Hi,
had a good look around and have been unable to find anything which is similar.
I'm working on a project to take the variable 12v produced by a pc motherboard header to control fan speed and convert this to a PWM signal to control a device (watercooling pump) which has a greater current draw than the motherboard can handle. (max 1A provided by the header and up to 2A required by the device)
The device has separate power and PWM/tach signal wires.
The motherboard then takes the resulting RPM from the tach wire and plots against input voltage, this can be used to control the device based on temperature
I have a circuit which is working well in simulation based on a 556 timer design largely inspired by this video (and the second part):
Was unable to copy the schematic as the quality was rubbish :/
The circuit runs off the 5v supply provided by the PSU and must be able to provide an output with frequency between 21kHz and 28kHz, max current of 5mA, logic low of <0.8V and max voltage of 5.25V in line with the intel standard.
In simulation it satisfies these criteria.
My problem is with converting the variable 12v signal produced by the motherboard and reduce this to 5v whilst maintaining the variability.
I have looked at using DC-DC converters and voltage regulators however these all seem to fix the output at a certain level rather than allowing for any variation in voltage, this would obviously remove the control element.
The best that I have been able to come up with is a simple resistor based voltage divider taking into account the load of the internal PWM control circuit of the device to be controlled.
I was wondering if anyone has suggestions regarding a better way of scaling this 0-12v to 0-5 whilst maintining the control element and does not rely on a potentiometer (the circuit will be inside a case and therefore inaccessible)
Also, any suggestions for the current source IC able to produce current of >12.2mA, 12.1mA is the minimum for this capacitor on the monostable element of the circuit to function correctly.
So far I have found the PSSI2021SAY which seems to fit the criteria or to produce one from component parts...
Thanks in advance!
Schematic of the circuit is attached.
had a good look around and have been unable to find anything which is similar.
I'm working on a project to take the variable 12v produced by a pc motherboard header to control fan speed and convert this to a PWM signal to control a device (watercooling pump) which has a greater current draw than the motherboard can handle. (max 1A provided by the header and up to 2A required by the device)
The device has separate power and PWM/tach signal wires.
The motherboard then takes the resulting RPM from the tach wire and plots against input voltage, this can be used to control the device based on temperature
I have a circuit which is working well in simulation based on a 556 timer design largely inspired by this video (and the second part):
The circuit runs off the 5v supply provided by the PSU and must be able to provide an output with frequency between 21kHz and 28kHz, max current of 5mA, logic low of <0.8V and max voltage of 5.25V in line with the intel standard.
In simulation it satisfies these criteria.
My problem is with converting the variable 12v signal produced by the motherboard and reduce this to 5v whilst maintaining the variability.
I have looked at using DC-DC converters and voltage regulators however these all seem to fix the output at a certain level rather than allowing for any variation in voltage, this would obviously remove the control element.
The best that I have been able to come up with is a simple resistor based voltage divider taking into account the load of the internal PWM control circuit of the device to be controlled.
I was wondering if anyone has suggestions regarding a better way of scaling this 0-12v to 0-5 whilst maintining the control element and does not rely on a potentiometer (the circuit will be inside a case and therefore inaccessible)
Also, any suggestions for the current source IC able to produce current of >12.2mA, 12.1mA is the minimum for this capacitor on the monostable element of the circuit to function correctly.
So far I have found the PSSI2021SAY which seems to fit the criteria or to produce one from component parts...
Thanks in advance!
Schematic of the circuit is attached.
Attachments
-
88.2 KB Views: 26