Full review of the Moto G4 Plus smartphone. Moto G4 and G4 Plus review: is it worth it? Motorola moto g4 plus sample photos
There is nothing remarkable about the Moto G4 Plus's design. The design is very simple.
At the top of the screen is a speaker, at the bottom is a fingerprint scanner, to the left of it is a microphone. On the right side are the power button and volume control. The materials of the case have not changed compared to their predecessors: in front - glass, on the sides - plastic, visually reminiscent of metal. The back panel is also made of plastic - it is pleasant to the touch and does not slip in your hands.
The smartphone has impressive dimensions (153 × 76.6 × 9.8 mm) and weighs 155 grams, so it is rather difficult to use it with one hand. Although, on the other hand, many people like large-sized phones. Compared to other similar models, the 5.5-inch is shorter, thinner and lighter.
Screen
The screen is where the Motorola Moto G4 Plus gets attention in the first place.
The smartphone has a large 5.5-inch LCD display with Full HD-resolution (1920 × 1080 pixels), reliably protected by Gorilla Glass 3. The image quality of the screen is quite high, the picture is readable from any angle. Thanks to its high brightness, information on it can be seen even under the sun.
Cameras
The Motorola Moto G4 Plus has solid 16 and 5 MP cameras.
The main camera parameters sound interesting: 16 MP resolution, dual flash, hybrid phase and laser focusing. It is worth paying attention to the auto mode, which does an excellent job in selecting the necessary settings: white balance, color, HDR. Of course, the camera does not deal with scenes with poor lighting - the pictures are taken with a lot of noise, and details are lost.
The video recording quality is good. The stabilization is not the best, but you should not expect more from a phone with such a price tag. Also, the smartphone can record video in 1080p and slow-motion video, but only at 540p.
The front camera has a 5 MP resolution. Selfie lovers should like it.
Communications
The set of communications Motorola Moto G4 Plus was:
- Wi-Fi 802.11 a / b / g / n
- Bluetooth 4.2 LE
- lTE support (up to 150/50 Mbps)
- FM radio
- two microSIM cards.
Battery
The Moto G4 Plus has a decent 3,000mAh battery for its price. The smartphone can work for a day, even if it is loaded with games and watching videos.
The Motorola Moto G4 Plus has a fast charge function. With it, the smartphone charges up to 40% in just half an hour, and 100% in one and a half.
Performance
One of the most important changes to the Moto G lineup is the increase in smartphone power. The high performance Motorola Moto G4 Plus is provided by the Snapdragon Qualcomm 617 processor in tandem with 2 GB / 3 GB of RAM (depending on modification). In addition, the smartphone is equipped with an Adreno 405 graphics chipset operating at 550 MHz. He can handle even heavy games. In general, the phone runs smoothly without any lag.
Memory
The basic version of the Moto G4 Plus received 16 or 32 GB of internal memory, expandable via microSD cards. There is also a 64GB version, but it hardly sells.
Price
You can buy Moto G4 Plus in black and white for a price of 15 thousand rubles. You cannot call a smartphone a cheap one, but this is quite an adequate price tag, given the characteristics of the device.
We already mentioned that the camera module found on the Moto G4 Plus is an upgraded version of the camera designed for the standard Moto G4: the camera resolution on the Plus model has been increased to 16GB, paired with a dual flash for outdoor and artificial use. lighting. Also, the camera module is equipped with a laser autofocus operating at a distance of up to 1.5 meters to the subject. The camera has a f / 2.0 focal length, which allows it to capture more light and take better pictures in low light conditions, but when shooting in bright light, this sometimes leads to a blowout.
Our first impressions of the quality of the camera images were quite positive. In the dark areas of the image, details are quite distinguishable, and the level of sharpness remains quite acceptable even when the image is enlarged. The blurry image at the edges, which is often the case with inexpensive camera modules, is not found in the pictures taken by the Moto G4 Plus.
At the same time, the color rendering of the camera module of the tested device is shifted towards a cold color temperature; a slight excess of blue tint is noticeable in the images. In bright areas of the image, the flare effect is quite clearly visible. However, the Moto G4 Plus does a good job of shooting in low light conditions, although the Huawei P9's camera takes better pictures in such situations. In general, we were very pleased with the quality of the Moto G4 Plus's main camera: it is quite capable of competing with the iPhone 6s Plus in terms of image quality.
The front camera of the device under test has a resolution of 5 megapixels. This is quite enough for selfies, the quality of which also turned out to be quite decent. A curious feature of the front camera is the installation of a wide-angle lens in it, which is capable of capturing a large amount of video information and at the same time avoiding distortion.
Video recording with the main camera is limited to 1080p resolution with a refresh rate of 30 frames per second. Unfortunately, the Moto G4 Plus doesn't support 4K video; This feature is offered on the OnePlus2 smartphone, but the latter is essentially the only model in this price range with this feature. The quality of the video recording is quite acceptable, the camera sensor is again showing itself from the positive side. Due to the fact that the frame refresh rate is only 30 frames per second, the resulting video lacks smoothness, which is especially noticeable when the camera changes its position. At the same time, the image sharpness in the video is quite sufficient. Color rendition, as in photography, is characterized by a certain excess of a blue tint in the image.
The return to our market of Motorola products, still loved by many (now under the auspices of Lenovo), cannot be missed, especially since the devices are offered to the public at a rather low price. So, today there are two new Moto products on the agenda: G4 and G4 Plus. They have a lot in common, but there are also differences. We will focus on the more advanced model marked Plus, it is distinguished by a fingerprint sensor and a better camera. More on all this below.
Packaging nothing special stands out: moderately bright and lurid. Move on.
Contents of delivery includes a charging block with a removable USB cable and - in some regions - a simple wired headset. The Moto G4 model did not get the headset at all, and the charging block with a wire (i.e. there is no separate USB) and even with low power.
Design does not offer any special delights: a simple block with rounded edges. The body itself is plastic, with a nice texture, but framed by a metal frame. Color solutions are standard: black and white. The dimensions of the Moto G4 Plus and Moto G4 match up to a millimeter: 153x76.6x7.9-9.8, and weighs 155 grams. The side frames are quite chubby, but there's nothing you can do about it, we're not talking about the flagship. The front panel is protected from damage by Gorilla Glass 3, plus there is a spray-resistant coating all over the body.
Above the screen is the usual set of spoken (and multimedia too) speaker, front camera and sensors.
Below is a custom, square fingerprint scanner. It protrudes noticeably above the body, which, on the one hand, is good - the scanner is easy to find blindly, and on the other, not very good, because it will just as well cling to everything else. However, the form does not affect its performance in any way. Out of habit, the scanner always wants to be used as a button, but no, it's just a touch pad, without any additional functionality. Nearby is a small microphone hole, and opposite it is a LED. Strangely, the latter is only used for charging, but not for notifications. I would like to believe that in the future its functionality will be expanded, but even if this does not happen, the active display function (about which just below) does an excellent job with the functions of the LED.
The characteristics of the Moto G4 model are simpler, it did not get a fingerprint sensor, otherwise the arrangement of the elements is the same.
On the right side are the power and volume buttons. They are also metal, very thin, but with a pleasant, well-felt movement. The power key differs not only in shape, but also in a different texture, so it's not difficult to find it blindly.
Above is an audio port.
The left side is completely free.
On the bottom there is a MicroUSB connector and a small notch for removing the back cover.
The cover itself is fixed with latches, and under it there are slots for a pair of Micro SIM cards and a memory card. That's right, no compromises. By the way, if you have already switched to the nano format, complete adapters for this format will come in handy.
But the battery, despite this design of the case, was made non-removable.
Also on the rear panel you can find a camera with a two-section flash and a laser rangefinder.
Dust and moisture protection not provided.
The fingerprint scanner This is the first time Moto has been used on smartphones, which makes it especially interesting to see it in action. Despite the fact that the site itself is quite compact, recognition is fast and accurate, and from any angle. You can remember up to 5 fingerprints, and if necessary, use a predefined PIN or pattern to unlock.
Screen both models under consideration have a diagonal of 5.5 inches and is made using IPS technology. FullHD resolution on this diagonal gives a pixel density of 401 ppi - the optimal value for the vast majority of tasks.
The picture on the screen is bright, saturated, it does not distort when viewed from an angle and does not fade much in bright sunlight. Automatic brightness control works adequately, but not fast enough.
Good quality oleophobic coating.
White balance or color temperature settings are not provided here, there are only two color display modes: normal (natural colors) and bright (colors are richer, maximum brightness is higher).
Sound comes from the speaker located next to the spoken one. The solution is non-standard and quite interesting: it is very difficult to muffle such a speaker by accident. The sound from it is of average quality: rather flat, but quite loud. The same situation with headphones. Music lovers will be unhappy, the rest will have enough of this.
operating system Android 6.0.1 Marshmallow is here almost in its original form, with only some software improvements.
So, there is a proprietary Moto assistant, in which you can set up quick actions and view notifications. So, with a gesture, you can start the camera, turn on the flashlight or turn off alerts.
The convenient "motor" function Active Display has also been preserved: when you take the phone out of your pocket or bag, the clock and favorite notifications will be displayed on the locked screen.
Performance it is provided by a mid-level processor Qualcomm Snapdragon 617, video accelerator Adreno 405. However, we cannot call this solution weak. 64-bit, eight-core, it operates at a frequency of 1.5 GHz and copes with any daily tasks without problems. It comes with 2 GB of RAM and 16 built-in memory. The manufacturer also promises a 4 + 64 GB variant.
This filling is enough for the requirements of the shell and most programs. With games, not everything is so simple: the smartphone heats up (without going beyond reasonable limits), in the most demanding options, fps sags. We admit that the smartphone is not a gaming one, but its performance does not cause any complaints for everyday needs.
Interfaces presented as standard, as for a state employee. There is LTE, dual-band Wi-Fi 802.11 a / b / g / n, Bluetooth 4.1 LE. The NFC module is missing, as is the infrared port.
The two-SIM version will be available only in some regions, in any case, there is only one radio module for a couple of cards.
There is GPS from navigation systems.
Camera at 16 megapixels with an aperture of f / 2.0 with hybrid (laser and phase) autofocus.
The camera works well: it focuses quickly, shoots with high quality, although not perfect. Automation copes well with the white balance, the HDR mode performed well. In the dark, the quality of pictures drops noticeably, noise appears.
The biggest drawback of this module is its slowness. It takes a few seconds to start the camera and save the images, which are sometimes too expensive.
The camera interface is simple and easy to use. There is a manual mode. The exposure is adjusted even in auto mode, by touch.
The Moto G4 has a slightly weaker module at 13 megapixels. The quality of the pictures is bearable, but far from ideal. The software has all the same modes as the Moto G4 Plus. And the camera starts up just as slowly.
The video is filmed as much as possible in FullHD with a frequency of 30 fps, there is slow-motion shooting, but in 540p format, which, to put it mildly, is rather weak, but to be honest, it's better to forget about this mode right away and never use it.
The front 5MP camera with f / 2.2 aperture is equipped with a wide-angle lens and takes decent pictures for its class. This module is also suitable for video communication.
Battery has a capacity of 3000 mAh.
Such a battery, multiplied by not the coolest stuffing, gives the smartphone a decent autonomy: one and a half to two days.
The TurboCharge fast charging technology is provided, thanks to which you can charge your smartphone in an hour and a half, and it charges up to 25% in the first 15 minutes.
As we already wrote above, the younger model of the advanced charger did not get it, so it charges noticeably slower: you will have to adjust to this and charge the smartphone exclusively at night.
GenerallyThe Moto G4 and Moto G4 Plus show a pretty good price-performance ratio. Good autonomy, and even with a fast charging function, a high-quality screen and a loud speaker are the undoubted advantages of the devices. Many users will certainly be pleased with the clean shell, devoid of branded embellishments from Lenovo. The Moto G4 Plus also features a high-quality, very smart fingerprint scanner. Of course, there were some drawbacks. So, the camera here is frankly slow, the performance is not gaming, sufficient only for everyday tasks. The design also raises doubts: it is frankly boring to somehow attract attention to itself.
But all these shortcomings can be compensated for by the low price of the devices: Moto G4 Plus starts at $ 250, and Moto G4 from $ 200.
As you can see, the difference in price is small, so if the budget is not too limited, we advise you to pay attention to the older model: it is more interesting due to the scanner, the complete charger and the best camera module.
Information about the brand, model and alternative names of a specific device, if any.
Design
Information about the dimensions and weight of the device, presented in different units of measurement. Materials used, offered colors, certificates.
| Width Width information - refers to the horizontal side of the device in its standard orientation during use. | 76.6 mm (millimeters) 7.66 cm (centimeters) 0.25 ft (feet) 3.02 in (inches) |
| Height Height information - refers to the vertical side of the device in its standard orientation during use. | 153 mm (millimeters) 15.3 cm (centimeters) 0.5 ft (feet) 6.02 in (inches) |
| Thickness Information about the thickness of the device in different units. | 9.8 mm (millimeters) 0.98 cm (centimeters) 0.03 ft (feet) 0.39 in (inches) |
| The weight Information about the weight of the device in different units of measurement. | 155 g (grams) 0.34 lbs (pounds) 5.47 oz (ounces) |
| Volume The approximate volume of the device, based on the dimensions provided by the manufacturer. Refers to devices with a rectangular parallelepiped shape. | 114.85 cm³ (cubic centimeters) 6.97 in³ (cubic inches) |
| Colors Information about the colors in which this unit is offered for sale. | The black White |
| Materials for making the body Materials used to make the device body. | Metal Plastic |
SIM card
A 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 analog mobile network (1G). For this reason, GSM is often referred to as a 2G mobile network. It is enhanced 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 |
| CDMA CDMA (Code-Division Multiple Access) is a channel access method used in communications in mobile networks. Compared to other 2G and 2.5G standards like GSM and TDMA, it offers faster data transfer rates and the ability to connect more consumers at the same time. | CDMA 800 MHz CDMA 1900 MHz |
| UMTS UMTS stands for Universal Mobile Telecommunications System. It is based on the GSM standard and refers to 3G mobile networks. Developed by 3GPP and its biggest advantage is to provide more speed and spectral efficiency thanks to W-CDMA technology. | UMTS 850 MHz UMTS 900 MHz UMTS 1700/2100 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 with the aim of increasing the capacity and speed of wireless mobile networks. The subsequent development of technologies is called LTE Advanced. | LTE 700 MHz Class 13 LTE 800 MHz LTE 850 MHz LTE 900 MHz LTE 1700/2100 MHz LTE 1800 MHz LTE 1900 MHz LTE 2100 MHz LTE 2600 MHz LTE-TDD 2300 MHz (B40) LTE-TDD 2500 MHz (B41) LTE 700 MHz (B12) LTE 850 MHz (B26) LTE 1900 MHz (B25) LTE 700 MHz (B28) |
Mobile technology and data rates
Communication between devices in mobile networks is carried out using technologies that provide different data rates.
Operating system
An operating system is the system software that controls and coordinates the operation of the hardware components on a device.
SoC (System on a Chip)
A system on a chip (SoC) integrates all the major hardware components of a mobile device into a single chip.
| SoC (System on a 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 required for their operation. | Qualcomm Snapdragon 617 MSM8952 |
| Technological process Information about the technological process by which the chip is manufactured. The value in nanometers is half the distance between the elements in the processor. | 28 nm (nanometers) |
| Processor (CPU) The main function of the processor (CPU) of a mobile device is to interpret and execute instructions contained in software applications. | 4x 1.5 GHz ARM Cortex-A53, 4x 1.2 GHz ARM Cortex-A53 |
| Processor size The capacity (bits) of the processor is determined by the size (in bits) of registers, address buses and data buses. 64-bit processors offer better performance than 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 processor. Information about the instruction set (ISA) that the processor can execute. | ARMv8 |
| Level 0 cache (L0) Some processors have L0 (level 0) cache, which can be accessed faster than L1, L2, L3, etc. The advantage of having such memory is not only higher performance, but also lower power consumption. | 4KB + 4KB (kilobytes) |
| Level 1 cache (L1) The cache memory is used by the processor to reduce the time it takes to access more frequently used data and instructions. L1 (Level 1) cache is small and is much faster than both system memory and other levels of cache. 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) |
| L2 cache L2 (level 2) cache is slower than L1, but instead has a larger capacity, allowing more data to be cached. 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 them in L3 cache memory (if available) or in RAM memory. | 2048 KB (kilobytes) 2 MB (megabytes) |
| Number of processor cores The processor core executes program instructions. There are processors with one, two or more cores. Having more cores increases performance by allowing multiple instructions to execute in parallel. | 8 |
| CPU clock speed The clock speed of a processor describes its speed in cycles per second. It is measured in megahertz (MHz) or gigahertz (GHz). | 1500 MHz (megahertz) |
| Graphics processing unit (GPU) A graphics processing unit (GPU) handles computation for a variety of 2D / 3D graphics applications. In mobile devices, it is most commonly used by games, consumer interfaces, video applications, and more. | Qualcomm Adreno 405 |
| The amount of random access memory (RAM) Random access memory (RAM) is used by the operating system and all installed applications. The data that is saved in RAM is lost after the device is turned off or restarted. | 2 GB (gigabytes) 4 GB (gigabytes) |
| Memory type (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 means higher data rates. | Single channel |
| RAM frequency The frequency of the RAM determines its speed of operation, more specifically, the speed of reading / writing data. | 933 MHz (megahertz) |
Built-in memory
Each mobile device has built-in (non-removable) fixed memory.
Memory cards
Memory cards are used in mobile devices to increase the storage space for 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 image quality of information directly depends. | IPS |
| Diagonal On mobile devices, screen size is expressed in terms of 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 aspect ratio of the long side of the screen to its short side | 1.778:1 16:9 |
| Resolution Screen resolution indicates the number of pixels horizontally and vertically on the screen. Higher resolution means sharper 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 shown on the screen in 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 the screen can display. | 24 bit 16777216 flowers |
| Screen area The approximate percentage of the display area on the front of the device. | 71.38% (percent) |
| Other characteristics Information about other functions and features of the screen. | Capacitive Multitouch Scratch resistant |
| Corning Gorilla Glass 3 |
Sensors
Different sensors perform different quantitative measurements and convert physical metrics into signals that the mobile device can recognize.
Main camera
The main camera of a mobile device is usually located on the back of the case and is used for taking photos and videos.
| Sensor model | OmniVision OV16860 |
| Sensor type | PureCel |
| Sensor size | 6.06 x 4.55 mm (millimeters) 0.3 in (inches) |
| Pixel size | 1.314 μm (micrometers) 0.001314 mm (millimeters) |
| Crop factor | 5.71 |
| ISO (light sensitivity) ISO values \u200b\u200bdetermine the level of light sensitivity of the photosensor. A lower value means weaker light sensitivity and vice versa - a higher value means a higher light sensitivity, i.e. better ability of the sensor to work in low light conditions. | 100 - 3200 |
| Diaphragm | f / 2 |
| Focal length | 4.68 mm (millimeters) 26.73 mm (millimeters) * (35 mm / full frame) |
| Flash type The most common types of flashes in mobile devices are LED and Xenon flashes. LED flashes give softer light and, unlike brighter xenon ones, are also used for video shooting. | Dual LED |
| Image Resolution One of the main characteristics of mobile device cameras is their resolution, which shows the number of pixels horizontally and vertically in an image. | 4608 x 3456 pixels 15.93 MP (megapixels) |
| Video Resolution Information about the maximum supported resolution for video recording by the device. | 1920 x 1080 pixels 2.07 MP (megapixels) |
Information about the maximum number of frames per second (fps) supported by the device when shooting video at maximum resolution. Some of the main standard video capture and playback speeds are 24p, 25p, 30p, 60p. | 30 frames / sec (frames per second) |
| Specifications Information about other software and hardware features associated with the main camera to improve its functionality. | Autofocus Burst shooting Digital zoom Geographic tags Panoramic shooting HDR shooting Touch focus Face recognition Adjusting the white balance ISO setting Exposure compensation Self-timer Scene selection mode |
| Phase detection Laser autofocus |
Additional camera
Additional cameras are usually mounted above the screen of the device and are used mainly for video calls, gesture recognition, etc.
| Sensor model Information about the manufacturer and model of the photocell used in the camera of the device. | OmniVision OV5693 |
| Sensor type Digital cameras use photo sensors to take photographs. The sensor, as well as the optics, are one of the main factors in the quality of the camera in a mobile device. | CMOS BSI 2 (backside illumination 2) |
| Sensor size Information about the dimensions of the photo sensor used in the device. Typically, cameras with a larger sensor and lower pixel density offer higher image quality despite lower resolution. | 3.67 x 2.74 mm (millimeters) 0.18 in (inches) |
| Pixel size The smaller pixel size of the photocell allows more pixels per unit area to be used, thus increasing the resolution. On the other hand, a smaller pixel size can have a negative impact on image quality at high ISO sensitivity levels. | 1.417 μm (micrometers) 0.001417 mm (millimeters) |
| Crop factor The crop factor is the ratio between the size of a full-frame sensor (36 x 24 mm, equivalent to a frame of standard 35 mm film) and the size of the device's photo sensor. The number shown is the ratio of the diagonals of a full-frame sensor (43.3 mm) to that of a specific device's photo sensor. | 9.44 |
| 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 a larger aperture opening. | f / 2.2 |
| Focal length The focal length is the distance in millimeters from the photosensor to the optical center of the lens. Equivalent focal lengths are also indicated, providing the same field of view with a full frame camera. | 2.44 mm (millimeters) 23.04 mm (millimeters) * (35 mm / full frame) |
| Image Resolution Information about the maximum resolution of the secondary camera when shooting. In most cases, the resolution of the secondary camera is lower than that of the primary camera. | 2592 x 1944 pixels 5.04 MP (megapixels) |
| Video Resolution Information about the maximum supported resolution when filming with an additional camera. | 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 secondary camera when shooting video at maximum resolution. | 30 frames / sec (frames per second) |
| Angle of view - 84 ° |
Audio
Information on the type of speakers and audio technology supported by the device.
Radio
The radio of the mobile device is a built-in FM receiver.
Locating
Information about the navigation and positioning technologies supported by the device.
Wi-Fi
Wi-Fi is a technology that enables wireless communication for transferring data over short distances between various devices.
Bluetooth
Bluetooth is a standard for secure wireless transfer of data between different types of devices 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, which is also called an audio connector. The most widely used standard in mobile devices is the 3.5mm headphone jack.
Connecting devices
Information about other important connection technologies supported by the device.
Browser
A web browser is a software application for accessing and viewing information on the Internet.
| Browser Information about some of the main features and standards supported by the device browser. | Html HTML5 CSS 3 |
Audio file formats / codecs
Mobile devices support different audio file formats and codecs, which respectively store and encode / decode digital audio data.
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 in their capacity and technology. They provide the electrical charge required for their function.
| Capacity The capacity of a battery indicates the maximum charge it can store, measured in milliampere-hours. | 3000 mAh (milliampere-hours) |
| A type The type of battery is determined by its structure and, more precisely, by the chemicals used. There are different types of batteries, with the most common mobile devices using lithium-ion and lithium-ion polymer batteries. | Li-polymer |
| Fast charging technology Fast charging technologies differ from each other in terms of energy efficiency, supported output power, control over the charging process, temperature, etc. The device, battery and charger must be compatible with fast charging technology. | Qualcomm Quick Charge 3.0 |
| Specifications Information about some additional characteristics of the device battery. | Fast charging Non-removable |
Specific Absorption Rate (SAR)
SAR level refers to the amount of electromagnetic radiation absorbed by the human body when using a mobile device.
| Head SAR (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 gram of human tissue. US mobile devices are controlled by CTIA and the FCC conducts tests and sets their SAR values. | 1.23 W / kg (Watts per kilogram) |
| Body SAR (US) The SAR level indicates the maximum amount of electromagnetic radiation to which the human body is exposed if the mobile device is held at hip level. The highest SAR value in the United States is 1.6 W / kg per gram of human tissue. This value is set by the FCC and CTIA monitors mobile devices for compliance with this standard. | 1.1 W / kg (Watts per kilogram) |
The big sales of the Moto G and Moto E smartphones have helped Motorola (or, more accurately, "Moto by Lenovo") gain a solid footing in the market. Of all the phones under the Moto brand, the series Moto G became the most popular. In our opinion, Moto G smartphones have always struck a good balance between price and features, not to mention the undeniable reliability of software updates for the entire series.
Following the acquisition of Motorola by Lenovo, the fourth generation Moto G marks the debut of Lenovo's branding with Moto smartphones. The classic Motorola logo is still there, but it's clear that Lenovo wants to make Moto its sub-brand, especially given the company's plans to replace the Vibe lineup with Moto.
Smartphones from the Moto G line have excellent performance. The only downside is camera performance, which Motorola has always had problems with. The Moto G4 Plus, an improved version of the Moto G4, aims to reverse this trend with better camera and software enhancements. Let's see if she managed to translate her ideas into reality.
Moto G4 Plus appearance
The iconic Motorola design lives on in the G4 Plus. Although not as explicit as it used to be, it is still identified as a Moto product. The rounded metal body combined with the rubber back cover provides good ergonomics and fits comfortably in the hand. With a 5.5-inch TFT display, this phone is slightly larger than its predecessors. The screen is readable even in bright sunlight. The color rendition is excellent. Gorilla Glass 3 is used for additional screen protection. The G4 Plus is quite thin. It measures just 7.9mm and its weight is well distributed so it doesn't feel heavy when held in your hand.
The Moto G4 Plus's fingerprint scanner has the series logo. It is not a physical button, but it protrudes slightly to help the user find it by touch. The sensor can recognize fingerprints from any angle.
The buttons on the rib are located within finger reach, and the power button has tabs to make it easier to find by touch. The headphone jack and Micro-USB take their places on the top and bottom of the device, respectively.
Unlike the early curved designs of the Moto G models, the back of the G4 Plus is flat. The exception is a small protrusion along the edges of the camera module. The 16MP camera with dual-tone LED flash and laser autofocus is a significant upgrade.
Removing the back cover reveals a non-removable 3000mAh battery. On the side are slots for a MicroSD card (up to 128 GB) and two Micro-SIM cards. The Moto G4 Plus comes with Nano-to-Micro adapters, and that's a smart move. What this smartphone lacks is the IP67 certification that earlier models had.
The box contains a TurboPower charger (25W) and headphones. The charger is not modular, so a separate USB cable is required for data transfer. The earbuds look a little cheap and feel uncomfortable in your ears.
Moto G4 Plus specifications and features
In terms of performance, the Moto G4 Plus uses Qualcomm's eight-core Snapdragon 617 SoC, clocked at 1.5GHz. This is the same SoC that was used in the HTC One A9.
The smartphone is equipped with 3GB of RAM and 32GB of internal storage. In addition, a phone with 2GB of RAM and 16GB of storage will be available at a lower price Other specifications include support for 4G LTE, Bluetooth 4.1, dual band Wi-Fi b / g / n, GPS, GLONASS, USB-OTG and FM -radio. There is no NFC.
Like all Moto smartphones, the G4-Plus runs on the newer version of Android. Now it's Marshmallow.
Performance Moto G4 Plus
The G4 Plus smartphone is quite responsive. When switching between applications, it works without slowdowns and lags. During games and when using data or GPS, the processor heats up quite quickly. If the phone is warm, you will notice a slight lag in the camera app. This activates the throttling system to prevent the processor from overheating. In the AnTuTu test, the smartphone scored 42,229 points, and in GFXbench it was able to score 17fps, which is a good result.
The biggest highlight of the G4 Plus is the 16MP camera with f / 2.0 aperture. In addition, for quick fixation of objects of shooting, the phone received a laser autofocus system. What's also important is the revamped camera app that lets you use tap-to-focus autofocus functions for capturing subjects, as well as adjusting exposure with a slider.
The image quality of landscapes taken during the day is much better than before. The level of detail is pretty good. The sensor records the brightness of the color. Pictures taken under artificial lighting are not bad, but the quality deteriorates when scaled. Video recording is limited to 1080p, but the quality is good in both good and low light. The front camera is only suitable for selfies in good light.
Eventually:
The Moto G4 Plus is sort of a long-awaited evolution in the Moto G line. It takes a step forward in functionality and performance. The phone is packed with an updated SoC that supports the latest Android, a fingerprint sensor, a good camera, and a massive battery. All this makes it a good option for the price range in which it is located.
The competition is tough, but in our opinion the Moto G4 Plus has enough merit. It would be even better if it had the same water and dust resistance as its predecessor. It also could use a camera with good low-light performance.
You can't go wrong with the Moto G4 Plus, which is a solid budget phone.
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