I have a PC fan controller that is capable of powering 10w per channel. I'd like to put 23w of fans on a single channel, so I am trying to find a way to use the electronics already on the fan controller to activate a MOSFET or other transistor that will be able to handle 23+w.
Basically, the theory I thought would work is to look at the PNP transistor on the fan controller, and take a wire from the gate of that transistor and using it as the gate on the MOSFET to make the MOSFET switch quick enough to step the voltage and vary fan speed.
Unfortunately, doing this did not result in what I wanted to do. The fans spin at a constant rate of approximately 60% top speed. I only have one fan tachometer wire wired to the feedback of the fan controller, so it doesn't get any weird signals from out of phase tach signals.
Is there any good way to accomplish this?
Here is the equipment I am using to test this with.
Fan controller: [BitFenix Recon]
PNP Transistor in fan controller: B772 PNP Medium Power Transistor
Best Answer
I'm taking a guess that the B772 (PNP) collector is connected to the +12V terminal of the fan and that the circuit switches this on and off as a PWM control of speed.
To replace the NPN transistor use a P Channel MOSFET. This needs to be switched ON by grounding the gate so an inverting transistor is needed.
When the B772 is turned ON a small current flows through R1 and R2 and Q1 is turned ON pulling the gate voltage to about 0.1V. This turns the MOSFET ON this supplies current for the fan. There are lots of MOSFETs out there that would be suitable.
Be careful you don't overload the power supply of the controller