home › Education › ZTE Blade A515 - Specifications. ZTE Blade A515 Bluetooth mobile phone is a standard for secure wireless data transfer between various devices of different types over short distances

ZTE Blade A515 - Specifications. ZTE Blade A515 Bluetooth mobile phone is a standard for secure wireless data transfer between various devices of different types over short distances

Screen type: IPS (In Plane Switching) is a high-quality liquid crystal matrix that was created to eliminate the main disadvantages of TN technology matrices. The IPS matrix most adequately conveys colors across the entire spectrum at different viewing angles, with the exception of some color positions. The TN matrix usually has a better response than IPS, but not always. So, when transitioning from gray to gray, the IPS matrix behaves better. This matrix is also resistant to pressure. Touching the TN or VA matrix results in a "excitement" or a certain reaction on the screen. The IPS matrix does not have this effect. In addition, ophthalmologists confirm that the IPS matrix is the most comfortable for the eyes. In this *s*m* way, the IPS matrix brings a bright and clear picture regardless of viewing angles, best for surfing the Internet and watching movies. But the most important thing is for image processing and viewing photos. LCD (Liquid Crystal Display) - Liquid crystal displays. The very first displays used in mobile devices, and not only in phones. Their main feature is that they have very low power consumption, due to the inability to display color images. They do not emit light and therefore phones are upgraded with backlight lamps. Some phones had several different backlight colors based on the presence of different LEDs around the perimeter of the display. This extraordinary solution was used, for example, in Ericsson phone A3618. On this type of display, pixels are clearly visible, and such displays cannot boast of high resolution. In order to extend the life of such displays, they were made inverse, i.e. text and symbols were not displayed as filled pixels, but, on the contrary, inactive against the background of filled ones. This resulted in light text on a dark background. Currently, this type of display is used in the cheapest budget models (Nokia 1112) and as an external display in some clamshells (Samsung D830).

TFT (Thin Film Transistor) - Liquid crystal displays based on thin film transistors with an active matrix. For each pixel there are three transistors corresponding to three colors (RGB - red, green, blue). On this moment, these are the most common displays and have a number of advantages over other displays. They are characterized by minimal response time and rapid development - ever-increasing resolution and number of colors. These displays are most common in mid-range and higher phones. Working resolutions for them: 128x160, 132x176, 176x208, 176x220, 240x320 and others, less common. Examples: Nokia N73 (240x320, 262k colors), Sony Ericsson K750i (176x220, 262K colors), Samsung D900 (240x320, 262K colors). TFTs are very rarely used as external displays for clamshells.

CSTN (Color Super Twisted Nematic) - Color liquid crystal displays with a passive matrix. Each pixel of such a display consists of three combined pixels, which correspond to three colors (RGB). Some time ago, almost all phones with color displays were based on this type. And now the destiny of such displays is budget models. The main disadvantage of such displays is their slowness. The undoubted advantage of such displays is their cost, which is significantly lower than TFT. Based on simple logic, we can assume that in the future TFT will displace this type of display from the mobile device market. The color evolution of such displays is quite extensive: from 16 to 65536 colors. Examples: Motorola V177 (128x160, 65K colors), Sony Ericsson J100i (96x64, 65K colors), Nokia 2310 (96x68, 65K colors).

UFB (Ultra Fine and Bright) - Liquid crystal displays with increased brightness and contrast on a passive matrix. We can say that this is an intermediate option between CSTN and TFT. This type of display boasts lower power consumption compared to TFT. For the most part, Samsung used such displays in mid-range phones. This type displays are not widely used. Examples: Samsung C100/110 (128x128, 65k colors).

TN is one of the matrix types of TFT screens. Roughly speaking, TN are the simplest and cheapest TFT matrices. Viewing angles are the narrowest.

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.	70.5 mm (millimeters) 7.05 cm (centimeters) 0.23 ft (feet) 2.78 in (inches)
Height Height information - refers to the vertical side of the device in its standard orientation during use.	142.5 mm (millimeters) 14.25 cm (centimeters) 0.47 ft (feet) 5.61 in (inches)
Thickness Information about the thickness of the device in different units of measurement.	7.8 mm (millimeters) 0.78 cm (centimeters) 0.03 ft (feet) 0.31 in (inches)
Weight Information about the weight of the device in different units of measurement.	126 g (grams) 0.28 lbs 4.46 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.	78.36 cm³ (cubic centimeters) 4.76 in³ (cubic inches)
Colors Information about the colors in which this device is offered for sale.	Black Blue
Materials for making the case Materials used to make the device body.	Plastic

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
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 900 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 800 MHz LTE 900 MHz LTE 1800 MHz LTE 2100 MHz LTE 2600 MHz

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.	MediaTek MT6735P
Technological process Information about technological process, on which the chip is made. Nanometers measure half the distance between elements in the processor.	28 nm (nanometers)
Processor (CPU) The primary function of a mobile device's processor (CPU) is to interpret and execute instructions contained in software applications.	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 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 as system memory, and other levels of cache memory. 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.	32 kB + 32 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.	512 kB (kilobytes) 0.5 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.	4
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).	1000 MHz (megahertz)
Graphics Processing Unit (GPU) Graphics processing unit (GPU) handles calculations for various 2D/3D graphic applications. IN mobile devices it is used most often by games, consumer interface, video applications, etc.	ARM Mali-T720 MP1
Number of cores GPU Like a CPU, a GPU is made up of several working parts called cores. They handle graphics calculations for various applications.	1
GPU clock speed Running speed is the clock speed of the GPU, measured in megahertz (MHz) or gigahertz (GHz).	400 MHz (megahertz)
Volume 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.	1 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.	Single channel
RAM frequency The frequency of RAM determines its operating speed, more specifically, the speed of reading/writing data.	533 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 in (inches) 127 mm (millimeters) 12.7 cm (centimeters)
Width Approximate screen width	2.45 in (inches) 62.26 mm (millimeters) 6.23 cm (centimeters)
Height Approximate screen height	4.36 in (inches) 110.69 mm (millimeters) 11.07 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. More a high resolution means sharper detail in the image.	720 x 1280 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.	294 ppi (pixels per inch) 115 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.	68.82% (percent)
Other characteristics Information about other screen features and characteristics.	Capacitive Multi-touch

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 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)
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.	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.	4160 x 3120 pixels 12.98 MP (megapixels)
Video resolution Information about the maximum supported resolution when shooting video with the device.	1280 x 720 pixels 0.92 MP (megapixels)
Video - frame rate/frames per second. 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 Geographical tags Panoramic photography HDR shooting Touch Focus Face recognition White Balance Adjustment ISO Setting Exposure compensation Self-timer Scene Selection Mode

Additional camera

Additional cameras are usually mounted above the device screen and are used mainly for video conversations, gesture recognition, etc.

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.	2200 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-Ion (Lithium-ion)
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.	8 h (hours) 480 min (minutes) 0.3 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.	180 h (hours) 10800 min (minutes) 7.5 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.	8 h (hours) 480 min (minutes) 0.3 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.	180 h (hours) 10800 min (minutes) 7.5 days
Characteristics Information about some additional characteristics of the device's battery.	Fixed

ZTE Blade A515 A bright new product in a thin, elegant case with support for two SIM cards and high-speed 4G Internet. The smartphone runs on the Android operating system, is equipped with a large screen, a quad-core processor and a 13 megapixel camera. The phone has voice dialing and voice control features.

Basic characteristics of ZTE Blade A515: two SIM cards, operating Android system 5.1, HD screen 5 inches diagonal, 4-core MediaTek processor MT6735P with a frequency of 1000 MHz, 13 MP main camera, 2200 mAh battery, Bluetooth version 4.0, GPS navigation, 8 GB of internal memory and 1 GB of RAM.

Use the capabilities of two SIM cards, save money on services mobile communications, pick up favorable rates for calls and internet. Separate personal and work calls, use one SIM card for the Internet and the second for calls. Two cameras, a main 13 MP with autofocus and a front 5 MP, allow you to take excellent photos, bright selfies and shoot videos in HD format. Thanks to support for 4G LTE networks, the ZTE Blade A515 user will be able to access the Internet at high speed, as well as watch online videos in high definition.

Full specifications, and Blade A515 user reviews see below.
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Full specifications of ZTE Blade A515. ZTE Blade a515 specifications.

SIM card quantity: 2 SIM cards / alternating
SIM card format: Micro-SIM / Nano-SIM
Case material: plastic
operating system: Android 5.1
Processor: 4-core 1 GHz / MediaTek MT6735P
Video processor: Mali-T720
Display: 5.0 inches IPS/ HD 1280 x 720/ Corning Gorilla Glass
Camera: 13 MP / flash / autofocus
Front-camera: 5 MP fixed focus
Video camera: HD video recording 1280 x 720 pixels
Battery: 2200 mAh
Talk time:
Standby time:
Built-in memory: 8 GB
RAM: 1 GB
Memory card: Micro SD up to 32 GB
Bluetooth: 4.0
Wi-Fi: yes
Dot Wi-Fi access: There is
Navigation: GPS
3G: supports
4G LTE: supports
Sensors: accelerometer/light/proximity
Music player: yes
Radio: FM radio
Speakerphone: yes
Dimensions: (H.W.T) 142.5 x 70.5 x 7.8 mm.
Weight: 126.5 grams.

Accelerometer(or G-sensor) - sensor of the device’s position in space. As a main function, the accelerometer is used to automatically change the orientation of the image on the display (vertical or horizontal). Also, the G-sensor is used as a pedometer; it can control various functions of the device by turning or shaking.
Gyroscope- a sensor that measures rotation angles relative to a fixed coordinate system. Capable of measuring rotation angles in several planes simultaneously. A gyroscope together with an accelerometer allows you to accurately determine the position of the device in space. Devices that use only accelerometers have lower measurement accuracy, especially when moving quickly. Also, the capabilities of the gyroscope can be used in modern games for mobile devices.
Light sensor- a sensor that sets the optimal brightness and contrast values for this level illumination The presence of a sensor allows you to increase the battery life of the device.
Proximity sensor- a sensor that detects when the device is close to your face during a call, turns off the backlight and locks the screen, preventing accidental clicks. The presence of a sensor allows you to increase the battery life of the device.
Geomagnetic sensor- a sensor for determining the direction of the world in which the device is directed. Tracks the orientation of the device in space relative to the magnetic poles of the Earth. The information received from the sensor is used in mapping programs for terrain orientation.
Atmospheric pressure sensor- sensor for precise measurement of atmospheric pressure. Is a part GPS systems, allows you to determine altitude above sea level and speed up location determination.
Touch ID- fingerprint identification sensor.

Accelerometer / Geomagnetic / Light / Proximity

Satellite navigation:

GPS(Global Positioning System - global positioning system) - satellite system navigation, providing measurement of distance, time, speed and determining the location of objects anywhere on Earth. The system is developed, implemented and operated by the US Department of Defense. The basic principle of using the system is to determine location by measuring distances to an object from points with known coordinates - satellites. The distance is calculated by the delay time of signal propagation from sending it by the satellite to receiving it by the antenna of the GPS receiver.
GLONASS(Global Navigation Satellite System) - Soviet and Russian satellite navigation system, developed by order of the USSR Ministry of Defense. The measurement principle is similar to the American GPS navigation system. GLONASS is designed for operational navigation and timing support for land, sea, air and space-based users. The main difference from the GPS system is that GLONASS satellites in their orbital motion do not have resonance (synchrony) with the rotation of the Earth, which provides them with greater stability.

General characteristics

Type

Deciding on the type of device (phone or smartphone?) is quite simple. If you need a simple and inexpensive device for calls and SMS, it is recommended to choose a telephone. A smartphone is more expensive, but it offers a wide variety of options: games, videos, the Internet, thousands of programs for all occasions. However, its battery life is significantly less than that of a regular phone.

smartphone Operating system (at the beginning of sales) Android 5.1 Case type classic Housing material plastic Control touch buttons Number of SIM cards 2 SIM card type

Modern smartphones can use not only regular SIM cards, but also their more compact versions micro SIM and nano SIM. An eSIM is a SIM card integrated into the phone. It takes up virtually no space and does not require a separate tray for installation. eSIM is not yet supported in Russia. Glossary of terms for the category Mobile phones

regular+micro SIM Multi-SIM mode variable Weight 127 g Dimensions (WxHxD) 71x143x8 mm

Screen

Screen type color IPS, touch Touch screen type multi-touch, capacitive Diagonal 5 inches. Image Size 1280x720 Pixels per inch (PPI) 294 Aspect Ratio 16:9 Automatic screen rotation There is

Calls

Light indication of events There is

Multimedia capabilities

Number of main (rear) cameras 1 Main (rear) camera resolution 13 MP Photoflash rear, LED Functions of the main (rear) camera autofocus Recording videos There is Max. video resolution 1280x720 Front-camera yes, 5 MP Audio MP3, FM radio Headphone jack 3.5 mm

Connection

Standard GSM 900/1800/1900, 3G, 4G LTE LTE bands support 1800, 2100, 2600, 800, 900 MHz Interfaces

Almost all modern smartphones have Wi-Fi and USB interfaces. Bluetooth and IRDA are a little less common. Wi-Fi is used to connect to the Internet. USB is used to connect your phone to a computer. Bluetooth is also found in many phones. It is used to connect wireless headphones, to connect the phone to wireless speakers, as well as for transferring files. A smartphone equipped with an IRDA interface can be used as universal remote control remote control. Glossary of terms for the category Mobile phones

Wi-Fi, Bluetooth, USB Satellite navigation

Built-in GPS and GLONASS modules allow you to determine the phone's coordinates using signals from satellites. If there is no GPS modern smartphone can determine its own location based on signals from base stations mobile operator. However, finding coordinates using satellite signals is usually much more accurate. Glossary of terms for the category Mobile phones

GPS

Memory and processor

CPU

Modern phones and smartphones usually use special processors - SoC (System on Chip, system on a chip), which, in addition to the processor itself, houses the graphics core, memory controller, input/output device controller, etc. Therefore, the processor largely determines the set of functions and device performance. Glossary of terms for the category Mobile phones

MediaTek MT6735P, 1000 MHz Number of processor cores 4 Mali-T720 video processor Built-in memory capacity 8 GB RAM capacity 1 GB Memory card slot yes, up to 32 GB, separate