Swiftech H20 120 R3A User Manual

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Packing List

Included components per applicable model:

H20-120-FB

□ H20-120-SB □ H20-120-DB □ H20-120-BB □

H20-120-FK □ H20-120-SK □ H20-120-DK □ H20-120-BK □

Description Product

Code

Intel Pentium 4 socket 478 & AMD Athlon 64 & Opteron

Intel Pentium 4 socket LGA775 & AMD Duron, Athlon, MP, XP socket 462

Dual Intel Xeon (all versions) / AMD Opteron

D Base kit without water-block B

ROYAL BLUE ‘’B’’ BLACK ‘’K’’

Product

Code

F 1

D 2

Qty Item Product

Code

MCW6000 “Flat base” CPU

D 2 Retention hardware for Xeon

water-block with 2’each preinstalled inlet/outlet tubing

Qty Item

“Nocona (800Mhz FSB) processors

Models: MCW6000-P, MCW60064, MCW6000-PX and NX

S 1

MCW6000 “Step base” CPU

water-block with 2’each preinstalled inlet/outlet tubing

Models: MCW6000-A, MCW6000-

F,S,B 1

MCR120-F radiator assy. incl. (1) Radiator, (1) 120x120x25mm fan, (4) M3.5 x 30mm philips screws, (4) M3.5 X 6mm philips screws (2) hose clamps

775

S 1 Hold-down plate and retention

clips for AMD K7 processors

F,S,D,B 1 Each, 12v to 7v adapter, and 12v to

5v adapter

(Duron, Athlon MP and XP)

F 1

D 2

Hold-down plate and retention hardware for AMD K8

processors (Athlon 64 and Opteron)

F,S,D,B 1

MCRES-1000 incl. (1) 5 ¼” Tray, (1) reservoir, MCP350 12 Volts

DC industrial pump with retention screws, (1) fill-cap with o-ring, (4)

Philips screws, (2) hose clamps

F 1

Hold Down plate and retention

F,S,D,B 1

40” length Coolsleeves clear coils clips for Intel Pentium 4

processors socket 478 (also use this retention plate with All Xeon

D 2

S 1 Hold Down plate and retention

processors, and some MSI Opteron motherboards)

hardware for Intel Pentium 4

F,S,D,B 1 4 Feet ½” OD high quality vinyl

tubing

LGA775 processors

D 2 Retention hardware for Xeon

socket 603/604 (400 & 533Mhz

F,S,D,B 1

2 oz bottle HydrX specially

formulated coolant FSB) processors

D 1 MCR120-FR complete radiator, fan

and "Radbox" assembly, with (1)

120x25mm fans rated at 72.4CFM

and 34dBA, PCI pass-thru kit, 3 pin

to 4 pin Molex adapter

Code

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TTAABBLLEE OOFF CCOONNTTEENNTTSS

I. TUBE ROUTING ..........................................................................................................................................................................................................6

II. INSTALLATION OF THE COOLING COMPONENTS ................................................................................................................................................7

1. MCR120-F Radiator installation.............................................................................................................................................................................. 7

2. Water-block(s) Installation ......................................................................................................................................................................................8

3. Preparing the tubing................................................................................................................................................................................................9

4. MCRES-1000P assembly installation ...................................................................................................................................................................10

A) First time installation and preferred filling procedure ............................................................................................................................................10

B) Alternate filling procedure .....................................................................................................................................................................................12

5. Notes and Troubleshooting................................................................................................................................................................................... 13

6. MCP350 Pump Specifications............................................................................................................................................................................13

7. Completing the installation.................................................................................................................................................................................... 14

III. DRAINING THE SYSTEM..........................................................................................................................................................................................14

IV. PERIODIC MAINTENANCE ......................................................................................................................................................................................14

V. AVAILABLE ACCESSORIES....................................................................................................................................................................................15

VI. APPENDIX: INDIVIDUAL COMPONENT INSTALLATION GUIDES.......................................................................................................................16

MCB-120™ “RADBOX” KIT INSTALLATION GUIDE ........................................................................................................................................................17

1. PCI pass-thru kit installation .................................................................................................................................................................................17

2. Housing / fan & radiator installation ......................................................................................................................................................................18

MCW6000-P™ WATER-BLOCK FOR INTEL PENTIUM 4 (SOCKET 478) ........................................................................................................................19

1. Preparing your Motherboard .................................................................................................................................................................................19

2. Water-block orientation .........................................................................................................................................................................................19

3. Water-block installation:........................................................................................................................................................................................20

4. Connecting the water-block(s) to the cooling circuit: ............................................................................................................................................20

5. Attaching the tubes: ..............................................................................................................................................................................................20

6. Type of Coolant:....................................................................................................................................................................................................20

7. Final inspection: ....................................................................................................................................................................................................20

MCW6000-775 WATER-BLOCK FOR INTEL PENTIUM 4 (LGA 775) INSTALLATION GUIDE ..................................................................................21

2. Retention Posts installation...................................................................................................................................................................................22

3. Purging the water-block ........................................................................................................................................................................................22

4. Connecting the water-block(s) to the cooling circuit .............................................................................................................................................22

5. Applying thermal compound to the CPU...............................................................................................................................................................22

6. Fasten the water-block to motherboard ................................................................................................................................................................22

MCW6000-PX™ WATER-BLOCK FOR XEON (400 & 533 MHZ FSB) PROCESSORS

1. Preparing your Motherboard: ................................................................................................................................................................................24

2. Water-block orientation: ........................................................................................................................................................................................24

4. Installation with spring loaded screws:..................................................................................................................................................................25

5. Connecting the water-block(s) to the cooling circuit: ............................................................................................................................................25

6. Attaching the tubes: ..............................................................................................................................................................................................25

7. Type of coolant: ....................................................................................................................................................................................................25

8. Final inspection .....................................................................................................................................................................................................25

MCW6000-NX™ WATER-BLOCK FOR XEON “NOCONA” (800MHZ FSB)



INSTALLATION GUIDE

E PARTS LIST.................................................... 26 INSTALLATION GUID

..........................................................23 INSTALLATION GUIDE

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3. Water-block Installation.........................................................................................................................................................................................27

4. Connecting the water-block(s) to the cooling circuit .............................................................................................................................................27

5. Attaching the tubes ...............................................................................................................................................................................................27

6. Type of Coolant.....................................................................................................................................................................................................27

7. Final inspection .....................................................................................................................................................................................................27

MCW6000-A™ WATER-BLOCK FOR AMD (SOCKET 462) DURON, ATHLON (XP, MP)

INSTALLATION GUIDE

3. Water-block installation.........................................................................................................................................................................................29

4. Connecting the water-block(s) to the cooling circuit: ............................................................................................................................................30

5. Type of Coolant:....................................................................................................................................................................................................30

6. Final inspection: ....................................................................................................................................................................................................30

MCW6000-64™ WATER-BLOCK FOR AMD ATHLON™ 64 & OPTERON™



INSTALLATION GUIDE

.............................................................................31 INSTALLATION GUIDE

1. Preparing your motherboard .................................................................................................................................................................................31

4. Retention frame issues: ........................................................................................................................................................................................32

5. Connecting the water-block(s) to the cooling circuit: ............................................................................................................................................32

7. Type of Coolant:....................................................................................................................................................................................................32

8. Final inspection: ....................................................................................................................................................................................................32

MCW50™ VGA WATER-BLOCK INSTALLATION GUIDE .................................................................................................................................................33

1. Preparing your graphics card................................................................................................................................................................................33

2. Installing the MCW50™ GPU Cooler....................................................................................................................................................................34

3. Type of Coolant:....................................................................................................................................................................................................34

4. Final inspection .....................................................................................................................................................................................................34

MCW20-R™ CHIPSET WATER-BLOCK .............................................................................................................................................................................35

1. Preparation steps common to both platforms .......................................................................................................................................................35

2. Installation for Intel platforms .............................................................................................................................................................................36

3. Installation for AMD platforms ............................................................................................................................................................................37

........................................................28 INSTALLATION GUIDE

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INTRODUCTION

Congratulations on your purchase of a Swiftech™ H20-120 liquid cooling system!

This kit has been designed to facilitate the installation of the components without having to make any modifications to the chassis. While all attempts have been made to make the installation of this system user friendly, please note that this system is intended for users that are well versed in installing computer components.

ENERAL GUIDELINES

 Please read this guide carefully and entirely before you start this installation. Plan your installation ahead. Observe

the relative position of the components for possible interference with other components.

 Never work with electricity connected to the computer while work is in progress.  While it is possible to install the kit in a chassis already populated with all typical components, such as hard drive, CD

Rom, power supply, Video Card, etc, it is recommended that these components be removed from the case prior to installing the water cooling system. The motherboard and CPU may remain in the chassis, and will be useful to estimate the length of tubing necessary to connect the different components. But the motherboard must be disconnected from the power-supply during the entire mock-up phase of the installation. In case of a spill or leak on the motherboard, do not panic! As long as the motherboard is not electrically connected, no harm is done. You must however thoroughly dry the exposed area, using a hair dryer for example, and wait a minimum of 6 to 8 hours prior to re-connecting the motherboard to its power source.

 The reservoir should always be at the highest point of the cooling circuit (top 5 ¼” tray).  Think about the airflow inside your chassis. In liquid-cooling environments, it is always better to draw fresh air from the

outside through the radiator, as opposed to using the warm air from inside the computer.

 Make sure to dry-fit all components before making final connections and filling the water-cooling system.

DISCLAIMER

While all efforts have been made to provide the most comprehensive tutorial possible, Swiftech assumes no liability expressed or implied for any damage(s) occurring to your components as a result of using Swiftech cooling products, either due to mistake or omission on our part in the above instructions, or due to failure or defect in the Swiftech™ cooling products.

In addition, Swiftech assumes no liability, expressed or implied, for the use of this product, and more specifically for any, and all damages caused by the use of this product to any other device in a personal computer, whether due to product failure, leak, electrical short, and or electro-magnetic emissions.

Our products are guaranteed for 12 months from the date of delivery to the final user against defects in materials or workmanship. During this period, they will be repaired or have parts replaced provided that: (I) the product is returned to the agent from which it was purchased; (II) the product has been purchased by the end user and not used for hire purposes; (III) the product has not been misused, handled carelessly, or other than in accordance with any instructions provided with respect to its use. This guarantee does not confer rights other than those expressly set out above and does not cover any claims for consequential loss or damage. This guarantee is offered as an extra benefit and does not affect your statutory rights as a consumer.

WARRANTY

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I. TUBE ROUTING

The tubing for the water-cooling system must be routed to form a complete loop that includes all elements of the system. When daisy-chaining components, the simplest and most natural route is usually the best. Always avoid sharp bends that would kink the tubing!

The following table contains examples on how to establish connections between the different elements of a cooling circuit based on multiple possible configurations. These are guidelines only, and may change depending on the relative position of the components inside your chassis.

From a performance standpoint there is very little performance to be gained from strictly controlling the component sequence: the maximum delta T (difference in temperature) between any two points of the liquid cooling circuit does not exceed 1ºC. Whenever possible, performance oriented users will typically want to route the radiator discharge(s) tube(s) to the inlet of the CPU cooler, since the fluid exiting the radiators is always the coolest.

Devices:  (1) CPU cooler + (1) Radiator + Pump-reservoir assembly

Connect:  Pump discharge to radiator inlet

Alternatively, Connect  Pump discharge to CPU cooler inlet

Devices  (1) CPU cooler + (1) VGA cooler + (1) Radiator + Pump-reservoir assembly

Connect:  Pump discharge to VGA Cooler inlet

Alternatively, Connect:  Pump discharge to CPU cooler inlet

Devices:  (1) CPU cooler + (1) VGA Cooler + (1) chipset Cooler + (1) Radiator + Pump-reservoir assembly

Connect:  Pump discharge to chipset cooler inlet

Alternatively, Connect:  Pump discharge to CPU cooler inlet

Devices:  Dual CPU cooler and VGA cooler (SLI) configurations

Connect:  CPU coolers in series: CPU cooler (1) discharge to CPU cooler (2) inlet

Devices:  Dual Radiators: A second radiator can be added anywhere in the loop in series with the other components,

Connect  Pump discharge to radiator (1) inlet

 Radiator discharge to CPU cooler inlet  CPU cooler discharge to reservoir inlet

 CPU cooler discharge to radiator inlet  Radiator discharge to reservoir inlet

 VGA cooler discharge to radiator inlet  Radiator discharge to CPU cooler inlet  CPU cooler discharge to reservoir inlet

 CPU cooler discharge to VGA cooler inlet  VGA cooler discharge to radiator inlet  Radiator discharge to reservoir inlet

 Chipset cooler discharge to VGA cooler inlet  VGA cooler discharge to radiator inlet  Radiator discharge to CPU cooler inlet  CPU cooler discharge to reservoir inlet

 CPU cooler discharge to chipset cooler inlet  Chipset cooler discharge to VGA cooler inlet  VGA cooler discharge to radiator inlet  Radiator discharge to reservoir inlet

 VGA coolers in series: VGA cooler (1) discharge to VGA cooler (2) inlet

for example

 Radiator (1) discharge to VGA cooler inlet  VGA Cooler discharge to chipset cooler inlet  Chipset cooler discharge to radiator (2) inlet  Radiator (2) discharge to CPU cooler inlet  CPU cooler discharge to reservoir inlet

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II. Installation of the cooling components

Placement of the cooling components may vary depending on your chassis and motherboard configurations. A mock-up installation is thus necessary to estimate the length of the different sections of tubing that will be required between each component.

The following is the recommended sequence of components installation.

1. Radiator and fan

2. Water-block(s)

3. Pump and reservoir assembly

1. MCR120-F RADIATOR INS TALLATION

The MCR120-F ships with the fan pre-assembled to the radiator. It has been configured so that the fan will draw fresh air from outside of the chassis. This configuration is preferred to optimize cooling of the CPU. In effect, if the fan flow direction were reversed, it would use heated air from inside of the chassis, which is usually 3°C (at best) and up to 10°C hotter than that of the ambient air outside of the chassis. Under these conditions, when installing the radiator at the back of the chassis, ensure that the fan located at the front of the chassis, is in exhaust mode (blowing air out). When installing the radiator at the front of the chassis, there is usually no need to change the airflow direction of the fan located at the back of the chassis as it is usually already set up in exhaust mode.

 Installation

IRFLOW

Depending where a 120mm fan opening is available, the MCR120-F can be installed as shown in Figure 1 (back of the chassis), or Figure 2 (front of the chassis). Due to the wide variety of chassis configurations, Swiftech cannot guarantee that this assembly will bolt into any chassis without some modifications. However, an external mounting solution is available in option with the MCB120 plug-and-play installation with most desktop computers. Please refer to the MCB120 “Radbox” installation guide in appendix.

 Bleeding

For bleeding purposes, the preferred radiator orientation is with inlet and outlet pointing up as shown in figures 1 and 2. The radiator may be permanently fastened to the case when it is installed in this position.

The radiator can also be installed at 90° or 180°. During the filling

process however, you will need to rotate the radiator back upwards in order to allow the air trapped inside to escape. For this reason, it is

recommended to fasten the radiator to the chassis only after the circuit has been fully filled and bled in these configurations.

 Tube installation

The MCR120 features built-in 3/8” hose barbs. All you need to do is to slip the tube over the barb, and secure it with the provided hose clamps.

 Electrical connection

The fan shipped with the MCR120 uses a 3-pin connector. For 12volt operations, this connector can be safely installed on one of the motherboard headers. Use any free header other than header, since the pump RPM sensor will be connected to the CPU fan header in order to monitor the pump.

For low noise operations, 2 additional fan connector adapters are supplied with the kit, and should be connected to the power supply instead of a motherboard fan header:

 12v to 7v adapter: this setting provides a good

balance for performance, at whisper quiet operations

 12v to 5v adapter: this setting is for silent

operations, and non-overclocked processors.

Rouchon Industries, Inc., dba Swiftech – 1703 E. 28

“Radbox” which will usually allow a

the CPU fan

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Figure 1

IRFLOW

Figure 2

Radiator Assembly Dimensions - Part # MCR120-FK Radiator Assembly Dimensions - Part # MCR120-FK

Thickness Height Core width Inlet Outlet tube size

2.4"

(60mm)

Voltage

(V)

7.0-13.8 .20 2100 72.4 .134 34

2. WATER-BLOCK(S) INSTALLATION

When provided in kit form, the MCW6000 series water-blocks receive 2 ft. of pre-installed tubing at the inlet and outlet. In dual processor kits, one of the water-blocks inlets is free of tubing so that water-blocks may be installed in series. Please refer to your specific water-block model installation guide provided in appendix to proceed with the installation of the water-block to your motherboard.

6.2"

(158mm)

Current

(mA)

5.00"

(134mm)

Built-in 3/8" hose barbs

Fan Specifications - Part # WFB1212M

Speed (RPM)

Volume

(CFM)

Static pressure

(InH20)

Sound Noise

TIP! For the mock-up installation, interposing a piece of

aper between the water-block and the processor will protect

both the cooler and the processor surfaces.

(dbA)

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3. PREPARING THE TUBING

Now that your radiator and water-block are in place, it is time to cut segments of tubing and connect the devices together. Please look-up paragraph 4. Section a) below to estimate the tube length that will be necessary for the MCRES-1000 pump & reservoir assembly.

In addition to the water-block pre-installed tubing, your kit comes with an additional 4 feet of ½” OD tubing which is normally sufficient to accommodate most configurations, including dual processors.

Your kit also comes with a 40” length of Coolsleeves

extended is a sufficient length to cover 6 feet of tubing. Use of these coils is mandatory in order to prevent kinking and flattening of the tube over time.

 Start by wrapping the included Coolsleeves coil around the 4-foot

piece of tube. Leave yourself enough Coolsleeves to wrap the waterblock(s) pre-installed tubing.

coils which, when

Wrap the Coolsleeves coils around the tubing

 Then, with one end of a tube connected to a startup component such

as the water-block for example, roughly estimate the length that you will need to the next component, and cut the tube and coil squarely with a pair of scissors. Work your way through the entire circuit in the same fashion, until you are satisfied with the tube routing.

 Quick-connect fittings: If you are going to use a component

featuring a quick-connect fitting such as the MCW50 VGA cooler for example, make sure to allocate approximately ¾” of tube to go into the fitting, and install a tube insert (shown below) at the extremity of each tube.

 When attaching the tube to a quick-connect fitting, rollback

the coil by a couple of inches, as this will give you a better grip onto the naked tube to insert the tube into the fitting. The tube will go in freely for the first ¼” and you will then feel a resistance: this is the O-ring inside the fitting. Push the O-ring by twisting the tube back-and-forth for another ½” until the tube reaches the tube-stop at the bottom of the fitting. The tube is properly installed once the visible extremity of the tube insert is flush with the face of the quickconnect fitting. Then bring the coil back to the face of the fitting.

 Once everything is connected, you should then adjust the

Coolsleeves coil spacing: adjust to a wide space between each coil (up to ¼” or more if needed) when the tube is straight, and very close to each other in tight bends (approximately 1/8

 With everything in place, carefully double-check each

connection. If it all looks tight and secure proceed to the next step.

of an inch or less).

TIP! Rubbing the extremity of the

tube with a little bit of liquid soap will greatly facilitate insertion of the tube into a quick-connect fitting.

through

Gather the Coolsleeves coils towards the center of the tubing, then pull on

the ends of the tubing. This will allow the coils to expand to their natural pitch. Tight radii sections require that coils be close to each other (1/8” spacing coil to coil). In straight sections, coils can be spaced up to ¼” or more, coil to coil

TIP! Verify that each cooler will ‘hang’ naturally in very

close to its mounted position. If the stiffness of the tubing, or the tight radius of the necessary bend, will not permit such, then it may be necessary to externally support the tubing: typically some strategically placed cable ties will facilitate this restraint. This precaution is particularly important with AMD® K7 class processors, but less so with Intel® Pentium® 4, Xeon, or AMD® K8 class processors.

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4. MCRES-1000P ASSEMBLY INSTALLATION

Introduction

 The radiator inlet and outlet spigots must be oriented upwards during the filling procedure.  Proceed deliberately and frequently check your work. Rushing this procedure is not recommended.

 Two methods can be used to fill-up the reservoir:

 Preferred: whenever possible, the reservoir should be filled before placing it in the CD-Rom bay. This is the easiest and safest

method, described in paragraph A below. Alternate: If your chassis configuration necessitates that the reservoir be installed in the CD-Rom bay prior to filling, please refer to



paragraph B “Alternate Filling Method”.

Preparing the HydrX coolant

Your kit comes with a 2 Oz (60ml) bottle of Swiftech’s specially formulated HydrX concentrated coolant. The product should be mixed with distilled or demineralized water only. Simply empty the concentrated coolant into a 33 fl oz (1 liter) plastic bottle, and complete filling with distilled water. Your coolant is now ready.

A) FIRST TIME INSTALLATION AND PREFERRED FILLING PROCEDURE

Step 1. Cutting the tubes to length: position the MCRES-1000 in the

desired CD-Rom drive bay, and cut sufficient length of tubing in order to allow the assembly to slide back as shown above for periodic maintenance purposes.

Step 3. Rest the MCRES-1000P assembly on a paper towel or cloth on

top of the computer. Using a household funnel, fill-up the reservoir with cooling fluid - slowly to avoid overflowing, until the fluid reaches the appropriate level --------------

Step 2. Connect the discharge tube to the pump (coming from either

CPU inlet, or radiator for example), and the return line to the reservoir inlet barb. Secure the tubes with the provided worm-drive clamps. Tighten quite firmly, but not excessively as it may result in crushing the plastic barbs.

3. Appropriate level: up to the vent hole.

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TIP! If you overfill the reservoir, you can use a bundled-up paper towel to

soak-up the excess fluid.

Step 4. Tilt the assembly upwards to allow the fluid to fill-up the circuit by

simple gravity. Allow the fluid to fill-up both tubes. The pump

discharge line will retain a 2” long bubble, which is normal at this stage. See troubleshooting note (1) if the pump discharge tube does not

fill-up properly.

Step 5. Rest the assembly back on top of the computer, and complete

filling-up the reservoir until the fluid reaches the appropriate level. Close the fill port with the provided fill-cap. Do not over tighten the fill-cap. The fill-cap is equipped with an o-ring and does not require excessive pressure to seal properly.

ALLOW THE SYSTEM TO RUN FOR (3) HOURS, AND FREQUENTLY INSPECT ALL YOUR CONNECTIONS FOR POSSIBLE LEAKS.

Step 7. Rest the assembly back on top of the computer, and complete

filling-up the reservoir as necessary. You may slightly angle (approx. 15°) the reservoir to top-off the fluid level, by placing a small object under the reservoir. Then close the fill port with the provided fill-cap. Your reservoir is now ready to use.

Step 6. Rest the assembly on its side, down on your workbench and

connect the pump Molex connector to the power supply. You must be able to start the PSU without it being connected to the motherboard (See

Note 2). Start-up the PSU. The pump has a 3 Seconds delay before it

start running. Observe the flow circulating throughout the circuit, until all the bubbles disappear. DO NOT OPERATE THE PUMP IF THERE IS

NO CIRCULATION, and refer to troubleshooting note (1) before

proceeding any further.

Step 8. Install the assembly in the desired CR Rom bay, and secure with

the provided standard M3 screws. The MCRES-1000P is designed to be recessed from the front panel, and allow clearance for various cover plates or fan controllers.

Step 9. Connect the pump’s 4 pin Molex connector to the computer PSU, and the 3-pin connector (RPM sensor) to the CPU fan header on the

motherboard. INSTALLATION IS NOW COMPLETE!

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B) ALTERNATE FILLING PROCEDURE

The following filling procedure applies to situations where the reservoir must be or is already installed inside of the CD-Rom bay. Please refer to steps

1, and 2

(paragraph A) above for physical connections and installation in the CD-Rom drive Bay.

Step 1. Radiator inlet and outlet should always be oriented upwards

during the filling procedure. In the above picture, the MCB-120 Radbox conveniently allows you to let the radiator fan assembly hang from your workbench.

Step 2. Stuff a cloth or towel behind the MCRES-1000P to prevent liquid

from dripping over components in case of an accidental spill, and then set the front of the PC on an object so that the chassis will be at a 15 to 20° angle from horizontal.

Step 3. Fill-up the reservoir to the appropriate level (see step 3 paragraph

Step 4. Close the fill port with the provided fill-cap.

A). Proceed slowly and inspect level frequently to avoid overflowing.

Step 5. Connect the pump 4-pin Molex connector to the power-supply,

and then lay down the PC flat on the workbench. You must be able to start the PSU without it being connected to the motherboard (See Note 2, paragraph 5).

What to expect: The pump takes 3 seconds to start; when you start-up

the power-supply, you will hear a low and continuous hum indicating that the pump is working, then a sudden gurgling as the mix of fluid and air start rushing into the pump. Then the gurgling will gradually disappears as all the air is being flushed out.

Action! Start-up the PSU. Wait 5 to 10 seconds until you see the fluid

circulate, or hear it gurgling. If nothing happens, shutdown and restart the pump once or twice, letting the pump run a maximum of 5 to 10 seconds in between each shutdown. Once the pump has primed and the liquid circulates, let the pump run for another 5 minutes to allow all the air to be flushed out from the circuit.

IF THERE IS NO FLUID CIRCULATION, DO NOT OPERATE THE PUMP, and refer to troubleshooting note (1) paragraph 5, before you

proceed any further.

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Step 6. Bring the PC back up as shown in step 3 above (keep it angled at 15 to 20°), and complete filling-up the reservoir as necessary, and then close

the fill port. Complete the installation by securing the MCRES-1000 in the CD-Rom bay with the provided M3 screws, as shown in step 8, paragraph A.

YOUR SYSTEM IS NOW READY TO USE!

ALLOW THE SYSTEM TO RUN FOR (3) HOURS, AND FREQUENTLY INSPECT ALL YOUR CONNECTIONS FOR POSSIBLE LEAKS BEFORE YOU

RECONNECT YOUR COMPONENTS (MOTHERBOARD, HARD DRIVES, ETC.)

5. NOTES AND TROUBLESHOOTING

Note (1) – Troubleshooting

 While filling up the reservoir, the pump discharge tube does not fill-up with fluid: this will prevent the pump from priming and circulate

the liquid thru the circuit. It means that there is a significant pocket of air trapped in the circuit, preventing the fluid to rise up to the pump discharge spigot. Make sure that your reservoir inlet and outlet barbs are oriented upwards. If your installation required that the reservoir be mounted upside-down, temporarily dismount it from the chassis, this will allow the air to escape and travel up to the reservoir. If you are using Swiftech’s “Radbox” simply remove the 4 screws from the half shell and rotate the reservoir until the filling procedure is complete, then

Note (2) - Starting the Power Supply when the motherboard is not connected

re-attach the radiator/fan/half shell assembly to the Radbox base.

 Air keeps circulating into the circuit, long after the pump has primed:

There is a significant pocket of air trapped into the circuit, check the radiator as indicated above, and/or the water-block.

o o The fluid level is too low: top-off the reservoir to the appropriate level. o One of the components connections is loose, or improperly tightened: Inspect each connection for traces of moisture, and tighten

all worm-drive clamps, and various connections in the circuit.

While the Internet contains numerous references on how to use a paper-clip to short-out pin 13 and 14 of the 20 pin ATX connector as shown below, we nonetheless recommend instead using a power-supply tester. A wide variety of these common devices are available on the Internet ( word: “PSU tester”), and among Swiftech resellers (www.frozencpu.com, www.Directron.com, www.newegg.com, etc.).

Google key

6. MCP350 PUMP SPECIFICATIONS

General Use

The MCP350™ pump is a magnetically driven centrifugal pump featuring a 12 V DC brushless motor. It requires no maintenance when used with de-mineralized water and the appropriate anti-fungal additives. We recommend using 5% Swiftech’s HydrX The pump is designed to be connected to your computer power supply using the standard Molex 4 pin connectors. The pump features a second connector (3-pin type) with only 1 wire. It is designed to connect to the motherboard CPU fan header, and to report the impeller rotational speed (RPM sensor).

Pump operating precautions

The MCP350™ pump should never be run dry, even for a quick test

operating it (see warranty note *).

Use of coloring die or fluorescent additives containing particulate fillers will cause excessive wear to the pump’s impeller bearing (see

warranty note **).

Nominal voltage: 12 V DC Operating voltage range: 9 to 13.2 VDC

Nominal power (@ 12 V): 8.3 W Nominal current (@ 12 V): .69 amps

Motor type Electronically commutated, brushless DC, spherical motor

Nominal head (@ 12 V): 13.05 ft (4 m) Nominal discharge (@ 12 V): ~ 92.4 GPH (350 LPH)

Connection size: 3/8" barbs (10mm) Maximum pressure: 22 PSI (1.5 BAR)

Temperature range: Up to 140°F (60°C) MTBF (Mean Time Between Failures): 50,000 Hours

Electrical connector: Molex 4 pin RPM sensor: 3-pin connector

Weight: 7.3 oz (207 gr.) 7.3 oz (207 gr.)

Our noise measurement (non lab environment) 24 ~ 26 dBA in a quiet room @ 2'

Set your BIOS to monitor the CPU fan, and this will shut down the PC in case of pump failure.

. You should always prime the pump with fluid before you start

With filled lines, turn the inlet/outlets upward to ensure there is no air bubble in the impeller.

 as an additive.

Rouchon Industries, Inc., dba Swiftech – 1703 E. 28

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7. COMPLETING THE INSTALLATION

Once your system has been tested for leaks, it is now time to finalize the water-block and components installation. Do not forget to remove the protective paper you used to protect the CPU and water-block. Follow the instructions listed in appendix to secure your water-block(s) to the motherboard, and then re-install your components inside of the chassis.

Ideal high overall performance installation (with “Radbox”)

III. Draining the system

You will need to disconnect a line from one of the lowermost components. Procure a bucket large enough to receive



approximately 1 liter of fluid, and place the bucket underneath the connection that you intend to “break”. Disconnect the line, and place both ends into the bucket.

 Open up the fill-cap from the MCRES-1000P. This will allow most of the fluid to escape.  A cleaner and much more convenient method consists in incorporating a drain assembly into the circuit during initial

installation. See TV500 drain assembly below.

IV. Periodic maintenance

 Every 6 months: dust off the radiator fins and fan. You can use a can of compressed air for example, available

in most electronic supply stores. If you live in a very dusty area, you should perform this task at closer intervals. It is essential to maintain the optimum performance of your cooling system.

 Inspect the level of liquid inside the circuit, and refill if necessary. Evaporation in this closed circuit is extremely

limited, but still present due to permeability in the vinyl lines.

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- Information subject to change without notice Page 14 of 38

V. Available accessories

Improve performance with a second radiator:

MCR120-FK Radiator assembly

Part # MCB-120 “Radbox”

(http://www.swiftnets.com/products/MCB-120.asp)

Part # MCR120-FK, includes radiator, 120mm

fan and mounting screws

http://www.swiftnets.com/products/mcw50.asp

VGA Cooling

Please go to:

specifications

Part # MCW50

for

Chipset Cooling Please go to: http://www.swiftnets.com/products/mcw20.asp

TV500 Drain assembly

1/2" (Tube OD) Flush Assembly, including 1/2" Tube quick-connect T, and 1/2" quick-connect ball valve. A useful accessory for users who empty their system often. Can also be used as a fill T (without reservoir).

for specifications

Part # MCW20

MCB-PT "Pass-thru" accessories for 1/2" OD (3/8" ID)

tubing

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- Information subject to change without notice Page 15 of 38

VI. Appendix: Individual Component Installation guides

- INTENTIONNALY LEFT BLANK -

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Parts list

Parts QTY PARTS QTY MCB-120™ Housing assembly 1 Coolsleeves™ 20” (*) Retention hardware (screws, etc.) 1 PCI Pass-Thru kit 1 (*) ½” tubing 2’ (*) Worm drive clamps 4 (*)

1. PCI PASS-THRU KIT INSTALLATION

(*) Only included with complete kit

o Insert the PCI bracket into an available opening, and secure it to the chassis. o Insert your fan electrical connector through the slotted hole of the PCI bracket now. Only 3-pin

connectors (the type that connect to the motherboard) are small enough to pass through the slotted hole. 4-pin Molex connectors (the type that connect to your power supply) will require that the terminals be removed from the Molex housing first.

o From inside of the chassis, insert the pass-thru adapters through each hole of the PCI bracket. The

threaded portion of the adapters should be exposed outside of the case.

o Screw the nuts to the adapters. The nuts are designed to slightly overlap the edges of the PCI chassis

opening, to provide a more secure installation.

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2. HOUSING / FAN & RADIATOR INSTALLATION

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Installation guide

Parts list

Parts QTY PARTS QTY MCW6000-P™ water-block 1 Retention clips 2

This product is intended for expert users. Please consult with a qualified technician for installation. Improper installation may result in damage to your components. Swiftech assumes no liability whatsoever, expressed or implied, for the use of these products, nor their installation. The following instructions are subject to change without notice. Please visit our web site at

www.swiftnets.com

Worm drive clamps 2 SP4 hold-down plate 1

for updates.

DISCHARGE

INLET

ITEM NO. QTY. PART NO. DESCRIPTION

1 1 S478 Intel Pentium 4 socket 478 motherboard and processor 2 1 MCW6000-P-with-bracket MCW6000-P water-block assembly

a 1 MCW6000-FLAT MCW6000 waterblock flat base

1 SP4-Bckt SP4 Hold-down plate for Intel Pentium 4 and Xeon

3 2 SC478 Pentium 4 spring clip

1. PREPARING YOUR MOTHERBOARD

 Remove the existing heat sink

Carefully clean the CPU.

  Lightly coat the CPU with the included Arctic Céramique thermal compound. Application will vary depending on the type of processor. We

recommend visiting http://www.arcticsilver.com for detailed instructions.

2. WATER-BLOCK ORIENTATION

For ease of operations during bleeding, the outlet should always be at the highest point (while system is standing upright):

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3. WATER-BLOCK INSTALLATION:

Step 2

Step 1 Center the water-block inside the retention frame. Put both clips in place for the next step, by simply slipping the hook of each clip into the holes of the retention frame.

While maintaining the opposite side of the block to prevent it from tipping over, push down on the clips’ thumb-tab until the hook catches the hole in the retention frame.

4. CONNECTING THE WATER-BLOCK(S) TO THE COOLING CIRCUIT:

Carefully identify the direction of the flow in your circuit. For the MCW6000 to operate properly,

the fitting located at the center of the water-block

MUST BE USED AS THE INLET.

5. ATTACHING THE TUBES:

Step 3

Keep maintaining pressure on the block to prevent it from tipping over, and hook-down the second clip.

Installation is complete!

In kit form, the MCW6000™ ships with 2’ of tube already clamped to inlet and outlet. When sold

separately, two worm-drive hose clamps are included.

6. TYPE OF COOLANT:

Being entirely made of copper, the MCW6000™ may be used with pure water, and does not

necessitate the use of anti-corrosion agents. The use of an algaecide is nonetheless

recommended in any liquid cooling system, and our HydrX™ additive also performs such

function.

7. FINAL INSPECTION:

Once the installation is completed, it is always a good idea to test the circuit for leaks, prior to

powering up the computer.

Do not test the water-block using city water pressure. This will

bow the top of the housing and render the block unusable (and will void your warranty).

Maximum pressure allowable for testing is 25 psi (1.7 bar)

Tubes attached with the included worm-

drive clamps

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- Information subject to change without notice Page 20 of 38

Parts list

Parts QTY PARTS QTY MCW6000 or 6002-P™ stepped waterblock

www.swiftnets.com

Worm-drive clamps 2 Céramique™ Thermal compound 1

for updates.

ITEM NO.

QTY.

PART NO. 1 1 socket 775 2 8 FW140X250X0215FB

1 S775 hold-down plate & hardware 1

DESCRIPTION

LGA 775 motherboard

Black fiber washer

31S775-bracket6 4 4 6-32-Acorn-nut 5 1 MCW6000-A MCW6000 "Stepped base" 6 4 6-32X1.5-8 6-32 x 1 5/8" philips screw 7 4 SPRING6 70927compressed-to-0337 8 4 6-32-nut 6-32 nut 9 4 12SWS0444 Nylon should washer

10 4 Lock-washer #6

Hold-down plate "Short arm" side over socket lever

CRITICAL: Water-block

"step side" over

socket lever

INLET

SPIGOT

DISCHARGE

SPIGOT

Figure 1

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1. PREPARING YOUR MOTHERBOARD

 Installation of the retention posts requires removal of the motherboard from the chassis.  Remove the existing heat sink

Carefully clean the CPU.



2. RETENTION POSTS INSTALLATION

Install all the washers in the precise sequence shown in figure 1. The sequence is: Philips screw, black fiber-washer, motherboard, black fiber-washer, lock-washer, and hex-nut. Using fiberwashers on either side of the motherboard is critical to prevent shorting of the motherboard. Once the posts are securely fastened to the motherboard, you can re-install it inside the chassis.

3. PURGING THE WATER-BLOCK

The geometry and keep-out areas surrounding socket LGA 775 require that the MCW6000 & 6002 water-blocks be installed with the discharge spigot facing downwards. In a vertical orientation, this prevents the water-block from purging appropriately. There are two possible strategies to purge the water-block:

 You can fill-up the circuit and purge the water-block of any air trapped inside BEFORE

fastening it to the motherboard, as shown in figure 3. TIP! If you are using a 12 volts pump feeding from the computer power-supply,

the cooler is not installed on the CPU. Disconnect the power supply from the

motherboard, and use a power supply tester to start it up independently. This will allow you to run the pump by itself, and fill-up the circuit. If you do not have a power-supply tester

 You can install the water-block onto the motherboard, but you will need to fill-up the

4. CONNECTING THE WATER-BLOCK(S) TO THE COOLING CIRCUIT

 Carefully identify the direction of the flow in your circuit. For the MCW6000 to operate

 Attaching the tubes: In kit form, the MCW6000™ ships with 2’ of tube already clamped

 Type of Coolant: being entirely made of copper, the MCW6000™ series may be used

5. APPLYING THERMAL COMPOUND TO THE CPU

Lightly coat the CPU with the provided Céramique™ thermal compound. Follow this link

http://www.arcticsilver.com/ceramique_instructions.htm

circuit with the computer laying flat on a table, as the water-block purges correctly when lying horizontally.

properly, the spigot located at the center of the water-block

INLET (see figure 1 “INLET” spigot).

to inlet and outlet. When sold separately, two worm-drive hose clamps are included.

with pure water, and do not necessitate the use of anti-corrosion agents. The use of an algaecide such as our HydrX™ is nonetheless highly recommended.

do not start-up the computer while

MUST BE USED AS THE

for detailed instructions.

Figure2

Install retention posts

Figure 3

Purge the air from the water-block,

by pointing the discharge spigot

upwards

Figure 4

Install water-block, hold-down plate,

and fasten the spring-nut assemblies’

in a cross pattern (finger tight).

6. FASTEN THE WATER-BLOCK TO

MOTHERBOARD

Rub some compound in base of water-block

first, and then clean off with lint-free cloth.

Apply small amount of compound on

the CPU heat spreader

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Place the water-block on the CPU with the step side above the socket lever. The hold-down plate is asymmetric in order to locate the water-block precisely inside of the “keep out” areas. This guarantees full compatibility of the water-block with all LGA 775 motherboards. Insert nylon shoulder washer and spring on each post, and fasten the acorn nuts in a cross pattern

Installation is complete!

Installation guide

Parts QTY PARTS QTY

Parts list

MCW6000-PX™ water-block 1 6-32 x 1 ¼” Philips screws 4 Worm drive clamps 2 Springs 4 SP4 hold-down plate 1 Standoffs 4 4-40 Nylon retaining washers 4 Black fiber washers 8 Locknuts 4

for updates.

The MCW6000-PX can be installed using two different methods:

 Using the spring-loaded screws and standoffs included with the water-block (fig. 1 below)  Using the plastic retention frames and spring clips included with most motherboards (fig. 2 page 2)

ITEM NO. PART NO. DESCRIPTION

1DUAL-XEON-BOARD Motherboard 2 STANDOFF swtainless steel hexagonal 1/4" standoff 3 6-32-LOCKNUT 6-32 LOCKNUT 4 FW140X250X0215FB BLK black fiber washer 5 MCW6000-P-with-bracket MCW6000-P water-block assembly

a MCW6000- FLAT MCW6000 waterblock flat base

b SP4-Bckt SP4 Holdi ng plate for I ntel Pentium 4 and Xeon 6 91772A154-phil6x32x1.125 6-32 x 1 1/4" philips scfrew 7 70750 0.042 diam Heavy Duty spring 8 4-40 nylon retaining washer 4-40 nylon retaining washer

FLUID INLET

FLUID DISC HARGE

Figure 1

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ssembly using our spring-loaded screws and standoffs

16 PART NO. DESCRIPTION

1DUAL-XEON-BOARD Motherboard 2 RETENTION Plastic retention frame, included with motherboard 3 XEON-CLIP Xeon clip included with motherboard 4 MCW6000-P-with-bracket MCW6000-P water-block assembly

a MCW6000-FLAT MCW6000 waterblock flat base b SP4-Bckt Hold-down plate for Intel Pentium 4 and Xeon

SSEMBLY USING PLASTIC FRAME AND SPRING CLIPS INCLUDED WITH MOTHERBOARD

FLUID INLET

FLUID DISCHARGE

Figure 2

1. PREPARING YOUR MOTHERBOARD:

 Remove the existing heat sink

Carefully clean the CPU.

  Lightly coat the CPU with the included Arctic Céramique thermal compound. Application will vary depending on the type of

processor. We recommend visiting http://www.arcticsilver.com for detailed instructions.

2. WATER-BLOCK ORIENTATION:

For ease of operations during the filling and bleeding procedures, the outlet should always be at the highest point (while the computer system is standing upright):

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3. WATER-BLOCK INSTALLATION:

The MCW6000-PX can be installed using two different methods (also see figure 1 and 2):

You may use either method at your convenience. For installation with our own spring loaded screws, follow the instructions below. For installation with Intel’s spring clips, follow the instructions included in your motherboard manual.

4. INSTALLATION WITH SPRING LOADED SCREWS:

5. CONNECTING THE WATER-BLOCK(S) TO THE COOLING CIRCUIT:

Using the spring-loaded screws and standoffs included with the water-block (fig. 1), or

  Using the plastic retention frames and spring slips included with most motherboards

(fig. 2)

 Remove the motherboard from the chassis, and remove the stock retention plastic

frames to expose the mounting holes.

 Install the standoffs though the holes, using fiber washers and locknuts as shown in

figure 1.

 Tighten the standoffs as shown figure 3, using a ¼” socket tool to drive the standoff,

and a small not to exceed 16 in. lbs. In other words just tight, without excessive torque, otherwise the standoff stem may snap.

 Tighten the spring-loaded screws in a crisscross pattern until the screws bottom out

into the standoff. Once there, do not attempt to lock the screws any further, or they will jam into the standoff, and could prove difficult to remove if you ever need to uninstall the heatsink.

Water-block installation is now complete.

pair of pliers to prevent the locknut from spinning. Torque value should

Figure 3

Carefully identify the direction of the flow in your circuit. For the MCW6000 to operate properly, the fitting located at the center of the water-block environments, connect the two blocks in series: For example: pump discharge to inlet of processor 1, discharge of processor 1 to inlet of processor 2, and discharge of processor 2 to radiator.

6. ATTACHING THE TUBES:

In kit form, the MCW6000™ ships with 2’ of tube already clamped to inlet and outlet. When sold separately, two worm-drive hose clamps are included.

MUST BE USED AS THE INLET. In multi-processor

7. TYPE OF COOLANT:

Being entirely made of copper, the MCW6000™ may be used with pure water, and does not necessitate the use of anti-corrosion agents. The use of an algaecide is nonetheless recommended in any liquid cooling system, and our HydrX™ additive also performs such function.

8. FINAL INSPECTION

Once the installation is completed, it is always a good idea to test the circuit for leaks, prior to powering up the computer. housing and render the block unusable (and will void your warranty). Maximum pressure allowable for

testing is 25 psi (1.7 bar)

Do not test the water-block using city water pressure. This will bow the top of the

Figure 4

Tubes attached with worm-drive

clamps

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- Information subject to change without notice Page 25 of 38



Installation guide

Parts QTY PARTS QTY MCW6000-NX™ water-block 1 6-32 x 7/8” Philips screws 4 Worm drive clamps 2 .600 x .250 Nylon spacer 4

SP4 hold-down plate 1 4-40 Nylon retaining washers 4

for updates.

ITEM NO. QTY. PART NO. DESCRIPTION

1 1 S604-NOCONA Motherboard & CPU assembly 3 1 spring-backplate retention spring (provided by motherboard vendors) 4 1 chassis 5 4 STANDOFF-0.187 6 1 MCW6000-FLAT MCW6000 waterblock flat base 7 1 SP4-Bckt SP4 Holding plate for Intel Pentium 4 and Xeon

9 4 90272A152-6-32x7-8-philips 6-32 x 7/8" (22mm) Philips screw 10 4 4-40 nylon retaining washer 4-40 nylon retaining washer 11 4 custom_spacer-r1 Nylon spacer .600 x .250 (15 x 6mm)

Figure 1

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1. PREPARING YOUR MOTHERBOARD

 Remove the existing heat sink

Carefully clean the CPU.



Lightly coat the CPU with the included Arctic Céramique thermal compound. Application will vary depending on the type of



processor. We recommend visiting http://www.arcticsilver.com for detailed instructions.

2. WATER-BLOCK ORIENTATION

For ease of operations during the filling and bleeding procedures, the outlet should always be at the highest point (while the computer system is standing upright):

3. WATER-BLOCK INST ALLATION

The MCW6000-NX water-block uses Intel’s validated retention spring, provided in accordance to Intel specifications by the motherboard vendors. Installation of the water-block to the processor is identical to that of a standard heatsink, normally described in the motherboard installation guide. Simply screw down all 4 Philips screws to the chassis standoffs as shown in Figure 1, and installation is complete.

4. CONNECTING THE WATER-BLOCK(S) TO THE COOLING CIRCUIT

Carefully identify the direction of the flow in your circuit. For the MCW6000 to operate properly, the fitting located at the center of the water-block

MUST BE USED AS THE INLET. In multi-processor environments,

connect the two blocks in series: For example: from pump discharge to inlet of processor 1, discharge of processor 1 to inlet of processor 2, and discharge of processor 2 to radiator.

5. ATTACHING THE TUBES

In kit form, the MCW6000™ ships with 2’ of tube already clamped to inlet and outlet. When sold separately, two worm-drive hose clamps are included.

Tubes attached with the

Figure 2

included worm-drive clamps

6. TYPE OF COOLANT

7. FINAL INSPECTION

Once the installation is completed, it is always a good idea to test the circuit for leaks, prior to powering up the computer. and render the block unusable (and will void your warranty).

Do not test the water-block using city water pressure. This will bow the top of the housing

Maximum pressure allowable for testing is

25 psi (1.7 bar)

Troubleshooting help is available on our web site at www.swiftnets.com, or by calling customer support at 562-595-8009.

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Installation guide

Parts list

Parts QTY PARTS QTY MCW6000-P™ water-block 1 3T spring/clip assemblies 2 Worm drive clamps 2 SK7 hold-down plate 1

for updates.

6-32 x 1.00" philips

3-T c lip

SOFT spring

STIFF spring

metallic color

black color

SK7 hold-down plate

INLET

Step side over "Cam box"

Figure 1

DISCHARGE

MCW6000-A water-block

socket "Cambox"

socket 462 motherboard

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1. PREPARING YOUR MOTHERBOARD

 Remove the existing heat sink  Carefully clean the CPU.

Lightly coat the CPU with the included Arctic Céramique thermal compound. Application will vary depending on the type of



2. WATER-BLOCK ORIENTATION

There are 4 possible socket orientations in socket A (socket 462) motherboards:

processor. We recommend visiting http://www.arcticsilver.com for detailed instructions.

Case 1

Most common - OK

Case 2

Most common - OK

In order to bleed correctly during the fill and bleed operations, and while the system is standing upright, the water-block discharge should always be at the highest point, as shown in case 1 and 2.

If your block installs as shown in case 1 and 2, then proceed with installation instructions in paragraph 3.

If due to the socket orientation the water-block is oriented as shown in case 3 or 4, such as frequently encountered in dual processor boards for example, then the water-block must be bled PRIOR to installation onto the socket:

Simply set-up your cooling circuit first, and while filling it up with fluid, hold the water-block in your hand with the discharge pointing upwards so that all the air trapped into the block will escape.

Then attach the

water-block onto the socket.

3. WATER-BLOCK INSTALLATION

Case 3

Dual processor boards Caution!

Case 1

Case 3

Case 4

Dual processor boards Caution!

Case 2

Case 4

CRITICAL PREAMBLE - MUST READ!

As shown in figure 1 page 1, there is a specific side allocated to each spring: the STIFF spring goes opposite to the socket cam-box, and the SOFT spring goes on the same side as the socket cam-box. The springs are color-coded to prevent any mistakes: the stiff spring has been plated with a black zinc coating, while the soft spring is zinc plated in a shiny metallic grey.

You MUST be extremely careful to respect this arrangement!

Not respecting this arrangement will result in unbalanced pressure, and prevent the water-block from sitting flat on the processor, resulting in high temperatures, and likely damage to the CPU.

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Place the MCW6000-A over the CPU as shown in figure 1 page 1.

The water-block step side MUST be located over the socket cam box. A label affixed to the base of the water-block clearly identifies which side this is.

 The retention clips should snap over each side, and hook onto the socket tabs. Make sure

that the clips are properly aligned to fit snugly underneath the tabs.

 Gradually loosen (counter-clockwise) each spring-loaded screw to release the spring

tension, checking that the clips remain engaged underneath the tabs. TIP: if space permits, hold the clips pressed against the socket while loosening the screws, as shown in figure 2. This will prevent the clips for disengaging themselves from underneath the tabs at start-up.

Continue backing off until the head of the screw completely clears the top of the



bracket, as shown figure 3.

 Double-check to ensure that the clips have remained underneath the tabs.

 Installation on the CPU is now complete!

Figure 2

4. CONNECTING THE WATER-BLOCK(S) TO THE COOLING CIRCUIT:

 Carefully identify the direction of the flow in your circuit. For the MCW6000 to operate properly,

the fitting located at the center of the water-block

MUST BE USED AS THE INLET.

 TIP! In multi-processor environments, connect the two blocks in series: For example: pump

discharge to inlet of processor 1, discharge of processor 1 to inlet of processor 2, and discharge of processor 2 to radiator.

 Attaching the tubes:

In kit form, the MCW6000™ ships with 2’ of tube already clamped to inlet and outlet. When sold separately, two worm-drive hose clamps are included.

5. TYPE OF COOLANT:

6. FINAL INSPECTION:

Once the installation is completed, it is always a good idea to test the circuit for leaks, prior to powering up the computer. Do not test the water-block using city water pressure. This will bow the top of the housing and render the block unusable (and will void your warranty).

Maximum

pressure allowable for testing is 25 psi (1.7 bar)

Troubleshooting help is available on our web site at www.swiftnets.com, or by calling customer support at 562-595-12009.

Figure 3

Tubes attached with worm-

drive clamps

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- Information subject to change without notice Page 30 of 38



Installation guide

Parts QTY PARTS QTY MCW6000™ water-block 1 Spring loaded screw assemblies 2 Worm drive clamps 2 Sk8 hold-down plate 1

NOTE TO USERS: SOME OPTERON MOTHERBOARDS (MSI BRAND) DO NOT USE AMD STANDARD RETENTION MECHANISM. PLEASE USE INTEL PENTIUM 4 (SOCKET 478) HOLD-DOWN PLATE & CLIPS INSTEAD WITH THESE MOTHERBOARDS.

for updates.

ITEM NO. QTY. PART NO. DESCRIPTION

1 1 MCW6000-R2 MCW6000 flat base water-block

2 1 S754-RETENTION-r2 SK8 hold-down plate for AMD K8

3 1 K8_Motherboard AMD K8 (Athlon 64 & Opteron) motherboard+processor assy.

1 counter-plate

1 motherboard

1 retention-frame

4 2 91772A158-6-32X1.75 6-32 x 1 3/4" philips screw

5 2 93286A041-WASHER zinc plated washer

62885 spring

7 2 spacer-205x140x773 tension lim iter

8 2 6-32 nylon retaining washer 6-32 nylon retaining washer

Figure 5

1. PREPARING YOUR MOTHERBOARD

 Remove the existing heat sink

Carefully clean the CPU.



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- Information subject to change without notice Page 31 of 38

 Lightly coat the CPU with the included Arctic Céramique thermal compound. Application will vary depending on the type of

processor. We recommend visiting http://www.arcticsilver.com for detailed instructions.

2. WATER-BLOCK ORIENTATION

For ease of operations during bleeding, the outlet should always be at the highest point (while system is standing upright)

3. WATER-BLOCK INSTALLATION:

The MCW6000™ simply bolts onto AMD retention frame as shown in figure 1, using the enclosed spring-loaded screws. The tension limiter is designed to provide appropriate tension to the springs. Do not over-tighten the springs.

4. RETENTION FRAME ISSUES:

Most K8 compatible motherboards are shipped with AMD’s validated plastic retention frame and metallic back-plate. In an effort to spare unnecessary costs to the majority of users, Swiftech does not include these items with the MCW6000 water-block.

Some motherboards however use non-standard retention systems, and plastic back-plates instead of the recommended metallic plates described in AMD’s Athlon™ 64 Processor Thermal Design Guide.

For this reason, Swiftech offers an optional retention frame and back plate made to AMD standards, under Part # AJ00172 shown to the right.

5. CONNECTING THE WATER-BLOCK(S) TO THE COOLING CIRCUIT:

Carefully identify the direction of the flow in your circuit. For the MCW6000 to operate properly, the fitting located at the center of the water-block

MUST BE USED AS THE INLET.

6. ATTACHING THE TUBES:

In kit form, the MCW6000™ ships with 2’ of tube already clamped to inlet and outlet. When sold separately, two worm-drive hose clamps are included.

7. TYPE OF COOLANT:

8. FINAL INSPECTION:

Once the installation is completed, it is always a good idea to test the circuit for leaks, prior to powering up the computer. housing and render the block unusable (and will void your warranty).

Do not test the water-block using city water pressure. This will bow the top of the

Maximum pressure allowable

for testing is 25 psi (1.7 bar)

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- Information subject to change without notice Page 32 of 38

Tubes attached with worm-drive

clamps

Troubleshooting help is available on

our web site at www.swiftnets.com

or by calling customer support at

562-595-12009.

Parts QTY PARTS QTY MCW50™ assembly 1 Spring 6 2-56 S/S socket screw 4 Nylon retaining washer 2 4-40 x 1” S/S phillips screw 2 Tube insert 4 Nylon screw spacer 6 Thermal compound 1 Nylon washer 4 Socket wrench 1

This product is intended for expert users only. Please consult with a qualified technician for installation. Improper installation may result in damage to your components. Swiftech assumes no liability whatsoever, expressed or implied, for the use of these products, nor their installation. The following instructions are subject to change without notice. Please visit our web site at www.swiftnets.com

Installation diagram

for updates.

MCW50 for Nvidia Gforce





MCW50 for

TI Radeon





PRE-ASSEMBLED

Nylon washer

Spring

Nylon screw spacer

2-56 S/S socket

Figure 1

1. PREPARING YOUR GRAPHICS CARD

Before installing the block onto the graphics card cut two pieces of tubing of sufficient length to connect to the rest of your circuit, and install

them into the MCW50™ Inlet and outlet. It is

Remove the existing heat sink

  Carefully clean the GPU (graphics processing unit)  Lightly coat the CPU with the included Arctic Céramique thermal compound. Application will vary depending on the type of

processor. We recommend visiting http://www.arcticsilver.com for detailed instructions.

absolutely imperative to use the provided tube inserts with clear vinyl (soft) tubing, as shown below:

screw

Shown here with an MCW50-T™ version

Figure 2

Shown here with an MCW50-T™ version

Nylon retaining washer

Spring

Nylon screw spacer

4-40 x 1“ philips screw

Make sure that the tubes are fully inserted into the fitting. The tip of the plastic tube inserts should be flush with the inlet and outlet openings, as shown above. Inserting the tubes requires a firm push, accompanied by a twisting motion, and a little bit of grease around the tubing really helps ☺

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- Information subject to change without notice Page 33 of 38

2. INSTALLING THE MCW50™ GPU COOLER

The MCW50™ retention mechanism can either use the two diagonal holes featured in many graphics cards such as ATI Radeon™ 9000 to 9700 families, or the four mounting holes found in NVidia installed with other graphics processors by using permanent bonding agents, such as thermally conductive epoxies. We recommend Arctic Silver™ or Arctic Alumina™ epoxy.

Install your block onto the graphics card, as shown in Figure 1 or Figure 2 according to your application. A “finger –tight”

lock is sufficient when tightening the spring retention assemblies. Over-tightening will squish the nylon screw spacer body, and result in uneven pressure over the GPU.

Re-install the graphics card in the appropriate slot, and proceed with filling and bleeding the cooling circuit.

3. TYPE OF COOLANT:

4. FINAL INSPECTION

Once the installation is completed, it is always a good idea to test the circuit for leaks, prior to powering up the computer. Troubleshooting help is available on our web site at www.swiftnets.com

a. For best performance, use 95% distilled water, and 5% Swiftech brand “HydrX” corrosion inhibitor (available here:

http://www.swiftnets.com/store/category.asp?CatID=2

b. In ALL cases, you MUST use Distilled water AND a corrosion inhibitor with the MCW50 water-block. Regular automotive

anti-freeze is acceptable. Automotive manufacturers recommend that not less than 25% is used. c. NEVER use tap water, even for a short-term test. d. Not following paragraphs b and c above constitutes misuse (*) of the product, and will void your warranty.

, or by calling customer support at 562-595-12009.

, under the “accessories” section).

 GForce™ families of products. It can also be



Final note concerning removal of the tubing: Push in collet squarely against face of fitting. With the collet held in this position, the

tube can be safely pulled out. Do not attempt to pull the tube out without pushing squarely against the collet. This may result in damaging the fitting. Further details for using quick-connect fittings are also available here: http://www.johnguest.com/install_6.shtm#disconnect

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- Information subject to change without notice Page 34 of 38

Installation guide for Intel & AMD platforms

Common parts to both platforms Intel platform specific parts AMD platforms specific parts Part Qty Part Qty Part Qty MCW20 ™ assembly 1 Neoprene pads (strip of 4) 1 4-40 x 1 1/2” Philips screws 2 Tube inserts 2 4-40 HOOKS 2 Black fiber washers 6 Arctic Alumina Thermal compound 4-40 x 3/16” socket screw 0.8120” Spring 2 0.300” Spring 2 Socket wrench tool 2 Long bracket (1.10”) 2 ¼” tension limiters 2 1 Acorn nuts 2 Short bracket (.71”) 2 Knurled knobs 2

1. PREPARATION STEPS COMMON TO BOTH PLATFORMS

Step 1: Pre-installation assembly schematics

attach the brackets to the water-block with the provided socket wrench tool.

1 Nylon tension limiter ½” 2 4-40 mini-nuts 2

Intel

 Platforms AMD platforms

for updates.

Figure 1

Step 2: Prepare the tubing

Prepare two pieces of tubing of sufficient length to connect to the

rest of your circuit. The cuts must be square as shown in figure 1 or leaks may occur:

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- Information subject to change without notice Page 35 of 38

Figure 2

. Install the provided plastic tube inserts at each end of

b the tubes, as shown in figure 4: these inserts are absolutely

imperative when using any kind of soft tubing, such as vinyl,

ClearFlex, Tygon, etc.

Square cut

Figure 5

c. Spread a little bit of grease or liquid

around the tubing. It helps pushing the

soap

tubes in, particularly with Clearflex which features a very “sticky” surface.

2. INSTALLATION FOR INTEL PLATFORMS

a. Prepare your Motherboard

Remove the existing heat sink

  Carefully clean the processor, using alcohol  Install the 4 neoprene pads as shown figure 8. This

step is only necessary if the processor core is exposed.

(a large lid covering the entire area of the chipset), then the neoprene pads MUST not be installed.

 Lightly coat the CPU with the included Arctic

Céramique thermal compound. Application will vary depending on the type of processor. We recommend visiting http://www.arcticsilver.com for detailed instructions.

If the chipset features a heat spreader

Figure 3

 tubing,

Figure 4

Figure 6

d. Fully insert both tubes into the fittings. The tip of the plastic tube inserts should be flush with the inlet and outlet openings, as shown in figure 4 above. Inserting the tubes requires a firm push, accompanied by a twisting motion.

Figure 7

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- Information subject to change without notice Page 36 of 38

Figure 8

b. Install the MCW20-P™ water-block

 TIP! It is preferable to have the tubing inserted

into the water-block BEFORE you install the block onto the motherboard. This is because pushing the tubes into the block while it is already installed could exert undue pressure onto the microprocessor.

 Place the MCW20-P™ onto the processor, as

shown in figure 9: hooks should be engaged into two diagonal motherboard loops first, then install the nylon tension limiters (flange facing down), the springs, and tighten the assembly with the acorn nuts.

Neoprene pad

MCW20-P

corn nut

Spring

Nylon spacer

Hook

Chipset core

Figure 9

c. Connect the block to the rest of the cooling circuit.

d. Type of Coolant:

a. For best performance, use 95% distilled water, and 5% Swiftech brand “HydrX” corrosion inhibitor (available here:

http://www.swiftnets.com/store/category.asp?CatID=2

, under the “accessories” section).

b. In ALL cases, you MUST use Distilled water AND a corrosion inhibitor with the MCW5002 water-block. Regular automotive anti-

freeze is acceptable. Automotive manufacturers recommend that not less than 25% is used. c. NEVER use tap water, even for a short-term test. d. Not following paragraphs b and c above constitutes misuse (*) of the product, and will void your warranty.

Final inspection

Once the installation is completed, it is always a good idea to test the circuit for leaks, prior to powering up the computer. If using Swiftech’s fill-and-bleed kit, such test can be done without any liquid into the circuit. Please refer to the FBK525 Troubleshooting help is available on our web site at www.swiftnets.com

, or by calling customer support at 562-595-12009.

 installation guide for details.

3. INSTALLATION FOR AMD PL ATFORMS

1. Preparing your Motherboard

 Remove the motherboard from the chassis

Remove the existing heat sink



Carefully clean the microprocessor, using alcohol



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- Information subject to change without notice Page 37 of 38

2. Installing MCW20-A™ water-block

Install the provided screws through the



motherboard, using a black fiber washer on both sides of

the motherboard, and tighten the nuts.

 Install the motherboard back into the chassis

 Lightly coat the CPU with the included Arctic

Céramique thermal compound. Application will vary

depending on the type of processor. We recommend

visiting http://www.arcticsilver.com for detailed

instructions.

 TIP! It is preferable to have the tubing inserted into

the water-block BEFORE you install the block onto the

motherboard. This is because pushing the tubes into the

block while it is already installed could exert undue

pressure onto the microprocessor.

 Slide down the MCW20-A over the retention

screws, as shown figure 10, then install the nylon tension

limiters (flange facing down), the springs, and tighten the

assembly with the knurled knobs. Over tightening of the

assembly is prevented by the tension limiter. Users

should be cautious nonetheless, as nylon can be easily

crushed.

4-40 x 1 1/2“ philips screw

Figure 10

3. Connect the block to the rest of the cooling circuit.

The block is designed in such a way that it will bleed itself automatically in any vertical orientation (computer standing-up).

4. Type of Coolant: i) For best performance, use 95% distilled water, and 5% Swiftech brand “HydrX” corrosion inhibitor (available here:

http://www.swiftnets.com/store/category.asp?CatID=2

, under the “accessories” section).

ii) In ALL cases, you MUST use Distilled water AND a corrosion inhibitor with the MCW20 water-block. Regular automotive anti-freeze

is acceptable. Automotive manufacturers recommend that not less than 25% is used. iii) NEVER use tap water, even for a short-term test. iv) Not following paragraphs b and c above constitutes misuse (*) of the product, and will void your warranty.

Final inspection

Once the installation is completed, it is always a good idea to test the circuit for leaks, prior to powering up the computer. Troubleshooting help is available on our web site at www.swiftnets.com

, or by calling customer support at 562-595-12009.

Note concerning removal of the tubing in quick-connect fittings: Push

in the collet squarely against the face of the fitting using Swiftech’s tube removal tool, or a wrench of approximately the same opening diameter as the tube (1/2” +). The collet is the inner plastic ring protruding from the face of fitting. It fits loosely into the fitting, and can be moved up and down by approximately 1/8”. With the collet firmly held against the face of the fitting, the tube can be safely pulled out. Do not attempt to pull the tube out without pushing squarely against the collet. This may result in damaging the fitting.

Figure 11

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- Information subject to change without notice Page 38 of 38

Figure 12

Swiftech H20 120 R3A User Manual

Specifications and Main Features

Frequently Asked Questions

User Manual

Note (2) - Starting the Power Supply when the motherboard is not connected

Parts list

Parts list

Parts list

Parts list

Parts list

Remove the existing heat sink

  Carefully clean the processor, using alcohol  Install the 4 neoprene pads as shown figure 8. This