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Samsung Galaxy A55 5G
High-End ?

Samsung Galaxy A55 5G Camera test

OTHER AVAILABLE TESTS FOR THIS DEVICE

We put the Samsung Galaxy A55 5G through our rigorous DXOMARK Camera test suite to measure its performance in photo, video, and zoom quality from an end-user perspective. This article breaks down how the device fared in a variety of tests and several common use cases and is intended to highlight the most important results of our testing with an extract of the captured data.

Overview

Key camera specifications:

  • Primary: 50MP sensor, f/1.8-aperture lens, AF, OIS
  • Ultra-wide: 12MP sensor, 123-degree field of view, f/2.2-aperture lens
  • Macro: 5MP sensor, f/2.4-aperture lens

Scoring

Sub-scores and attributes included in the calculations of the global score.

Samsung Galaxy A55 5G
Samsung Galaxy A55 5G
108
camera
110
Photo
98

130

92

130

90

125

93

124

71

117

67

82

45
Bokeh
45

85

54
Preview
54

93

75
Zoom
43

120

93

122

117
Video
95

116

92

120

80

120

83

118

100

120

79

86

103

119

Use cases & Conditions

Use case scores indicate the product performance in specific situations. They are not included in the overall score calculations.

BEST 180

Outdoor

Photos & videos shot in bright light conditions (≥1000 lux)

BEST 169

Indoor

Photos & videos shot in good lighting conditions (≥100lux)

BEST 138

Lowlight

Photos & videos shot in low lighting conditions (<100 lux)

BEST 154

Friends & Family

Portrait and group photo & videos

Pros

  • Accurate exposure, fairly wide dynamic range in bright light and indoors
  • Fairly high texture levels in bright light
  • Fairly good video stabilization when standing still while recording

Cons

  • Some autofocus and exposure instabilities and stepping
  • Noise, particularly in the shadow areas of the frame
  • Occasionally inaccurate color rendering
  • Ineffective video stabilization when moving while recording
  • Hues shifts, flare and fusion artifacts
  • Limited zoom capabilities, low texture and limited dynamic range in zoom shots

The Samsung Galaxy A55 5G is one of the latest model in Samsung’s A series and the successor to the A54 5G, which we tested previously.  The new model shares some camera hardware specifications with its predecessor, and in our tests, camera performance was on a similar level as well. Overall results were pretty average for this class of device, with accurate exposure and fairly good texture when shooting in decent light conditions.

However, in more challenging situations, for example strongly backlit scenes, very low light or scenes with motion, our testers observed a range of failures, including hue shifts around clipped areas, ghosting effects and a noticeable decline of the autofocus tracking capabilities. Surprisingly, our testers found the A55’s bokeh mode to be less accurate, with more subject segmentation errors and activation failures, than on the predecessor.

The lack of a dedicated tele camera module meant that tele zoom image quality was quite limited. In terms of ultra-wide, the A55 offered a slightly wider dynamic range than the A54 but exposed higher noise levels, especially in the shadow areas of the frame. In addition, color rendering was less pleasant, with some color spread. In video mode, stabilization was not quite on the same level as the best-in-class devices, for example, the Apple iPhone 15 Pro.

Test summary

About DXOMARK Camera tests: DXOMARK’s Camera evaluations take place in laboratories and in real-world situations using a wide variety of subjects. The scores rely on objective tests for which the results are calculated directly by measurement software on our laboratory setups, and on perceptual tests in which a sophisticated set of metrics allow a panel of image experts to compare aspects of image quality that require human judgment. Testing a smartphone involves a team of engineers and technicians for about a week. Photo, Zoom, and Video quality are scored separately and then combined into an Overall score for comparison among the cameras in different devices. For more information about the DXOMARK Camera protocol, click here. More details on smartphone camera scores are available here. The following section gathers key elements of DXOMARK’s exhaustive tests and analyses. Full performance evaluations are available upon request. Please contact us  on how to receive a full report.

Samsung Galaxy A55 5G Camera Scores vs High-End
This graph compares DXOMARK photo, zoom and video scores between the tested device and references. Average and maximum scores of the price segment are also indicated. Average and maximum scores for each price segment are computed based on the DXOMARK database of devices tested.

Photo

110

Samsung Galaxy A55 5G

169

Huawei Pura 70 Ultra
About DXOMARK Camera Photo tests

For scoring and analysis, DXOMARK engineers capture and evaluate more than 2,600 test images both in controlled lab environments and in outdoor, indoor and low-light natural scenes, using the camera’s default settings. The photo protocol is designed to take into account the main use cases and is based on typical shooting scenarios, such as portraits, family, and landscape photography. The evaluation is performed by visually inspecting images against a reference of natural scenes, and by running objective measurements on images of charts captured in the lab under different lighting conditions from 1 to 1,000+ lux and color temperatures from 2,300K to 6,500K.

Samsung Galaxy A55 5G Photo scores vs High-End
The photo tests analyze image quality attributes such as exposure, color, texture, and noise in various light conditions. Autofocus performances and the presence of artifacts on all images captured in controlled lab conditions and in real-life images are also evaluated. All these attributes have a significant impact on the final quality of the images captured with the tested device and can help to understand the camera's main strengths and weaknesses.
Samsung Galaxy A55 – Fairly wide dynamic range but slight underexposure, low texture and noise, especially in the shadows
Autofocus irregularity and speed: 1000Lux Δ4EV Daylight Tripod
This graph illustrates focus accuracy and speed and also zero shutter lag capability by showing the edge acutance versus the shooting time measured on the AFHDR setup on a series of pictures. All pictures were taken at 1000Lux with Daylight illuminant, 500ms after the defocus. On this scenario, the backlit panels in the scene are set up to simulate a fairly high dynamic range: the luminance ratio between the brightest point and a 18% reflective gray patch is 4, which we denote by a Exposure Value difference of 4. The edge acutance is measured on the four edges of the Dead Leaves chart, and the shooting time is measured on the LED Universal Timer.
DXOMARK CHART (DMC) detail preservation score vs lux levels for tripod and handheld conditions
This graph shows the evolution of the DMC detail preservation score with the level of lux, for two holding conditions. DMC detail preservation score is derived from an AI-based metric trained to evaluate texture and details rendering on a selection of crops of our DXOMARK chart.
Visual noise evolution with illuminance levels in handheld condition
This graph shows the evolution of visual noise metric with the level of lux in handheld condition. The visual noise metric is the mean of visual noise measurement on all patches of the Dead Leaves chart in the AFHDR setup. DXOMARK visual noise measurement is derived from ISO15739 standard.

Zoom

75

Samsung Galaxy A55 5G

164

Huawei Pura 70 Ultra
About DXOMARK Camera Zoom tests

DXOMARK engineers capture and evaluate over 400 test images in controlled lab environments and in outdoor, indoor, and low-light natural scenes, using the camera’s default settings and pinch zoom at various zoom factors from ultra wide to very long-range zoom. The evaluation is performed by visually inspecting the images against a reference of natural scenes, and by running objective measurements of chart mages captured in the lab under different conditions from 20 to 1000 lux and color temperatures from 2300K to 6500K.

Apple iPhone 14 Pro Zoom Scores vs Ultra-Premium
This graph illustrates the relative scores for the different zoom ranges evaluated. The abscissa is expressed in 35mm equivalent focal length. Zooming-in scores are displayed on the right and Zooming-out scores on the left.

Video

117

Samsung Galaxy A55 5G

159

Apple iPhone 16 Pro
About DXOMARK Camera Video tests

DXOMARK engineers capture and evaluate more than 2.5 hours of video in controlled lab environments and in natural low-light, indoor and outdoor scenes, using the camera’s default settings. The evaluation consists of visually inspecting natural videos taken in various conditions and running objective measurements on videos of charts recorded in the lab under different conditions from 1 to 1000+ lux and color temperatures from 2,300K to 6,500K.

Samsung Galaxy A55 5G Video scores vs High-End
Video tests analyze the same image quality attributes as for still images, such as exposure, color, texture, or noise, in addition to temporal aspects such as speed, and smoothness and stability of exposure, white balance, and autofocus transitions.

Samsung Galaxy A55 – Exposure instabilities (background and when model turns), noise (particularly in the shadows), autofocus stepping when approaching the model, fairly effective stabilization when standing still, but frame shifts during panning
DXOMARK CHART (DMC) detail preservation video score vs lux levels
This graph shows the evolution of the DMC detail preservation video score with the level of lux in video. DMC detail preservation score is derived from an AI-based metric trained to evaluate texture and details rendering on a selection of crops of our DXOMARK chart.
Spatial visual noise evolution with the illuminance level
This graph shows the evolution of spatial visual noise with the level of lux. Spatial visual noise is measured on the visual noise chart in the video noise setup. DXOMARK visual noise measurement is derived from ISO15739 standard.
Temporal visual noise evolution with the illuminance level
This graph shows the evolution of temporal visual noise with the level of lux. Temporal visual noise is measured on the visual noise chart in the video noise setup.

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