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Comparison Apple iPhone 14 256 GB vs Apple iPhone 13 256 GB

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Apple iPhone 14 256 GB
Apple iPhone 13 256 GB
Apple iPhone 14 256 GBApple iPhone 13 256 GB
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Main
The main camera supports matrix-shift stabilization. Display with support for Dolby Vision, HDR10 and HLG. IP68 protection.
The main camera supports matrix-shift stabilization. Display with support for Dolby Vision, HDR10 and HLG. IP68 protection.
Display
Main display
6.1 "
2532x1170 (19.5:9)
460 ppi
OLED /Super Retina XDR/
60 Hz
HDR10
Ceramic Shield
6.1 "
2532x1170 (19.5:9)
460 ppi
OLED /Super Retina XDR/
60 Hz
HDR10
Ceramic Shield
Brightness
1200 nit /peak brightness with HDR/
800 nit
Display-to-body ratio86 %86 %
DCI-P3
DxOMark test (display)139136
Hardware
Operating systemiOSiOS
CPU modelApple A15Apple A15
CPU frequency3.2 GHz3.2 GHz
CPU cores66
RAM6 GB4 GB
Memory storage256 GB256 GB
Memory card slotabsentabsent
Test results
AnTuTu Benchmark821 000 score(s)818 000 score(s)
Geekbench4761 score(s)4624 score(s)
Wild Life (Extreme)2855 score(s)
Main camera
Lenses2 modules2 modules
Main lens
12 MP
f/1.5
26 mm
Apple iSight Camera
12 MP
f/1.6
26 mm
Apple iSight Camera
Ultra wide lens
12 MP
f/2.4
13 mm
120 °
12 MP
f/2.4
13 mm
120 °
Full HD (1080p)60 fps60 fps
4K60 fps60 fps
Slow motion (slow-mo)
240 fps /filming 1080p/
240 fps /filming 1080p/
Image stabilizationwith matrix shiftwith matrix shift
Camera zoom2 x2 x
Claimed magnification2 x2 x
Flash
DxOMark test (camera)133 score125 score
Front camera
Form factorwith notchwith notch
Main selfie lens
12 MP /+ Retina Flash/
12 MP /+ Retina Flash/
Aperturef/1.9f/2.2
Full HD (1080p)60 fps60 fps
Ultra HD (4K)60 fps60 fps
DxOMark test (selfie camera)144 points134 points
Connections and communication
Cellular technology
5G
CDMA
5G
CDMA
SIM card type
nano+e-SIM /in the USA only e-SIM/
nano+e-SIM
SIM slots2 SIM2 SIM
Connectivity technology
Wi-Fi 6 (802.11ax)
Bluetooth v 5.3
NFC /two NFC (one for payment and identification, the second for recognition of original accessories)/
satellite connection /SOS/
Wi-Fi 6 (802.11ax)
Bluetooth v 5.0
NFC /two NFC (one for payment and identification, the second for recognition of original accessories)/
 
Inputs & outputs
Lightning
Lightning
Features and navigation
Features
3D face scanner
no fingerprint scanner
stereo
Dolby Atmos
noise cancellation
gyroscope
light sensor
barometer
3D face scanner
no fingerprint scanner
stereo
 
noise cancellation
gyroscope
light sensor
barometer
Navigation
aGPS
GPS module /GALILEO, QZSS/
GLONASS
Galileo
digital compass
aGPS
GPS module /GALILEO, QZSS/
GLONASS
 
digital compass
Power supply
Battery capacity3279 mAh3240 mAh
DxOMark test (battery)112115
Fast chargingPower DeliveryPower Delivery
Charger power20 W20 W
Fast charging time50% in 30 min50% in 30 min
Wireless charging
15 W /MagSafe/
15 W /MagSafe/
General
Waterproof
IP68 /up to 30 minutes at a depth of 6 m/
IP68
Bezel/back cover materialmetal/glassmetal/glass
Dimensions (HxWxD)146.7x71.5x7.8 mm146.7x71.5x7.65 mm
Weight172 g174 g
Color
Added to E-Catalogseptember 2022september 2021

Brightness

The maximum brightness in nits provided by the smartphone display.

The brighter the display, the more readable the picture remains on it under intense ambient light (for example, outdoors on a clear sunny day). Also, high brightness is important for the correct displaying of HDR content. However, a large amount of brightness affects the cost and power consumption of the screen. Manufacturers can specify standard, maximum, and peak brightness values. At the same time, an equal sign cannot be put between the maximum and peak brightness. The first indicates the ability of the screen to produce the specified brightness over its entire area, while the peak one — in a limited area and for a short time (mainly for HDR content).

DxOMark test (display)

DxOMark is an independent private research and development centre, which operates a department for evaluating the quality of mobile phone screens. DxOMark tests smartphone displays for comprehensive analysis, from image clarity and responsiveness to artifacts and rendering issues. After passing the test, the smartphone is assigned points for the quality of the screen.

RAM

The parameter determines the overall performance of the smartphone: the more RAM, the faster the device works and the better it copes with an abundance of tasks and / or resource-intensive applications (ceteris paribus). This is even more true in light of the fact that large amounts of "RAM" are usually combined with powerful advanced processors. However, only devices with identical operating systems can be directly compared with each other, and in the case of Android, with the same versions and editions of this OS (for more on all this, see "Operating system"). This is due to the fact that different operating systems and even different versions of the same OS can differ markedly in terms of RAM requirements. For example, iOS, thanks to good optimization for specific devices, is able to work efficiently with 3 GB of RAM. For modern versions of Android in the regular edition (not Go Edition), the mentioned 3 GB is actually the required minimum. Under such an OS, it is better to have at least 4 GB or 6 GB of RAM. In high-end devices with powerful electronic "stuffing" you can also find more impressive numbers - 8 GB or even 12 GB or more.

Test results

The test results are specified either by a younger model in a line or a particular model, made for a better understanding performance of phone models if you compare phones against these parameters. For example, the 128 GB model has test results, and the 256 GB model has no information on the network, and in both models you will see the same value that will give an understanding of the overall performance of the device. But if the editorial office has information for each model individually, then each model will have its test results filled out, and the model with bigger RAM will have bigger values.

AnTuTu Benchmark

The result shown by a device when undergoing a performance test (benchmark) in AnTuTu Benchmark.

AnTuTu Benchmark is a comprehensive test designed specifically for mobile devices, primarily smartphones and tablets. It evaluates the efficiency of the processor, memory, graphics, and input/output systems, providing a clear impression of the system's capabilities. The higher the performance, the more points are awarded. Smartphones that score over 900K points are considered high-performance according to the AnTuTu ranking.

Like any benchmark, this test does not provide absolute precision: the same device can show different results, usually with deviations within 5-7%. These deviations depend on various factors unrelated to the system itself, such as the device's load from third-party programs and the ambient temperature during testing. Therefore, significant differences between two models can only be noted when the gap in their scores exceeds this margin of error.

Geekbench

The result shown by a device when undergoing a performance test (benchmark) in Geekbench.

Geekbench is a specialized benchmark designed for processors. Since version 4.0, it also includes tests for graphics processors, and by the end of 2019, version 5 of the benchmark was released. Typically, the specifications for portable gadgets include data specifically for the CPU. During testing, Geekbench simulates workloads that occur during real-world tasks, evaluating both single-core performance and the efficiency of multi-core operations. This provides a solid overview of the processor's capabilities in everyday use. Additionally, Geekbench is cross-platform, allowing for comparisons between the CPUs of different devices (smartphones, tablets, laptops, PCs). In reference materials, only the multi-core test results for the processor are usually provided.

Wild Life (Extreme)

The result was shown by the device when passing the Wild Life (Extreme) performance test (benchmark) from 3DMark.

The Wild Life (Extreme) benchmark offers two ways to test graphics performance: a quick test that evaluates instantaneous performance, and a longer test that subjects the device to sustained load. This way one can evaluate how stable performance remains and does not drop due to overheating or throttling. The benchmark is cross-platform, which makes it possible to compare devices running different OSs and even different classes (for example, smartphones and laptops).

It is important to understand that this test does not provide absolute accuracy. The same device can show different results — they depend on many factors not directly related to the system. The error caused by these factors is often on the order of 5–7%. So we can talk about a significant difference between the two models being compared if the difference in performance goes beyond the mentioned error.

Main lens

Specifications of the main lens of the rear camera installed in the phone. In models with several lenses (see “Number of lenses”), the main one is responsible for basic shooting capabilities and does not have a pronounced specialization (wide-angle, telephoto, etc.). Four main parameters can be indicated here: resolution, aperture ( high aperture optics are quite common), focal length, additional sensor data.

Resolution(in megapixels, MP)
Resolution of the sensor used for the main lens. Budget options are equipped with a module 8 MP and below, many models have 12 MP camera / 13 MP, also recently a trend towards increasing megapixels has been popular. Often in smartphones you can find the main photomodule at 48 MP, 50 MP< /a>, 64 MP and even 108 MP .

The maximum resolution of the resulting image directly depends on the resolution of the sensor; and the high resolution of the "picture", in turn, allows you to better display fine details. On the other hand, an increase in the number of megapixels in itself can lead to a deterioration in the overall image quality - due to the smaller size of each individual pixel, the noise level increases. As a result,...the direct resolution of the camera has little effect on the quality of the shooting - more depends on the physical size of the matrix, the features of the optics and various design tricks used by the manufacturer.

Aperture
Aperture describes the ability of a lens to transmit light. It is written as a fractional number, for example f/1.9. Moreover, the larger the number in the denominator, the lower the aperture ratio, the less light passes through the optics, all other things being equal. For example, an f/2.6 lens will be “darker” than f/1.9.

High aperture gives the camera a number of advantages. First, it improves the quality of shooting in low light. Secondly, it's possible to shoot at low shutter speeds, minimizing the effect of "stirring" and blurring of moving objects in the frame. Thirdly, with fast optics it is easier to achieve a beautiful background blur ("bokeh") — for example, when shooting portraits.

Focal length(in millimetres)
The focal length is a distance between the sensor and the centre of the lens (focused to infinity), at which the most clear image is obtained on the matrix. However, for smartphones, the specifications indicate not the actual, but the so-called equivalent focal length — a conditional indicator recalculated using special formulas. This indicator can be used to evaluate and compare cameras with different sensor sizes (the actual focal length cannot be used for this, since with a different sensor size the same real focal length will correspond to different viewing angles). (It is also worth saying that the equivalent focal length can be noticeably larger than the thickness of the case — there is nothing unusual in this, since this is a conditional, and not a real indicator).

Anyway, the field of view and the degree of magnification directly depend on the equivalent focal length: a larger focal length gives a smaller field of view and a larger size of individual objects that fall into the frame, and a decrease in this distance, in turn, allows you to cover more space. In most modern smartphones, the focal length of the main camera ranges from 13 to 35 mm; if compared with the optics of traditional cameras, then lenses with equivalent focal length up to 25 mm can be attributed to wide-angle lenses, more than 25 mm — to universal models “with a bias towards wide-angle shooting”. Such values are chosen due the fact that smartphones are often used for shooting in cramped conditions, when a fairly large space needs to fit into the frame at a small distance. Enlargement of the picture, if necessary, is most often carried out digitally — due to the reserve of megapixels on the sensor; but there are also models with optical zoom (see below) — for them, not one value is given, but the entire working range of the equivalent focal length (recall, optical zoom is carried out by changing the focal length).

Field of view(in degrees). It characterizes the size of the area covered by the lens, as well as the size of individual objects "seen" by the camera. The larger this field, the more of the scene gets into the frame, but the smaller the individual objects in the image are. The field of view is directly related to the focal length (see above): increasing this distance narrows the field of view of the lens, and vice versa.

Note that this parameter is generally considered important for professional use of the camera rather than for amateur photography. Therefore, viewing angle data is given mainly for smartphones equipped with advanced cameras — including in order to emphasize the high class of cameras. As for specific values, for the main lens they usually are in the range from 70° to 82° — this corresponds to the general specifics of such optics (universal shooting with an emphasis on general scenes and extensive coverage at short distances).

Additional Sensor Data
Additional information regarding the sensor installed in the main lens. This item can specify both the size (in inches) and the sensor model, and sometimes both parameters at once. Anyway, such data is provided only if the device is equipped with a high-end sensor. With the model, everything is quite simple: knowing the name of the sensor, you can find detailed data on it. The size is worth considering a little more.

The size of the sensor is traditionally indicated in fractional parts of an inch — accordingly, for example, a 1/2.3" sensor will be larger than 1/2.6". Larger sensors are considered more advanced, as they provide better image quality at the same resolution. The logic here is simple - due to the large sensor area, each individual pixel is also larger and gets more light, which improves sensitivity and reduces noise. Of course, the actual image quality will also depend on a number of other parameters, but in general, a larger sensor size usually means a more advanced camera. In advanced photo flagships, you can find matrices with a physical size of 1”, which is comparable to image sensors used in top compact cameras with fixed lenses.

DxOMark test (camera)

The result shown by the main camera of the smartphone in the DxOMark ranking.

DxOMark is one of the most popular and respected resources dedicated to expert testing of cameras, including smartphones. According to the test results, the camera receives a certain number of points; The more points, the higher the final score. The DxOMark top in our catalog includes devices that score at least 108 points; and a score of more than 120 points allows us to consider the camera a high-end one, even if the device does not formally belong to “camera phones”.
Apple iPhone 14 often compared
Apple iPhone 13 often compared