aio cooler lcd screen free sample

The all-new Kraken Z Series lets you personalize your all-in-one liquid cooler like never before. Through CAM’s unique software interface, you can do more than simply ne-tune settings; you can now display your favorite images and animated gifs, or CAM system information, allowing for total customization. Backed by a 6-year warranty, the Kraken Z series provides superior performance in liquid cooling, simple installation, and a look that is uniquely your own.Customise Your Battlestation

With a bright, 2.36” LCD screen capable of displaying 24-bit color, you can now completely customize the look of your CPU cooler. Whether it’s an iconic image, personal photo, funny gif, or CAM data, you can use your Kraken to express yourself in an exciting new way.Stay In Control

Fine nylon mesh sleeves strengthen the rubber tubing, providing durability and protection against mishandling. With the fully programmable display, the pump can be rotated in 90 degree increments to fit the needs of your motherboard without affecting the direction of the logo or image.Specification:Pump:- Motor Speed & Power: 2,000 – 2,800 + 300 RPM, 12V DC, 0.3ARadiator:- Dimensions: 143 x 315 x 30mm- Material: AluminumTube:- Length: 400mm- Material: Ultra-low Evaporation Rubber with Nylon Braided SleeveCap:- Display Orientation: Software adjustable 90° increments- Display Panel Active Area: 2.36” (60mm) diameter- Display Colour: 24-bit true color LCD- Display Resolution: 320 x 320 px- Display Brightness: 650 cd/m2Fans:- Quantity: 2- Dimension: 140 x 140 x 26mm- Speed: 500-1,800 + 300 RPM- Air Flow: 27.27 - 98 .17 CFM- Air Pressure: 0.21 - 2.71mm-H 2O- Noise: 21-38dBA- Bearing: Fluid Dynamic Bearing- Power Consumption: 12V DC, 0.38A, 4.56W- Connector: 4-pin PWM- Life: 60,000 hours / 6 Years- Warranty: 6 YearsSocket Compatibility:- Intel: Intel Socket LGA 1200, 1151, 1150, 1155, 1156, 1366, 2011, 2011-3, 2066- AMD: AMD Socket AM4, TR4(bracket not included)

An all-in-one (AIO) liquid cooler not only ensures quieter cooling than a traditional air cooler, but it might even lower temperatures enough to let you overclock further. AIOs are a super simple way to water-cool your PC without any mess or the headache of choosing components. We also recommend investing in a liquid cooler if you have or are planning to buy a high-performance processor like the new Intel Core i9-13900K or AMD"s Ryzen 7950x.

Most builds call for a 240mm AIO. To that end, we recommend the Corsair iCUE H100i RGB Elite, thanks to its solid software integration, excellent included fans, and good price tag. You can jump up or down depending on your PC build size or cooling needs, too, with various options available.

Note: Before diving in, you"ll need to take note of your CPU socket before picking up an AIO water cooler. Every CPU cooler is a little different, so you"ll need to know what CPU socket your motherboard has to see if the cooler supports it.

The Corsair iCUE H100i RGB Elite is an easy AIO to recommend. The company is behind some of the best desktop CPU coolers, and the cooler clocks in at about $140. Socket support is excellent, too, with mounting options for all recent Intel and AMD processors, including Threadripper.

When it comes to raw thermal performance, the Arctic Liquid Freezer II is the best 360mm AIO cooler on the market. It reaches similar performance to competing coolers from NZXT and Corsair while being very inexpensive. Currently selling for about $130, the price is comparable to and in some cases lesser than most competitive 360mm AIO coolers out there.

The pump on the AIO is controlled by PWM, allowing it to modulate with the workload rather than run at full speed all the time. The Liquid Freezer II also includes a 40 mm fan next to the pump, set to sit over your motherboard"s VRM chips. In more extreme overclocking sessions, this may improve stability. Otherwise, it includes three Arctic 120 mm fans to keep air flowing.

This cooler is all about performance and price. It gets those two bits right, but not without some concessions. It doesn"t feature any sort of lighting, and the design may not be to everyone"s tastes. Still, the Arctic Liquid Freezer II hits a sweet spot that other coolers can"t compete with. Socket support is a little limited, but the Liquid Freezer still supports most recent chips. On AMD, it supports AM4 CPUs, and on Intel, it supports all LGA115x sockets, as well as 2011-3 and 2066 with a square Independent Loading Mechanism (ILM).

NZXT"s third-generation Kraken X coolers are well worth the asking prices. The cooler is now available in an all-white finish with two 120mm Aer RGB 2 fans making it perfect for your next white PC build. This 240mm model clocks in at around $145, which still isn"t too expensive. The design is much more appealing than Arctic"s offering while achieving similar levels of thermal performance.

Socket support is excellent, with support for TR4 and AM4 on AMD, and LGA115X, 1700, and 1,200 on Intel. NZXT rates the Kraken X53 for six years of continuous use — 60,000 hours, technically — which is around what we"d expect for most AIO coolers. NZXT offers a six-year warranty, though, so you"re covered from any defects for the rated life of the cooler.

120 mm AIOs usually aren"t very good, but the Corsair H80i v2 is the best 120 mm AIO around. Without proper surface area on the radiator, most 120 mm coolers just aren"t up to snuff when it comes to cooling power. The Corsair H80i v2 solves that problem. The radiator is twice as thick, clocking in at 49mm compared to the standard 25mm. The H80i v2 doesn"t match the cooling performance of a 240mm radiator, but it gets a lot closer than a standard 120 mm one.

As for support, the Corsair H80i v2 comes with Intel mounting hardware for socket 1366 up to LGA1200 (Intel"s redesign of LGA1151, designed for Comet Lake CPUs). Basically, if you have an Intel processor introduced after 2008, you"re fine. AMD support is a little sparser. The cooler technically supports AM2 up to AM4, but the box only ships with mounting hardware for up to AM3. You"ll need a separate AM4 bracket. Thankfully, Corsair sells them for only a few dollars. There"s no RGB on this one, either, though you can control fan speed and monitor temperatures through Corsair"s iCUE software.

Cooler Master offers a range of "lite" AIOs, which are basically previous iterations of Cooler Master"s MasterLiquid line with increased socket support and double FEP tubing. At around $85, the Cooler Master ML240L v2 is the best budget AIO available. It comes with a 240mm radiator, two RGB fans, and a small RGB controller. Thermal performance isn"t great, and the noise level is higher than some more costly options. However, the ML240L clocks in around $50 cheaper than most competing 240mm AIOs. Plus, you can always swap the fans out later for more lighting options and slightly better noise levels.

The Cooler Master ML240L comes with nearly universal socket support, too. On Intel, it supports LGA1200, LGA20xx, LGA115x, and LGA1366, and on AMD, it supports AM2 to AM4, as well as FM2 and FM1. For the price, it"s hard to beat the ML240L.

If you want the best RGB AIO cooler, the EK-AIO 240 D-RGB goes off the deep end. Short of a small black strip where the tubes connect, the mounting block has a translucent, slightly diffused surface, washing out the lights inside into a beautiful display of color. EK is the place for custom water cooling, and the EK-AIO 240 shows why.

The EK-AIO 240 is a better option due to the fact that it"s inexpensive. Selling for about $125, it"s similarly priced as the 240mm counterpart at NZXT, as well as Corsair’s H100i. But you can get is for about $108 on EK"s own website. Like a lot of the other options on this list, it’s available in 120mm and 360mm variants, too. On Intel, the EK-AIO 240 supports LGA115x and LGA20xx, and LGA1200. On AMD, it just includes an AM4 bracket. You can control the fans directly through your motherboard, but if you’re short on spots, you can pick up an EK-Loop Connect controller for another six PWM connections.

This is Corsair"s first all-in-one liquid cooler with a built-in LCD on the pump block. The iCUE H100i Elite LCD is a step beyond the older H100i RGB Pro XT and an excellent choice if you care about RGB lighting and customizations. The bright 2.1-inch panel comes with a 480x480 resolution making it sharper than most AIO LCD displays. It can be used to showcase a variety of things including system temperatures, custom artwork, GIFs, videos, and more. This can be done with Corsair"s iCUE software which also offers additional information about the cooler.

The AIO comes with two 120mm Corsair ML RGB ELITE magnetic levitation fans for great cooling performance while maintaining quiet operation. There is also support for a zero-RPM cooling profile that allows the fans to stop entirely at low temperatures thus eliminating any fan noise. Expect excellent thermal performance thanks to the custom cold plate that features a high-density stack of 128 micro-skived fins per inch providing highly efficient cooling.

Apart from the 240mm option, the Corsair Elite LCD AIO is also available in 360mm and 420mm configurations and there is support for all modern CPU sockets including the latest Intel LGA 1700 and AMD"s upcoming AM5.

The Alphacool Eisbaer Aurora is a CPU cooler that you can refill. Unlike other AIO liquid coolers, you can swap out the fluid, upgrade the hoses and fittings, and even expand the loop. The most recent model supports digital RGB on the fans and CPU block, too, allowing you to trick out your lighting however you want.

The most important part of an AIO CPU cooler is the radiator size. A larger radiator offers better cooling performance, but you need to make sure it can fit inside your case. Otherwise, look at the socket support to make sure you can use the cooler with your motherboard and buy from a reputable brand.

Most AIO coolers have a lifespan of six years, regardless of if they have RGB or not. You can expect an AIO cooler from a reputable brand to run for six years without issues, but every cooler is a little different. We recommend looking up individual AIO cooler reviews to see if others have had issues with reliability.

Before buying an AIO cooler, you need to know about the risks it may pose to your PC. Although failures are few and far between, every AIO cooler is still putting water dangerously close to your precious PC components, so there"s always a risk that the cooler could leak or fail and damage your parts. The fact that AIO coolers are closed makes matters worse because you can"t open the loop to see if there are any problems.

The best way to mitigate risk is to keep an eye on your cooler to see if there are any signs of leaking and to monitor your CPU temperature to see if the pump is failing. As long as you keep an eye on both, you can find most problems before they do any catastrophic damage.

In a typical setup, yes, liquid cooling is simply better at capturing and dissipating heat than an air cooling system alone — however, they aren"t necessarily better than the best air coolers.  AIO coolers are a popular option to add liquid cooling because they offer the whole cooling system in a premade package that"s relatively easy to set up, and they tend to be very quiet.

That being said, AIO coolers may not be the best choice for every gaming station. As we mentioned above, not all PC cases have a lot of room to add a radiator, pump, and tubing. If you aren"t interested in overclocking and your current system manages temperatures just fine, you may not see a lot of benefit from switching to an AIO cooler, either.

That depends on several factors. The pump that moves the liquid in the cooler is typically silent or at least inconsequential compared to other PC noises. AIO models usually have fans, which will get noisy if they operate at high speed or are dirty. You can decrease fan noise by keeping them free of dust and monitoring their settings via the BIOS if possible. The good news is that, with liquid cooling, fans usually don"t have to work as hard and are less likely to make lots of noise.

Another source of noise can be gurgling from the liquid as it flows, especially at higher pump speeds. If your AIO cooler is chilling your PC just fine at lower pump speeds, you can easily keep noise levels down this way. If annoying gurgling noises persist, there could be air cycling in the system. Proper installation and pump placement can often help avoid bubbling issues like this, so it may be time to take a look at your mounting choices. You can also run the cooler through a process to clear out air bubbles.

If this is your first time installing an AIO model, you should find and follow a guide closely or use the included instructions and pay attention to the details. Corsair has a clear-cut guide on the two most effective mounting choices for the radiator (on the front or at the top of the case). The radiator should be at a higher position than the pump to help avoid air bubble problems, which means you don"t want to install it at the bottom of the case.

Offering a variety of models for every type of gamer, ASUS AIO coolers combine incredible performance to keep thermals in check, iconic designs, and the visual effects of Aura-enabled lighting, bringing next-level cooling and style to the heart of your build.

With customizable visuals and top-quality fans that enable comprehensive coverage via air and water cooling, ROG flagship AIO coolers are designed to pair with today’s most powerful CPUs to deliver high-octane cooling with minimal noise.

ROG AIO series features a customizable LCD or OLED panel, which can be tuned to show system information or tailored graphics from center stage in your build.

To overcome the thermal challenges of the latest CPUs and their unprecedented core counts, ROG AIO series offers industrial-grade Noctua radiator fans that deliver high performance and minimal-noise.

The advanced cooling plate on ROG Strix LC series is equipped with micro-channels that provide greater surface area to enhance thermal dissipation and reduce thermal resistance, delivering more efficient performance and cooler temperatures.

The powerhouse AIO liquid CPU coolers in TUF Gaming LC series are designed for mid-sized gaming builds and feature a dynamic Asetek pump, a specialized fan-blade design, and aesthetics that can be tuned to your style.

TUF Gaming LC series coolers add a vibrant burst of color and sleek style to the heart of your build. And with Aura-enabled lighting, colors and effects can be customized to match your system, so you can create a unified look that"s totally your own.

ASUS AIO series coolers are compatible with a wide range of Intel® and AMD motherboard platforms, giving you the flexibility to pair them with your choice of processor. They also come fitted with 380 mm tubing to make mounting and routing easier.

To help ensure backwards compatibility with as many CPU coolers as possible, ASUS Z690 motherboards include both LGA 1200 and LGA 1700 mounting holes. The LGA 1200 retention kit currently bundled with ASUS AIO liquid coolers creates a smooth upgrade path for ASUS Z690 users.*

Remember when AIO liquid coolers were only found in enthusiast PC builds? That"s not the case anymore, as AIO coolers have become more of a necessity with all these power-hungry CPUs from Intel and AMD.

Most air coolers are simply not powerful enough to dissipate all the heat generated by these high-wattage processors. And as such, PC builders resort to AIO liquid coolers to get the best cooling performance for their CPUs.

However, finding a suitable AIO can be tricky, as you"ll need to consider multiple factors. So, here, we"ll discover the top specs to check when buying a new AIO cooler.

Besides the price, radiator size is the most important factor you need to consider when purchasing an AIO liquid cooler. The radiator"s length should give a rough idea of the AIO"s cooling performance. The bigger the radiator, the more air it can push through, allowing it to dissipate heat quickly.

Typically, a mid-tower PC case would fit a 240mm radiator just fine, while an ITX case would need to settle for a smaller 120mm or 140mm AIO cooler. More often than not, you"ll need a full-tower PC case to fit a 360mm radiator or larger.

Besides the length of the radiator, you should also consider its thickness. Most AIO liquid coolers come with a standard radiator thickness of 27mm, but some models, like the Arctic Liquid Freezer AIO, feature a thicker 38mm radiator.

Again, if you opt for an AIO with a thicker radiator for better cooling performance, make sure you have adequate space in your case because you may encounter clearance issues with your RAM, especially on mid-tower and ITX PC builds.

The fan speed is rated in RPM (revolutions per minute), and typically, the fans that come with your AIO cooler are PWM-controlled, meaning you can control its speeds with software. Regardless, you should look at the fan"s maximum speed in the spec sheet.

Most radiator fans can spin upwards of 1,500 RPM, but you"ll find high-end AIO coolers surpass the 2,000 RPM mark. And although you may be inclined to buy the fans that spin at 2,000 RPM, you need to consider another critical factor: noise level.

The faster the fans spin, the louder your AIO cooler will be. Sure, you"ll get better cooling performance, but that could come at the cost of unbearable noise, meaning you"d have to lower the speed. So, don"t forget to check the noise levels of the included fans in the spec sheet, rated in dB. The lower this value, the better, and anything below 40dB is optimal.

A loud pump is as annoying as the loud fans in your AIO liquid cooler. So, you should make sure the pump in your AIO cooler is from a reputed manufacturer.

Most mainstream AIO liquid coolers from Corsair, ASUS, and Gigabyte use an Asetek pump, meaning pump performance will remain mostly consistent across their product lineups. However, some companies like Lian Li and EK Water Blocks manufacture their own pumps, so you"ll need to look into the reviews for the model you plan to get.

Newer generations of pumps are typically better in cooling performance. In addition, they have safety parameters to prevent any liquid leakage, allowing your AIO liquid cooler to last longer than old-gen models.

Most mainstream brands have their own software—for example, Corsair has iCUE, whereas NZXT has CAM—to control the AIO"s fan speed, pump speed, RGB lighting, etc. However, some manufacturers don"t offer any software, and you"ll need to rely on your motherboard"s software to control the RGB lighting or enter the BIOS to adjust the pump and fan speeds. Or, you could install third-party programs that let you do so.

Performance should be your top priority when buying a new AIO liquid cooler, but that doesn"t mean you should skip the aesthetics department. Nowadays, most PC cases come with tempered glass side panels to show off your hardware in all its glory, so why not add some RGB flair?

Several AIO liquid coolers today pack RGB fans to give you some decent lighting inside your cabinet, and they don"t cost much more than their non-RGB counterparts. However, make sure the one you choose has addressable RGB fans, as these allow you to control the color of each LED individually.

And if you can afford the premium prices for high-end AIO coolers, try to get one with an LCD screen. While you may quickly shrug it off as an unnecessary gimmick, it can be convenient to monitor your CPU temperature and clock speed while playing games instead of using your PC monitoring software.

Now that you know all the specifications you need to consider, you"re all set to buy your very first AIO liquid cooler. However, don"t forget to factor in the price, as your budget will ultimately decide what AIO you get.

If you"re building a mid-tower PC on a budget, a 240mm AIO cooler would be a logical choice, but if you can afford the best of the best, don"t settle for anything less than a 360mm liquid cooler, provided your case can fit it—save the 120mm AIOs for ITX builds.

This would be actual flow through the chassis and not the free air rating of the fan. It should also be noted that "Q", the heat transferred, is a function of the heat transfer efficiency of a CPU or GPU cooler to the airflow.

Where powerful computers with many features are not required, less powerful computers or ones with fewer features can be used. As of 2011VIA EPIA motherboard with CPU typically dissipates approximately 25 watts of heat, whereas a more capable Pentium 4 motherboard and CPU typically dissipates around 140 watts. Computers can be powered with direct current from an external power supply unit which does not generate heat inside the computer case. The replacement of cathode ray tube (CRT) displays by more efficient thin-screen liquid crystal display (LCD) ones in the early twenty-first century has reduced power consumption significantly.

While originally limited to mainframe computers, liquid cooling has become a practice largely associated with overclocking in the form of either manufactured all-in-one (AIO) kits or do-it-yourself setups assembled from individually gathered parts.

A heat pipe is a hollow tube containing a heat transfer liquid. The liquid absorbs heat and evaporates at one end of the pipe. The vapor travels to the other (cooler) end of the tube, where it condenses, giving up its latent heat. The liquid returns to the hot end of the tube by gravity or capillary action and repeats the cycle. Heat pipes have a much higher effective thermal conductivity than solid materials. For use in computers, the heatsink on the CPU is attached to a larger radiator heatsink. Both heatsinks are hollow, as is the attachment between them, creating one large heat pipe that transfers heat from the CPU to the radiator, which is then cooled using some conventional method. This method is usually used when space is tight, as in small form-factor PCs and laptops, or where no fan noise can be tolerated, as in audio production. Because of the efficiency of this method of cooling, many desktop CPUs and GPUs, as well as high end chipsets, use heat pipes or vapor chambers in addition to active fan-based cooling and passive heatsinks to remain within safe operating temperatures. A vapor chamber operates on the same principles as a heat pipe but takes on the form of a slab or sheet instead of a pipe. Heat pipes may be placed vertically on top and form part of vapor chambers. Vapor chambers may also be used on high-end smartphones.

The corona discharge cooler developed by Kronos works in the following manner: A high electric field is created at the tip of the cathode, which is placed on one side of the CPU. The high energy potential causes the oxygen and nitrogen molecules in the air to become ionized (positively charged) and create a corona (a halo of charged particles). Placing a grounded anode at the opposite end of the CPU causes the charged ions in the corona to accelerate towards the anode, colliding with neutral air molecules on the way. During these collisions, momentum is transferred from the ionized gas to the neutral air molecules, resulting in movement of gas towards the anode.

The advantages of the corona-based cooler are its lack of moving parts, thereby eliminating certain reliability issues and operating with a near-zero noise level and moderate energy consumption.

Phase-change cooling is an extremely effective way to cool the processor. A vapor compression phase-change cooler is a unit that usually sits underneath the PC, with a tube leading to the processor. Inside the unit is a compressor of the same type as in an air conditioner. The compressor compresses a gas (or mixture of gases) which comes from the evaporator (CPU cooler discussed below). Then, the very hot high-pressure vapor is pushed into the condenser (heat dissipation device) where it condenses from a hot gas into a liquid, typically subcooled at the exit of the condenser then the liquid is fed to an expansion device (restriction in the system) to cause a drop in pressure a vaporize the fluid (cause it to reach a pressure where it can boil at the desired temperature); the expansion device used can be a simple capillary tube to a more elaborate thermal expansion valve. The liquid evaporates (changing phase), absorbing the heat from the processor as it draws extra energy from its environment to accommodate this change (see latent heat). The evaporation can produce temperatures reaching around −15 to −150 °C (5 to −238 °F). The liquid flows into the evaporator cooling the CPU, turning into a vapor at low pressure. At the end of the evaporator this gas flows down to the compressor and the cycle begins over again. This way, the processor can be cooled to temperatures ranging from −15 to −150 °C (5 to −238 °F), depending on the load, wattage of the processor, the refrigeration system (see refrigeration) and the gas mixture used. This type of system suffers from a number of issues (cost, weight, size, vibration, maintenance, cost of electricity, noise, need for a specialized computer tower) but, mainly, one must be concerned with dew point and the proper insulation of all sub-ambient surfaces that must be done (the pipes will sweat, dripping water on sensitive electronics).

Thermal compound is commonly used to enhance the thermal conductivity from the CPU, GPU, or any heat-producing components to the heatsink cooler. (Counterclockwise from top left: Arctic MX-2, Arctic MX-4, Tuniq TX-4, Antec Formula 7, Noctua NT-H1)

Supply cool air to the hot components as directly as possible. Examples are air snorkels and tunnels that feed outside air directly and exclusively to the CPU or GPU cooler. For example, the BTX case design prescribes a CPU air tunnel.

Expel warm air as directly as possible. Examples are: Conventional PC (ATX) power supplies blow the warm air out the back of the case. Many dual-slot graphics card designs blow the warm air through the cover of the adjacent slot. There are also some aftermarket coolers that do this. Some CPU cooling designs blow the warm air directly towards the back of the case, where it can be ejected by a case fan.

Air that has already been used to spot-cool a component should not be reused to spot-cool a different component (this follows from the previous items). The BTX case design violates this rule, since it uses the CPU cooler"s exhaust to cool the chipset and often the graphics card. One may come across old or ultra-low-budget ATX cases which feature a PSU mount in the top. Most modern ATX cases do however have a PSU mount in the bottom of the case with a filtered air vent directly beneath the PSU.

Each server can have an independent internal cooler system; Server cooling fans in (1 U) enclosures are usually located in the middle of the enclosure, between the hard drives at the front and passive CPU heatsinks at the rear. Larger (higher) enclosures also have exhaust fans, and from approximately 4U they may have active heatsinks. Power supplies generally have their own rear-facing exhaust fans.

"Cooling and Noise in Rugged Industrial Computers". Chassis Plans Rugged Computers and LCD Displays. Archived from the original on 7 January 2014. Retrieved 11 February 2016.

"GE"s "dual piezo cooling jet" could enable even cooler gadgets". gizmag.com. 14 December 2012. Archived from the original on 21 July 2013. Retrieved 20 April 2013.

We think out of the box and spin it differently. Each of our LCD fridges is newly developed to fit with the screen size. The front glass door is a FULL-SIZE advertising screen.

NZXT entered the PC cooling market nearly a decade ago by releasing all-in-one (AIO) liquid cooling solutions and accessories for them, including GPU mounting brackets. However unlike other manufacturers who have opted to build large, diverse product lineups, NZXT never kept more than a handful of AIO coolers available in their product line-up. Instead, the company has focused on delivering a few quality and aesthetically-unique designs, rather than trying to take the competition down on raw performance alone.

Today we are taking a look at NZXT’s latest liquid coolers, the Kraken X-3 and Z-3 series. These are more of a refresh rather a total upgrade over last year’s X-2 series, but NZXT has made some notable tweaks. Between the two families there are five different coolers in three sizes, covering the usual 240/280/360mm configurations. Both the X and Z series utilize the same cooling hardware, but NZXT has positioned the Z series as a premium option with a novel aesthetic feature – while the X series has RGB lighting on top of the pump base, the Z series tops its base with a full-fledged (and full color) LCD screen.

For this review we"re checking out both the X73 and the Z63, giving us a full view of the performance and features we can expect from most coolers that NZXT currently offers.

The new Kraken Z-3 and X-3 coolers ship in relatively simple packaging, based on the same white/purple artistic theme that NZXT has used over the last few years. A picture of the cooler covers the otherwise plain front of the packaging. Inside the box we found the coolers and their parts well protected by custom cardboard inserts.

All of the coolers share practically the same bundle, which is limited to the basics. Inside the box we only found the required mounting hardware, the necessary wiring, and an installation manual. We should also note that NZXT does not include the TR4 socket mounting plate by default, but they do have one available as an optional part for Threadripper owners.

Digging into our review samples, let"s start with deciphering NZXT’s cooler names. The first character denotes the series, the second the size, and the third is the version. For example, the Z63 and the Z73 coolers belong to the same series and share most features but their radiator size differs, while the X73 and Z73 are of the same size but belong to different series. Thus the Z63 and the X73 that we will be reviewing today check both of these boxes, allowing us to explore the differences between the Z and X series and measure the thermal performance of both the 280 mm and the 360 mm coolers.

So what sets apart NZXT"s X and Z series coolers? In short, it"s all about displays. For the Z series, NZXT has topped off the the main block assembly with a 2.36” LCD screen. The LCD can be programmed to showcase everything from images and GIFs to real-time data. And despite the low 320×320 px resolution, it is crisp and bright, with beautiful color reproduction.

Other than the display topping the main block, the X and Z series coolers are all but identical. The rest of the main block is the same between the two, going right down to the contact plate and mini pumps. So at the base of NZXT"s LCD and LED handiwork lies a circular copper plate, secured on the plastic body with eight stainless steel screws. A layer of thermal paste is pre-applied onto the contact plate. It is not machined down to a mirror finish but it is smooth and entirely flat. The contact plate is not large enough to cover Ryzen Threadripper processors and, although it should work okay, we generally advise against using coolers that are not specifically developed for the TR4 socket on Threadripper processors.

Moving on, let"s talk about NZXT"s radiators. Their different sizes aside, the radiators of both the Z63 and X73 seem to be identical in terms of design. The subtle but significant difference is that the 120 mm fan radiator of the X73/Z73 is 26 mm thick, while the 140 mm fan radiator of the Z63/X63 is 30 mm thick. It"s just a few millimeters, but it"s something that should absolutely be considered confirming the cooler’s compatibility with a given case, as sometimes a few millimeters makes all the difference. Both radiators are typical dual-pass cross-flow designs, with tiny fins soldered on thin oblong tubes. This is by far the most dominant radiator design for AIO systems and rightfully so, as it offers the best efficiency within limited proportions and for the temperature differences that AIO coolers have to deal with.