But since we'll start from scratch now anyway, updating the BIOS beforehand is a good idea.ġ) Get the latest BIOS. Because if you decide to update the BIOS later, it will reset all settings including the fan curves, and you have to enter everything again. Now, before setting the fan curves: Since we're doing this in the BIOS, this is a good time to first update the BIOS to the newest version. Only ramping up the RPM faster when the temperature approaches a quite high level. Let the RPM ramp up gently with rising temperatures Nice low RPM (fan speed) at low temperatures The general target for the fan curves is: One advantage of PWM control is that the fan will always turn on, even at a very low setting.īut when you go too low with the voltage on DC control, the fan might not turn on reliably, so you have to add a bit of margin on the voltage. Side note: Every PWM fan can also be DC-controlled, it's just a slightly worse method of controlling it. But in this example, you'd want your PWM fans on the CPUFAN headers, if possible. On more expensive board models, all the fan headers should be able to control fans with both methods. "NC" means Not Connected, so the manufacturer didn't implement PWM control on those headers, presumably for cost-saving. The SYSFAN headers can only control the fan speed via DC voltage, despite having a 4-pin fan header. The CPUFAN headers can control the fan speed via PWM signal or DC voltage (depending on the fan and which control method you select in the BIOS). So pay extra attention to that.īut that's easy to notice in the BIOS - when you just can't control a certain 4-pin fan with a PWM signal and instead only have DC (voltage) control available.
Some motherboard models may only allow DC control for some of the fan headers, even though they can all be 4-pin headers.
So for each fan, you have to select the right fan control method: DC for a 3-pin fan or PWM for a 4-pin fan. Side note: The "RPM Speed Signal" pin (rotations per minute) in the picture is telling the motherboard at which speed the fan is spinning, it is not controlling the fan.
With a PWM-controlled fan, the board powers it with a steady 12V, and the fan speed is controlled through the fourth pin via a PWM signal. With a DC-controlled fan, the fan speed is regulated by the board powering it with lower or higher voltages (say, between 3V and 12V) instead of steady 12V. A 4-pin plug means it's PWM (pulse width modulation) controlled. This website uses cookies to improve your browsing experience.A three-pin plug means the fan is DC (= direct current) voltage-controlled.
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