes in mobile device cameras are LED and xenon flashes. LED flashes produce softer light and, unlike brighter xenon flashes, are also used for video shooting. | Double LED |
| Image Resolution One of the main characteristics of mobile device cameras is their resolution, which shows the number of horizontal and vertical pixels in the image. | 5344 x 3006 pixels 16.06 MP (megapixels) |
| Video resolution Information about the maximum supported resolution when shooting video with the device. | 3840 x 2160 pixels 8.29 MP (megapixels) |
Information about the maximum number of frames per second (fps) supported by the device when shooting video at the maximum resolution. Some of the main standard video shooting and playback speeds are 24p, 25p, 30p, 60p. | 30fps (frames per second) |
| Characteristics Information about other software and hardware features related to the main camera and improving its functionality. | Autofocus Continuous shooting Digital zoom Digital image stabilization Geographical tags Panoramic photography HDR shooting Touch Focus Face recognition White Balance Adjustment ISO Setting Exposure compensation Scene Selection Mode |
| 6-element lens Phase detection |
Additional camera
Additional cameras are usually mounted above the device screen and are used mainly for video conversations, gesture recognition, etc.
| Sensor type Digital cameras use photo sensors to take photographs. The sensor, as well as optics, are one of the main factors in the quality of the camera in a mobile device. | CMOS (complementary metal-oxide semiconductor) |
| Diaphragm Aperture (f-number) is the size of the aperture opening that controls the amount of light reaching the photosensor. A lower f-number means the aperture opening is larger. | f/2.2 |
| Image Resolution Information about the maximum resolution of the additional camera when shooting. In most cases, the resolution of the secondary camera is lower than that of the main camera. | 3264 x 2448 pixels 7.99 MP (megapixels) |
| Video resolution Information about the maximum supported resolution when shooting video with an additional camera. | 1920 x 1080 pixels 2.07 MP (megapixels) |
| Video - frame rate/frames per second. Information about the maximum number of frames per second (fps) supported by the secondary camera when shooting video at the maximum resolution. | 30fps (frames per second) |
Audio
Information about the type of speakers and audio technologies supported by the device.
Radio
The radio of the mobile device is a built-in FM receiver.
Location determination
Information about the navigation and location technologies supported by your device.
WiFi
Wi-Fi is a technology that provides wireless communication for transmitting data over close distances between various devices.
Bluetooth
Bluetooth is a standard for secure wireless data transfer between various devices of different types over short distances.
USB
USB (Universal Serial Bus) is an industry standard that allows different electronic devices to exchange data.
Headphone jack
This is an audio connector, also called an audio jack. The most widely used standard in mobile devices is the 3.5mm headphone jack.
Connecting devices
Information about other important connection technologies supported by your device.
Browser
A web browser is a software application for accessing and viewing information on the Internet.
Video file formats/codecs
Mobile devices support different video file formats and codecs, which respectively store and encode/decode digital video data.
Battery
Mobile device batteries differ from each other in their capacity and technology. They provide the electrical charge necessary for their functioning.
| Capacity A battery's capacity indicates the maximum charge it can hold, measured in milliamp-hours. | 3500 mAh (milliamp-hours) |
| Type The type of battery is determined by its structure and, more precisely, the chemicals used. There are different types of batteries, with lithium-ion and lithium-ion polymer batteries being the most commonly used batteries in mobile devices. | Li-polymer |
| 2G talk time 2G talk time is the period of time during which the battery charge is completely discharged during a continuous conversation on a 2G network. | 31 h (hours) 1860 min (minutes) 1.3 days |
| 2G latency 2G standby time is the period of time during which the battery charge is completely discharged when the device is in stand-by mode and connected to a 2G network. | 600 h (hours) 36000 min (minutes) 25 days |
| 3G talk time 3G talk time is the period of time during which the battery charge is completely discharged during a continuous conversation on a 3G network. | 26 h (hours) 1560 min (minutes) 1.1 days |
| 3G latency 3G standby time is the period of time during which the battery charge is completely discharged when the device is in stand-by mode and connected to a 3G network. | 600 h (hours) 36000 min (minutes) 25 days |
| 4G latency 4G standby time is the period of time during which the battery charge is completely discharged when the device is in stand-by mode and connected to a 4G network. | 618 h (hours) 37080 min (minutes) 25.8 days |
| Adapter output power Information about the electrical current (measured in amperes) and electrical voltage (measured in volts) that the charger supplies (power output). Higher power output ensures faster battery charging. | 5.2 V (volts) / 2 A (amps) |
| Fast charging technology Fast charging technologies differ from each other in terms of energy efficiency, supported output power, control of the charging process, temperature, etc. The device, battery and charger must be compatible with fast charging technology. | Qualcomm Quick Charge 2.0 |
| Characteristics Information about some additional characteristics of the device's battery. | Fast charging Fixed |
Specific Absorption Rate (SAR)
The SAR level refers to the amount of electromagnetic radiation absorbed by the human body while using a mobile device.
| Head SAR level (EU) The SAR level indicates the maximum amount of electromagnetic radiation that the human body is exposed to when holding a mobile device close to the ear in a conversation position. In Europe, the maximum permissible SAR value for mobile devices is limited to 2 W/kg per 10 grams of human tissue. This standard has been established by the CENELEC Committee in accordance with IEC standards, subject to the ICNIRP guidelines of 1998. | 0.464 W/kg (Watt per kilogram) |
| Body SAR level (EU) The SAR level indicates the maximum amount of electromagnetic radiation to which the human body is exposed when holding a mobile device at hip level. The maximum permissible SAR value for mobile devices in Europe is 2 W/kg per 10 grams of human tissue. This standard has been established by the CENELEC Committee in compliance with the ICNIRP 1998 guidelines and IEC standards. | 0.507 W/kg (Watt per kilogram) |
| Head SAR level (US) The SAR level indicates the maximum amount of electromagnetic radiation that the human body is exposed to when holding a mobile device near the ear. The maximum value used in the USA is 1.6 W/kg per 1 gram of human tissue. Mobile devices in the US are regulated by the CTIA, and the FCC conducts tests and sets their SAR values. | 0.255 W/kg (Watt per kilogram) |
| Body SAR level (US) The SAR level indicates the maximum amount of electromagnetic radiation to which the human body is exposed when holding a mobile device at hip level. The highest permissible SAR value in the USA is 1.6 W/kg per 1 gram of human tissue. This value is set by the FCC, and the CTIA monitors mobile devices' compliance with this standard. | 0.767 W/kg (Watt per kilogram) |
