de_eekhoorn (![[personal profile]](https://www.dreamwidth.org/img/silk/identity/user.png)
de_eekhoorn) wrote2025-02-22 04:59 pm
de_eekhoorn) wrote2025-02-22 04:59 pm
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The Science Diaries, 1
A daily life of science story from a couple months back, or, the one wherein one and a half scientists get stumped for an entire week by one diode. The one is my advisor, old and experienced; the half is me, brand new PhD student. The task is setting up the new infrared detector in its housing to make it ready for use.
The detector has connections for the biasing voltage, the measured current, the cooling element, and a ventilator to cool the cooling element. I had gotten started on this project by myself, and I’d done all the soldering connections of my own: and so when we had put the detector in place and did testing, and the ventilator didn’t work, it was a fairly reasonable thought that maybe my soldering was the problem.
So we cut the ventilator back out of the housing, and test it with a multimeter set to measure resistance (in which mode it will emit a loud beep if a continuous circuit is detected). The ventilator doesn’t seem to work - well, my advisor bought it for cheap on AliExpress, so the new hypothesis is faulty material.
Advisor brings in a new ventilator, we test it before soldering, it works.
We solder it in, we test it, it doesn’t work.
We remove it, test, it works.
We resolder it, test, it doesn’t work.
We remove it, test, it doesn’t work… we scratch our heads in confusion… I go to retest it with the multimeter, only now after all the headscratching I am holding the leads the other way around…
And it works.
We switch the wires in the housing, solder the ventilator back in, it works.
Conclusion: they put a diode in the ventilator which was a resistance in previous iterations of this same model ventilator (which is why my advisor wasn’t expecting it to have a preferred direction). Why? No reason, most probably.
Anyway, the moral of the story is that ‘tech being more complicated than it has to be’ happens at all levels of sophistication, even at that of a small 5V ventilator which… you would think… had only one job.
The detector has connections for the biasing voltage, the measured current, the cooling element, and a ventilator to cool the cooling element. I had gotten started on this project by myself, and I’d done all the soldering connections of my own: and so when we had put the detector in place and did testing, and the ventilator didn’t work, it was a fairly reasonable thought that maybe my soldering was the problem.
So we cut the ventilator back out of the housing, and test it with a multimeter set to measure resistance (in which mode it will emit a loud beep if a continuous circuit is detected). The ventilator doesn’t seem to work - well, my advisor bought it for cheap on AliExpress, so the new hypothesis is faulty material.
Advisor brings in a new ventilator, we test it before soldering, it works.
We solder it in, we test it, it doesn’t work.
We remove it, test, it works.
We resolder it, test, it doesn’t work.
We remove it, test, it doesn’t work… we scratch our heads in confusion… I go to retest it with the multimeter, only now after all the headscratching I am holding the leads the other way around…
And it works.
We switch the wires in the housing, solder the ventilator back in, it works.
Conclusion: they put a diode in the ventilator which was a resistance in previous iterations of this same model ventilator (which is why my advisor wasn’t expecting it to have a preferred direction). Why? No reason, most probably.
Anyway, the moral of the story is that ‘tech being more complicated than it has to be’ happens at all levels of sophistication, even at that of a small 5V ventilator which… you would think… had only one job.