yup yup! looking on new egg for some now, apparently the artic 11 fans are cheap as ish because they do no provide a reverse protection diode in case of situations like these. and yea i am bummed but its whatevs, life goes on. and the show must go too. thank you guys for your help, hope my failure helps anyone else out in the future.
BS. These are no diodes. You don't need no current limiting. Simply apply anything near the rated voltage and the fan will take what's it rated at. Reversed polarity (I actually think that he applied voltage on the PWM pin) probably burned PWM IC.
No no no, I did not apply voltage to the pwm pin, I immediately cut off the other two wires for safety precaution. I reversed the current to the red and black wires chasing the small board to be instantly fried. There is no safety diode to prevent it being fried (El cheapo punks)
There's no need for any safety diode since you can't plug it into the motherboard in the opposite polarity. And you didn't plug it into a motherboard el stupid punk, did you?
Dip $hit, I never said anything about a motherboard... there is a small board under the fan. THAT board was fried when the polarity was reversed. Go ahead... grab a computer fan and look at the underside... I'll wait.
Point was that these fan+HS combos are intended to be used as a CPU cooler. That means that the connector is supposed to be plugged into the motherboard. And the connector is designed in a way that doesn't allow reversed polarity - no need for protection. I'm sorry for that I was a little harsh yesterday - I was drunk a bit
Thanks I didn't know exactly how these controls worked. But I still don't see any need for current limiting power supply for the fan.In lieu of evidence to the contrary, I presume a basic wall-wart was used.
http://www.digchip.com/datasheets/parts/datasheet/052/AH292Z-PL-pdf.php
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Hypothesis: If those Hall sensors are fried, the coils won't switch; ergo, no movement. That's assuming the FETs aren't relieved of their smoke content. It is a likely candidate for failure in this case.
BTW Diode = Semiconductor = "PWM IC" (whatever that is)
It's just a simple way to ensure the fan gets the current it needs. It's not a reverse polarity protection cct.
Why would you waste ~1.7W of power on resistor? The fan itself acts like a resistor (75ohm in this case). You apply 12V, the current is 160mA. You apply 13.2V (max value within 10% tolerance), the current is 176mA. No big deal.
A voltage source rated 15W does not mean it "puts out 15W". If you have a 12V source that is rated for 15W, it means that it is considered to be overloaded when you draw over 1.25A.
While your logic has merit, I don't believe it is applicably clear.
It pulled 9.6V at 130mA...as expected for a regulated supply. the summum bonum from all this chit chat
Is it just my impression or are these pretty obsolete nowadays? I'd say that most "power bricks" today are small switching supplies. At least I can't think of any in my house which isn't a switching PSU.
While your logic has merit, I don't believe it is applicably clear.
Sure it depends on the load, but what is the real load here?
And to make sure we're on the same page, I have assumed from the start
his adapter in question was a standard, cheap, unregulated wart.
My particular confusion was coming from two facts about fans:
1) their draw of current is not constant (despite what it says on the label),
2) they have a (potentially) large inrush current at start-up
http://www.nmbtc.com/fans/white-papers/dc-brushless-cooling-behavior/
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It would seem my (wayward) intuition got the better of me there. While grappling with the qualitative nature of the circuit, I mistakenly assumed a high-probability for a near-short to develop based on the dynamic resistance (or IV characteristics) of typical pn-junctions, which are littered throughout. The circuit board--upon closer examination--appears to have some SMD resistors in the path (going to the dual op-amp), so it could be buffered against such an event, during what would otherwise be low-impedance situations. However, I may have missed some paths or gotten lost on the visual trace attempt.
I suppose one could attach a fan to an unregulated wall-wart without limiting, but I still feel sketchy about doing that myself because issues such as the following are still lurking in the background:
Thus, if a wall wart is rated at 12 VDC and 500 ma., the voltage will be significantly above 12 VDC when the supply is powering a device that only uses 200 or 300 milliamps of current. Similarly, the voltage will drop well below the specified 12 volts if more than 500 milliamps of current is needed by the device to be powered.
http://www.dxing.info/equipment/wall_warts_bryant.dx
12 V 1250mA unregulated supply vs 12V 160mA dynamic load? Not a problem you say? I don't know. I'm a little hesitant over the load matching and power transfer in this situation. If the voltage goes up as a result of the current differences, will it overload some other sensitive components?
...fuck it...let's try burning something
I just tested a fan on a BOSS 9.6V 200mA adapter.
Knowing the fan is 0.15A 12V, what will the effect be?
It's a trick question. The BOSS adapters are regulated
How about my Pignose amp supply? Rated as 12V at 1500mA !!! With an open cct. voltage of 17.21V, I'd say it's a candidate for unregulated supply, eh?
So, care to hazard a guess what happens?
15.5V at 227mA
you're welcome
And then, with switch mode regulation of any kind, stability is dependent on a minimum load current. The switching coil will cause ringing in the circuit on power on if current is not sufficiently high to make the system overdamped. This means switch mode based regulator also suffers from the problem of not being able to run low currents. In that case the problem is actually a real issue, because system instability (ringing,oscillating) can mean large transient spikes greater than the rated voltage. We never notice this issue with our meanwells because we use constant current anyway.
If I am not mistaken, the current draw needed for proper function is much lower, isn't it? Meaning that a single fan would draw current high enough for the PSU to properly work.