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WireView GPU
$23.28
$52.53
(55.68% saved)
The WireView GPU is a device for measuring the power consumption of graphics cards that was developed in collaboration with Jon "elmor" Sandström It is plugged into the PCIe power connectors of the graphics card and connected to the power supply unit via the PCIe power cables. The power consumption data is displayed via an OLED display.
At the same time, the WireView GPU takes on a cable management function, as its "U"shape enables optimised routing of the cables. The PCIe power cables are connected to the WireView GPU in such a way that they can be laid neatly over the backplate of the graphics card. This avoids cable bulges when routing the power cables and simplifies cable management.
Measuring power consumption
Logging of power consumption
Optimised cable routing
Easy mounting
High compatibility
The WireView GPU enables the measurement of the power consumption of graphics cards and records this data to determine the power consumption. This data can be used, among other things, to determine the power costs of a graphics card or to compare the power consumption with other graphics cards. A special 60-second measuring cycle enables the power consumption to be displayed quickly and conveniently, which is very practical for reviews, for example.
At the same time, measuring the power consumption can be used to determine the power consumption of graphics cards over a certain period of time or with certain applications. In addition, load peaks in power consumption ("peaks") that can occur in the operation of current high-end graphics cards can be determined.
The WireView GPU shows the measured values on the display. You can switch between the displayed values at the touch of a button. The following values can be displayed:
Display of the current Power Consumption in watts [W]
Current Power Consumption in watts [W], current Voltage in volts [V], current Current in amperes [A]
Minimum and maximum Power Consumption in watts [W]
Average Power Consumption over 60 seconds [AVG W] and total Power Consumption [E]
The WireView GPU is available in "N" and "R" versions regardless of the number of 8-pin PCIe connectors (or the 12VHPWR plug). "N" stands for the normal orientation of the PCIe connectors on the PCIe expansion card, while "R" stands for the rotated (reversed) orientation. In the normal orientation (N), the retaining clip of the connector points away from the PCB of the expansion card. In the rotated orientation (R), the connector's retaining clip points towards the PCB.
The WireView GPU is also available in two "high power" variants for the 12VHPWR connector. The first variant has one 12VHPWR input and output each, while the second variant is connected to the graphics card via 12VHPWR and to the power supply via three 8-pin PCIe connectors.
When using the 12VHPWR adapter, make sure that each of the three 8-pin PCIe connectors is connected to the power supply unit with a separate 8-pin PCIe cable. The use of a splitter (Y-cable) is strongly discouraged! The configuration of the 12VHPWR corresponds to the 600W version.
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WireView GPU
$23.28
$52.53
(55.68% saved)
The WireView GPU is a device for measuring the power consumption of graphics cards that was developed in collaboration with Jon "elmor" Sandström It is plugged into the PCIe power connectors of the graphics card and connected to the power supply unit via the PCIe power cables. The power consumption data is displayed via an OLED display.
At the same time, the WireView GPU takes on a cable management function, as its "U"shape enables optimised routing of the cables. The PCIe power cables are connected to the WireView GPU in such a way that they can be laid neatly over the backplate of the graphics card. This avoids cable bulges when routing the power cables and simplifies cable management.
Measuring power consumption
Logging of power consumption
Optimised cable routing
Easy mounting
High compatibility
The WireView GPU enables the measurement of the power consumption of graphics cards and records this data to determine the power consumption. This data can be used, among other things, to determine the power costs of a graphics card or to compare the power consumption with other graphics cards. A special 60-second measuring cycle enables the power consumption to be displayed quickly and conveniently, which is very practical for reviews, for example.
At the same time, measuring the power consumption can be used to determine the power consumption of graphics cards over a certain period of time or with certain applications. In addition, load peaks in power consumption ("peaks") that can occur in the operation of current high-end graphics cards can be determined.
The WireView GPU shows the measured values on the display. You can switch between the displayed values at the touch of a button. The following values can be displayed:
Display of the current Power Consumption in watts [W]
Current Power Consumption in watts [W], current Voltage in volts [V], current Current in amperes [A]
Minimum and maximum Power Consumption in watts [W]
Average Power Consumption over 60 seconds [AVG W] and total Power Consumption [E]
The WireView GPU is available in "N" and "R" versions regardless of the number of 8-pin PCIe connectors (or the 12VHPWR plug). "N" stands for the normal orientation of the PCIe connectors on the PCIe expansion card, while "R" stands for the rotated (reversed) orientation. In the normal orientation (N), the retaining clip of the connector points away from the PCB of the expansion card. In the rotated orientation (R), the connector's retaining clip points towards the PCB.
The WireView GPU is also available in two "high power" variants for the 12VHPWR connector. The first variant has one 12VHPWR input and output each, while the second variant is connected to the graphics card via 12VHPWR and to the power supply via three 8-pin PCIe connectors.
When using the 12VHPWR adapter, make sure that each of the three 8-pin PCIe connectors is connected to the power supply unit with a separate 8-pin PCIe cable. The use of a splitter (Y-cable) is strongly discouraged! The configuration of the 12VHPWR corresponds to the 600W version.
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WireView GPU
$23.28
$52.53
(55.68% saved)
The WireView GPU is a device for measuring the power consumption of graphics cards that was developed in collaboration with Jon "elmor" Sandström It is plugged into the PCIe power connectors of the graphics card and connected to the power supply unit via the PCIe power cables. The power consumption data is displayed via an OLED display.
At the same time, the WireView GPU takes on a cable management function, as its "U"shape enables optimised routing of the cables. The PCIe power cables are connected to the WireView GPU in such a way that they can be laid neatly over the backplate of the graphics card. This avoids cable bulges when routing the power cables and simplifies cable management.
Measuring power consumption
Logging of power consumption
Optimised cable routing
Easy mounting
High compatibility
The WireView GPU enables the measurement of the power consumption of graphics cards and records this data to determine the power consumption. This data can be used, among other things, to determine the power costs of a graphics card or to compare the power consumption with other graphics cards. A special 60-second measuring cycle enables the power consumption to be displayed quickly and conveniently, which is very practical for reviews, for example.
At the same time, measuring the power consumption can be used to determine the power consumption of graphics cards over a certain period of time or with certain applications. In addition, load peaks in power consumption ("peaks") that can occur in the operation of current high-end graphics cards can be determined.
The WireView GPU shows the measured values on the display. You can switch between the displayed values at the touch of a button. The following values can be displayed:
Display of the current Power Consumption in watts [W]
Current Power Consumption in watts [W], current Voltage in volts [V], current Current in amperes [A]
Minimum and maximum Power Consumption in watts [W]
Average Power Consumption over 60 seconds [AVG W] and total Power Consumption [E]
The WireView GPU is available in "N" and "R" versions regardless of the number of 8-pin PCIe connectors (or the 12VHPWR plug). "N" stands for the normal orientation of the PCIe connectors on the PCIe expansion card, while "R" stands for the rotated (reversed) orientation. In the normal orientation (N), the retaining clip of the connector points away from the PCB of the expansion card. In the rotated orientation (R), the connector's retaining clip points towards the PCB.
The WireView GPU is also available in two "high power" variants for the 12VHPWR connector. The first variant has one 12VHPWR input and output each, while the second variant is connected to the graphics card via 12VHPWR and to the power supply via three 8-pin PCIe connectors.
When using the 12VHPWR adapter, make sure that each of the three 8-pin PCIe connectors is connected to the power supply unit with a separate 8-pin PCIe cable. The use of a splitter (Y-cable) is strongly discouraged! The configuration of the 12VHPWR corresponds to the 600W version.
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WireView GPU
$23.28
$52.53
(55.68% saved)
The WireView GPU is a device for measuring the power consumption of graphics cards that was developed in collaboration with Jon "elmor" Sandström It is plugged into the PCIe power connectors of the graphics card and connected to the power supply unit via the PCIe power cables. The power consumption data is displayed via an OLED display.
At the same time, the WireView GPU takes on a cable management function, as its "U"shape enables optimised routing of the cables. The PCIe power cables are connected to the WireView GPU in such a way that they can be laid neatly over the backplate of the graphics card. This avoids cable bulges when routing the power cables and simplifies cable management.
Measuring power consumption
Logging of power consumption
Optimised cable routing
Easy mounting
High compatibility
The WireView GPU enables the measurement of the power consumption of graphics cards and records this data to determine the power consumption. This data can be used, among other things, to determine the power costs of a graphics card or to compare the power consumption with other graphics cards. A special 60-second measuring cycle enables the power consumption to be displayed quickly and conveniently, which is very practical for reviews, for example.
At the same time, measuring the power consumption can be used to determine the power consumption of graphics cards over a certain period of time or with certain applications. In addition, load peaks in power consumption ("peaks") that can occur in the operation of current high-end graphics cards can be determined.
The WireView GPU shows the measured values on the display. You can switch between the displayed values at the touch of a button. The following values can be displayed:
Display of the current Power Consumption in watts [W]
Current Power Consumption in watts [W], current Voltage in volts [V], current Current in amperes [A]
Minimum and maximum Power Consumption in watts [W]
Average Power Consumption over 60 seconds [AVG W] and total Power Consumption [E]
The WireView GPU is available in "N" and "R" versions regardless of the number of 8-pin PCIe connectors (or the 12VHPWR plug). "N" stands for the normal orientation of the PCIe connectors on the PCIe expansion card, while "R" stands for the rotated (reversed) orientation. In the normal orientation (N), the retaining clip of the connector points away from the PCB of the expansion card. In the rotated orientation (R), the connector's retaining clip points towards the PCB.
The WireView GPU is also available in two "high power" variants for the 12VHPWR connector. The first variant has one 12VHPWR input and output each, while the second variant is connected to the graphics card via 12VHPWR and to the power supply via three 8-pin PCIe connectors.
When using the 12VHPWR adapter, make sure that each of the three 8-pin PCIe connectors is connected to the power supply unit with a separate 8-pin PCIe cable. The use of a splitter (Y-cable) is strongly discouraged! The configuration of the 12VHPWR corresponds to the 600W version.
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Duronaut
$16.75
$20.94
(20.01% saved)
Duronaut is a high-end thermal paste designed with a focus on outstanding thermal conductivity and exceptional long-term stability. The name "Duronaut" derives from the English word "durability," emphasizing its extraordinary longevity. This stability is achieved through a specially engineered silicone oil combined with aluminum microparticles and zinc oxide nanoparticles of various shapes. These optimized particle shapes and sizes minimize the "pump-out effect," ensuring excellent adhesion to surfaces and resulting in extremely low thermal transfer resistance.
Extreme long-term stability
Outstanding thermal conductivity
Electrically non-conductive
No hardening over time
The optimized particle shapes and sizes enable Duronaut to be applied in very thin layers, enhancing adhesion and minimizing thermal resistance. This thin application layer, coupled with the high conductivity of the aluminum micro and zinc oxide nanoparticle mix, ensures efficient heat transfer between the heat source (e.g., a CPU) and the cooler.
For optimal application, the TG Spatula Pro is included with Duronaut. The spatula's revised design allows for increased pressure during application, ensuring efficient spreading and a thinner layer of thermal paste.
Scope of Delivery
1x Duronaut
1x Applicator
1x TG Spatula
1x TG Spatula Pro
Content: 6 g ($279.17 / 100 g)
Variants from $11.58
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TG Cleaning Wipes
$8.33
$10.41
(19.98% saved)
Clean and degreased surfaces are important so that thermal conductive materials such as thermal pastes or liquid metal can adhere well and thus develop their full thermal conductivity. This is where TG Cleaning Wipes come into play: cleaning cloths for cleaning surfaces. TG Cleaning Wipes contain ten double packs, each with two dry wipes and two wet wipes optimized for removing thermal paste residues.
Wet wipes for the removal of thermal pastes
Removes grease residues (e.g. fingerprints)
Packed in ten double packs for easy storage
A total of 20 dry wipes and 20 wet wipes
First, stubborn dirt is removed with a dry wipe before the surface is cleaned with the two wet wipes. In the third cleaning step, the surface is dried and then wiped with a fresh dry cloth.
Assembly aids such as the TG Kapton Insulation Sheet or the TG Shield protective coating also adhere better to cleaned surfaces. TG Cleaning Wipes are available as a practical complete set of 40 cleaning wipes, which are packaged in ten double packs of two dry wipes and two wet wipes.
Scope of delivery
10x TG Cleaning Wipes set (2 wet and 2 dry wipes)
Content: 10 pcs. ($0.83 / 1 pcs.)
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CPU Contact Frame
$23.31
$29.13
(19.98% saved)
The Intel 1851 CPU Contact Frame V1 is the version of the well-known mounting aid tailored to Intel motherboards with the LGA1851 socket. By using the Intel 1851 CPU Contact Frame V1, the concave bending of the CPU’s Integrated Heat Spreader (IHS) caused by the standard Integrated Loading Mechanism (ILM) is avoided. This results in better contact between the CPU cooler and the IHS, improving cooling performance.
Reduction of CPU temperatures
Easy to install
Anodized aluminum
Installing the contact frame is very simple and requires only a few steps. First, the motherboard's Integrated Loading Mechanism (ILM) must be removed. Depending on the CPU cooler and the CPU used, processor temperatures can be noticeably reduced. When switching from the Reduced-Load ILM (RL-ILM) used on some LGA1851 motherboards, temperature reductions of up to 4°C can be expected, and up to 6°C when switching from the standard ILM.
The Intel 1851 CPU Contact Frame V1 is compatible with Intel Core Ultra 200 Series processors for the LGA1851 socket. Additionally, the frame is compatible with CPUs whose Integrated Heat Spreader (IHS) has been sanded down by no more than 0.2 millimeters. Care must be taken during installation to ensure no electronic components are located under the frame, especially with Mini-ITX form factor motherboards.
Attention:
Removing the Integrated Loading Mechanism (ILM) of the mainboard may invalidate the manufacturer's warranty of the mainboard manufacturer!
Included in the package:
1x Intel 1851 CPU Contact Frame V1
4x Cylinder head screws with 3/8" UNC threads
1x 5/64" hex key
1x Torx T20 key
Variants from $9.24
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Minus Pad Basic
$13.95
$17.43
(19.97% saved)
The electrically non-conductive Minus Pad Basic thermal pads are part of the Minus Pad Basic, Advance, and Pro series. Based on the proven minus pad 8, this series has been further developed to significantly improve thermal conductivity, compressibility, and price-performance ratio. The thermal pads are suitable for SSDs, GPU coolers, GPU water coolers, as well as electronic components such as voltage regulators and memory modules.
Good thermal conductivity
Lower compressibility
Easy to use
Electrically non-conductive
Excellent price-performance ratio
Comparison of the Minus Pad Basic, Advance, and Pro series:
Minus Pad Basic: Good thermal conductivity, slightly lower compressibility, and excellent price-performance ratio.
Minus Pad Advance: Improved thermal conductivity, higher compressibility.
Minus Pad Pro: Outstanding thermal conductivity and exceptional compressibility – at a slightly higher Price.
Content: 9600 mm² ($0.15 / 100 mm²)
