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[ User Review ] Swiftech MCP35X Pump + Reservoir


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Hey guys,

 

 

 

today, I want to present a new pump to you, the Swiftech MCP35X with PWM. This pump is another relabeled Laing, but coming with a few important mods. Both the pump and the reservoir (sold separately) were given to me by Swiftech and Jab-tech.com.

 

 

 

Nominal voltage: 12 V DC

 

Max. nominal power (@12 V): 18 W

 

Max. nominal current (@12 V): 1.5 A

 

Max. nominal head (@12 V): 14.7 ft (4.4m)

 

Max nominal discharge (@12 V): ~ 4.75 GPM (17.5 LPM)

 

PWM

 

 

 

swiftech-mcp35x-abmass3r4u.jpg

 

 

 

These specs are almost the same as those of a Laing "plus", but I kept wondering where those 50% more performance were coming from. Then I read "PWM"...if this works the way it's supposed to, it allows the pump to be controlled via any motherboard offering a PWM-4-pin-fan-power-port.

 

Two major differences are also visible on the outside: the case is clean and doesn't have to usual mounting holes and the top is made out of POM and comes with one G1/4" in- and one outlet. The white box also includes the following:

 

 

 

- the pump itself

 

- a decoupling-pad made out of neoprene

 

- a printed manual

 

- two bard fittings for 10mm to 13mm tubing and two hose clamps

 

 

 

There's not a lot to add when it comes to the pump's quality, as it's well known already. The top was also flawless: very well made, not sharp edges and the threads were perfect, too.

 

 

 

 

 

Here are some pictures:

 

 

 

 

 

img_8426lrst.jpg

 

 

 

img_8424kqfg.jpg

 

 

 

swiftechdscf20681ajms5ic.jpg

 

 

 

 

 

 

 

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You can easily spot the differences to the standard Laing DDC. To be able to compare even more closely, I quickly added the Ultra I use for testing:

 

 

 

dscf20846lcy.jpg dscf20851a86.jpg dscf2086c9jy.jpg

 

 

 

The impellers and the interior is almost the same. Only the 35X's impeller is blue on the outside and red on the inside, just like the early, first genereation Plus-models.

 

When looking at the PCB, you can also see, that the connectors have changed:

 

 

 

dscf2087w9w4.jpg

 

 

 

So let's get to testing. My test setup looks like this:

 

 

 

- Pump: Sanso PDH054 (called „the Monster“ with a pressure of almost one bar!)

 

- Aquacomputer Cuplex Evo Rev.1 CPU block

 

- Mips Fusionblock NB + Mosfets

 

- EK Waterblocks Kühler for the Radeon HD 3870

 

- Radiator BlackIce GT Stealth 240

 

- Aquacomputer flowmeter Highflow

 

- Aquacomputer Water-Temp.-Sensor

 

- Tubing: Masterkleer 16/10mm

 

- Fittings: Perfect Seal

 

 

 

This setup offers a flow rate of around 275 and 280l/h.

 

 

 

On a setting of 100%, the new 35X delivers flow rates of around 240l/h - a remarkable performance. Another Laing DDC Plus with a mounted Alphacool-top achieves around 235l/h. The new top made out of POM also quiets down the pump by a considerable amount, while the aesthetics of it will always be subject to debate.

 

 

 

The PWM-Control, which is working perfectly, was what I was most anxious to test, though. Just plug the molex-connector into your PSU, the PWM-connector onto the motherboard, set the setting in the BIOS and you're set. It's as easy as it sounds. I set the pump to start powering up when the CPU-temperature reached 30°C in the BIOS of the DFI LanpartyDK 790FXB-M2RS and, well, when the CPU was idle, the pump revved at around 1250-1300rpm, but when I started Prime95, it powered up to 100%, so around 4500rpm.

 

 

 

With a good motherboard with good fan control-settings in the BIOS, you can create a very, very quiet pump, that can power up to 100% when needed. The times when you needed additional hardware like the Aquaero, Heatmaster and so on are over.

 

 

 

Here's a video showing the PWM-capability of the pump:

 

 

 

 

 

 

You can see the pump at around 1300rpm and the corresponding 45l/h. When starting Prime95 (I also overclocked the CPU using K10STAT), the temperature quickly rises and the pump gets up to full performance (4500rpm and 240l/h). When aborting Prime and removing the overclock, the pump also quiets down again.

 

Here are a few illustrations on this subject (source: Swiftech):

 

 

 

mcp35x-pwm_1txi0.png mcp35x-pq_1ja93.png pressure-vs-flow-raterub25.jpg pq-curves-all-1200x870vlyd.jpg

 

 

 

For testing, I also received a reservoir, specially made for the 35X: the Swiftech MCP35X-Res. It's a reservoir that's supposed to work very well with the new pump. The box contained the following:

 

 

 

- the reservoir

 

- a tube clamp

 

- a filter

 

- a sponge for filtering

 

- a G1/4 - sealing cap

 

- a connecting screw for connecting the pump and the reservoir

 

- an O-ring

 

- a little metal stick

 

- a printed manual

 

- a cap made out of massive, glossy metal

 

 

 

Let's start out with a few words on the quality of the reservoir. It's just as flawlessly made as the cap. The scope of delivery is fine, everything needed is included. The extremely heavy, nickel plated sealing cap was what impressed me most, you immediately get the impression of having something valuable in your hands, even though an additional thread in the top wouldn't have hurt. Installing the reservoir was easily done using the included manual.

 

Something noteworthy: the reservoir is held in position by a little metal pin, that you stick in a matching hole in the top of the pump and in another one in the bottom of the reservoir. The reservoir base itself comes with six of these holes, so that you can choose the one that makes it the easiest to align the fittings properly - a great idea in my opinion.

 

 

 

Let's have the pictures do the talking:

 

 

 

swiftech-agbxnd6.jpg

 

 

 

swiftech-mit-agbfprt.jpg

 

 

 

 

 

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Using the manual, it was easy to mount the reservoir on the pump:

 

 

 

dscf2093tawn.jpg dscf2094cxih.jpg dscf2099olsd.jpg

 

 

 

If anyone wants to split their loop: 19/13-screw-on-fittings don't fit next to each other on the reservoir, while 16/10s do.

 

 

 

swiftech-abmasse-magbdq0n.jpg

 

 

 

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Let's get to the test, in which this combination performed very well: on 100% performance, the filtering sponge was able to stop the air bubbles, making it completely high-flow-compatible. When revving down the pump, you can hardly see any bubbles in the reservoir.

 

 

 

dscf210489t6.jpg dscf2102h9qa.jpg

 

 

 

Here's another video:

 

 

 

 

 

 

The pump is offered for around 100US$, the reservoir for around 30US$.

 

 

 

Conclusion:

 

 

 

Well, what's there left to say? The new Swiftech MCP 35X completely convinced me of its qualities. It's not the new looks, not the new top: it's the perfectly working PWM control of this pump, making it possible for every user to control the pump, even without separate controllers. The reservoir made for the 35X also impressed me, both optically and technically.

 

 

 

Thanks go out the the companies Swiftech and Jab-tech for providing these samples and also my assistant sonnyboy and delicious_cake for translation !

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