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Google Pixel 6 Pro Audio test

September 20, 2022
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audio
This device has been retested in the latest version of our protocol. This summary has been fully updated. For detailed information, check the What’s New article
OTHER AVAILABLE TESTS FOR THIS DEVICE

We put the Google Pixel 6 Pro through our rigorous DXOMARK Audio test suite to measure its performance both at recording sound using its built-in microphones, and at playing audio back through its speakers.

In this review, we will break down how it fared in a variety of tests and several common use cases.

Overview


Key audio specifications include:

  • Two speakers (one bottom right, side-firing, and one top, front-firing)
  • Three microphones
  • Audio zoom
  • USB Type-C input for headphones (no 3.5mm jack)

Scoring

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


Google Pixel 6 Pro
138
audio
139
Playback
Timbre
132

158

Dynamics
133

149

Spatial
144

162

Volume
134

162

Artifacts
94

157

135
Recording
Timbre
136

147

Dynamics
130

146

Spatial
98

159

Volume
103

170

Artifacts
144

145

Background
140

166

AUDIO
Position in Global Ranking
34th
1. Black Shark 5 Pro
161
2. Asus ROG Phone 6
155
2. Honor Magic6 Pro
155
4. Asus ROG Phone 5
151
5. Asus Smartphone for Snapdragon Insiders
149
5. Black Shark 4S Pro
149
5. Black Shark 4 Pro
149
5. Honor Magic3 Pro+
149
9. Asus ROG Phone 7
148
10. Xiaomi Mi 10 S
147
11. Huawei Mate 50 Pro
144
11. Xiaomi Mi 10 Pro
144
13. Apple iPhone 15 Pro Max
143
14. Apple iPhone 15 Pro
142
14. Apple iPhone 14 Pro Max
142
14. Apple iPhone 14 Pro
142
14. Google Pixel 8 Pro
142
18. Apple iPhone 15 Plus
141
18. Apple iPhone 15
141
18. Apple iPhone 14 Plus
141
18. Apple iPhone 14
141
18. Huawei P60 Pro
141
23. Apple iPhone 12
140
23. Apple iPhone 12 Pro Max
140
23. Google Pixel 8
140
23. Xiaomi 13 Ultra
140
23. Xiaomi 13 Pro
140
28. Apple iPhone 13 Pro Max
139
28. Apple iPhone 13 Pro
139
28. Apple iPhone 12 mini
139
28. Samsung Galaxy S24+
139
28. Samsung Galaxy S24 Ultra
139
28. Samsung Galaxy S23 Ultra (Snapdragon)
139
34. Apple iPhone 13
138
34. Asus ROG Phone 3
138
34. Google Pixel 6 Pro
138
34. Honor Magic5 Pro
138
34. Huawei Mate 60 Pro+
138
34. Samsung Galaxy S23 FE
138
40. Apple iPhone 13 mini
137
40. Google Pixel 7 Pro
137
40. Google Pixel 6
137
40. Honor Magic Vs
137
40. Honor Magic4 Pro
137
40. Samsung Galaxy S23 Plus (Snapdragon)
137
46. Google Pixel 6a
135
46. OnePlus Open
135
46. Oppo Find N2
135
46. Xiaomi 14
135
50. Samsung Galaxy Z Fold4
134
50. Samsung Galaxy S24
134
50. Vivo X100 Pro
134
50. Xiaomi 13
134
54. Google Pixel Fold
133
54. Huawei Mate 20 X
133
54. Lenovo Legion Y90
133
54. Samsung Galaxy Z Fold5
133
54. Samsung Galaxy S23 (Snapdragon)
133
54. Samsung Galaxy S22 Ultra (Snapdragon)
133
54. Samsung Galaxy S22 Ultra (Exynos)
133
54. Samsung Galaxy A54 5G
133
54. Vivo X90 Pro
133
63. Google Pixel 7a
132
63. Vivo X Fold
132
63. Vivo X90 Pro+
132
66. Apple iPhone XS Max
131
66. Asus Zenfone 10
131
66. Oppo Find X2 Pro
131
66. Oppo Find N2 Flip
131
70. Samsung Galaxy Z Flip4
130
70. Xiaomi Mix Fold 3
130
72. Samsung Galaxy Z Flip5
129
72. Vivo X80 Pro (Snapdragon)
129
72. Xiaomi 12S Ultra
129
72. Xiaomi 12 Pro
129
76. OnePlus 11
128
76. Oppo Find X6 Pro
128
76. Oppo Find X5 Pro
128
76. POCO F4 GT
128
76. Realme GT Neo 5 (240W)
128
76. Xiaomi Redmi K50 Gaming
128
76. Xiaomi 13T
128
76. Xiaomi 11T Pro
128
84. Oppo Find X6
127
84. Samsung Galaxy A52s 5G
127
84. Samsung Galaxy A52 5G
127
84. Xiaomi 12T Pro
127
88. Apple iPhone 11
126
88. Motorola Razr 40 Ultra
126
88. OnePlus 10T 5G
126
88. Samsung Galaxy A53 5G
126
88. Samsung Galaxy A34 5G
126
88. Xiaomi 12T
126
88. Xiaomi 11T
126
95. Apple iPhone 11 Pro Max
125
95. Samsung Galaxy A33 5G
125
95. Vivo X80 Pro (MediaTek)
125
98. Lenovo Legion Phone 2 Pro
124
99. Google Pixel 7
123
99. Oppo Reno8 Pro 5G
123
101. Apple iPhone SE (2022)
122
101. Apple iPhone SE (2020)
122
101. Xiaomi 13T Pro
122
101. Xiaomi 12
122
105. OnePlus 9 Pro
121
105. Samsung Galaxy S22+ (Exynos)
121
105. Sony Xperia 1 IV
121
105. Xiaomi Mix Fold 2
121
109. Samsung Galaxy Z Fold3 5G
120
109. Samsung Galaxy S22 (Snapdragon)
120
109. Samsung Galaxy S22 (Exynos)
120
112. Asus ROG Phone 2
119
112. Huawei P50 Pro
119
112. OnePlus 9
119
112. OnePlus 8
119
112. POCO F5 Pro
119
112. Xiaomi Redmi K40 Gaming
119
112. Xiaomi Mi 11 Ultra
119
119. Realme GT Neo 3
118
119. Samsung Galaxy S21 Ultra 5G (Snapdragon)
118
119. Samsung Galaxy S21 Ultra 5G (Exynos)
118
119. Samsung Galaxy S21 FE 5G (Snapdragon)
118
119. Samsung Galaxy S21 5G (Snapdragon)
118
119. Samsung Galaxy S21 5G (Exynos)
118
125. Asus Zenfone 8
117
125. Google Pixel 4
117
125. OnePlus 10 Pro
117
125. OnePlus 8 Pro
117
125. Vivo iQOO 9 Pro
117
130. Motorola Edge 40 Pro
116
130. Motorola Edge+
116
130. Realme GT Neo 2 5G
116
130. Samsung Galaxy S20 Ultra 5G (Exynos)
116
130. Samsung Galaxy Note20 Ultra 5G (Exynos)
116
130. Xiaomi Redmi K40 Pro+
116
130. Xiaomi Mi 11
116
137. Motorola Edge 30 Pro
115
137. OnePlus Nord 2T 5G
115
137. Samsung Galaxy Note20 Ultra 5G (Snapdragon)
115
137. Xiaomi Mi 11i
115
141. Samsung Galaxy Z Fold2 5G
114
141. Vivo iQOO 7 Legend
114
143. Google Pixel 5
113
143. LG V60 ThinQ 5G
113
143. OnePlus 7 Pro
113
143. Samsung Galaxy S20+
113
143. Samsung Galaxy S10+
113
143. Samsung Galaxy Note 10+ 5G (Exynos)
113
143. Samsung Galaxy Note 10+ (Exynos)
113
143. Sony Xperia 1 III
113
151. Nubia RedMagic 6 Pro
112
151. Nubia Red Magic 5S
112
151. Realme GT 5G
112
151. Xiaomi 12 Lite 5G
112
155. Oppo A78 5G
111
155. Sony Xperia 5 IV
111
157. Oppo Find X3 Pro
110
158. Honor 70
109
158. Huawei Mate 30 Pro 5G
109
158. Oppo Find X5
109
158. POCO X3 NFC
109
158. Realme GT 2 Pro
109
158. Vivo X70 Pro+
109
158. ZTE Axon 30 Ultra
109
165. Huawei Mate 30 Pro
108
165. Oppo Reno6 Pro 5G (Snapdragon)
108
165. Oppo Find X3 Neo
108
165. Realme X2 Pro
108
169. Sony Xperia 5 V
107
170. Honor 90
106
170. Nothing Phone(1)
106
170. Oppo Reno8 Lite 5G
106
170. Oppo A77 5G
106
174. Lenovo Legion Phone Pro
105
174. Nothing Phone (2)
105
174. Nubia RedMagic 7 Pro
105
174. Samsung Galaxy A23 5G
105
178. Honor V30 Pro
104
178. Oppo Reno8 5G
104
178. Oppo Reno5 Pro+ 5G
104
181. Black Shark 3 Pro
103
181. Nubia RedMagic 8 Pro
103
181. Oppo Find X5 Lite
103
181. Sony Xperia 1 II
103
185. Huawei P40 Pro
102
185. Motorola Edge 20 Pro
102
185. Oppo Reno6 5G
102
188. Motorola Razr
101
189. Honor Magic5 Lite 5G
97
189. Xiaomi Mi CC9 Pro Premium Edition
97
191. Black Shark 2 Pro
96
191. Honor 20 Pro
96
191. Oppo Find X3 Lite
96
191. Vivo X51 5G
96
195. LG G8 ThinQ
95
195. Sony Xperia 10 IV
95
197. Nubia Red Magic 3S
94
198. Fairphone 4
93
198. Sony Xperia 1
93
198. Vivo X70 Pro (MediaTek)
93
201. Fairphone 5
92
202. Vivo X60 Pro+
91
203. Nokia 7.2
87
204. Vivo X60 Pro 5G (Snapdragon)
86
AUDIO
Position in Ultra-Premium Ranking
24th
1. Asus ROG Phone 6
155
1. Honor Magic6 Pro
155
3. Asus Smartphone for Snapdragon Insiders
149
3. Honor Magic3 Pro+
149
5. Asus ROG Phone 7
148
6. Huawei Mate 50 Pro
144
6. Xiaomi Mi 10 Pro
144
8. Apple iPhone 15 Pro Max
143
9. Apple iPhone 15 Pro
142
9. Apple iPhone 14 Pro Max
142
9. Apple iPhone 14 Pro
142
9. Google Pixel 8 Pro
142
13. Apple iPhone 15 Plus
141
13. Apple iPhone 14 Plus
141
13. Huawei P60 Pro
141
16. Apple iPhone 12 Pro Max
140
16. Xiaomi 13 Ultra
140
16. Xiaomi 13 Pro
140
19. Apple iPhone 13 Pro Max
139
19. Apple iPhone 13 Pro
139
19. Samsung Galaxy S24+
139
19. Samsung Galaxy S24 Ultra
139
19. Samsung Galaxy S23 Ultra (Snapdragon)
139
24. Asus ROG Phone 3
138
24. Google Pixel 6 Pro
138
24. Honor Magic5 Pro
138
24. Huawei Mate 60 Pro+
138
28. Google Pixel 7 Pro
137
28. Honor Magic Vs
137
28. Honor Magic4 Pro
137
28. Samsung Galaxy S23 Plus (Snapdragon)
137
32. OnePlus Open
135
32. Oppo Find N2
135
34. Samsung Galaxy Z Fold4
134
34. Vivo X100 Pro
134
36. Google Pixel Fold
133
36. Huawei Mate 20 X
133
36. Samsung Galaxy Z Fold5
133
36. Samsung Galaxy S22 Ultra (Snapdragon)
133
36. Samsung Galaxy S22 Ultra (Exynos)
133
36. Vivo X90 Pro
133
42. Vivo X Fold
132
42. Vivo X90 Pro+
132
44. Apple iPhone XS Max
131
44. Oppo Find X2 Pro
131
44. Oppo Find N2 Flip
131
47. Samsung Galaxy Z Flip4
130
47. Xiaomi Mix Fold 3
130
49. Samsung Galaxy Z Flip5
129
49. Vivo X80 Pro (Snapdragon)
129
49. Xiaomi 12S Ultra
129
49. Xiaomi 12 Pro
129
53. Oppo Find X6 Pro
128
53. Oppo Find X5 Pro
128
55. Oppo Find X6
127
56. Motorola Razr 40 Ultra
126
57. Apple iPhone 11 Pro Max
125
57. Vivo X80 Pro (MediaTek)
125
59. OnePlus 9 Pro
121
59. Samsung Galaxy S22+ (Exynos)
121
59. Sony Xperia 1 IV
121
59. Xiaomi Mix Fold 2
121
63. Samsung Galaxy Z Fold3 5G
120
64. Asus ROG Phone 2
119
64. Huawei P50 Pro
119
64. Xiaomi Mi 11 Ultra
119
67. Samsung Galaxy S21 Ultra 5G (Snapdragon)
118
67. Samsung Galaxy S21 Ultra 5G (Exynos)
118
69. OnePlus 10 Pro
117
69. OnePlus 8 Pro
117
71. Motorola Edge 40 Pro
116
71. Motorola Edge+
116
71. Samsung Galaxy S20 Ultra 5G (Exynos)
116
71. Samsung Galaxy Note20 Ultra 5G (Exynos)
116
75. Samsung Galaxy Note20 Ultra 5G (Snapdragon)
115
76. Samsung Galaxy Z Fold2 5G
114
77. Samsung Galaxy S20+
113
77. Samsung Galaxy S10+
113
77. Samsung Galaxy Note 10+ 5G (Exynos)
113
77. Samsung Galaxy Note 10+ (Exynos)
113
77. Sony Xperia 1 III
113
82. Sony Xperia 5 IV
111
83. Oppo Find X3 Pro
110
84. Huawei Mate 30 Pro 5G
109
84. Oppo Find X5
109
84. Vivo X70 Pro+
109
87. Huawei Mate 30 Pro
108
88. Sony Xperia 5 V
107
89. Lenovo Legion Phone Pro
105
90. Black Shark 3 Pro
103
90. Sony Xperia 1 II
103
92. Huawei P40 Pro
102
93. Motorola Razr
101
94. LG G8 ThinQ
95
95. Sony Xperia 1
93
96. Vivo X60 Pro+
91

Playback

Pros

  • Deeper low-end extension and stronger low midrange than Pixel 6, which also helps the sensation of punch
  • Tonal Balance remains fairly identical at soft volumes
  • Natural position of hands doesn’t block any speaker

Cons

  • The center is shifted towards the right when listening to music.
  • Dynamics are impaired by heavy compression at maximum volume.
  • Stereo doesn’t follow the phone’s rotation when listening to music (only when watching movies).
  • Numerous artifacts detected

Recording

Pros

  • Good tonal balance across all use cases
  • Relatively free from artifacts, even when recording in loud environments
  • Loudness in recordings is very good, all the while remaining clean.

Cons

The Google Pixel 6 Pro bests its predecessors and delivers a very good performance when compared to all the phones in our Audio rankings.

Google’s 2021 flagship fares reasonably well across all use cases. In the recording area, the Google Pixel 6 Pro gets notably better and turns in above-average results, with a harmonious tonal balance, accurate dynamic attributes, and skills in high-SPL scenarios, making it a good choice for recording concerts, filming selfie videos, and sending memos.

Test summary

About DXOMARK Audio tests: For scoring and analysis in our smartphone audio reviews, DXOMARK engineers perform a variety of objective tests and undertake more than 20 hours of perceptual evaluation under controlled lab conditions.
(For more details about our Playback protocol, click here; for more details about our Recording protocol, click here.)

The following section gathers key elements of our exhaustive tests and analyses performed in DXOMARK laboratories. Detailed performance evaluations under the form of reports are available upon request. Do not hesitate to contact us.

Playback

139

Google Pixel 6 Pro

163

Black Shark 5 Pro
i
How Audio Playback score is composed

DXOMARK engineers test playback through the smartphone speakers, whose performance is evaluated in our labs and in real-life conditions, using default apps and settings.

Learn more about how we test audio playback

In playback, the Google Pixel 6 Pro is rather well suited for gaming thanks to very good spatial attributes (localizability, wideness and distance rendering), natural midrange, correct volume results, and speakers that are fairly hard to occlude by the user’s hands. As for drawbacks, the phone turns in poor spatial results when playing music or watching a movie, and suffers from an aggressive compression, especially problematic at loud volumes. It also delivers a midrange-focused frequency response lacking both high- and low-end, which nonetheless remains more pleasant than the standard Google Pixel 6’s.

Listen to the tested smartphone’s playback performance in this comparison with some of its competitors:

Google Pixel 6 Pro
Apple iPhone 13 Pro Max
Samsung Galaxy S22 Ultra (Exynos)
Recordings of the smartphones playing some of our music tracks at 60 LAeq in an anechoic environment by 2 microphones in A-B configuration, at 30 cm

Here is how the Google Pixel 6 Pro performs in playback use cases compared to its competitors:

Playback use-cases scores


Timbre

132

Google Pixel 6 Pro

158

Black Shark 5 Pro
i

The Timbre score represents how well a phone reproduces sound across the audible tonal range and takes into account bass, midrange, treble, tonal balance, and volume dependency. It is the most important attribute for playback.

The Google Pixel 6 Pro does an average job of accurately reproducing tones, including fairly smooth midrange along with clear and precise high-end. Sibilances can be heard, but sound less aggressive compared to the standard Pixel 6.

Overall, the tonal balance is a bit thin and midrange-focused, and slightly muffled when playing bass-heavy content. While low-end extension isn’t as deep and low midrange isn’t as present as one would hope, they are still better than with the 6. Additionally, low-frequency information manages to remain audible thanks to deliberately added harmonics. If you wish to know more about this technique, you can check out our article about the evolution of smartphone audio.

At low volumes, the Pixel 6 Pro’s tonal balance remains fairly consistent, whereas it significantly varies at maximum volume due to excessive compression. In this case, the low-end information, otherwise perceptible, tends to completely disappear.

Music playback frequency response
A 1/12 octave frequency response graph, which measures the volume of each frequency emitted by the smartphone when playing a pure-sine wave in an anechoic environment.


Dynamics

133

Google Pixel 6 Pro

149

Black Shark 5 Pro
i

The Dynamics score measures the accuracy of changes in the energy level of sound sources, for example how precisely a bass note is reproduced or the impact sound from drums.

All dynamic attributes highly depend on volume. At soft and nominal volumes, attack is only slightly dulled, bass is precise, and punch is relatively impactful. However, at loud volumes, attack and bass envelope get crushed by an aggressive compression, which entirely stifles all punchy efforts, except when watching movies.

These numerous temporal artifacts are particularly noticeable on rich, loud music. Lighter music genres (less compressed and less dense, harmonically speaking) are less affected by this ill-adapted compression.


Spatial

144

Google Pixel 6 Pro

162

Black Shark 5 Pro
i

The sub-attributes for spatial tests include pinpointing a specific sound's location, its positional balance, distance, and wideness.

The Google Pixel 6 Pro turns in a below-average spatial sub-score because of its rather narrow and severely unbalanced stereo scene, considerably shifted towards the right side of the device (in landscape mode), except when playing games! Note that this imbalance is editable in the settings menu at a great cost: the left side becomes harmonically very rich, while the right side sounds almost hollow. Needless to say, the result also sounds highly asymmetrical, but in a different way. Additionally, audio orientation only follows the phone’s rotation when watching a movie, not when playing music.

Distance rendering is realistic (especially in movies, where voices are particularly upfront, therefore very intelligible), and localizability of the sound sources within the field is fairly precise. In terms of use cases, games fare best, and by far, thanks to very good localizability, balance, and wideness.


Volume

134

Google Pixel 6 Pro

162

Black Shark 5 Pro
i

The Volume score represents the overall loudness of a smartphone and how smoothly volume increases and decreases based on user input.

Volume attributes are all on target: volume steps are consistently distributed, the softest level leaves audio intelligible, and loudness at maximum volume is very satisfying.
Here are a few sound pressure levels (SPL) measured when playing our sample recordings of hip-hop and classical music at maximum volume:
Hip-Hop Classical
Google Pixel 6 Pro 73 dBA 69 dBA
Apple iPhone 13 Pro Max 72.4 dBA 69.5 dBA
Samsung Galaxy S22 Ultra (Exynos) 74.1 dBA 70.2 dBA
The following graph shows the gradual changes in volume going from minimum to maximum. We expect these changes to be consistent across the range, so that all volume steps correspond to users’ expectations:
Music volume consistency
This line graph shows the relative loudness of playback relative to the user selected volume step, measured at different volume steps with a correlated pink noise in an anechoic box recorded in axis at 0.20 meter.


Artifacts

94

Google Pixel 6 Pro

157

Asus ROG Phone 5
i

The Artifacts score measures the extent to which the sound is affected by various types of distortion. The higher the score, the less the disturbances in the sound are noticeable. Distortion can occur because of sound processing in the device and because of the quality of the speakers.

As explained in the dynamics paragraph, compression is truly problematic. Besides often inducing pumping, it emphasizes harshness coming from the midrange frequencies. Further, the speakers sometimes produce unwanted clicks when resuming playing music after being paused. Distortion is only noticeable at loud volumes, but across all frequency ranges.
Playback Total Harmonic Distortion (Maximum Volume)
This graph shows the Total Harmonic Distortion and Noise over the hearable frequency range.
It represents the distortion and noise of the device playing our test signal (0 dB Fs, Sweep Sine in an anechoic box at 40 cm) at the device's maximum volume.


Recording

135

Google Pixel 6 Pro

160

Honor Magic6 Pro
i
How Audio Recording score is composed

DXOMARK engineers test recording by evaluating the recorded files on reference audio equipment. Those recordings are done in our labs and in real-life conditions, using default apps and settings.

Learn more about how we test audio recording

In recording tests, the Pixel 6’s pro version held its own in loud environments: at high SPL, very good dynamics, a rather harmonious tonal balance, immersive spatial attributes in life videos (videos filmed in landscape mode with the rear cameras), and very few artifacts make it a decent choice for filming concerts. Selfie videos and memos are also quite satisfactory. However, the microphones are unable to properly handle shouting voices or wind.

Here is how the Google Pixel 6 pro performs in recording use cases compared to its competitors:

Recording use-cases scores


Timbre

136

Google Pixel 6 Pro

147

Honor Magic3 Pro+
i

The Timbre score represents how well a phone captures sounds across the audible tonal range and takes into account bass, midrange, treble, and tonal balance. It is the most important attribute for recording.

As a recording device, the Google Pixel 6 Pro offers a very good timbre capture. Despite a slight lack of high- and low-end extension, the tonal balance remains homogenous, treble is clear, midrange is consistent — which allows voices to sound natural —, and bass is present.
Life video frequency response
A 1/12 octave frequency response graph, which measures the volume of each frequency captured by the smartphone when recording a pure-sine wave in an anechoic environment.

When recording in loud environments, however, if the tonal balance remains relatively clean, high mids can become slightly too prominent.

Dynamics

130

Google Pixel 6 Pro

146

Black Shark 5 Pro
i

The Dynamics score measures the accuracy of changes in the energy level of sound sources, for example how precisely a voice's plosives (the p's, t's and k's, for example) are reproduced. The score also considers the Signal-to-Noise Ratio (SNR), for example how loud the main voice is compared to the background noise.

Google’s latest flagship also ensures a proper capture of dynamics: regardless of the app used, the signal-to-noise ratio is correct, and the envelope is precise. When recording in loud environments, plosives and transients are sharp; our simulated electronics concert scenario fares even best among all use cases, followed by memos and selfie videos.


Spatial

98

Google Pixel 6 Pro

159

Vivo X Fold
i

The sub-attributes for spatial tests include pinpointing a specific sound's location, its positional balance, distance, and wideness on the recorded audio files.

In the recording spatial category, life videos fare best thanks to good localizability and realistic distance capture thanks to the midrange consistency. Selfie videos, as with many other devices, exhibit a much narrower scene. Voices are well centered and remain precisely localizable.
Recording directivity
Directivity graph of the smartphone when recording test signals using the camera app, with the main camera. It represents the acoustic energy (in dB) over the angle of incidence of the sound source. (Normalized to the angle 0°, in front of the device.)


Volume

103

Google Pixel 6 Pro

170

Black Shark 5 Pro
i

The Volume score represents how loud audio is normalized on the recorded files and the how the device handles loud environments, such as electronic concerts, when recording.

Nominal loudness is a little softer than with the Google Pixel 6, but still satisfying overall.
Here are the sound levels recorded in the audio and video files, measured in LUFS (Loudness Unit Full Scale); as a reference, we expect loudness levels to be above -24 LUFS for recorded content:
Meeting Life Video Selfie Video Memo
Google Pixel 6 Pro -27.5 LUFS -19.6 LUFS -17.6 LUFS -20 LUFS
Apple iPhone 13 Pro Max -25.5 LUFS -22.7 LUFS -20.1 LUFS -18.2 LUFS
Samsung Galaxy S22 Ultra (Exynos) -28.8 LUFS -21.7 LUFS -21.2 LUFS -23.9 LUFS


Artifacts

144

Google Pixel 6 Pro

145

Black Shark 5 Pro
i

The Artifacts score measures the extent to which the recorded sounds are affected by various types of distortions. The higher the score, the less the disturbances in the sound are noticeable. Distortions can occur because of sound processing in the device and the quality of the microphones, as well as user handling, such as how the phone is held.

Very few artifacts are perceivable in recorded audio. That said, and despite Google’s claims, microphones are highly sensitive to wind. Additionally, on shouting voices, slight clipping can be heard, and in high SPL scenarios, compression is particularly active on loud bass — but nothing too problematic.

Compared to the competition, the Pixel 6 Pro is highly sensitive to wind noise. In this audio comparison, you can listen to the way this smartphone handles wind noise relative to its competitors:

Recordings of a voice sample with light background noise, facing a turbulent wind of 5 m/s


Background

140

Google Pixel 6 Pro

166

Black Shark 5 Pro
i

Background evaluates how natural the various sounds around a voice blend into the video recording file. For example, when recording a speech at an event, the background should not interfere with the main voice, yet it should provide some context of the surroundings.

Despite a slight lack of bass and a rather nasally tonal balance, the background in life videos is fairly clean and natural, as it is in selfie videos.

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