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InaMORAta

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Revision as of 23:21, 15 August 2022 by Dank (talk | contribs)

Let's fuck hard with some fans using an Arduino or two (UNOs or Megas, not the 3.3V Due). This will be used for my MO-RA3 to collect realtime data (fan RPMs, temperatures, etc.) and provide realtime control (fan PWM, RGB signals).

Communication

We'll want to report RPMs to the controlling host, and probably take PWM and RGB orders from it. We might use e.g. LoRa for this later. For now, we'll use the serial channel over a USB connection.

Powering the micro

So long as we're using the USB connection, we can get power from it; later, if we cut the cord, we'll need to take power from the fans' power source. If we're using 12V fans, that's right at the top end of the supported voltages. 5V is not going to cut it as a Vin supply (it'll work over USB, though). Arduino claims to support 6–20V through Vin, and recommends 7–12V.

We will *not* be powering the fans or LEDs from the Arduino directly. They draw too many amps, and Arduinos can't provide 12V power directly anyway.

When Vin is driven with at least 7.5V, it will take over from any USB connection. This is probably desirable, so that we are on the same power source and ground as the DUTs (but maybe it doesn't matter?).

The USB power must not be used in conjunction with power supplied through the 5V header. If a 5V source is to be used, it is desirable to use it through the USB receptacle, which enjoys polarity protection (unlike the 5V pin).

Rotation count (RPMs)

Most case fans have a tachometer inside, using the third wire to send its signal. It will be strobed once for every two revolutions. If it is e.g. strobed 80 times within a second, then there were 160 revolutions in that second, and we can extrapolate to 9600RPM (truly an insane case fan; I know of no such monstrosities).

We will use one digital input pin per fan being monitored.

Control (PWM)

Temps

External (thermistor)

Microcontroller

Protocol