| ▲ | don-code 2 days ago | |||||||||||||||||||||||||||||||
It's a good question! I didn't think to check the markings on the chip. The lab tech was convinced I was doing something wrong with my setup, and likewise he had me convinced it must be something wrong with my setup. Coincidentally, I've been knee-deep in some problems that I've applied the Cynefin framework to. I'd call this problem "chaotic", where throwing things at the wall might be _more_ effective than working down a suggested or tried-and-true path from an expert. I was pleasantly surprised just a few weeks ago where one of the more junior engineers on my team suggested updating a library - something I hadn't considered at all - to fix an issue we were having. (That library has no changelog; it's proprietary / closed source with no public bug tracker.) Surely enough, they were right, and the problem went away immediately - but I was convinced this was a problem with the data (it was a sporadic type error), not a library problem. | ||||||||||||||||||||||||||||||||
| ▲ | anyfoo 2 days ago | parent [-] | |||||||||||||||||||||||||||||||
No offense, but... when I was reading your story, I was somehow at least assuming that the marking on the part was somewhat unreadable or something... After getting befuddling answers, would it not have been natural to check the base assumptions, starting with do I have the correct part? That is true as much in the "real engineering" world, as in school. You say "It could _never_ be the equipment's fault" as if it was, but it wasn't. The test equipment gave you correct answers, your device under test was wrong. | ||||||||||||||||||||||||||||||||
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