Inverted 38-degree chassis architecture

The scientific air duct design of the inverted 38-degree (RTX architecture) chassis can make the graphics card, CPU and power supply work in their respective heat dissipation states. The traditional underlaid power box can only make the power supply and the graphics card work in their respective heat dissipation states, while the CPU collects two parts of heat from the CPU and the graphics card. The traditional ATX chassis only has the graphics card working in its own heat dissipation state, while the CPU collects two parts of heat from the CPU and the graphics card, and the power supply also collects two parts of heat from the power supply, CPU and the graphics card. The test data shows that the heat dissipation of the power supply, CPU and graphics card of the inverted 38-degree (RTX architecture) chassis is obviously better than that of the traditional lower power supply chassis and ATX chassis.

The graphics card with large heat dissipation is installed at the top of the chassis, and the emitted hot air naturally rises and is quickly discharged to the outside of the chassis through the vertical air duct, which can accelerate the heat dissipation of the graphics card itself, ensure that the heat in the machine is discharged at the first time, and does not form heat accumulation; In addition, because the CPU and power supply are under the graphics card, the heat emitted by the graphics card will no longer affect components such as CPU and power supply.

At present, high-end power supply, graphics card and CPU fan all adopt intelligent temperature control fans. When the calorific value of each component is too high to be discharged in time, with the increase of local temperature, the fan will increase its speed, make a lot of noise and even scream. Because the inverted 38-degree chassis provides an independent cooling duct for the power supply, CPU and graphics card, the thermal redundancy of each part is relatively small, and the fans are running at low speed. In particular, the CPU fan can basically work in standby state because it is not disturbed by other heat, so the mute effect of the whole machine is very obvious, which can keep the noise of the computer in standby state. Even if you play high-end games, your fighting environment is still quiet.

As can be seen from the schematic diagram above, because the CPU is above and the power supply is below, the 4PIN or 8PIN wire provided by the power supply to the CPU during installation is not long enough, so the user either uses a high-end power supply (above 400W) or buys an extension cable, and the wire itself has a certain resistance. The longer the line, the greater the resistance and the easier the power supply. The 4PIN or 8PIN interface of the motherboard of the inverted 38-degree (RTX architecture) chassis is close to the power supply (just like the common ATX chassis), so that the power supply will not be picky because of the chassis itself.

For the common power supply chassis, the space between the power supply and the graphics card is very narrow, so it is not convenient to insert pins or interfaces on the motherboard. However, after the chassis is reversed to 180 degrees, the interface pins of the motherboard are placed at the top, leaving more space without too many space restrictions, so the operation will be more convenient and faster.