Phillips xenium w6610 phone. Smartphone Philips Xenium W6610: reviews. Philips Xenium W6610 review and specifications. Notebook and organizer
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. | 74.1 mm (millimeters) 7.41 cm (centimeters) 0.24 ft (feet) 2.92 in (inches) |
| Height Height information - refers to the vertical side of the device in its standard orientation during use. | 145.4 mm (millimeters) 14.54 cm (centimeters) 0.48 ft (feet) 5.72 in (inches) |
| Thickness Information about the thickness of the device in different units. | 11.4 mm (millimeters) 1.14 cm (centimeters) 0.04 ft (feet) 0.45 in (inches) |
| The weight Information about the weight of the device in different units of measurement. | 200 g (grams) 0.44 lbs (pounds) 7.05 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. | 122.83 cm³ (cubic centimeters) 7.46 in³ (cubic inches) |
| Colors Information about the colors in which this unit is offered for sale. | The black |
| Materials for the manufacture of the case Materials used to make the device body. | Polycarbonate |
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 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. | MediaTek MT6582 |
| 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. | ARM Cortex-A7 |
| Bit processor The capacity (bits) of the processor is determined by the size (in bits) of registers, address buses and buses for data. 64-bit processors offer better performance than 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 processor. Information about the instruction set (ISA) that the processor can execute. | ARMv7 |
| 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. | 32 KB + 32 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 it in L3 cache memory (if available) or in RAM memory. | 512 KB (kilobytes) 0.5 MB (megabytes) |
| The 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. | 4 |
| 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). | 1300 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. | ARM Mali-400 MP2 |
| Number of GPU cores Like a processor, a GPU is made up of several working parts called cores. They handle the graphical computing of various applications. | 2 |
| GPU clock speed Speed \u200b\u200bis the clock speed of the GPU and is measured in megahertz (MHz) or gigahertz (GHz). | 500 MHz (megahertz) |
| 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. | 1 GB (gigabytes) |
| Number of RAM channels Information about the number of RAM channels which are integrated into the SoC. More channels means higher data rates. | Single channel |
| RAM frequency The frequency of the 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) 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 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 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. | 540 x 960 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. | 220 ppi (pixels per inch) 86 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. | 64.17% (percent) |
| Other characteristics Information about other functions and features of the screen. | Capacitive Multitouch Scratch resistant |
| Dragontrail 2 glass |
Sensors
Different sensors perform different quantitative measurements and convert physical metrics into signals that the mobile device recognizes.
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.
| Diaphragm | f / 2.2 |
| Flash type The most common types of flashes in mobile cameras are LED and Xenon flashes. LED flashes give softer light and, unlike brighter xenon ones, 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 pixels horizontally and vertically in an image. | 3264 x 2448 pixels 7.99 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. | 15 frames / sec (frames per second) |
| Specifications Information about other software and hardware features associated with the main camera to improve its functionality. | Autofocus Geographic tags Adjusting the white balance Scene selection mode |
Additional camera
Additional cameras are usually mounted above the screen of the device and are used mainly for video calls, gesture recognition, etc.
| 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 / 2.8 |
| 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. | 1600 x 1200 pixels 1.92 MP (megapixels) |
| Video Resolution Information about the maximum supported resolution when filming 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 maximum resolution. | 18 frames / sec (frames per second) |
Audio
Information on the type of speakers and audio technology supported by the device.
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.
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. | 5300 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-Ion (Lithium-ion) |
| Talk time 2G 2G talk time is the period of time during which the battery is completely discharged during continuous 2G talk. | 33 h (hours) 1980 min (minutes) 1.4 days |
| Standby time 2G Standby time in 2G 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. | 1604 h (hours) 96240 min (minutes) 66.8 days |
| Talk time 3G Talk time in 3G is the period of time during which the battery charge is completely discharged during a continuous conversation on a 3G network. | 33 h (hours) 1980 min (minutes) 1.4 days |
| 3G standby time 3G standby time is the period of time during which the battery is fully discharged when the device is in stand-by mode and connected to a 3G network. | 1604 h (hours) 96240 min (minutes) 66.8 days |
| Specifications Information about some additional characteristics of the device battery. | Non-removable |
Today for review to the editor gg I got a smartphone that could be forgiven, if not all, then at least a lot. And all because it has a battery of incredible capacity, comparable to tablet counterparts - 5300 mAh. However, looking ahead, I can say that there is nothing to forgive Philips Xenium W6610, in general, except perhaps for its large dimensions.
Equipment
Apart from the battery, the main advantage of the Philips Xenium W6610, I would say, is thoughtfulness. Everything here is weighed down to the smallest detail, and this is manifested already in the box and equipment. The packaging itself contains the main advantages of the device, inside - all the accessories necessary for comfortable everyday use. This is a charger of increased power (5V, 1.5A), and a protective film for the screen. A headset is also included, but you shouldn't expect something supernatural from it - these are ordinary plugs, even without soft pads, albeit with a clothespin for clothes.
In addition, I found a Liters coupon with the ability to download 5 books for free in the Philips Xenium W6610 package.
Appearance
Philips Xenium W6610 looks like a giant monster against the background of most modern smartphones. This is especially noticeable when comparing it with other 5-inch devices. Although, I can't help but notice that, firstly, this is due to the main advantage - a large-capacity battery, and secondly, the manufacturer has made every effort to hide the considerable dimensions of the device and make it convenient to use. So, in the end, when compared with devices of about the same class, it does not look so gigantic.
In particular, the bezel on the sides of the screen is visually thin, and the sides themselves are strongly rounded. The bezel on top and under the screen is much wider, but thanks to this, the smartphone, which is not light in weight, can be easily held in hand.
The back panel is not removable, but it has one removable part. It is under it that slots for two SIM-cards and a memory card are hidden. The panel is fixed tightly and does not fly off, but the small notches on its sides are for the first time entering a stupor - instead of the volume or power button, the finger reaches for them. In fact, the keys are located a little lower, and when you get used to the Philips Xenium W6610 a little, this arrangement seems logical: you can easily reach the keys with your finger, no need to reach.
One more thing about the removable panel: until it is tightly closed, none of the SIM cards work. Why it happens this way, even suggesting a bug or a feature is difficult.
The rear panel contains the standard set of camera with flash and speaker. I personally liked, even if it is not such a big deal, that there is a small protrusion above the speaker. That is, even if the smartphone is lying on a flat surface, it does not stall.
The additional control is located at the very top of the right panel. This “slider”, well discernible to the touch, tight in its course, allows you to switch your smartphone from normal operation to economic mode. On the modes themselves and on the autonomy of the smartphone in general, I will dwell separately, because there really is something to tell about.
The top panel houses a standard audio jack. On the bottom is a micro-USB port covered with a plastic cover.
The most important and interesting part of the front panel is, of course, the screen. Philips Xenium W6610 uses an IPS panel with a resolution of 540x960 pixels. Subjectively, the display is characterized by a good margin of brightness, cold gamut and wide viewing angles as standard. A slight color change is noticeable only when you glance diagonally - so on one side the gamut goes into a yellow tint, on the other - into blue. But, in practice, I have observed a similar effect more than once with other matrices, and this does not interfere with working with a smartphone. Resolution can be judged from two points of view at once. On the one hand, it is not high and it seems to be a drawback. On the other hand, it is enough for comfortable work (there is no grain as such) and at the same time the manufacturer did not have to install more powerful hardware to avoid brakes. And this has a positive effect on the duration of the work. So in the case of the Philips Xenium W6610, I cannot write down the resolution as a drawback or questionable quality in general.
As for the stricter and drier information about the screen, as usual I measured it on the editorial equipment. The color gamut graph is shifted downward, which indicates a departure to cold shades, this is also evidenced by the color temperature graph, which jumped far up above the reference 6500K. The graph of the color components of the monochrome gradient is also very far from ideal. But the gamma curve is excellent, which means that there is practically no distortion in the transfer of dark and light areas on the Philips Xenium W6610 display. The screen brightness is really high, but this is both a plus and a minus at the same time. The downside is that due to the excessive exposure of the black field, the contrast is low.
Among the small, but pleasant advantages - the ability to work with the screen with gloves, which is activated by the corresponding function in the smartphone menu. Another feature of the screen is the protective glass Asahi Glass Dragontrail II. I can't say whether it is better or worse than the standard Gorilla Glass, but for the entire time of testing and active carrying with you in your backpack pockets (of course, along with other things), no scratches appeared on the display. But fingerprints and other dirt - "stick" only in this way.
Under the screen there are three classic touch buttons - large, comfortable and backlit. Above the screen is a set of sensors, including a light sensor and a proximity sensor. With the latter, I periodically had problems. Whether because of its large size, or because of the not very good location, the sensor worked adequately only if you press the phone tightly to your ear (which is not very convenient). Without close contact, Philips W6610 begins to behave not too adequately, and more often than not I managed to turn on the "flight mode" with my ear, which must be manually reached in a couple of steps. In general, we can only hope that such a problem is purely subjective, but I have not encountered this with other large smartphones before.
Performance and capabilities
The heart of the Philips Xenium W6610 is the MediaTek MT6582 processor with the Mali-400MP video accelerator. The filling is not the most productive, but it is very energy efficient. At the same time, for the entire time of working with a smartphone, slowdowns are rare - for example, I noticed one of them when opening a gallery with screenshots and photographs. Pictures were loaded for a long time, but this happened literally a couple of times - the rest of the time, no problems arose. It easily copes with everyday functions and performs well in games. In Temple Run 2, I did not notice lags as such, in Dead Trigger 2 they appeared only in "densely populated scenes", you can also play Asphalt 8 at medium graphics settings. There is nothing to say about games like "birds" or "om noma" - there are no problems with them at all. Smartphone copes with video playback, including in Full HD quality.
The results obtained in testing programs are quite predictable. In 3D Mark, the smartphone received very mediocre marks: Ice Storm Unlimited counted 2917 points for it, Ice Storm Unlimited Extreme - 2046, Ice Storm Unlimited - 2991 points. The device also showed modest, but slightly more pleasant results in the Nena Mark 2 - at 50.1 fps. This means that the smartphone copes well with 3D and normally with 2D graphics.
In AnTuTu Benchmark, the smartphone earned 17029 points, slightly behind the Samsung Galaxy S3. The Quadrant scored 5891 points. In Vellamo, the results are also quite good: in HTML5 mode 1962 points, that is, approximately on the same level with the Samsung Galaxy S4; and in Metal the smartphone received 521 points, again slightly losing out to the Samsung Galaxy S3 and somewhat ahead of the Galaxy 4, Sony Xperia Z Ultra and HTC One X.
Smartphone heats up when tested or loaded with resource-intensive applications. But only in the upper part, which (in vertical use) does not touch the fingers. Considering that heating does not affect the operation of the device at all, most often it does not pass at all for the user.
A few words should be said about the sound. Philips Xenium W6610 - the smartphone is loud enough, but I would not recommend it to music lovers. The sound is normal, average volume in headphones. In the settings there is a function for adding volume BesAudEnh, but I would not recommend activating it. Making the sound more spacious, it suppresses the low and even to some extent the middle frequencies, so that the sound loses much quality.
But what the smartphone pleasantly surprises with is the camera and additional software for image processing. The Philips Xenium W6610 is equipped with an 8 megapixel camera, which allows you to take quite pleasant pictures both outdoors and indoors. Autofocus is fast, color gamut is skewed, but quite rarely - usually, with difficult lighting in a room (several light sources with different temperatures).
Sample video without effects, sepia, pencil, interval shooting
The front camera has a resolution of 2 megapixels, it fully and completely copes with its main task - video chats.
The camera settings provide a variety of effects that can be applied not only to photos, but also to videos. There is burst shooting, panorama and even voice control.
Various effects and frames can be added to pictures and while editing them. The transition to the graphic editor is built right into the Gallery; I did not find it as a separate application in the menu.
Other preinstalled programs include Kingsoft Office, Opera, file manager, video player, voice recorder, video processing utility, Xenium Club app store with the ability to pay for applications directly from a mobile account, and a flashlight. There is one interesting feature with the flashlight - it can be turned on without even unlocking the smartphone. To do this, just hold down the "Home" button. As long as you hold it, the device will flash. As soon as you let go, the flashlight is instantly extinguished. This at the same time improves convenience and allows you not to drain the battery by unnecessary navigation through the smartphone menu.
Among other useful qualities of a smartphone - work with two SIM-cards at the same time, built-in GPS navigation module, which works very smartly and support for memory cards.
Working hours
And now about the most interesting thing - smartphone autonomy. According to information from the manufacturer, Philips Xenium W6610 can hold up to 33 hours of talk time and up to 16 hours of continuous work with the Internet. It sounds impressive, but before the start of testing, I honestly could not believe that the smartphone would be really tenacious: an android is an android. But everything turned out to be very good.
It so happened that at the time of testing the Philips Xenium W6610, I had no actual access to the laptop for several days. So the smartphone had to be used for almost everything and always - for mail, instagram, communication in LJ and social networks, hangouts and skype, from time to time to all this was added video viewing (both from a memory card and from the network), playing music and playing games. In general, my regular smartphone would run out of steam after half a day of such use at best. Philips Xenium W6610, on the other hand, lasted two days. Having slightly reduced the intensity due to games and videos, I achieved a confident three days of work, after which there was still 12% of the charge. That is, another day of modest use as an ordinary phone and a mail reader. If you use your smartphone as a compact video player (with disabled wireless modules), you can expect 14-15 hours of viewing. In the role of a music player, the smartphone can work for a very, very long time: for 10 hours of playback at a volume level slightly above average, it spent about 8% of the charge (without turning on the screen in the process). As a regular "dialer" Philips Xenium W6610 can live for more than a week, unless you are used to "hanging on the phone" for hours.
To optimize power consumption, the Philips Xenium W6610 provides a separate utility with the predictable name "Power saving mode" (it is not displayed in full in the menu - apparently, it is too long). In the program, you can see what exactly to spend the smartphone's energy on and choose which of the modes will be activated by the lever on the right panel - default or custom. In the latter, you can configure what exactly and how it will work in the transition to a state of increased energy efficiency. For example, you can select the brightness level: the minimum value is 8%. It is quite normal for working in a room, albeit somewhat unaccustomed, but unrealistic for use under the bright sun. You can also enable automatic selection of brightness depending on the lighting around.
In addition, in the utility, you can set which of the wireless modules should be left active, configure sleep mode and enable auto shutdown of all running applications. Unfortunately, there is no way to select a list of exclusion programs for this rule, but this is the only drawback.
Another point related to the increased battery capacity is charging time. Even taking into account the included high-power charger, it takes about 4-5 hours to fully charge the Philips Xenium W6610.
In the dry residue
The Xenium W6610 fits perfectly into Philips' long-lived phone family, while still providing a good headroom. There is definitely no need to sacrifice the speed of work or the ability to launch this or that application, and the price is quite pleasant for such a device (about 3000 hryvnia). So the question is only in ease of use - not everyone will be pleased to use such a large smartphone. If this does not bother you, you have big pockets and you are far from being a music lover - you should take it, there are not so many analogues and opponents of this device. Among them can be called only Lenovo P780, and even then - conditionally. With similar performance and price, it has a smaller battery capacity: 4000 mAh versus 5300 mAh for the Philips Xenium W6610.
5 reasons to buy Philips Xenium W6610
- Incredibly long battery life
- Excellent work without lags and slowdowns
- IPS screen
- Dual SIM support
- Nice camera with good software
2 reasons not to buy Philips Xenium W6610
- It is large and heavy compared to other smartphones
- Weak sound, even with good headphones
Last year I got my hands on the Lenovo P780, and it only ran out after 3 days of use. A week ago I picked up the Philips Xenium W6610, and it is still charged. Do you know why he is 66? Because it is 66 days that it can last on a single charge.
Philips chose a very precise path for themselves - a huge battery. I was fortunate enough to be familiar with almost the entire Xenium line, and they all stacked other inexpensive android dialers on the blades with the very peculiarities of the battery. Philips has an external battery phone X130 that can charge all portable equipment. There is a compact in metal with a capacious X333 battery. There is a W8510 smartphone with a capacity, God forbid, everyone. But now we have a smartphone with a battery! And his name is Philips Xenium W6610.
Design and ergonomics
If suddenly someone comes up and asks you: “What kind of freak is this?”, You can explain to the person for a long time that the phone was created in such a way in order to protect it from wild animals, this thick case has the largest battery installed, and its weight, and dimensions are functionally justified. Or you can never talk to this incomprehensible person again. Yes, outwardly smart looks like a cobblestone. But I think this is mimicry. To survive in difficult conditions, when you are nevertheless brought to a deserted island. Philips and Xenium lettering is easy to erase, the body itself is bluish, so yes, you can hide it in rocks. But not in the water! The phone was no longer protected from water and dust.
The front of the W6610 is completely covered in glass. The back of the smart is plastic, bluish with a black metal insert. Which, by the way, from the first fifty times I did not manage to open it. As a whole, we came to the conclusion that it is terribly uncomfortable. The world has never seen such inconvenient covers! Under the bar there are slots for two full-size SIM cards and for a microSD card.
This whole structure is wide enough (145.4 x 74.1 x 11.4 mm) and heavy (200 g), and from the first minute when it is in your hand, it seems that your cooperation will not last long. Or end up with pumped muscles on one right. But no. You quickly get used to all this, if you don't bother, and no, I didn't have a beautiful biceps in a week.
The location of the keys of the smart is standard, except that the microUSB connector, which is located at the bottom, is hidden under a flap. And if at first you thought it was due to the security of your smartphone, I welcome you to my club. But I checked for sure - the smart has no protection from water and dust.
Better to clarify that the power button is located on the right side in the center, the volume buttons (not the swing) on \u200b\u200bthe left, on top of the 3.5 mm audio jack. There is also a small switch on the right side, but what it is and why I will tell in the block about the battery. This completes the recalculation of the buttons-connectors.
Display
The display of the smartphone has not received any special privileges, because it does not need it. Because the resolution in 540x960 with a density of 220 ppi is enough to launch maps, view the schedule of aircraft, book a room in a hostel or google “how to light a fire” and “how to pitch a tent”. Inversions and viewing angles in this smartphone should interest you the least. And on a sunny day, it can generally be used as a mirror. Do you know how this can be useful on the island?
Hardware and software
The brain of the Xenium W6610 is the 4 cores of the MTK 6582 processor with a clock speed of 1.3 GHz and 1 GB of RAM. On average, this is enough to play and launch Asphalt in 2048. The game will not shine with FPS, but the very fact is that it starts up, and even notes bad. If for comparison, here are some benchmarks. In terms of parrots, the device is comparable to the Nexus 4. And it was quite good.
- Dimensions: 145 x 74 x 11mm
- Weight: 200g
- Operating System: Android 4.2.2 Jelly Bean
- Communication standards: GSM (900/1800/1900 MHz), UMTS (2100 MHz)
- Processor: Quad-core, MTK MT6582 1.3GHz
- Display: 5 ″ IPS (540 x 960 pixels) / 220ppi / touch, capacitive
- Memory: 4 GB flash expandable (Micro SD up to 32 GB)
- RAM: 1 GB
- Camera: main - 8 MP, video recording in 1080 p, front - 1.2 MP
- Interface connectors: 3.5mm headphone jack, MicroUSB
- Battery: Li-lon 5300mAh battery
It's not even worth talking about the OS version and the shell - Android 4.2 Jelly Bean with a minimum number of add-ons, not so necessary either in everyday life or in an extreme situation. Okay, there is Kingsoft Office. It's kind of useful if someone else is using it. I'll show you a couple of screenshots, and then I'll show you two cool things that you should pay attention to.
The first feature is the battery and its software
5300 mAh is a well-deserved second place among long-lived smartphones. The first one received Highscreen Boost 2 aka brick with its 6000 mAh battery. True, the inside of the device is so lacking that it negates its dignity. W6610 lives really long. During the test week, it was possible to discharge it from 100% to 10%, despite the fact that I did not deny myself either toys, or 3G and Wi-Fi, and generally used it as a main smartphone. But when, after 10%, I switched it to energy-saving mode, and only answered calls, the thought was born that I have to grow old with this phone. He lived like this for several days, did not want to turn off, called and sms and lived for himself very calmly for two or three days. The mode had to be turned off.
But don't worry, it will take a month to charge. My copy from an outlet with a native adapter wire was fully charged in 3 with a trifle of hours. But here's the truth - it charged more than 8 from the computer, and then not until the final one. But there is good news - if this smart is completely discharged, and you run soon, and you still do not have an external battery, even charging for an hour will save you. This is enough for active use and for conversations for several hours.
And this is far from a record. Because Xenium has a crazy energy saving program. It provides complete information on battery consumption - what, where, when? and offers to choose between two energy-saving profiles. If there is no Internet on your deserted island, then feel free to set the default mode. It cuts off all data transmission, sets the minimum screen brightness and leaves you to yourself while waiting for a call or SMS from rescuers. It is in this mode that the device can hold out for two months with a tail and never utter a word about a discharged battery. I have not tried it, but I have no reason not to believe the manufacturers in this matter. If you just went on vacation to another city, forgot charging, and you have another week to rest, then go to the user mode and configure it as you see fit: display brightness, what to cut off - Bluetooth, GPS, Wi-Fi. It turns on in one motion. And if at first you thought that this lever, like in Apple devices, stands for switching the phone to silent mode, congratulations, now there are two of us. One click - and you already know for sure that for the next hundred years your phone will not be discharged one iota. I would have such a button in the Oppo Find 5 ...
As for the tests, I won't be able to produce a beautiful screenshot from Antutu Benchmark, because the device overheats and the test cannot be completed. Please take my word for it.
The second feature is communication standards
Even if you are really carried into an unknown distance, there is nothing to worry about on the Internet. If it is there, you will not be left with anything thanks to the dual coverage, that is, the dual-mode availability of WCDMA and GSM. Two SIM cards - two modes. The most honest phone in the world!
Cameras
Review and detailed testing of one of the most "long-playing" smartphones on the market
One of the most popular smartphones among users, who prioritize the battery life of their mobile devices, has recently been a very outstanding "long-playing" communicator Lenovo P780, which we published at the time. Actually, all previous smartphones of this Lenovo line were focused precisely on the longest possible work without recharging. From time immemorial, the same orientation was traced in another series - Philips Xenium. The names of the mobile devices in this line traditionally come to mind when it comes to record-breaking battery life, and this tradition has been going on since the days when there were no smartphones in the world, but ordinary mobile phones with buttons and small non-touch screens were in use. The Philips mobile brand has long been sold to China, but the Chinese successors have made good use of their legacy, and the Xenium series is still renowned for its marvelous battery life. Recently, a new representative of this line was born, which was named Philips Xenium W6610 and which we will tell you about today.
Following the requirements of the modern market, this mobile device is not only ready to offer its owner the longest possible battery life, but also has all the necessary qualities inherent in a modern smartphone: a large touch screen, a quad-core processor, as well as the popular Google Android operating system, albeit not the very latest version. In comparison with the aforementioned Lenovo P780, the Philips device will not hit its face in the dirt, and in some ways it even surpasses its opponent - at least in a number of technical characteristics. This, by the way, causes additional interest in this device, because earlier smartphones of the Xenium series were often quite weak in technical terms, "sharpened" for a single task - to provide a very long connection for their owner (by the way, not always uninterrupted, because often in even the sensitivity of the radio module was sacrificed for maximum battery saving). Today we have the opportunity not only to compare in detail the two most "long-lasting" smartphones on the market, but also to find out whether the new device from the Philips Xenium line really deserves to be called a smartphone that meets all the modern requirements of a spoiled 21st century user.
Main characteristics of Philips Xenium W6610
| Philips Xenium W6610 | Lenovo P780 | LG L90 | Asus Padfone E | |
| Screen | 5 ″, IPS | 5 ″, IPS | 4.7 ″, IPS | 4.7 ″, IPS |
| Resolution | 960 × 540, 220 ppi | 1280 × 720, 293 ppi | 960 × 540, 234 ppi | 1280 × 720, 312 ppi |
| SoC | MediaTek MT6582 (4 ARM Cortex-A7 cores) @ 1.3 GHz | MediaTek MT6589 (4 ARM Cortex-A7 cores) @ 1.2 GHz | Qualcomm Snapdragon 400 (4x ARM Cortex-A7) @ 1.2GHz | Qualcomm Snapdragon 400 (4x ARM Cortex-A7) @ 1.4GHz |
| GPU | Mali400-MP2 | PowerVR SGX 544MP | Adreno 305 | Adreno 305 |
| RAM | 1 GB | 1 GB | 1 GB | 1 GB |
| Flash memory | 4 GB | 4/8 GB | 8 GB | 16 GB |
| Memory card support | microSD | microSD | microSD | microSD |
| operating system | Google Android 4.2 | Google Android 4.2 | Google Android 4.4 | Google Android 4.3 |
| Battery | non-removable, 5300 mAh | non-removable, 4000 mAh | removable, 2540 mAh | non-removable, 1820 mAh |
| Cameras | rear (8 Mp; video 1080p), front (2 Mp) | rear (8 Mp; video 1080p), front (0.3 Mp) | rear (8 Mp; video 1080p), front (1.3 Mp) | rear (13 Mp; video 1080p), front (1.2 Mp) |
| Dimensions | 145 x 74 x 11 mm, 200 g | 143 x 73 x 10 mm, 176 g | 132 x 66 x 9.6 mm, 124 g | 140 x 70 x 9.1 mm, 126 g |
| average price | T-10765265 | T-10414225 | T-10712907 | T-10686990 |
| Philips W6610 offers | L-10765265-10 | |||
- SoC MediaTek MT6582, 1.3 GHz, 4 cores ARM Cortex-A7
- GPU Mali400-MP2
- Operating system Android 4.2.2 Jelly Bean
- Touch IPS-display, 5 ″, 960 × 540, 220 ppi
- Random access memory (RAM) 1 GB, internal memory 4 GB
- MicroSD card support
- Communication GSM 850/900/1800/1900 MHz
- Communication 3G WCDMA 900/2100 MHz
- Bluetooth
- Wi-Fi 802.11b / g / n, Wi-Fi hotspot
- GPS, A-GPS
- Dual SIM support (both Mini-SIM)
- Gyroscope, proximity and lighting sensors, electronic compass
- Camera 8 MP, autofocus, LED flash
- Camera 2 MP (front)
- Li-ion 5300 mAh battery
- Dimensions 145 x 74 x 11 mm
- Weight 200 g
Appearance and usability
By its appearance, the Philips Xenium W6610 smartphone is a very large and very heavy mobile device, the dimensions and weight of which have far exceeded the invisible line, before reaching which one can still speak of a smartphone as a device that is comfortable to use. This device can only be used with comfort by a person of an unusual physique, because, whatever one may say, Philips Xenium W6610 turned out to be very heavy and large for an ordinary average human hand.
This device cannot be called beautiful and stylish either: we have a rather simple in design, gloomy standard plastic monoblock solution without any noticeable decorations or interesting details. The only noticeable detail in the exterior is a strange metal bracket on the back of the case, which covers the slots with SIM-cards and memory cards. However, this element spoils the appearance rather than makes it interesting. With the general total plasticity of the case, this rather thick metal bracket looks ridiculous and rather rough, besides, it is extremely difficult to remove, which causes even more irritation. It is difficult to say what thoughts the designer was guided by when creating this "touch", but it is unlikely that many will like such a find. It would be better if the creators took care of reducing the thickness of the case, which is quite hefty here and reaches eleven millimeters, or about the weight, which is also excessive and exceeded 200 grams. However, it is clear that such parameters are largely due to the huge capacity of the built-in battery. In principle, none of the representatives of the Xenium line was distinguished by the elegance of design, so it was probably not worth expecting anything different from the new model of the series.
Most of the case - the back panel and all sides - is made of plastic with a matte, hard, but not rough surface. There is no rubberized soft-touch effect here, but the Philips Xenium W6610 case is not slippery either. He is also not a brand, there are few prints on the device.
But the front panel is quite a brand: the protective glass has a rather weakly visible grease-repellent coating, so that the front of the smartphone always looks sloppy and stained.
Under a metal bracket that runs across the entire rear panel in a two-centimeter strip, there are three card slots (two for SIM cards and one for a microSD memory card). Both slots for SIM-cards provide for the installation of Mini-SIM cards (that is, the "old" model), cards are installed in all slots without spring-loaded capture mechanisms. Although any of the cards can be removed and reinstalled at any time, hot swapping is not supported, so you will have to reboot the device. Slots for SIM-cards are absolutely equal in their capabilities: in any of them the card can work in both 2G and 3G modes, but only one SIM-card can function in 3G mode at a time.
In addition to the unusually implemented card compartment, which turns out to be very difficult to open, there are also more familiar elements on the back surface: a round window for the rear camera, a single-section LED flash eye that can act as a flashlight, as well as a slot in the lower part, behind which the call speaker is hidden ... There is no way to get to the battery, because the case is not separable, and there are no other covers (except for the bracket covering the card slots) on it.
The entire front panel of the smartphone is completely covered by a protective glass, resistant to scratches. This Dragontrail II glass produced by the Japanese company Asahi is an analogue of the famous Chinese Corning Gorilla Glass. Above, under the glass, the eyes of the front camera and sensors are hidden, here a longitudinal slit is cut, covered with a chrome grille of the earpiece speaker. Under the screen, there are three buttons for managing the system and applications in a row. The buttons, of course, are touch-sensitive, hardware, they have a sufficiently bright white backlight without the possibility of any adjustment.
The smartphone has one very useful element - an LED indicator, traditionally located in the area of \u200b\u200bthe speaker grill and shining through it in different colors to notify about charging modes and incoming messages. The indicator is neither too bright nor annoying at all.
As for the mechanical controls, there are more of them on the Philips Xenium W6610 case than usual. In addition to the traditional lock and volume buttons, the developers have placed an unusual element on one of the side faces - a mechanical switch for energy saving modes. That is, literally with one lightning-fast movement, you can put your smartphone into power-saving mode by sliding this mechanical slider. The idea, in principle, makes sense: you can read / play / watch a movie at home in "full" mode, and if necessary, go somewhere, when a smartphone is needed only to stay in touch, it can be quickly switched to energy-saving mode without even taking it out of your pocket (not to mention unlocking the screen and poking your finger into the settings). However, now almost every self-respecting manufacturer equips its mobile devices with one or another power saving mode, they all turn on in the usual way - through the settings menu, and in general this process does not cause any particular difficulties. After all, power saving mode is not an SOS alarm mode: it does not need to be turned on with an instant movement in moments of danger. So the mechanical slider in Philips Xenium W6610 looks more like a symbol of a “long-playing” device than a really useful element. By the way, the power-saving mode is nothing special here, and against the background of the findings of Samsung and others with their black-and-white interface it looks unimpressive.
The other two buttons on the side edges of the case look more traditional: these are rather large plastic keys, soft and pliable, but protruding little beyond the boundaries of the case - it's quite difficult to find them blindly. It's good at least that the power and lock buttons were placed not on the upper end, but on the right side, where it belongs.
For some reason, the universal Micro-USB connector is covered with a plastic cover, despite the fact that the device is not protected from water and dust, and the audio output on the opposite end is not covered by any plugs. This is a strange and rather inconvenient solution: not only do you have to constantly open this unnecessary cover, but you also need to hold it so that it does not interfere with entering the connector of the cable connector. The decision is unsuccessful, it is not clear why it was dictated, and I just want to tear off this cover forever. It is curious that the connector is organized in the same way on the competing Lenovo P780, as if these two smartphones have the same designer - a lover of useless covers.
Speaking about the Micro-USB connector, we also note that the smartphone does not support the mode of connecting external devices to it (OTG, USB Host). The hole for attaching the strap here, as in the vast majority of modern mobile devices, is also absent.
As for the color options for the case, other than dark blue (this smartphone is shown in our pictures), it seems, are absent - at least in the official sale you can now find Philips Xenium W6610 only in this color.
Screen
The Philips Xenium W6610 smartphone is equipped with a 62 × 110 mm IPS touch matrix with a diagonal of 127 mm (5 inches), a resolution of 960 × 540 pixels, which gives a pixel density of 220 ppi.
The brightness of the display has both manual and automatic adjustment, the latter based on the operation of the light sensor. The multitouch technology here allows you to process up to 5 simultaneous touches. The smartphone also has a proximity sensor as standard, which locks the screen when you bring the smartphone to your ear. Outside, the display is covered with Asahi Glass Dragontrail II protective glass. Gloved screen mode is supported, this function can be disabled separately in the special settings section - not in the screen section.
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Alexey Kudryavtsev, editor of the “Monitors” and “Projectors and TV” sections, carried out a detailed examination of the screen using measuring devices. Here is his expert opinion.
The front surface of the screen is made in the form of a glass plate with a mirror-smooth surface, resistant to scratches. Judging by the reflection of objects, there is an effective antiglare filter, which in terms of reducing the brightness of the reflection is not worse than that of the Google Nexus 7 (2013) (hereinafter simply Nexus 7). For clarity, here is a photo in which a white surface is reflected in the turned off screens (on the left - Nexus 7, on the right - Philips W6610, then they can be distinguished by their size):
The screen of the Philips W6610 is slightly darker (brightness in the photos is 89 versus 93 for the Nexus 7). The doubling of reflected objects in the Philips W6610 screen is very weak, which indicates that there is no air gap between the layers of the screen (more specifically, between the outer glass and the surface of the LCD matrix) (OGS type screen - One Glass Solution). Due to the smaller number of boundaries (glass-to-air type) with very different refractive indices, such screens look better in conditions of strong external illumination, but their repair in the case of cracked outer glass is much more expensive, since the entire screen has to be changed. On the outer surface of the screen there is a special oleophobic (grease-repellent) coating (effective, but still worse than the Nexus 7), so fingerprints are easier to remove, and appear at a slower rate than in the case of regular glass.
With manual brightness control and displaying the white field in full screen, the maximum brightness value was about 450 cd / m², the minimum - 50 cd / m². The maximum brightness is high, which means, given the effective anti-reflective filter, readability even on a sunny day outdoors should be at a good level. In complete darkness, the brightness can be lowered to a comfortable level. In the presence of automatic brightness control according to the light sensor (located to the right and below the slot of the front speaker). In automatic mode, when the ambient light conditions change, the screen brightness both increases and decreases. In complete darkness in automatic mode, the brightness is reduced to 50 cd / m2 (comfortable to read), in an office illuminated with artificial light (about 400 lx), the brightness is set to 120 cd / m2 (acceptable), in a brightly lit environment (corresponds to lighting on a clear day outside premises, but without direct sunlight - 20,000 lux or slightly more) - increases to 450 cd / m², that is, to the maximum. As a result, the automatic brightness control function works absolutely adequately. At any brightness level, there is practically no significant backlight modulation, so there is no screen flickering either.
This smartphone uses an IPS matrix. The micrographs show the typical IPS sub-pixel structure:
For comparison, you can see the gallery of photomicrographs of screens used in mobile technology.
The screen has good viewing angles without a significant shift in colors with reasonable gaze deviations from perpendicular to the screen and without inverting shades (aft of the darkest when looking to the left). For comparison, here are some pictures showing the same images on the Philips W6610 and Nexus 7 screens, with the screen brightness initially set to about 200 cd / m². White field perpendicular to screens:
Note the good uniformity of brightness and color tone of the white field (when photographing, the color balance is forced to 6500 K). And the test picture:
Color reproduction is good and colors are rich on both screens, although there are differences in color balance. Now at an angle of about 45 degrees to the plane and to the side of the screen:
It can be seen that in the case of the Philips W6610, the screen turned a little yellow at this angle and the contrast decreased noticeably due to a significant increase in the black level. And a white box:
The brightness at the angle of the screens decreased (at least five times, based on the difference in exposure), but in the case of the Philips W6610, the drop in brightness is slightly less. When deviated diagonally, the black field is strongly lightened and acquires a violet or light red-violet tint. The photos below demonstrate this (the brightness of the white areas in the direction perpendicular to the plane of the screens is the same for the screens!):
And from a different angle:
When viewed from a perpendicular view, the uniformity of the black field is good, but not ideal, since in a couple of places along the edge the black color is slightly lightened:
Contrast (approximately in the center of the screen) is normal - about 800: 1. The response time for the transition black-white-black is 27 ms (15 ms on + 12 ms off). The transition between gray tones of 25% and 75% (based on the numerical value of the color) and back takes 44 ms in total. The 32-point gamma curve showed no blockage in highlights or shadows. The exponent of the approximating power function is 2.31, which is slightly higher than the standard value of 2.2. In this case, the real gamma curve deviates little from the power dependence:
The color gamut is close to sRGB:
The spectra show that the matrix light filters mix the components together to a moderate extent:
As a result, the colors visually have natural saturation. The balance of shades on the gray scale is good, as the color temperature is slightly above the standard 6500 K and the deviation from the blackbody spectrum (ΔE) is less than 10, which is considered a good indicator for a consumer device. At the same time, the color temperature and ΔE vary little from shade to shade - this has a positive effect on the visual assessment of the color balance. (The darkest areas of the gray scale can be ignored, since the color balance is not very important there, and the error in measuring color characteristics at low brightness is large.)
To summarize: the screen has a high maximum brightness and an effective anti-glare filter, so the smartphone can be used outdoors without problems even on a sunny summer day. In complete darkness, the brightness can be lowered to a comfortable value. It is also acceptable to use a mode with automatic brightness adjustment, which works adequately. The advantages of the screen include an oleophobic coating, no flickering and no air gap in the layers of the screen, good uniformity of the black field, color gamut close to sRGB and good color balance. The main disadvantage is the low stability of black to deviation of the gaze from the perpendicular to the plane of the screen. However, the overall screen quality is high.
Sound
The sound capabilities of the smartphone are quite average. The ringing loudspeaker is not very loud, at the maximum level it emits sound with a predominance of ringing high frequencies - there is no bass at all. Due to the fact that the loudspeaker grill is turned to the rear side, the sound is also significantly muffled when the device lies on the table with the screen facing up. In any case, Philips Xenium W6610 is not a music solution, and in terms of software, the manufacturer limited itself to installing the standard Play Music application.
Camera
Philips Xenium W6610 is equipped with two digital camera modules as standard. The front camera here has a 2 megapixel sensor without autofocus and flash - the maximum size of the resulting image is 1600 × 1200.
The main rear camera is equipped with an 8-megapixel module with LED flash, automatic and manual focusing is possible. The maximum size images are obtained with a resolution of 3264 × 2448. For shooting, you can use both a virtual button on the screen and a hardware mechanical volume key - in the activated camera mode, it is responsible for the shutter release function. The settings menu here is classic, familiar from other smartphones, in which the manufacturers did not supplement the Android OS with any proprietary shells.
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The camera can shoot video, there are several resolutions to choose from, up to a maximum of 1920 × 1088. An example of the resulting clips is shown below.
- Movie # 1 (27 MB, 1920 × 1088)
Examples of photos with our comments are presented below.
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Poor sharpness due to optics or low real resolution. |
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Again the same problem - equally poor sharpness practically over the entire field of the frame. |
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The camera succeeds in macro photography much better than general shots. |
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Judging by the good sharpness of small details, the assumption of interpolation can be discarded. |
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Most likely, the camera also has problems with focusing, since even macro photography does not always work equally well. |
Even if we assume that the camera really has 8 megapixels, which certainly cannot be said from general shots, it still shoots rather poorly. She manages macro photography well, from which we can conclude that she will cope well with text. Oddly enough, with macro photography, almost all noticeable flaws of the camera disappear. It seems that the general shots and macro shots were taken with different cameras. It is difficult to say what exactly is the reason for such significant differences, but optics definitely has something to do with it. The camera may have problems focusing at infinity (the lens is not positioned accurately or the optics and autofocus are of poor quality). General plans suggest that the camera actually has a maximum of 4 megapixels, if not 2. In macro shots, such a low resolution may well be invisible, although there are no obvious traces of interpolation either.
In general, we can conclude with some confidence that the camera is suitable for shooting macro or text, but hardly for anything more.
Telephone part and communications
The smartphone works as standard in modern 2G GSM and 3G WCDMA networks; there is no support for fourth generation (LTE) networks. The 5 GHz Wi-Fi range is not supported, and there is no NFC support either. As a standard, you can organize a wireless point via Wi-Fi or Bluetooth channels, there is a Wi-Fi Direct mode. The navigation module only supports GPS / A-GPS - the device does not work with the domestic Glonass system. Many users have complaints about the operation of GPS: communication with satellites takes a long time, the signal is often cut off on the way, the smartphone sees few satellites, in general, such an unstable operation should warn those for whom navigation is a daily used and vital function.
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There were no freezes or spontaneous reboots / shutdowns during testing, the interface works smoothly and without jerks - there are no complaints here. The screen is large, so the drawing of letters and numbers of virtual keyboards is quite comfortable to operate. The layout and arrangement of the keys are standard: here you can switch languages \u200b\u200bby clicking on the button with the image of a globe, there is no highlighted top row with numbers, you need to switch the layout from letters to numbers and vice versa. The phone application supports Smart Dial, that is, when dialing a phone number, a search is immediately carried out by the first letters in contacts. The ability to enter by sliding from letter to letter (Swype) is not provided here.
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The smartphone supports work with two SIM-cards, and in general, working with them in the menu is organized according to the familiar principle: you can designate any of the SIM-cards as the main one for organizing voice calls, transferring data or sending SMS messages. When dialing a number, you can also select the desired card by calling the context menu from the notification menu. A SIM card can work with 3G networks in any slot, however, only one of the cards can work in this mode at a time (the second will work only in 2G). To change the assignment of card slots, you do not need to swap places - this can be done directly from the phone menu. Working with two SIM cards is organized according to the familiar Dual SIM Dual Standby standard, when both cards can be in active standby mode, but cannot work at the same time - there is only one radio module.
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Performance
The hardware platform Philips Xenium W6610 is based on the MediaTek MT6582 single-chip system (SoC). The central processor here has 4 ARM Cortex-A7 cores, clocked at 1.3 GHz. The device provides 1 GB of RAM, and the storage available to the user is about 1.7 GB out of the nominally designated 4 GB. About 1 GB of the same 4 GB of total memory is allocated for the OS and applications itself.
As for the GPU (graphics subsystem), the situation is like this: at the moment when the MT6582 platform was just announced, the developers promised the presence of a PowerVR SGX544MP video accelerator in it, there is even a corresponding circuit for this. However, in the end, the SoC MediaTek MT6582 turned out to be a different GPU model, ARM Mali400-MP2 (operating at 500 MHz). Due to the faster graphics subsystem, MediaTek MT6582 performs better in tests than MediaTek MT6589 with PowerVR SGX544MP inside.
The smartphone supports the possibility of expanding memory through microSD cards, but the ability to connect external devices to the USB port (USB Host, USB OTG) - mice, keyboards and flash drives, unfortunately, is not here.
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To get an idea of \u200b\u200bthe performance of the tested smartphone platform, let's run a standard set of tests.
All the results obtained by us when testing the smartphone in the latest versions of popular benchmarks, we summarized for convenience in tables. Several other devices from different segments are usually added to the table, also tested on similar latest versions of benchmarks (this is done only for a visual assessment of the obtained dry numbers). Unfortunately, within the framework of one comparison, it is impossible to present the results from different versions of benchmarks, therefore, many worthy and relevant models remain "behind the scenes" - due to the fact that they once passed the "obstacle course" on previous versions of test programs.
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The hardware platform MediaTek MT6582, used in the tested smartphone, is most of all a competitor to the Qualcomm Snapdragon 400 system - it has the same 4 ARM Cortex-A7 cores. The Qualcomm platform is traditionally slightly more powerful, so it is not surprising that the Snapdragon 400 with a frequency of 1.2 GHz cores performed better than the MediaTek MT6582 with a frequency of 1.3 GHz of the same cores - along with the more advanced graphics subsystem Adreno. In graphics tests and subtests, the GPU Adreno 305 in Qualcomm Snapdragon 400 clearly outperforms the ARM Mali400-MP2 video subsystem, albeit only slightly. If we compare the two related platforms of the Taiwanese MediaTek, then, thanks to a slightly faster graphics, MediaTek MT6582 turns out to be preferable to MediaTek MT6589 (and even than its most advanced configuration MT6589T).
In general, according to the results obtained during testing, the Philips Xenium W6610 smartphone demonstrated quite expected average (even slightly lower than average) performance indicators - at the level of other devices we previously tested, which are organized on a quad-core platform from Taiwan's MediaTek and its modifications. However, Philips Xenium W6610 outperformed its main competitor, Lenovo P780, which runs on the older MT6589 platform, in all tests, and not least due to the faster GPU.
Test results in MobileXPRT, as well as the latest versions of AnTuTu 4.x and GeekBench 3:
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The results of testing the graphics subsystem in the Epic Citadel gaming test:
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Test results in browser benchmarks:
As for benchmarks for evaluating the speed of the javascript engine, you should always make allowances for the fact that the results in them significantly depend on the browser in which they are launched, so that the comparison can be truly correct only on the same OS and browsers, and this possibility is available when testing not always. In the case of Android smartphones, we always try to take measurements using Google Chrome.
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Video playback
To test the "omnivorous" video playback (including support for various codecs, containers and special features, such as subtitles), we used the most common formats, which make up the bulk of the content available on the Web. Note that for mobile devices it is important to have support for hardware video decoding at the chip level, since it is often impossible to process modern versions using processor cores alone. Also, do not expect a mobile device to decode everything, since the leadership in flexibility belongs to the PC, and no one is going to challenge it.
According to the test results, the subject was not equipped with all the necessary decoders, in this case sound ones, which are necessary for full playback of most of the most common files on the network. To play them successfully, you will have to resort to using a third-party player - for example, MX Player. True, you will first have to change the settings in it, switching from hardware decoding to software or to a new mode called Hardware + (it is not supported by all smartphones), only then the sound will appear. All results are summarized in a single table.
| Format | Container, video, sound | MX Video Player | Native video player |
| DVDRip | AVI, XviD 720 × 400 2200 Kbps, MP3 + AC3 | reproduced normally | reproduced normally |
| Web-DL SD | AVI, XviD 720 × 400 1400 Kbps, MP3 + AC3 | reproduced normally | reproduced normally |
| Web-DL HD | MKV, H.264 1280 × 720 3000Kbps, AC3 | Hardware + | |
| BDRip 720p | MKV, H.264 1280 × 720 4000 Kbps, AC3 | plays fine with decoder Hardware + | video plays fine, no sound¹ |
| BDRip 1080p | MKV, H.264 1920 × 1080 8000Kbps, AC3 | plays fine with decoder Hardware + | video plays fine, no sound¹ |
¹ the sound in MX Video Player was only played after switching to software decoding or to Hardware +; the standard player does not have such a setting
To test the display of video files on the screen of the device itself, we used a set of test files with an arrow and a rectangle moving one division per frame (see "Methodology for testing video playback and display devices. Version 1 (for mobile devices) Red marks indicate possible problems, related to playback of the corresponding files.
According to the criterion for outputting frames, the quality of video playback on the screen of the smartphone itself is good, since frames (or groups of frames) can be displayed with a more or less uniform alternation of intervals and without frame drops, with the exception of files with 60 frames / s. In general, it seems that in this screen in order to reduce power consumption, the refresh rate is reduced to 50 Hz relative to the usual 60 Hz. When playing video files with an aspect ratio of 16: 9 (720p and 1080p), the image of the video file itself is displayed exactly on the edge of the screen. The brightness range displayed on the screen corresponds to the standard range of 16-235 - all shades are displayed in shadows and highlights.
Battery life
The capacity of the lithium-ion battery installed in the Philips Xenium W6610 is 5300 mAh unheard of for a smartphone and more suitable for any tablet. Accordingly, in all test modes the device showed miracles of longevity, becoming the record holder for battery life along with another “long-playing” device - Lenovo P780.
| Battery capacity | Reading mode | Video mode | 3D Game Mode | |
| Philips Xenium W6610 | 5300 mAh | 33h 20m | 18h 30m | 11h 30m |
| Lenovo P780 | 4000 mAh | 33h 20m | 20 h 00 m | 10h 30m |
| Asus Padfone E | 1820 mAh | 15h 20m | 7h 10m | 3h 50m |
| Samsung S4 mini (GT-I9195) | 1900 mAh | 16h 40m | 10h 30m | 4h 40m |
| LG L90 | 2540 mAh | 15h 20m | 10h 00m | 4h 50m |
| Motorola Moto G | 2070 mAh | 15h 20m | 8h 00m | 4h 20m |
| ZTE nubia Z5 mini | 2300 mAh | 11h 05m | 8h 00m | 3h 50m |
Continuous reading in the FBReader program (with a standard, light theme) at the minimum comfortable brightness level (the brightness was set to 100 cd / m2) lasted more than 33 hours until the battery was fully discharged, and when continuously watching YouTube videos in high quality (HQ) with the device lasted 18.5 hours with the same brightness level through a home Wi-Fi network - this is incredible performance for a regular smartphone. The developers themselves promise up to 33 hours of talk time and up to 50 days of standby time. Of course, these are idealized numbers that are difficult to achieve in real life, but in any case, the Philips Xenium W6610 is definitely one of the best Android smartphones on the market in terms of battery life.
Outcome
At the moment, the official cost of Philips Xenium W6610 in our stores is set at 10 thousand rubles, and for an uncertified device you can pay even less - nine thousand. In this matter, they are not entirely on an equal footing with the competing model Lenovo P780, since about 13 thousand are now asking for a certified Lenovo device in official stores. At the same time, the Lenovo smartphone, perhaps, does not have any special advantages - according to most technical characteristics, the Philips Xenium W6610 looks preferable, and the popularity and reputation of these brands (after the sale of the Philips brand to China) are quite comparable. As for the design and appearance, here both devices are in approximately equal conditions: both of them do not shine with beauty, are not particularly attractive or stylish devices, and most of their admirers probably choose these smartphones mainly for the utilitarian component - their autonomy for a record long time work.
In terms of hardware capabilities and technical equipment, the Philips Xenium W6610 smartphone turned out to be an unremarkable model, but at the same time, there is nothing to complain about here. The device of stars from heaven is not enough, but for most of the characteristics it turned out to be quite decent, not too pretty, but tightly tailored, and at the same time an inexpensive smartphone with two SIM-cards and a large five-inch screen. It is the screen size that seems to be the most obvious drawback of the device: the majority of users who dream of an endlessly working smartphone without recharging do not welcome the proliferation of displays to such large dimensions - just read the numerous reviews for any of the listed models. So the screen of the Philips Xenium W6610 could have been made smaller, as a result of which the smartphone itself would look neater and sleeker.
As for the rest, the characteristics of the Philips Xenium W6610 are quite modest: the device has an average performance, poor quality of photo / video shooting, it is not very suitable for advanced gaming entertainment, although sometimes you can while away your free time for not the most demanding ones. First of all, a smartphone is valuable for its ability to become a reliable mobile assistant in organizing a large number of daily affairs, and not its multimedia component. But the owner of this device will definitely not have to worry about whether his mobile assistant will reach the next outlet, even if a large number of long calls are made during the day. For such people, Philips Xenium W6610 is simply a unique find, which is fully confirmed by the high level of user interest in this device.
Battery capacity: 5300 mAh Battery type: Li-Ion Talk time: 40 h Standby time: 1200 h
