When color matters: Corsair AF120 Elite weaker in white

Ľubomír Samák

2 years ago

Results: Vibration, in total (3D vector length)

It’s not a joke. It may sound silly, but know that we are not presenting you with anti-physics. On the contrary, the foundation in physics here is very good. Different colors of materials, as long as they are not just a surface finish but a homogeneous mass, can (and often do) affect their strength. Our sensitive measurements reveal well the differences that exist between the white and black variants.

In our tests of the Corsair AF120 Elite fan, we had its black variant (CO-9050140-WW). However, there is also a white version (CO-9050142-WW) with which the results of the black fan do not scale. This is because of its lower rigidity. Although the shape of the rotor does not differ in any way, the injection mold is the same, but the white material does not have the same chemical elements.

The white material, in short, is composed of different elements than the black one, and the mechanical properties are somewhat different. Even Noctua, when launching the NF-A12x25 chromax.black fans, disclosed that the long wait for the black fans was due to the fact that it was not exactly easy to change the color (from the original brown) in a way that preserved the original specifications. In Corsair, they didn’t worry about it so much, but we did wonder about this issue and measured the difference. It’s nothing dramatic, but it’s good to know that the white fan is pulling the short end of the stick compared to the black one.

However, the stated parameters of maximum airflow and static pressure are the same and correspond to what is claimed by the manufacturer. The difference is in the maximum noise level, which Corsair shouldn’t list the same anymore – the white AF120 Elite fan is noisier. When aligned by fixed noise levels, it then comes out worse in terms of performance as well. The static pressure is clearly lower and then the airflow as well. In a no-obstacle environment, a 0–5 % peak. The biggest differences are at very low speeds around 600 rpm and then from 1300 rpm upwards.

At higher speeds, compared to the black fan, we have already measured some vibrations – in both the Y and the Z exis (for the black one, there are only symbolic vibrations in the X axis). These are still very low vibrations, but finding them nicely shows that the white fan blades are undulating more. And that is why the differences in noise are achieved. With the hexagonal grille, where the fan is fighting the higher resistance of the environment and the sound of microturbulence enters into it as well, the difference is already noticeable at the same speed. Therefore, when aligned to the same noise level, the difference in airflow is up to 10 % against the white fan in the worst case. That’s at higher speeds, around 1200 rpm. At low speeds, below 600, the white fan has a rare advantage, probably due to the creation of fewer microturbulences on sharp edges, where less stability in blade shape can have a paradoxically beneficial effect. At very low speeds, even resonant frequencies do not enter the sound as strongly.

In the 33 dBA mode already, (i.e. the second quietest mode, where the white fan is still a hair weaker in terms of performance) there are small peaks in the sound in the most intense 300–400 Hz aerodynamic band. These only start to appear with the white fan at higher speeds, along with measurable vibrations. However, amplified are usually the lower, rumbling frequencies between 100–200 Hz. So the white fan can and will be more rumbly at higher speeds compared to the black fan. And it’s also worth noting that all of these findings of ours are based on measurements on two fan samples. Two of both white and black. The black and white results match perfectly. So it is by no means a question of the pieces being different as such, regardless of colour. The influence of the rigidity of the material on the properties is unambiguous. With the AF120 Elite fans, however, Corsair has still managed everything very well. We will definitely be covering this topic and see how other manufacturers will have handled recolouring.

Finally, we will come to the word “rigidity”. This is a term we often use with fans and, unless we’re overstating it, it always means compressive strength. The Corsair AF120 Elite has a high compressive strength (although it’s a bit lower on the white one), but then there’s also the tensile strength. And that’s another property that expresses how much tension the material can withstand when bent before it starts to crack. The tensile strength of the AF120 Elite, on the other hand, is quite low. An example of a material that has a very high compressive strength and at the same time a very low tensile strength is also glass. You can break this fan in a similar way as you can see in the pictures below. One of the samples has already come to us in multiple pieces (or small pieces), which is also a bad calling card for the poor protection of the insufficient packaging, which does not absorb enough shock during transport.

English translation and edit by Jozef Dudáš

Severed rotor, broken blades and stator struts, possible consequence of the absence of any protection in the package

Results: Airlow w/o obstacles

Why is there a missing value sometimes? There may be more reasons. Usually it is because the fan could not be adjusted to the target noise level. Some have a higher minimum speed (or the speed is low, but the motor is too noisy) or it is a slower fan that will not reach the higher decibels. But the results in the graphs are also missing if the rotor is brushing against the nylon filter mesh. In that case, we evaluate this combination as incompatible. And zero in the graphs is naturally also in situations where we measure 0.00. This is a common occurrence at extremely low speeds with obstructions or within vibration measurements.

Results: Static pressure w/o obstacles

Explanatory note: We measure the static pressure without obstacles in two different situations – with laminarized and with turbulent intake. The results in this section reflect the first case. That is, the air intake to the rotor is laminarized by the guidance tunnel. In this setup, the fan has a larger volume of air available and the achieved static pressure values are higher. This is the optimum environment in which to measure fan parameters correctly.

Results: Frequency response of sound w/o obstacles

Measurements are performed in the TrueRTA application, which records sound in a range of 240 frequencies in the recorded range of 20–20,000 Hz. For the possibility of comparison across articles, we export the dominant frequency from the low (20–200 Hz), medium (201–2,000 Hz) and high (2,001–20,000 Hz) range to standard bar graphs.

However, for an even more detailed analysis of the sound expression, it is important to perceive the overall shape of the graph and the intensity of all frequencies/tones. If you don’t understand something in the graphs or tables below, you’ll find the answers to all your questions in this article. It explains how to read the measured data below correctly.

Noise levels in the tables below -85 dBu (but watch out for the negative sign, -70 dBu is louder than -80 dBu) can be ignored. They are in fact extremely weak and always far below the limit of human perception, and are often defined by the “noise” of the measurement string. Therefore, do not take even the dominant frequencies within the treble band that exceed 12 kHz too much into account.


Fan		Dominant sound freq. and noise level, no obstacle@33 dBA	NF-F12 PWM		NF-A15 PWM
		Low range		Mid range		High range
		Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]
Corsair AF120 Elite (white)		123,4	-80,5	369,7	-82,4	19330,5	-90,9
Corsair AF120 Elite (black)		130,7	-76,9	369,7	-81,6	19330,5	-90,7
Cooler Master MasterFan SF120M		50,4	-80,9	1566,8	-87,5	4305,4	-89,2
Akasa Alucia SC12		50,4	-78,8	1566,8	-91,5	19330,5	-90,7
BeQuiet! Silent Wings Pro 4 (BL098)		50,4	-81,2	339,0	-80,8	2712,2	-87,1
Thermalright X-Silent 120		50,4	-79,0	369,7	-88,6	4974,2	87,1
Fractal Design Aspect 12 RGB PWM		10,4	-72,6	380,5	-80,5	19897,0	-90,9
BeQuiet! Silent Wings 3 (BL066)		97,9	-75,2	1107,9	-79,1	19897,0	-90,8
Gelid Zodiac		119,9	-71,1	380,5	-80,9	19897,0	-91,0
Fractal Design Dynamic X2 GP-12 PWM		47,6	-72,8	1015,4	-79,9	19897,0	-90,7
BeQuiet! Pure Wings 2 (BL039)		47,6	-78,3	958,9	-79,6	18780,2	-91,0
Gigabyte Aorus 120 ARGB		130,7	-82,8	369,7	-80,7	19330,5	-90,9
Arctic BioniX P120 A-RGB		127,0	-73,2	219,8	-70,4	19897,0	-90,9
Akasa OTTO SF12		N/A	N/A	N/A	N/A	N/A	N/A
Cooler Master SickleFlow 120 ARGB	Cooler Master SickleFlow 120 ARGB	59,9	-82,7	1076,3	-83,1	19330,5	-90,7
Alphacool SL-15 PWM	Alphacool SL-15 PWM	190,3	-79,1	380,5	-78,8	18245,6	-90,9
Arctic BioniX F120	Arctic BioniX F120	123,4	-76,5	246,8	-80,0	19330,5	-90,9
SilverStone SST-AP123	SilverStone SST-AP123	100,8	-81,2	415,0	-78,6	19897,0	-90,8
Noctua NF-P12 redux-1700 PWM		103,7	-76,9	329,4	-73,2	19330,5	-90,9
SilentiumPC Fluctus 120 PWM	SilentiumPC Fluctus 120 PWM	130,7	-76,5	369,7	-80,9	19897,0	-91,0
MSI MEG Silent Gale P12		50,4	-81,7	369,7	-81,0	19897,0	-90,8
Asus ROG Strix XF120		50,4	-80,2	329,4	-76,2	19330,5	-90,8
Akasa Vegas X7		123,4	-77,0	369,7	-83,3	19330,5	-90,7
Reeven Coldwing 12		38,9	-79,7	1317,5	-84,0	19330,5	-90,7
Reeven Kiran		138,5	-80,6	369,7	-83,3	19330,5	-90,8
SilentiumPC Sigma Pro 120 PWM		N/A	N/A	N/A	N/A	N/A	N/A
SilentiumPC Sigma Pro Corona RGB 120		92,4	-83,0	369,7	-78,0	18780,2	-90,8
SilverStone SST-AP121		47,6	-77,5	261,4	-86,4	19330,5	-91,0
SilverStone SST-FQ121		31,3	-87,5	1208,2	-79,9	19330,5	-90,9
Xigmatek XLF-F1256		41,8	-69,7	213,6	-77,3	19330,5	-91,0

/* Here you can add custom CSS for the current table */ /* Lean more about CSS: https://en.wikipedia.org/wiki/Cascading_Style_Sheets */ /* To prevent the use of styles to other tables use "#supsystic-table-1752" as a base selector for example: #supsystic-table-1752 { ... } #supsystic-table-1752 tbody { ... } #supsystic-table-1752 tbody tr { ... } */


Fan		Dominant sound freq. and noise level, no obstacle@39 dBA	NF-F12 PWM		NF-A15 PWM
		Low range		Mid range		High range
		Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]
Corsair AF120 Elite (white)		169,5	-76,1	369,7	-74,4	19330,5	-90,7
Corsair AF120 Elite (black)		164,7	-79,2	339,0	-72,8	19897,0	-90,7
Cooler Master MasterFan SF120M		146,7	-78,8	380,5	-77,9	2635,0	-83,9
Akasa Alucia SC12		151,0	-80,6	226,3	-73,4	19897,0	-90,7
BeQuiet! Silent Wings Pro 4 (BL098)		20,3	-76,0	339,0	-73,9	2791,7	-83,3
Thermalright X-Silent 120		119,9	-74,0	369,7	-75,0	10540,1	-88,4
Fractal Design Aspect 12 RGB PWM		10,4	-64,7	380,5	-72,4	18780,2	-90,8
BeQuiet! Silent Wings 3 (BL066)		130,7	-70,1	369,7	-75,2	18780,2	-90,9
Gelid Zodiac		146,7	-66,0	369,7	-73,4	19330,5	-90,9
Fractal Design Dynamic X2 GP-12 PWM		113,1	-78,5	329,4	-74,6	18780,2	-90,9
BeQuiet! Pure Wings 2 (BL039)		130,7	-76,1	369,7	-75,3	19330,5	-90,7
Gigabyte Aorus 120 ARGB		127,0	-63,9	380,5	-74,2	19330,5	-90,6
Arctic BioniX P120 A-RGB		50,4	-77,9	439,7	-72,4	18780,2	-91,1
Akasa OTTO SF12		155,4	-67,1	380,5	-75,2	4431,5	-87,2
Cooler Master SickleFlow 120 ARGB		109,9	-72,8	1076,3	-72,4	18245,6	-90,9
Alphacool SL-15 PWM		184,9	-73,4	380,5	-73,1	19897,0	-90,8
Arctic BioniX F120		151,0	-69,3	369,7	-75,3	18780,2	-91,0
SilverStone SST-AP123	SilverStone SST-AP123	164,7	-75,1	369,7	-74,7	19330,5	-90,9
Noctua NF-P12 redux-1700 PWM		146,7	-68,0	329,4	-66,7	18245,6	-91,1
SilentiumPC Fluctus 120 PWM		190,3	-69,2	380,5	-68,8	19897,0	-90,9
MSI MEG Silent Gale P12		23,1	-73,5	380,5	-73,3	18780,2	-90,9
Asus ROG Strix XF120		130,7	-70,9	369,7	-75,2	19330,5	-91,0
Akasa Vegas X7		127,0	-77,8	369,7	-76,1	19330,5	-90,9
Reeven Coldwing 12		160,0	-74,0	369,7	-76,8	19330,5	-90,9
Reeven Kiran		184,9	-75,2	369,7	-75,2	17726,2	-89,8
SilentiumPC Sigma Pro 120 PWM		97,9	-81,7	369,7	-78,1	2635,0	-86,2
SilentiumPC Sigma Pro Corona RGB 120		20,3	-67,8	380,5	-77,3	2487,1	-85,6
SilverStone SST-AP121		103,7	-76,2	339,0	-73,4	2031,9	-86,5
SilverStone SST-FQ121		138,5	-75,2	1208,2	-71,1	18780,2	-90,9
Xigmatek XLF-F1256		190,3	-77,1	761,1	-75,5	19897,0	-91,1

/* Here you can add custom CSS for the current table */ /* Lean more about CSS: https://en.wikipedia.org/wiki/Cascading_Style_Sheets */ /* To prevent the use of styles to other tables use "#supsystic-table-1755" as a base selector for example: #supsystic-table-1755 { ... } #supsystic-table-1755 tbody { ... } #supsystic-table-1755 tbody tr { ... } */


Fan		Dominant sound freq. and noise level, no obstacle@45 dBA	NF-F12 PWM		NF-A15 PWM
		Low range		Mid range		High range
		Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]
Corsair AF120 Elite (white)		155,4	-77,9	320,0	-67,8	18780,2	-90,8
Corsair AF120 Elite (black)		130,7	-78,5	369,7	-70,9	19330,5	-90,9
Cooler Master MasterFan SF120M		184,9	-69,7	369,7	-67,9	4305,4	-73,8
Akasa Alucia SC12		130,7	-70,3	380,5	-68,6	2031,9	-90,4
BeQuiet! Silent Wings Pro 4 (BL098)		47,6	-75,5	339,0	-60,5	2791,7	-83,3
Thermalright X-Silent 120		82,3	-74,9	369,7	-91,1	18780,2	-91,1
Fractal Design Aspect 12 RGB PWM		130,7	-69,5	285,1	-67,2	19330,5	-90,8
BeQuiet! Silent Wings 3 (BL066)		164,7	-64,2	339,0	-69,1	18780,2	-90,8
Gelid Zodiac		184,9	-61,8	380,5	-68,7	18780,2	-90,8
Fractal Design Dynamic X2 GP-12 PWM		146,7	-72,2	391,7	-71,5	2280,7	-83,1
BeQuiet! Pure Wings 2 (BL046)		130,7	-71,3	369,7	-69,3	19330,5	-90,6
Gigabyte Aorus 120 ARGB		160,0	-61,9	369,7	-70,4	2487,1	-88,3
Arctic BioniX P120 A-RGB		151,0	-67,6	369,7	-72.0	2873,5	-90,6
Akasa OTTO SF12	Akasa OTTO SF12	190,3	-66,7	380,5	-67,7	4695,1	-86,3
Cooler Master SickleFlow 120 ARGB	Cooler Master SickleFlow 120 ARGB	138,5	-66,7	1076,3	-67,1	3835,7	-89,2
Alphacool SL-15 PWM	Alphacool SL-15 PWM	151	-71,5	232,9	-66,5	2280,7	-89,6
Arctic BioniX F120	Arctic BioniX F120	195,8	-68	201,6	-62,2	19330,5	-90,7
SilverStone SST-AP123	SilverStone SST-AP123	130,7	-70,9	369,7	-67,7	19897	-90,9
Noctua NF-P12 redux-1700 PWM	Noctua NF-P12 redux-1700 PWM	184,9	-62,2	369,7	-67	19897	-91,1
SilentiumPC Fluctus 120 PWM	SilentiumPC Fluctus 120 PWM	25,6	-69,6	239,7	-62	2957,7	-90
MSI MEG Silent Gale P12	MSI MEG Silent Gale P12	28,3	-73,5	380,5	-71	2487,1	-85,9
Asus ROG Strix XF120	Asus ROG Strix XF120	23,1	-62,9	369,7	-71,7	2347,5	-89,1
Akasa Vegas X7	Akasa Vegas X7	N/A	N/A	N/A	N/A	N/A	N/A
Reeven Coldwing 12	Reeven Coldwing 12	195,8	-68,3	380,5	-71,3	2031,9	-90
Reeven Kiran	Reeven Kiran	130,7	-73,1	219,8	-70,2	17726,2	-89,4
SilentiumPC Sigma Pro 120 PWM	SilentiumPC Sigma Pro 120 PWM	138,5	-70	1522,2	-71,9	2560	-82,9
SilentiumPC Sigma Pro Corona RGB 120	SilentiumPC Sigma Pro Corona RGB 120	190,3	-70,5	369,7	-66,5	2416,3	-82,4
SilverStone SST-AP121	SilverStone SST-AP121	130,7	-66,8	439,7	-66,1	2347,5	-90,9
SilverStone SST-FQ121	SilverStone SST-FQ121	127	-71,2	369,7	-66,5	2031,8	-81,4
Xigmatek XLF-F1256	Xigmatek XLF-F1256	130,7	-71,5	239,7	-60,9	18780,2	-91,1

/* Here you can add custom CSS for the current table */ /* Lean more about CSS: https://en.wikipedia.org/wiki/Cascading_Style_Sheets */ /* To prevent the use of styles to other tables use "#supsystic-table-1756" as a base selector for example: #supsystic-table-1756 { ... } #supsystic-table-1756 tbody { ... } #supsystic-table-1756 tbody tr { ... } */

Results: Airflow through a hexagonal grille

Results: Static pressure through a hexagonal grille

Results: Frequency response of sound with a hexagonal grille


Fan		Dominant sound freq. and noise level, hexagonal grille@33 dBA	NF-F12 PWM		NF-A15 PWM
		Low range		Mid range		High range
		Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]
Corsair AF120 Elite (white)		50,4	-81,5	369,7	-80,2	19330,5	-90,8
Corsair AF120 Elite (black)		49,0	-80,0	339,0	-78,2	19330,5	-90,8
Cooler Master MasterFan SF120M		41,8	-72,3	380,5	-83,1	4305,4	-90,7
Akasa Alucia SC12		41,8	-80,9	369,7	-80,6	19897,0	-90,9
BeQuiet! Silent Wings Pro 4 (BL098)		47,6	-75,2	329,4	-74,9	19330,5	-90,8
Thermalright X-Silent 120		50,4	-77,7	339	-76,0	18780,2	-90,9
Fractal Design Aspect 12 RGB PWM		59,9	-78,7	349,0	-69,8	19330,5	-90,7
BeQuiet! Silent Wings 3 (BL066)		49,0	79,3	329,4	78,9	19897,0	-90,8
Gelid Zodiac		50,4	-81,0	339,0	-78,7	19330,5	-90,7
Fractal Design Dynamic X2 GP-12 PWM		38,9	-75,4	339,0	-79,5	18780,243	-90,9
BeQuiet! Pure Wings 2 (BL039)		47,6	-79,7	380,5	-81,2	19330,5	-90,9
Gigabyte Aorus 120 ARGB		146,7	-82,0	369,7	-82,0	19330,5	-90,9
Arctic BioniX P120 A-RGB		169,5	-84,7	329,4	-70,5	19330,5	-90,8
Akasa OTTO SF12		N/A	N/A	N/A	N/A	N/A	N/A
Cooler Master SickleFlow 120 ARGB		47,6	-82,0	1076,3	-81,9	18780,2	-90,9
Alphacool SL-15 PWM		N/A	N/A	N/A	N/A	N/A	N/A
Arctic BioniX F120		169,5	-84,7	329,4	-70,5	19330,5	-90,8
SilverStone SST-AP123	SilverStone SST-AP123	58,2	-80,8	302,0	-77,3	19897,0	-90,8
Noctua NF-P12 redux-1700 PWM		100,8	-81,6	329,4	-69,8	19897,0	-90,9
SilentiumPC Fluctus 120 PWM		100,8	-82,7	369,7	-79,9	19330,5	-90,8
MSI MEG Silent Gale P12		100,8	-81,2	369,7	-80,3	19330,5	-91,0
Asus ROG Strix XF120		38,9	-79,7	349,0	-72,4	19897,0	-90,9
Akasa Vegas X7		100,8	-85,3	359,2	-80,3	19330,5	-90,9
Reeven Coldwing 12		92,4	-79,8	369,7	-79,7	19897,0	-90,9
Reeven Kiran		97,9	-84,4	391,7	-77,8	19897,0	-90,8
SilentiumPC Sigma Pro 120 PWM		N/A	N/A	N/A	N/A	N/A	N/A
SilentiumPC Sigma Pro Corona RGB 120		92,4	-83,0	369,7	-77,9	18780,2	-90,8
SilverStone SST-AP121		113,1	-80,9	246,8	-84,0	19330,5	-90,9
SilverStone SST-FQ121		38,9	-76,9	1522,2	-81,7	18780,2	-90,9
Xigmatek XLF-F1256		63,5	-83,3	380,5	-78,8	19897,0	-90,9

/* Here you can add custom CSS for the current table */ /* Lean more about CSS: https://en.wikipedia.org/wiki/Cascading_Style_Sheets */ /* To prevent the use of styles to other tables use "#supsystic-table-1757" as a base selector for example: #supsystic-table-1757 { ... } #supsystic-table-1757 tbody { ... } #supsystic-table-1757 tbody tr { ... } */


Fan		Dominant sound freq. and noise level, hexagonal grille@39 dBA	NF-F12 PWM		NF-A15 PWM
		Low range		Mid range		High range
		Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]
Corsair AF120 Elite (white)		130,7	-71,3	369,7	-74,1	19330,5	-90,8
Corsair AF120 Elite (black)		138,5	-73,2	369,7	-73,5	19897,0	-90,8
Cooler Master MasterFan SF120M		95,1	-79,1	380,5	-72,7	4305,4	-89,6
Akasa Alucia SC12		50,4	-80,5	369,7	-72,6	19897,0	-90,9
BeQuiet! Silent Wings Pro 4 (BL098)		155,4	-78,6	339,0	-71,3	2712,2	-87,9
Thermalright X-Silent		89,8	-77,8	359,2	-68,8	18780,2	-91,0
Fractal Design Aspect 12 RGB PWM		50,4	-82,7	380,5	-68,7	19330,5	-90,8
BeQuiet! Silent Wings 3 (BL066)	BeQuiet! Silent Wings 3 (BL066)	58,2	-78,5	339,0	-73,2	18780,2	-90,9
Gelid Zodiac		50,4	-80,5	380,5	-73,2	19330,5	-91,0
Fractal Design Dynamic X2 GP-12 PWM		50,4	-80,4	320,0	-65,3	19330,5	-90,8
BeQuiet! Pure Wings 2 (BL039)		59,9	-79,0	369,7	-73,3	18780,2	-90,8
Gigabyte Aorus 120 ARGB		138,5	-81,5	369,7	-73,2	18780,2	-90,9
Arctic BioniX P120 A-RGB		151,0	-82,0	219,8	-62,2	19330,5	-90,9
Akasa OTTO SF12		N/A	N/A	N/A	N/A	N/A	N/A
Cooler Master SickleFlow 120 ARGB		130,7	-81,8	369,7	-75,4	2152,7	-90,4
Alphacool SL-15 PWM		146,7	-76,8	369,7	-73,2	18780,2	-91,0
Arctic BioniX F120		47,6	-82,0	369,7	-72,0	19330,5	-90,9
SilverStone SST-AP123	SilverStone SST-AP123	100,8	-80,7	339,0	-73,4	18780,2	-90,9
Noctua NF-P12 redux-1700 PWM		116,5	-76,8	339,0	-69,4	19330,5	-90,8
SilentiumPC Fluctus 120 PWM		146,7	-78,0	586,9	-72,7	18780,2	-91,0
MSI MEG Silent Gale P12		164,7	-80,6	339,0	-71,1	19330,5	-91,0
Asus ROG Strix XF120	Asus ROG Strix XF120	92,4	-77,5	369,7	-70,1	19330,5	-91,2
Akasa Vegas X7		31,3	-84,3	369,7	-74,3	18780,2	-90,8
Reeven Coldwing 12		123,4	-71,2	380,5	-71,3	18780,2	-90,9
Reeven Kiran		127,0	-77,7	380,5	-73,4	19330,5	-90,8
SilentiumPC Sigma Pro 120 PWM		63,5	-83,4	380,5	-74,0	2347,5	-83,8
SilentiumPC Sigma Pro Corona RGB 120		134,5	-72,0	369,7	-75,1	19897,0	-90,8
SilverStone SST-AP121		53,4	-81,9	380,5	-70,8	19330,5	-91,0
SilverStone SST-FQ121		41,8	-78,9	369,7	-75,0	19330,5	-91,1
Xigmatek XLF-F1256		50,4	-70,3	246,8	-72,7	19897,0	-90,9

/* Here you can add custom CSS for the current table */ /* Lean more about CSS: https://en.wikipedia.org/wiki/Cascading_Style_Sheets */ /* To prevent the use of styles to other tables use "#supsystic-table-1758" as a base selector for example: #supsystic-table-1758 { ... } #supsystic-table-1758 tbody { ... } #supsystic-table-1758 tbody tr { ... } */


Fan		Dominant sound freq. and noise level, hexagonal grille@45 dBA	NF-F12 PWM		NF-A15 PWM
		Low range		Mid range		High range
		Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]	Frequency [Hz]	Noise level [dBu]
Corsair AF120 Elite (white)		164,7	-70,9	369,7	-69,7	19330,5	-90,8
Corsair AF120 Elite (black)		179,6	-69,1	369,7	-67,5	19330,5	-91,0
Cooler Master MasterFan SF120M		119,9	-74,3	380,5	-67,9	4182,8	-87,8
Akasa Alucia SC12		151,0	-76,6	369,7	-67,2	19330,5	-90,7
BeQuiet! Silent Wings Pro 4 (BL098)		190,3	-74,5	339,0	-62,4	2791,7	-83,7
Thermalright X-Silent 120		119,9	-73,4	369,7	-69,5	4974,2	-88,6
Fractal Design Aspect 12 RGB PWM		119,9	-78,5	586,9	-69,3	19897,0	-90,7
BeQuiet! Silent Wings 3 (BL066)		127,0	-68,7	391,7	-67,2	19897,0	-90,9
Gelid Zodiac		127,0	-71,9	380,5	-64,3	19330,5	-91,1
Fractal Design Dynamic X2 GP-12 PWM		123,4	-75,0	1566,8	-76,7	2215,8	-89,6
BeQuiet! Pure Wings 2 (BL039)		75,5	-78,2	369,7	-69,9	19330,5	-90,9
Gigabyte Aorus 120 ARGB		164,7	-78,7	678,1	-66,8	19897,0	-90,7
Arctic BioniX P120 A-RGB		130,7	-70,6	219,8	-62,2	18780,2	-90,7
Akasa OTTO SF12		160,0	-72,4	369,7	-66,4	4431,5	-88,3
Cooler Master SickleFlow 120 ARGB		127,0	-74,1	380,5	-66,0	6267,2	-90,8
Alphacool SL-15 PWM		134,5	-72,2	369,7	-66,7	19330,5	-90,8
Arctic BioniX F120		58,2	-78,7	369,7	-68,3	18780,2	-90,7
SilverStone SST-AP123	SilverStone SST-AP123	130,7	-79,2	339,0	-69,6	18780,2	-90,9
Noctua NF-P12 redux-1700 PWM		142,5	-72,8	586,9	-65,0	18780,2	-90,8
SilentiumPC Fluctus 120 PWM		174,5	-75,1	349,0	-62,1	2957,7	-90,3
MSI MEG Silent Gale P12		130,7	-72,7	415,0	-67,2	2487,1	-89,3
Asus ROG Strix XF120	Asus ROG Strix XF120	119,9	-73,4	604,1	-69,6	19330,5	-90,9
Akasa Vegas X7		33,6	-81,5	427,1	-70,2	18780,2	-90,9
Reeven Coldwing 12		160,0	-64,7	369,7	-67,7	19897,0	-91,0
Reeven Kiran		155,4	-73,7	369,7	-69,7	19330,5	-90,8
SilentiumPC Sigma Pro 120 PWM		130,7	-77,8	369,7	-68,1	4431,5	-90,1
SilentiumPC Sigma Pro Corona RGB 120		20,3	-64,8	369,7	-73,0	3044,4	-89,2
SilverStone SST-AP121		130,7	-78,0	570,2	-64,9	18780,2	-91,2
SilverStone SST-FQ121		169,5	-64,4	246,8	-77,4	19330,5	-91,0
Xigmatek XLF-F1256		58,2	-74,2	678,0	-63,8	19330,5	-90,9

/* Here you can add custom CSS for the current table */ /* Lean more about CSS: https://en.wikipedia.org/wiki/Cascading_Style_Sheets */ /* To prevent the use of styles to other tables use "#supsystic-table-1759" as a base selector for example: #supsystic-table-1759 { ... } #supsystic-table-1759 tbody { ... } #supsystic-table-1759 tbody tr { ... } */

Reality vs. specifications

Explanatory note: For a quick overview of how manufacturers “spice up” specifications, we have a sort of “truthfulness” coefficient. We calculate this by putting our measured values in proportion to those given in the specifications by the fan manufacturers. A result of “1.00” means that the claimed parameters match the values we have recorded. After such a finding, we can conclude that the manufacturer has done his job honestly and the way he presents the fan agrees. The more the coefficient number is different from 1.00, the less accurate the claimed specifications are. Of course, the better case for the user is if the coefficient is higher than 1.00 (and it is, for example, 1.20), then the real parameters exceed the paper ones. Conversely, if the coefficient starts with zero, then the fan does not reach the parameters on paper. For example, a value of 0.80 means that the real airflow or static pressure is 20 % lower than the manufacturer claims.

Results: Vibration, in total (3D vector length)

Explanatory note: We have already described how to measure the vibration intensity in the corresponding chapter within the testing methodology. However, it is worth emphasizing here what we mean by “cumulative vibration”. In order to be able to interpret the motion in the three axes (X, Y, Z) as simply as possible, with a single number, we consider the individual axes as vectors and calculate the so-called 3D vector from them. A more detailed account at the level of the individual axes is given in the next three chapters of this article.

Prečo niekedy pri ventilátore chýba hodnota? Dôvodov môže byť viac. Obvykle je to preto, že nebolo možné daný ventilátor zregulovať na cieľovú hladinu hluku. Niektoré majú vyššie minimálne otáčky (alebo otáčky sú aj nízke, ale má príliš hlučný motorček) alebo sa jedná o pomalší ventilátor, ktorý si na vyššie decibely nedosiahne. Výsledky v grafoch chýbajú ale aj vtedy, ak sa rotor šúcha o sito nylonového filtra. Vtedy túto kombináciu vyhodnocujeme ako nekompatibilnú. A nula v grafoch je prirodzene aj v situáciách, kedy nameriame 0,00. To je častý jav pri mimoriadne nízkych otáčkach s prekážkami alebo v rámci meraní vibrácií.

Results: Vibration, X-axis

Results: Vibration, Y-axis

Results: Vibration, Z-axis

Continue: Results: Vibration, X-axis