Swiftech MCW60-T™ Liquid Cooled Thermoelectric Assembly for Graphics
Processors
The MCW60-T™ is a fully assembled liquid-cooled thermoelectric (Peltier)
solution, specifically designed for high-end graphics processor. Operating
temperature ranges from ambient to freezing levels, depending on the heat load,
and thermal capacity of the liquid cooling system.
This unit is intended for advanced users and requires appropriate insulation
to prevent the formation of condensation in sensitive areas of the graphics
card. Whereas Swiftech provides gaskets, and specific installation instructions
for such assembly, utilization of this device is at the sole risk of the user.
Performance
The MCW60-T features a 188 Watts built-in thermoelectric module that can be
operated from 12 to 19 Volts and yields sufficient cooling power to operate most
high-end GPU's from freezing to well below ambient temperature levels.
The following curves describe the device behavior at various voltages and
heat loads. Coolant temperature was maintained at a 35°C constant temperature,a
value representative of what is attainable with current high-end liquid cooling
kits (such as our H20-220 Apex Ultra for exemple):
For reference in terms of power levels, we measured the actual power
dissipated by a highly overclocked and voltage modded GeForce 7800 GT to ~60
Watts. At this power level the core temperature at full load is 17°C with the
TEC operating at 12V, and 10°C wiht the TEC operating at 19V.
Tubing Compatibility
- The MCW60-T is compatible with all common tubing sizes: 1/4" (8mm), 3/8"
(10mm), and 1/2" (12mm), the later being recommended for optimum flow rates.
The product ships with 3/8" and 1/2" fittings in the United States, and extra
set of 1/4" fittings in Europe.
Graphics Card compatibility:
-
Most(*)
nVidia® GeForce™ series from 6800 and above (incl. latest 7900 series).
- Most(**) ATI® Radeon™ series,
including the latest X1900 series.
* Known incompatibility: GeForce 7800 GS (AGP version)
** please carefully look up the product dimensions when using a VGA adapter
including a TV tuner. such as the "All In Wonder" series
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nVidia geForce 6800 to 7900 and ATI X1800/1900 4-hole installation
ATI Radeon 2-hole (X1600 and earlier models) installation
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System integration
- Thermal load in existing liquid cooling circuits
Whereas graphic card liquid coolers can be occasionally used with their own
separate cooling circuit, a number of users may wish to integrate the MCW60-T™
to the same cooling loop as the CPU. The following observations are relevant
to the later case.
Careful consideration is necessary when adding a thermoelectric graphics
processor cooler to the same circuit as a non thermoelectric-cooled CPU. The
reason is simple: Peltier elements add their own internal thermal load
(defined by Qmax) to the circuit, thus raising the temperature of the cooling
fluid. The same observation is evidently true when adding this unit to an
existing thermoelectrically cooled CPU. The additional thermal load requires
more heat dissipation capacity from the heat exchanger.
When operated at 12 Volts the combined amount of heat (TEC + GPU) added to the
circuit by the MCW60-T is approximately 180W The resulting rise in temperature
of the cooling fluid will essentially depend on the circuit's heat exchanger
thermal characteristics. Users should check these characteristics with the
vendor, or if using a Swiftech heat exchanger consult the published
specifications of the various models.
Depending on the system design goals (noise versus operating temperature),
either a more powerful heat exchanger, or a more powerful fan may be required.
- Seting up a separate cooling loop
It is suggested to users who wish to integrate the MCW60-T without affecting
the temperature of the CPU to setup a separate cooling loop. As noted above,
please consult our heat exchanger characteristics to determine the desired
performance level. As an example, we can see in the MCR120-QP
"Heat dissipated vs. Coolant Flow rate" curve that this heat exchanger
would be adequate to dissipate 180 Watts while maintaining a 10°C air to
coolant temperature (35°C coolant temperature being the reference used in the
performance graph above).
- Power supply requirements
The thermoeletric module draws approximately 9.3 A at 12 volts. When
connecting the MCW60-T module to an existing power supply, users should verify
their power supply current rating for the+12 volts rail. The total amount of
current required for system integration will depend on the number of devices
already connected to the power supply.
For maximum performance, use of an auxiliary power supply is suggested. The
meanwell S320-12 sold by Swiftech is adequate in terms of power draw, and can
also be operated at 14 Volts providing a nice power boost to the TEC module
(see graphs above).
MCW60-T™ Specifications
TEC Module Specifications
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Couples
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U Max (V)
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I Max (A)
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DT Max ©
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Qmax (W)
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LxlxH (mm)
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R (Ohms)
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161
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19.3
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15
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60
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188.4
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40x40x3.0
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1.08
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Values when operated at typical 12 Volts
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12
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9.3
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110
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Water-block Housing:
- Injection molded POM (Acetal Copolymer)
Water-block Base plate:
Water-block cold plate:
-
Exceptional quality and attention to details: the
base is lapped to 0.0003" (3/10 of 1/1000"), and polished to
near-mirror finish to promote optimum thermal conductivity. Users are
advised that while flatness is strictly respected for providing the
most significant benefit to thermal interface, surface polish is a
cosmetic component and may vary slightly from one heatsink to another.
Re-lapping or polishing the copper base is never recommended. The
center section is raised to provide clearance for stiffening frames.
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Swiftech MCW60-T™ Liquid Cooled Thermoelectric Assembly for Graphics
Processors
Swiftech MCW60-T™ Liquid Cooled Thermoelectric Assembly for Graphics Processors