Vertex Impress needles characteristics. Vertex Impress Eagle mobile phone. Communication between devices in mobile networks is carried out using technologies that provide different data transfer rates

This is the official instruction for VERTEX Impress Eagle in Russian, which is suitable for Android 6.0. If you have updated your VERTEX smartphone to a more recent version or “rolled back” to an earlier one, then you should try other detailed operating instructions that will be presented below. We also suggest that you familiarize yourself with the quick user instructions in question-answer format.

Official website of VERTEX?

You have come to the right place, because all the information from the official website of the VERTEX company, as well as a lot of other useful content, is collected here.

Settings-> About phone:: Android version (a few clicks on the item will launch the "Easter egg") ["Out of the box" Android OS version - 6.0].

We continue to configure the smartphone

How to update drivers on VERTEX

You need to go to "Settings -> About phone -> Kernel version"

How to enable Russian keyboard layout

Go to the section "Settings->Language and input->Select language"

How to connect 4g or switch to 2G, 3G

"Settings-> More-> Mobile network-> Data transfer"

What to do if you turned on child mode and forgot your password

Go to "Settings-> Language and keyboard-> section (keyboard and input methods)-> check the box next to "Google voice input"

Settings->Display:: Auto-rotate screen (uncheck)

How to set a melody for an alarm clock?

Settings->Display->Brightness->right (increase); left (decrease); AUTO (automatic adjustment).

Settings->Battery->Energy Saving (check the box)

Enable display of battery charge status in percent

Settings->Battery->Battery Charge

How to transfer phone numbers from SIM card to phone memory? Importing numbers from a SIM card

Go to the Contacts app
Click on the "Options" button -> select "Import/Export"
Select where you want to import contacts from -> “Import from SIM card”

How to add a contact to the blacklist or block a phone number?

How to set up the Internet if the Internet does not work (for example, MTS, Beeline, Tele2, Life)

You can contact the operator
Or read the instructions for

How to set a ringtone for a subscriber so that each number has its own melody

Go to the Contacts application -> Select the desired contact -> click on it -> open the menu (3 vertical dots) -> Set ringtone

How to disable or enable key vibration feedback?

Go to Settings-> Language and input -> Android keyboard or Google keyboard -> Vibration response of keys (uncheck or uncheck)

How to set a ringtone for an SMS message or change alert sounds?

Read the instructions for

How to find out what processor is on the Impress Eagle?

You need to look at the characteristics of Impress Eagle (link above). We know that in this modification of the device the chipset is MediaTek MT6580, 1300 MHz.

Settings->For Developers->USB Debugging

If there is no "For Developers" item?

Follow the instructions

Settings->Data transfer->Mobile traffic.
Settings->More->Mobile network->3G/4G services (if the operator does not support, select only 2G)

How to change or add input language on the keyboard?

Settings-> Language and input-> Android keyboard-> settings icon-> Input languages (check the box next to the ones you need)

Touch screen: There are two types of touch displays: resistive and capacitive.
Resistive displays consist of two transparent plates that make electrical contact with each other at the point of pressure. Such displays react to mechanical force through any object. Devices equipped with such displays are equipped with special wands - styluses, which are convenient to operate the device.

The disadvantage of such a display is that the screen is highly susceptible to scratches and abrasions; when operating with your fingers, you need to make an effort for the device to react.

The second type of touch screens - capacitive ones, are free from these disadvantages, because... were originally developed for direct finger control, without the use of any third-party objects or tools.

At each corner of the display there are electrodes that apply the same alternating voltage to the conductive layer of the display. When touched by a finger or other object capable of conducting current and having its own electrical capacitance, current leakage occurs. The closer the touch point is to the electrode, the lower the electrical resistance of the display will be and, accordingly, the current strength will be greater.

Devices with such displays respond exclusively to hand control; touching the surface of other objects, due to the absence of their own electrical capacitance, will not lead to the closure of the contact point-electrode circuit and will not have any effect on the device. If customizable, such a display can be configured not even to touch with a finger, but only to bring it to the surface.

An undeniable advantage of such displays is their very high resistance to mechanical damage, due to the possibility of using fairly thick and durable surface glasses.

Another advantage is the very high accuracy of determining touch coordinates, down to one pixel. When controlling the hand, of course, such precision is unclaimed, but when using special conductive styluses it opens up great potential opportunities.

Capacitive displays are more transparent (about 90%) than resistive displays, whose transparency does not exceed 85%, which makes it possible to display a higher-quality image on their surface.

The physical resource of capacitive displays is at least 200 million clicks, which approximately corresponds to 6.5 years of clicks with an interval of 1 second. Surface contamination with non-conductive substances does not affect their operation.

The relative disadvantages of capacitive touch displays are the need to use large displays in mobile devices, due to the need to ensure comfortable hand control, and their higher cost compared to resistive ones.

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.	72 mm (millimeters) 7.2 cm (centimeters) 0.24 ft (feet) 2.83 in (inches)
Height Height information - refers to the vertical side of the device in its standard orientation during use.	141 mm (millimeters) 14.1 cm (centimeters) 0.46 ft (feet) 5.55 in (inches)
Thickness Information about the thickness of the device in different units of measurement.	8.1 mm (millimeters) 0.81 cm (centimeters) 0.03 ft (feet) 0.32 in (inches)
Weight Information about the weight of the device in different units of measurement.	154 g (grams) 0.34 lbs 5.43 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.	82.23 cm³ (cubic centimeters) 4.99 in³ (cubic inches)
Colors Information about the colors in which this device is offered for sale.	Grey Golden
Materials for making the case Materials used to make the device body.	Plastic Metal

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.

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 MT6580
Process Information about the technological process by which the chip is manufactured. 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-A7
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.	32 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.	ARMv7
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.	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).	1300 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.	ARM Mali-400 MP2
Number of GPU cores Like a CPU, a GPU is made up of several working parts called cores. They handle graphics calculations of various applications.	2
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.	1 GB (gigabytes)
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. Higher resolution means clearer image detail.	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.	68.11% (percentage)
Other characteristics Information about other screen features and characteristics.	Capacitive Multi-touch Scratch resistance
	2.5D curved glass screen

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	OmniVision OV5693
Sensor type	CMOS BSI 2 (backside illumination 2)
Sensor size	3.67 x 2.74 mm (millimeters) 0.18 in (inches)
Pixel size	1.125 µm (micrometers) 0.001125 mm (millimeters)
Crop factor	9.44
Flash type	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.	3264 x 2448 pixels 7.99 MP (megapixels)
Video resolution Information about the maximum supported resolution when shooting video with the device.	1280 x 720 pixels 0.92 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 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.

Sensor model Information about the manufacturer and model of the photo sensor used in the device's camera.	SuperPix SP2509
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)
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.	2.8 x 2.1 mm (millimeters) 0.14 in (inches)
Pixel size The smaller pixel size of the photosensor allows more pixels per unit area, thereby increasing resolution. On the other hand, a smaller pixel size can have a negative impact on image quality at high ISO levels.	1.75 µm (micrometers) 0.00175 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.	12.36
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 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.	1600 x 1200 pixels 1.92 MP (megapixels)
Video resolution Information about the maximum supported resolution when shooting video with an additional camera.	640 x 480 pixels 0.31 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)
	Interpolated resolution - 5 MP

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.	2500 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.	5 h (hours) 300 min (minutes) 0.2 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.	170 h (hours) 10200 min (minutes) 7.1 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.	5 h (hours) 300 min (minutes) 0.2 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.	170 h (hours) 10200 min (minutes) 7.1 days
Characteristics Information about some additional characteristics of the device's battery.	Removable