FrostyTech Mk.II Synthetic Thermal
Heatsink Test Results
Intel
Pentium D / Extreme Edition & Quad Core class heatsinks tested
at 150W
Intel Core 2 Duo / Pentium 4 /
Celeron class heatsinks tested at 85W
Results based on readings from a 30x30mm copper
interface die with 150W and 85W heat loads applied on the LGA775
version of the Mk.II Test Platform. Temperature results listed for
each heatsink were calculated by determining the rise over ambient
temperatures at time of test. Information on Frostytech's test
methodology is available here. |
 |
| Socket 775 compatible CPU
heatsinks | |
| manufacturer: |
model
no.: |
fan
speed: |
150w
thermal test* (°c) |
85w
thermal test (°c) |
noise level (dba) |
|
| Sunbeamtech |
Core-Contact Freezer |
high |
16.1 |
10.0 |
51.3 |
| Xigmatek |
HDT-S1283 |
high |
16.8 |
10.7 |
50.7 |
| Thermalright |
Ultra 120 |
|
17.8 |
10.6 |
53.7 |
| Coolermaster |
Hyper Z600 |
|
18.0 |
11.6 |
47.7 |
| 3Rsystem |
Iceage 120 |
high |
18.2 |
12.1 |
47.9 |
| Thermalright |
Ultra 120 Extreme |
|
18.4 |
11.4 |
44.5 |
| Xigmatek |
HDT-SD964 |
high |
18.8 |
11.6 |
57.2 |
| SilenX |
iXtrema IXC-120HA2 |
high |
18.9 |
11.2 |
52.9 |
| Coolermaster |
Hyper 212 |
|
19.0 |
11.8 |
45.9 |
| Apack |
Zerotherm BTF92 OC Ed |
high |
19.0 |
11.2 |
53.6 |
| Zalman |
CNPS9700 LED |
high |
19.0 |
10.4 |
56.5 |
| Xigmatek |
HDT-S983 |
high |
19.5 |
11.8 |
52.7 |
| Scythe |
Mugen |
|
19.5 |
11.4 |
46.0 |
| Tuniq |
Tower 120 |
high |
19.6 |
12.2 |
51.6 |
| Thermalright |
Ultra-90 |
high |
19.6 |
13.0 |
56.2 |
| Apack |
Zerotherm Nirvana 120 |
high |
19.8 |
12.3 |
49.2 |
| Enzotech |
Ultra-X |
high |
20.0 |
8.5 |
59.1 |
| Zalman |
CNPS9700NT |
high |
20.3 |
12.4 |
52.2 |
| Scythe |
Infinity SCINF-1000 |
|
20.3 |
12.6 |
37.8 |
| OCZ |
Vendetta |
high |
21.3 |
13.5 |
52.8 |
| Noctua |
NH-U12P |
high |
21.3 |
13.4 |
40.7 |
| Apack |
Zerotherm BTF90 |
|
21.8 |
12.7 |
52.1 |
| Xigmatek |
HDT-S963 |
high |
21.9 |
13.7 |
50.2 |
| Akasa |
AK-965 |
high |
22.2 |
13.8 |
48.1 |
| Apack |
Zerotherm BTF80 |
|
22.8 |
13.9 |
51.9 |
| Zalman |
CNPS8700 LED |
high |
23.2 |
14.1 |
48.1 |
| Cooljag |
Falcon 92-AL |
high |
23.2 |
14.2 |
52.1 |
| Rosewill |
RCX-Z3 |
high |
23.3 |
14.0 |
58.6 |
| Coolink |
Silentator |
high |
23.5 |
16.4 |
41.2 |
| Scythe |
Mine Rev. B |
|
23.6 |
15.0 |
36.8 |
| Cooljag |
Falcon 92-Cu |
high |
23.6 |
14.8 |
52.8 |
| Akasa |
AK-920 |
high |
24.3 |
14.1 |
52.9 |
| Intel |
FCLGA4-S Reference (P mode) |
high |
24.5 |
15.2 |
61.1 |
| Scythe |
Zipang |
|
24.7 |
15.2 |
33.1 |
| Glacialtech |
Igloo 5750 PWM |
high |
24.9 |
14.6 |
52.3 |
| Asus |
Arctic Square |
high |
24.9 |
14.9 |
44.9 |
| Akasa |
AK-922 (EVObue) |
high |
25.5 |
15.4 |
60.3 |
| Coolermaster |
Aquagate Mini R80 |
high |
25.7 |
16.2 |
59.2 |
| Asus |
Silent Square EVO |
high |
25.8 |
15.6 |
42.8 |
| Glacialtech |
Igloo 5610 PWM |
high |
25.9 |
15.9 |
59.5 |
| Thermalright |
SI-128SE |
|
26.5 |
15.2 |
44.5 |
| Scythe |
Andy Samuri Master SCASM-1000 |
|
26.7 |
14.2 |
38.4 |
| Noctua |
NH-U9B |
high |
27.1 |
17.2 |
41.9 |
| ASUS |
Triton 77 |
high |
27.7 |
17.6 |
41.2 |
| Auras |
SLC-747 |
high |
27.9 |
25.7 |
52.2 |
| Auras |
LPT-700 |
|
28.3 |
16.9 |
52.2 |
| Thermalfly |
F1-IACSHA |
high |
29.0 |
18.3 |
60.4 |
| nPowertek |
TTIC NPH1000 |
|
29.3 |
16.8 |
47.5 |
| Glacialtech |
Igloo 5710 Silent |
|
29.4 |
18.0 |
43.4 |
| Thermalfly |
I75DUB |
high |
29.5 |
16.8 |
68.5 |
| Zalman |
CNPS9500 AT |
|
29.6 |
17.3 |
53.3 |
| Glacialtech |
Igloo 5750 Silent |
|
29.8 |
18.5 |
35.5 |
| Coolermaster |
Hyper TX2 |
|
29.9 |
18.8 |
53.7 |
| Alpha Novatech |
PRE9060M92P |
high |
29.9 |
18.5 |
51.5 |
| Scythe |
Kama Cross |
|
30.0 |
18.8 |
40.0 |
| Akasa |
AK-961 |
|
30.0 |
18.7 |
60.7 |
| Auras |
LPT-709 |
|
30.1 |
18.6 |
43.9 |
| Rosewill |
RCX-Z2-EX |
high |
30.1 |
18.7 |
45.9 |
| nPowertek |
NPH-775-1 |
|
30.1 |
18.8 |
50.1 |
| Glacialtech |
Igloo 5610 Silent |
|
30.4 |
17.1 |
44.7 |
| Sunon |
Waturbo |
|
30.6 |
18.3 |
57.5 |
| Auras |
CTC-868 (closed) |
|
31.0 |
18.6 |
48.7 |
| Akasa |
Revo (horizontal) |
high |
31.0 |
20.3 |
44.5 |
| Scythe |
Shuriken |
high |
31.4 |
18.8 |
38.2 |
| Apack |
CF800 |
high |
31.4 |
20.7 |
48.4 |
| Thermaltake |
Jungle512 |
high |
31.6 |
20.4 |
60.8 |
| Coolage |
Frozen Orb F0-Z924AL |
high |
32.0 |
19.9 |
48.9 |
| Xigmatek |
AIO-S80DP |
high |
32.4 |
21.4 |
55.0 |
| Scythe |
Katana II |
|
32.5 |
18.6 |
37.9 |
| Rosewill |
RCX-Z2 |
|
32.6 |
19.3 |
59.9 |
| Zalman |
CNPS7700-Cu |
high |
32.9 |
19.7 |
50.7 |
| Apack |
CF900 |
high |
32.9 |
20.3 |
48.3 |
| Evercool |
PT02-9232CP |
|
33.3 |
19.9 |
63.3 |
| Zalman |
CNPS7700-Cu LED |
high |
33.5 |
20.6 |
49.8 |
| Scythe |
Ninja Mini |
|
33.7 |
19.9 |
41.7 |
| Thermalright |
MST-977SLE |
|
33.8 |
20.0 |
46.5 |
| Intel |
Stock Pentium D |
high |
33.8 |
20.7 |
47.5 |
| Scythe |
Orochi SCORC-1000 |
|
34.0 |
20.8 |
27.8 |
| nPowerTek |
SF775-2 |
high |
34.7 |
21.1 |
64.6 |
| Asus |
Silent Knight 2 |
high |
34.9 |
21.4 |
46.2 |
| Akasa |
AK-960E |
|
36.1 |
21.4 |
56.3 |
| Gigabyte |
Volar GH-PSV21-FB |
high |
36.3 |
22.1 |
56.1 |
| Auras |
SMF-660 |
|
36.4 |
23.0 |
43.4 |
| Zalman |
CNPS7500-Cu LED |
high |
36.4 |
22.9 |
50.9 |
| Thermalfly |
I75DUH |
|
37.8 |
22.8 |
48.7 |
| Akasa |
AK-975CU |
high |
38.4 |
23.0 |
47.7 |
| Cooljag |
OAK-H |
high |
38.5 |
22.9 |
55.7 |
| Cooljag |
OAK-H2 |
high |
38.6 |
24.1 |
55.6 |
| LS Cable |
SHS-T700 |
|
38.7 |
22.8 |
48.5 |
| Arctic Cooling |
Alpine 7 Pro |
high |
40.5 |
23.8 |
44.1 |
| Intel |
Stock Core 2 Duo |
|
49.2 |
29.0 |
36.7 |
| Glacialtech |
Igloo 5062 Cu Light |
|
50.6 |
29.7 |
45.2 |
| Glacialtech |
Igloo 5057 E |
|
58.5 |
36.1 |
53.4 |
| Asus |
Triton 75 |
|
58.6 |
16.1 |
49.6 |
| Spire |
Fourier IV SP607B3-C |
|
63.6 |
18.7 |
60.2 |
| Coolermaster |
Hyper Z600 (vertical orientation) |
low |
68.0+ |
56.5 |
PASSIVE |
| Coolermaster |
Hyper Z600 (horizontal orientation) |
low |
68.0+ |
68.0+ |
PASSIVE |
|
|
|
150w
thermal test (°c) |
85w
thermal test (°c) |
noise level (dba) |
| *heatsinks are ranked according to the 150w thermal
test results column (rise over ambient temp.). low temperatures with low
noise levels are considered best. for reference heatsinks with
variable-speed fans, only the high speed (12v) fan test result is included
in the comparison sheet; more detailed results reside in each specific
heatsink review. |
Intel
processors vary in power output between single and multi-core models, so
FrostyTech tests heatsinks with two thermal loads that represent the upper limit
of each CPU family; 150W and 85W.
With a
150W heat load applied by the Intel LGA775
version of FrostyTech's synthetic thermal test platform, the Coolermaster Hyper
Z600 heatsink maintains an excellent temperature of just 18.0°C over ambient.
The 120mm Mechatronic fan keeps noise levels at an unremarkable 47.7 dBA.
The Hyper
Z600 was then tested with a 85W heat load, resulting in a slight 11.6°C rise
over ambient temperature. It's possible to add a second 120mm fan to the other
side of the Coolermaster Hyper Z600, but for the purposes of these tests only
one fan was used.
Since
the Coolermaster Hyper Z600 is sold and marketed as a passive heatsink,
Frostytech set forth to test it on the synthetic temperature platform without
active cooling (ie. without a fan).
The
Coolermaster Hyper Z600 was placed in a horizontal and vertical orientation
while 150W and 85W heat loads were applied. No fan was installed on the
heatsink, and no fans were located in the vicinity directing airflow towards its
general area.
In other
words, these were true passive cooling tests!
Coolermaster's Hyper Z600 heatsink failed
both the 150W and 85W tests while it was left in a horizontal
orientation (ie. as it would be when a motherboard is sitting flat on a
desk).
When the
Hyper Z600 cooler was rotated 90 degrees, so that its aluminum fins were
oriented vertically, the cooler failed the 150W test only. With an 85W heat
load, and its aluminum fins pointing straight up, the Hyper Z600 heatsink
was able to maintain a rise above ambient temperature of 56.5C passively.
No fans, just convective
air flow here folks.
In the
confines of a case, it's hard to say if the same results could be relied upon.
Still, the Hyper Z600 did keep temperatures steady, if elevated dramatically,
with an 85W heat load.
So there you have it, when the Coolermaster Hyper Z600
heatsink is equipped with at least one 120mm fan, it's an excellent high
performance cooler. It's up to you to accept the +1kilogram weight. As
a passive heatsink, the Hyper Z600 is capable so long as case ventilation
is adequate and the maximum processor TDP does not exceed ~85W. The results
aren't going to be record breaking though. In Frostytech's books, an actively
cooled Coolermaster Hyper Z600 heatsink is well worth your consideration.
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reviews. Here are a few other articles that you might enjoy as well.
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- https://www.frostytech.com/articleview.cfm?articleid=2270
