Macho Direct

[:en]

FAQ 1
Question : There are already many heat-pipe direct touch (HDT) coolers in the market. What’s the difference between Thermalright HDT and its competition?
Answer : Other HDT makers use CNC to make a very flat base for the ease of manufacturing while the surface of the CPU IHS is never true flat (a bit of concave most of the times.) And thus one can imagine the contact between the heat-sink base and IHS is not ideal.
The way Thermalright makes HDT is to make each heatpipe convex (by less than 0.15mm) in the area that contacts CPU IHS. So, the heat transfer rate in that area is increased due to true direct contact.
Our internal tests on real computer systems with Intel processors show Macho Direct with better performance than its competition by 4°C~6°C in average.
FAQ 2
Question : There are sayings HDT coolers can only be used with budgetary CPU’s with very low power consumption because the heat-pipes are flattened so the capacity to transfer heat is very limited.
Answer : When tested on a simulated test bed that reads power input, Thermalright Macho Direct is verified to be able to handle heat up to 200watt, which is more than required by the top Intel 2011-3 processor Ivy Bridge 5960X CPU (TDP 140watt). When tested on a real 2011-3motherboard, overclocked to 4 GHz,the temperature is well maintained in the mid 70°C. When tested on the top Skylake processor 6700K, over-clocked to 4GHz, the temperature is maintained in the vicinity of 70°C. These tests were made use with a quiet Thermalright TY-147A fan, with maximum noise of 21dBA。
FAQ 3
Question : I once switched to use my Thermalright HR-02 Macho from an ATX system to a micro-ATX system and found the stock fan is touching the first memory. Do I expect the same problem with Macho Direct?
Answer : Macho Direct’s fin stack is moved backward by 3.3mm compared to HR-02 Macho. So, the problem of tight space between heat-sink and first memory on a few micro-ATX motherbords does not exist anymore.
FAQ 4
Question : I already noted Macho Direct heat-sink is moved towards rear system fan compared with HR-02 Macho. Is there enough space for me to install second fan at the rear? If yes, where can I buy another set of fan clips and rubber pads?
Answer : Although Macho Direct heat-sink is now getting closer to the rear of the system, there is still plenty of room for a second fan. And Macho Direct already comes with two sets of fan clips and rubber pads.
For those who are interested in a dual-fan setup, we strongly recommend Thermalright TY-147A fan for the best performance.
FAQ 5
Question : I used to use a Thermalright fan duct with my Macho Zero heat-sink. Can I use that fan duct on Macho Direct, too? And do without the stock TY-140 black fan (semi-passive cooling)?
Answer : Yes. Both Thermalright 120mm fan duct and 140mm fan duct can be used with Macho Direct for semi-passive cooling. In fact, even without a fan duct, when with good air flow management, a 6700 K CPU (91watt TDP) can be maintained at less than 80°C. For mainstream 65 watt processors, CPU temp can be maintained below 70°C.

[:tw]

常見問題1
問:目前在市場上已經有很多熱管直觸(HDT)冷卻器。Thermalright和競爭之間的區別?
答:其他HDT製造商使用CNC以便於製造一個非常平坦的基地,同時CPU IHS的表面是不正確的扁平(大部分有點凹的)。因此可以想見之間的接觸散熱器底座和IHS不理想。Thermalright使HDT的方法是在該區域接觸的CPU IHS使每個熱管凸(小於0.15毫米)。這樣,在該區域因正直接接觸熱傳遞率增加。內部測試顯示在採用英特爾處理器電腦系統中Macho Direct平均由4°C〜6°C比競爭對手有更好的性能。
常見問題 2
問題:有說法HDT冷卻器熱管被壓扁,傳遞熱量能力是非常有限,只能預算與CPU使用具有非常低的功耗。
回答:當在模擬試驗台讀取功率輸入測試,Thermalright Macho Direct被證實能夠處理熱量最多200瓦特,比頂級英特爾處理器2011-3的Ivy Bridge CPU5960X(TDP 140瓦特)要求的多。當2011-3主板進行測試,超頻至4 GHz,將溫度保持良好中期70℃ 當頂級SKYLAKE微架構處理器6700K測試,超頻至4GHz,溫度保持在70℃附近。這些測試是利用Thermalright安靜的風扇TY-147A,最大噪聲21分貝。
常見問題 3
問:有一次我切換使用Thermalright HR-02 Macho從ATX系統至Micro-ATX系統,發現風扇接觸到第一個記憶體。是否Macho Direct有同樣問題?
答:Macho Direct相比HR-02鰭片向後移動3.3毫米。因此,在Micro-ATX主板散熱器和第一記憶體之間空間緊密的問題已不存在了。
常見問題 4

: 我有發現MachoDirect 散熱器跟HR-02 Macho 比較起來,散熱片是比較接近後系統風扇的。請問還會有足夠的空間在後面加裝第二個風扇嗎?如果可以的話,我該如何購買多一套風扇扣具與橡膠墊呢?

: 雖然 Macho Direct 散熱片是比較接近機殼後側,但還是有足夠的空間允許加裝第二個風扇。Macho Direct 已附帶兩組風扇扣具與橡膠墊。對於偏好雙風扇設置的玩家,我們推薦Thermalright TY-147A 風扇來達到最好的效能。

常見問題 5
問:我曾經使用Thermalright風扇管道在我的Macho Zero散熱器。我可以一樣使用風扇管道在Macho Direct嗎?而沒有TY-140黑色風扇(半被動式散熱)?
答:是的。兩者Thermalright的120mm和140mm風扇管道都可用於Macho Direct半被動式冷卻。實際上,即使沒有風扇管道,當具有良好的空氣流管理,在6700K CPU(91瓦特TDP)可以維持在低於80℃。為主流65瓦特處理器,CPU溫度可以保持在低於70℃。

[:cn]

常见问题1
问:目前在市场上已经有很多热管直触(HDT)冷却器。Thermalright和竞争之间的区别?
答:其他HDT制造商使用CNC以便于制造一个非常平坦的基地,同时CPU IHS的表面是不正确的扁平(大部分有点凹的)。因此可以想见之间的接触散热器底座和IHS不理想。Thermalright使HDT的方法是在该区域接触的CPU IHS使每个热管凸(小于0.15毫米)。这样,在该区域因正直接接触热传递率增加。内部测试显示在采用英特尔处理器计算机系统中Macho Direct平均由4°C〜6°C比竞争对手有更好的性能。
常见问题 2
问题:有说法HDT冷却器热管被压扁,传递热量能力是非常有限,只能预算与CPU使用具有非常低的功耗。
回答:当在模拟试验台读取功率输入测试,Thermalright Macho Direct被证实能够处理热量最多200瓦特,比顶级英特尔处理器2011-3的Ivy Bridge CPU5960X(TDP 140瓦特)要求的多。当2011-3主板进行测试,超频至4 GHz,将温度保持良好中期70℃ 当顶级SKYLAKE微架构处理器6700K测试,超频至4GHz,温度保持在70℃附近。这些测试是利用Thermalright安静的风扇TY-147A,最大噪声21分贝。
常见问题 3
问:有一次我切换使用Thermalright HR-02 Macho从ATX系统至Micro-ATX系统,发现风扇接触到第一个内存。是否Macho Direct有同样问题?
答:Macho Direct相比HR-02鳍片向后移动3.3毫米。因此,在Micro-ATX主板散热器和第一内存之间空间紧密的问题已不存在了。
常见问题 4
问 : 我有发现MachoDirect 散热器跟HR-02 Macho 比较起来,散热片是比较接近后系统风扇的。请问还会有足够的空间在后面加装第二个风扇吗?如果可以的话,我该如何购买多一套风扇扣具与橡胶垫呢?
答 : 虽然 Macho Direct 散热片是比较接近机壳后侧,但还是有足够的空间允许加装第二个风扇。Macho Direct 已附带两组风扇扣具与橡胶垫。对于偏好双风扇设置的玩家,我们推荐Thermalright TY-147A 风扇来达到最好的效能。
常见问题 5
问:我曾经使用Thermalright风扇管道在我的Macho Zero散热器。我可以一样使用风扇管道在Macho Direct吗?而没有TY-140黑色风扇(半被动式散热)?
答:是的。两者Thermalright的120mm和140mm风扇管道都可用于Macho Direct半被动式冷却。实际上,即使没有风扇管道,当具有良好的空气流管理,在6700K CPU(91瓦特TDP)可以维持在低于80℃。为主流65瓦特处理器,CPU温度可以保持在低于70℃。

Macho

[:en] 

FAQ 1
Question : How do I know if I can use memory modules with big heat spreaders without interfering the stock fan?
Answer : As depicted in the picture below, a distance of 4.5mm between CPU socket keep-out zone streakline and the first memory socket is required for installing memory modules with big heat spareaders. For a distance less than 4.4mm, we would recommend using standard memory modules without a big heat spreader.
macho asus

[:tw]

常見問題 1
問:我怎麼知道我是否可以使用大散熱器的內存模塊而風扇不受干擾?
答:正如在下面的圖片所示,大散熱器安裝內存模塊需要4.5mm CPU插槽禁入區紋線和第一內存插槽之間的距離。對於小於4.4毫米的距離,我們會建議使用標準內存模塊而不大的散熱器。
macho asus

[:cn]

常见问题 1
问:我怎么知道我是否可以使用大散热器的内存模块而风扇不受干扰?
答:正如在下面的图片所示,大散热器安装内存模块需要4.5mm CPU插槽禁入区纹线和第一内存插槽之间的距离。对于小于4.4毫米的距离,我们会建议使用标准内存模块而不大的散热器。
macho asus

AXP-140

[:en]

FAQ 1
Question : A lot of motherboards of today have their own heatpipe cooling system running across the board. Some of them are really tall. How can I be sure that the AXP-140 will fit?
Answer : Current highest heatpipe cooling system is no higher than 37mm. There is a distance of 40mm from the bottom of the base to the first fin from the bottom, therefore it is safe to say that at long as you have at least 40mm of clearance, motherboards that incorporate the heatpipe cooling system will have room to work with AXP-140
FAQ 2
Question : Would AXP-140 be able to fit in my mid tower case?
Answer : Basically, for mid tower cases there are two types of formats to determine compatibility with AXP-140. You will first need to confirm that your case has a width of 110mm or above. Next, locate your PSU (Power Supply unit). If your PSU is located right above the motherboard without overlapping, you’re ok to install AXP-140. If your PSU is located at the bottom then you would not be able to install AXP-140. Please refer to illustration.
FAQ 3
Question : I have a micro-ATX motherboard. Would I have a problem installing the AXP-140? What about my video card? Would I have room left for it if AXP-140 is installed?
Answer : When putting forth the design for AXP-140, HTPC audience was our primary goal. Micro-ATX motherboards are definitely included in our plan. You would not have spacing problem with AXP-140.

[:tw]

常見問題 1
問:當今很多主板擁有自己的熱管散熱系統正常運轉。其中有些是很高。我怎麼能肯定AXP-140適合安裝?
答:當今最高的熱管散熱系統不高於37毫米。AXP-140從底座到第一鰭片底部的距離還有40mm,主板結合熱管散熱系統,至少有40毫米間隙,將可以安全安裝。
常見問題 2
問:請問AXP-140能適合我的中塔機箱嗎?
回答:中塔與AXP-140兼容基本上有兩種方法可以確定。首先您需要確​​認您的機箱有110mm或以上的寬度。接下來,找到您的電源(電源單元)。如果您的電源位於不重疊的主板上面,確定可以安裝AXP-140。如果您的電源位於底部將無法安裝AXP-140。請參閱圖。
常見問題 3
問:我有一個Micro-ATX主板。我安裝AXP-140會有問題嗎?我的顯卡會怎樣?如果安裝AXP-140我會有其它空間嗎?
答:當在設計AXP-140,HTPC觀眾是我們的首要目標。Micro-ATX主板肯定是包含在我們的計劃。與AXP-140您不會有任何空間問題。

[:cn]

常见问题 1
问:当今很多主板拥有自己的热管散热系统正常运转。其中有些是很高。我怎么能肯定AXP-140适合安装?
答:当今最高的热管散热系统不高于37毫米。AXP-140从底座到第一鳍片底部的距离还有40mm,主板结合热管散热系统,至少有40毫米间隙,将可以安全安装。
常见问题 2
问:请问AXP-140能适合我的中塔机箱吗?
回答:中塔与AXP-140兼容基本上有两种方法可以确定。首先您需要确​​认您的机箱有110mm或以上的宽度。接下来,找到您的电源(电源单元)。如果您的电源位于不重叠的主板上面,确定可以安装AXP-140。如果您的电源位于底部将无法安装AXP-140。请参阅图。
常见问题 3
问:我有一个Micro-ATX主板。我安装AXP-140会有问题吗?我的显卡会怎样?如果安装AXP-140我会有其它空间吗?
答:当在设计AXP-140,HTPC观众是我们的首要目标。Micro-ATX主板肯定是包含在我们的计划。与AXP-140您不会有任何空间问题。

Venomous X

[:en]

From all different brands of memory chips, the memory chip would have intervened the installation of the cpu heatsink, only if it’s taller than 43mm in height, but if you do, don’t panic, please see below for step II for our further explanation.

Step one would be recognizing the motherboards, please see below picture for your reference (ASUS P7P55D, as shown in picture)

Proceeding onto step two, on whether the memory chips would be in the way of the cpu heatsink; if all slots are filled. Please first measure the distance between the centre point of the CPU IHS to the centre of the first memory slot, if it was shorter than 60mm, then you will be needing memory chips that is shorter than 43mm in height, anything more than that, you would be unsuccessful with the installation. (as shown in picture , the distance is 53mm, so first slot will not be able to use memory chip that is taller than 43mm.)
If you have measured that the distance between the centre of the CPU IHS to the centre of the first memory slot is more than 60mm. there will be no problem with your memory, even the tall HyperX could be filled in all the memory slots and still have no problem with the installation of the cpu heatsink.Distance from centre of CPU IHS to the first memory slot, not more than 60mm, only memory chip below 43mm in height can be used.
If centre of the IHS to the first memory slot is more than 60mm in length, you are safe.
The intervention between the CPU heatsink and the memory chips often occurs with motherboards with 1156 socket.
Below are all the memory specs that we could supply, if you want to know any other brands or willing to share your information with us, please mail it to HERE

Brand – Product name: Height
Corsair Dominator GT DDR3 Memory Kits

Corsair Dominator DDR3 Memory Kits

Corsair XMS3 PERFORMANCE, DHX COOL

Corsair XMS3 Xtreme Performance DDR3 Memory

Kingston HyperX T1 DDR3

Kingston HyperX DDR3

G-Skill [ Ripjaws ]

G Skill [ ECO ]

G Skill [ P I ]

G Skill [ HZ ]

G Skill [ Trident ]

G Skill [ PIS ] w/o fan

Mushkin Redline

Mushkin Blackline

Mushkin Silverline

Memory chip without stock ramsink

54mm

52mm

54mm

33mm

60mm

35mm

41mm

33mm

54mm

33mm

54mm

53mm

40mm

40mm

32mm

30mm

[:tw]

不同品牌的內存芯片,當它比43毫米高,內存芯片將干預CPU散熱器的安裝,如果您安裝了,不要驚慌,請參閱下面的步驟II我們進一步解釋。

第一步、將認識主板,請查看下面的圖片供您參考(ASUS P7P55D,如下圖)

繼續進行第二步,在內存芯片是否會在CPU散熱器的途徑;如果所有插槽都填滿了。請先衡量CPU IHS中心點與第一個內存插槽中心點之間的距離,如果距離短於60毫米,那麼將需要存儲芯片短於43毫米的高度,比這更高,不能安裝成功。(如上圖,距離是53毫米,所以第一時隙將不能夠使用存儲器芯片,比43毫米高。) 如果測量CPU HIS到第一存儲器插槽中心之間的距離大於60毫米。即使是高大的HyperX可以安裝在所有的內存插槽,安裝CPU散熱器沒有問題。

從CPU IHS到第一存儲器插槽的中心的距離,不超過60毫米,可以使用僅下面高度43毫米存儲器芯片。 如果IHS到第一存儲器插槽的中心超過60毫米長度,則是安全的。
CPU散熱器和內存芯片之間的干預往往發生與1156插槽的主板。
下面是所有我們可以提供的內存規格,如果您想知道其他任何品牌存儲規格或願意和我們分享您的信息,請郵寄到這裡

品牌 – 產品名稱:
Corsair Dominator GT DDR3 Memory Kits

Corsair Dominator DDR3 Memory Kits

Corsair XMS3 PERFORMANCE, DHX COOL

Corsair XMS3 Xtreme Performance DDR3 Memory

Kingston HyperX T1 DDR3

Kingston HyperX DDR3

G-Skill [ Ripjaws ]

G Skill [ ECO ]

G Skill [ P I ]

G Skill [ HZ ]

G Skill [ Trident ]

G Skill [ PIS ] w/o fan

Mushkin Redline

Mushkin Blackline

Mushkin Silverline

Memory chip without stock ramsink

54mm

52mm

54mm

33mm

60mm

35mm

41mm

33mm

54mm

33mm

54mm

53mm

40mm

40mm

32mm

30mm

[:cn]

不同品牌的内存芯片,当它比43毫米高,内存芯片将干预CPU散热器的安装,如果您安装了,不要惊慌,请参阅下面的步骤II我们进一步解释。

第一步、将认识主板,请查看下面的图片供您参考(ASUS P7P55D,如下图)

继续进行第二步,在内存芯片是否会在CPU散热器的途径;如果所有插槽都填满了。请先衡量CPU IHS中心点与第一个内存插槽中心点之间的距离,如果距离短于60毫米,那么将需要存储芯片短于43毫米的高度,比这更高,不能安装成功。(如上图,距离是53毫米,所以第一时隙将不能够使用存储器芯片,比43毫米高。) 如果测量CPU HIS到第一存储器插槽中心之间的距离大于60毫米。即使是高大的HyperX可以安装在所有的内存插槽,安装CPU散热器没有问题。

从CPU IHS到第一存储器插槽的中心的距离,不超过60毫米,可以使用仅下面高度43毫米存储器芯片。 如果IHS到第一存储器插槽的中心超过60毫米长度,则是安全的。
CPU散热器和内存芯片之间的干预往往发生与1156插槽的主板。
下面是所有我们可以提供的内存规格,如果您想知道其他任何品牌存储规格或愿意和我们分享您的信息,请邮寄到这里

品牌 – 产品名称:
Corsair Dominator GT DDR3 Memory Kits

Corsair Dominator DDR3 Memory Kits

Corsair XMS3 PERFORMANCE, DHX COOL

Corsair XMS3 Xtreme Performance DDR3 Memory

Kingston HyperX T1 DDR3

Kingston HyperX DDR3

G-Skill [ Ripjaws ]

G Skill [ ECO ]

G Skill [ P I ]

G Skill [ HZ ]

G Skill [ Trident ]

G Skill [ PIS ] w/o fan

Mushkin Redline

Mushkin Blackline

Mushkin Silverline

Memory chip without stock ramsink

54mm

52mm

54mm

33mm

60mm

35mm

41mm

33mm

54mm

33mm

54mm

53mm

40mm

40mm

32mm

30mm

Le GRAND MACHO

[:en]

FAQ 1
Question : The thermal solution recommended by Intel, TSA15, is too noisy when CPU is at full load. I heard Thermalright LGM can do without a fan. I like that idea but I don’t know if it will keep the CPU temperature at the same range as TSA15.
Answer : With the same hardware configuration, LGM without a fan is tested to perform slightly better than Intel TSA15 at full speed or at idle mode, over-clocked or not.

FAQ 2
Question : I want to make a very silent computer. And I learned Le GRAND MACHO can do without a fan. Can you tell me how does it perform against Nofan CR-95C, another semi-passive cooling heat-sink in the market?
Answer : With the same hardware configuration, our tests show LGM is slightly better than CR-95C, 2C lower in temperature on a 91watt processor. (See bar chart below). However, CR-95C as limited by its TDP (95watt), can not be included in more roundup tests for over-clocked applications or used on higher end processors such as 5960X (140watt).

FAQ 3
Question : Computer gaming is part of my life. And I do over-clock when I play games. I wonder if I can add a fan to LGM to bring down temperature when I over-clock?
Answer : Yes. Every LGM comes with a pair of fan clips that will take a Thermalright award winning TY-147A 140mm fan or any other 25mm thick 120mm square fan.
FAQ 4
Question : I like the idea of semi-passive cooling. But my computer has a 2011-3 processor which consumes 140watt of power at full load before over-clock. (The higher end Skylake LGA 1151 processors consume 91watt only.) If LGM can not handle the heat, do you have other low-noise solution?
Answer : The processor socket on a 2011-3 motherboard is located further away from the rear system fan compared with those 1150/1151 motherboards which makes using the air from system fan more difficult. But the cooling performance of a LGM on a 2011-3 motherboard is not too bad at all. (See charts below.) For those who wish to make it cooler and yet without adding noise can opt for a Thermalright 120/140mm fan duct as shown in the photo below. CPU temperature can be reduced by 10C in average.

Socket 2011-3 silent cooling made easy

CPU: Intel Core i7 5960X
Motherboard: ASUS ROG Rampage V Extreme
Memory: Avexir 8GB*2 @ 2133MHZ
Graphic card: MSI GTX960 GAMING 2G
Solid state drive: Kingston V300 120G
Case: Fractal Design R4

Passively cooled with Thermalright Le GRAND MACHO with and without fan duct 140

 

 

[:tw]

常見問題1
問:英特爾推薦的,TSA15散熱器,當CPU處於滿負荷時太吵。我聽說Thermalright的LGM無風扇可以做到的。我喜歡這一點,但我不知道這是否CPU溫度會保持在TSA15的同一範圍內。
答:在相同的硬件配置,無風扇LGM全速測試執行比英特爾TSA15稍好,於全速,閒置或超頻與否的模式。
常見問題2
問:我想要一個非常安靜的電腦。而且我知道LE GRAND MACHO無風扇可以做到的。您能告訴我它是如何運轉相對Nofan CR-95C,市場上另一個被動散熱器?
答:在相同的硬件配置,我們的測試顯示LGM比CR-95C稍好,在91瓦特處理器上溫度更低2°C。(請參見下面柱狀圖)。 然而,CR-95C 被TDP限制為(95瓦特),不包含更多超頻綜述測試或5960X(140瓦特)更高端處理器使用者。
常見問題3
問:電腦遊戲是我生命的一部分。當我玩遊戲時都超頻。當我超頻,不知道是否可以添加一個風扇以降低LGM溫度?
答:是的。每個LGM配備了一個風扇夾可以搭配Thermalright獲獎TY-147A 140mm風扇或其他任何25mm厚的120毫米方形風扇。
常見問題4
問:我喜歡半被動式散熱。但是,我的電腦有一個2011-3處理器,超頻前滿負荷功耗為140瓦特。(高端SKYLAKE微架構LGA 1151處理器只消耗91瓦特)。如果LGM不能處理,您有沒有其他低噪音的解決方案?
答:2011-3主板上的處理器插座距離後系統風扇與那些1150/1151主板較遠,這使得難以從系統風扇使用空氣。但LGM在2011-3主板上的散熱性能也不算壞。(見下面圖表)。對於那些希望讓它冷卻,但不增加噪音,可以選擇Thermalright的120 / 140mm風扇風道,如下面的照片。平均可以降低CPU的10℃溫度。
插座2011-3靜音散熱變得容易

CPU: Intel Core i7 5960X
主板: ASUS ROG Rampage V Extreme
內存: Avexir 8GB*2 @ 2133MHZ
顯卡: MSI GTX960 GAMING 2G
固態硬碟: Kingston V300 120G
機箱: Fractal Design R4
Thermalright 被動冷卻LE GRAND MACHO有與無風扇道140

[:cn]

常见问题1
问:英特尔推荐的,TSA15散热器,当CPU处于满负荷时太吵。我听说Thermalright的LGM无风扇可以做到的。我喜欢这一点,但我不知道这是否CPU温度会保持在TSA15的同一范围内。
答:在相同的硬件配置,无风扇LGM全速测试执行比英特尔TSA15稍好,于全速,闲置或超频与否的模式。
常见问题2
问:我想要一个非常安静的计算机。而且我知道LE GRAND MACHO无风扇可以做到的。您能告诉我它是如何运转相对Nofan CR-95C,市场上另一个被动散热器?
答:在相同的硬件配置,我们的测试显示LGM比CR-95C稍好,在91瓦特处理器上温度更低2°C。(请参见下面柱状图)。 然而,CR-95C 被TDP限制为(95瓦特),不包含更多超频综述测试或5960X(140瓦特)更高端处理器使用者。
常见问题3
问:计算机游戏是我生命的一部分。当我玩游戏时都超频。当我超频,不知道是否可以添加一个风扇以降低LGM温度?
答:是的。每个LGM配备了一个风扇夹可以搭配Thermalright获奖TY-147A 140mm风扇或其他任何25mm厚的120毫米方形风扇。
常见问题4
问:我喜欢半被动式散热。但是,我的计算机有一个2011-3处理器,超频前满负荷功耗为140瓦特。(高端SKYLAKE微架构LGA 1151处理器只消耗91瓦特)。如果LGM不能处理,您有没有其他低噪音的解决方案?
答:2011-3主板上的处理器插座距离后系统风扇与那些1150/1151主板较远,这使得难以从系统风扇使用空气。但LGM在2011-3主板上的散热性能也不算坏。(见下面图表)。对于那些希望让它冷却,但不增加噪音,可以选择Thermalright的120 / 140mm风扇风道,如下面的照片。平均可以降低CPU的10℃温度。
插座2011-3静音散热变得容易

CPU: Intel Core i7 5960X
主板: ASUS ROG Rampage V Extreme
内存: Avexir 8GB*2 @ 2133MHZ
显卡: MSI GTX960 GAMING 2G
固态硬盘: Kingston V300 120G
机箱: Fractal Design R4
Thermalright 被动冷却LE GRAND MACHO有与无风扇道140