It’s been a while since I’ve tested an SSD cooler, but I recently saw iHTP’s m.2 2280 NVMe cooler posted above Amazon At only $6.99, it looked pretty impressive at first glance – so I impulse-bought it to test it out.
So who is iHTP? This is a good question. Can’t find much information about the company online, check out NewEgg’s store (see newegg promo code) It appears that the company is Sells rebranded DeepCool products in its name. This raises eyebrows, to say the least, as this may be a violation of US sanctions – and it wouldn’t be Retailer attempts to sell rebranded DeepCool products for first time.
While some of its other products may have issues, I’m glad I purchased iHTP’s SSD cooler – because its looks don’t deceive – it’s one of the best SSD coolers I’ve ever tested!
For this radiator review, I’m doing things a little differently than before. Thermal testing has been done using air coolers and liquid coolers, and I ran two sets of tests on each system. Let’s take a quick look at the device’s specs and features, and then look at some thermal results.
Cooler specifications
| cooler | iHTP M.2 SSD Heatsink |
| Suggested retail price | $6.99 |
| Radiator material | aluminum |
| fan speed | Up to 4000 rpm |
| light | ARGB on fan |
| Warranty | Unknown, but at $6.99 who cares? |
Packaging and contents
The packaging is quite simple, the cooler comes in a small box which is big enough to hold the product. Included in the box are the heatsink and fan, base, two thermal pads, and necessary screws.
iHTP M.2 SSD Heatsink Features
Tall, thin design with integrated fan
iHTP’s SSD heatsink adopts a tall and thin design with the fan integrated into the heatsink. This is useful in compact environments with a lot of heat, such as if your SSD is located next to the GPU. To give an idea of its size, the image above shows the iHTP radiator (left) next to TenRuidium’s Dark Airflow I (right).
Broad compatibility with air coolers
Some of the most powerful SSD coolers on the market are not compatible with air coolers due to their size. Although I cannot guarantee that iHTP will be compatible every The best air cooler on the market, it’s perfect for many setups. For today’s air cooling results, I paired this SSD cooler with Scythe’s Mugen 6.
aRGB lighting with infinity mirror
While I don’t think a product like this needs to be sparkly, some of you like to have lighting. If this describes you, you’ll be happy to know that this cooler features optional ARGB lighting and an infinity mirror design.
Test Configuration and Methodology – LGA1851 Platform
When I first started testing coolers, I used a PCIe 4.0-only i7-13700K system to try to explain that these types of products might be useful even if you’re not using a PCIe 5.0 SSD.
With today’s review, we’re moving to the PCIe 5.0 platform using Intel’s “Arrow Lake” Core Ultra 7 265K – these benchmark Will go a little more in-depth than the previous review. First, test with a liquid cooler and an air cooler to see how this affects performance. Additionally, in addition to the standard stress test, I implemented another stress test that ran concurrently with the GPU stress test to see how the cooler performed when there were multiple heat sources in the case to contend with.
Radiator installation
Installing an SSD cooler is simple, and if you’ve seen one, you’ve basically seen them all – there’s little difference in the installation process due to the similarities of the units.
1. Remove the base of the device and attach the first thermal pad.
2. Place the SSD on top of the first thermal pad, then place the second thermal pad on top of it.
3. Place the heat sink over the top cooling pad and secure it with the included screws.
4. Finally, place the device into the M.2 slot on the motherboard and connect the ARGB and PWM cables. I’ve installed it in the slot between the GPU and CPU cooler, but if you have a particularly wide air cooler, you may want to use another slot.
Pressure Test Thermal Results for Air Cooling
When I first started publishing SSD cooler reviews, I limited my testing to systems containing AIO liquid coolers. This type of test is useful, but it doesn’t tell the whole story – as many users will opt for air cooling. Our first round of results were benchmarked while using Scythe’s Mugen 6 air cooler to cool the CPU.
Now this review doesn’t have as many comparisons as the previous reviews, but I’ve included the best radiators I’ve tested before – Ten cesium dark air I – and some not-so-robust radiators. The coolers I tested the iHTP on were carefully selected, and I believe this review will provide enough information to cover everything you need to know about the iHTP NVMe SSD cooler.
The first hot test was done while executing a custom IOMeter script designed to stress test NAND and SSD Phison E26 controller. Despite its budget price of just $6.99, iHTP’s cooler solution is surprisingly powerful, taking the crown from TeamGroup as the most powerful SSD cooler I’ve ever tested.
But honestly, such a device would be most useful in an environment with higher heat density, such as a server. So, to increase the difficulty of the test, I stress-tested the SSD a second time and also stress-tested my GPU, which added an additional 290W of heat to the system.
In this denser scenario, temperatures rise by 16 degrees Celsius. The iHTP cooler didn’t perform better than TeamGroup’s Dark Airflow I in this more difficult test, but it did share the crown for best performance among all the SSD coolers I’ve tested!
Pressure Test Thermal Results for Liquid Cooling
To test these heatsinks with a liquid cooler, I used Tryx panoramic 240 all-in-one machine. The tests performed were the same as above, the only difference being that an AIO was used instead of an air cooler.
iHTP’s S50-B uses AIO to cool the CPU and tied for first place with TeamGroup’s Dark Airflow I in this SSD stress test. That’s an especially impressive result for a price of $6.99, considering the TeamGroup cooler was selling for $35 when we tested it (it’s hard to find it in stock right now).
What about performance when you increase the thermal difficulty by running stress tests on the GPU to simulate a server-like environment with multiple heat sources?
Even when you add GPU heat into the equation, iHTP’s cooler performs well, matching TeamGroup’s Dark Airflow I for the best cooling of any SSD cooler I’ve tested.
GPU load on the liquid-cooling setup increased temperatures by about the same as air cooling with the iHTP and TeamGroup coolers, but at slightly lower temperatures – 66c for the Tryx Panorama 240 AIO and 69c for Scythe’s Mugen 6.
Interestingly, the Thermalright and Jiishark’s weaker heatsinks were unable to prevent SSD throttling when paired with AIO, whereas when configured with an air cooler, they were able to pass this test due to the airflow provided by such a setup.
in conclusion
iHTP’s SSD coolers offer industry-leading cooling performance at the lowest price Only $6.99 on Amazon. If you’re looking for an SSD cooler with a little sparkle and top-notch cooling performance, iHTP’s Slim SSD Tower is what you’re looking for!