Some quick thinking and a million dollar computer save the day when a power source is needed.
Many years ago, at the start of my engineering career, I was involved in the testing of a three-axis, cryo-cooled IR tracking system for the Navy. The thing looked like a long, cylindrical missile, with a round nose and a golden lens. We had to bring the tracking system and its control electronics to a GE test center in Philadelphia, Pennsylvania, where we would bolt it up to a hydraulically driven servo-controlled three-axis gimbal system for tracking tests.
As I walked into the test center, I passed two gigantic consoles, standing side-by-side. I remember them standing over 10-12 feet tall, and at least as wide. A desk-like area jutted out at waist height, and above that was what looked like a giant breadboard. I was intrigued. I had played with Heathkits when I was a kid (“101 Electronic Projects”!). I asked our host, “Is this a giant analogue computer?” He answered that it was. The year was 1984.
The three-axis gimbal was probably no more than 50 feet away from the analogue computers (this becomes important later in my story). Now, since the tracking system was eventually to mount up to a Navy fighter jet, it needed to run on 440 V, 400 Hz, 1 phase. The electrical engineers with us had this cute little aluminum block that they said was a DC to 400 Hz converter. It was about 2 × 3 × 4 inches in size, had an orange stripe around it, pigtail contacts on the bottom, and a warning label. I forget, now, exactly what the warning label said, but I do recall quite specifically (even to this day) that it warned the user that the converter had to be mounted up to an aluminum heat sink, and went as far as to specify the dimensions, and provide a few tapped holes on the bottom to make such mounting simple and straightforward.
But we didn’t have a heat sink. I asked the lead electrical engineer if he had brought a heat sink with him, but he said that it really didn’t need one. I pointed out the warning label, but he insisted that no heat sink was required. I was just out of college -- what did I know?!
We did need a DC power supply, though, and we needed one with a pretty good current capacity. The lab had such a power supply, over there on the other side of the room, on the bottom of a 19-inch rack system, but we needed such a high current that we had to bypass the front, fused contacts and tie directly into the output of the supply. I say “we” here, to be polite, but I wasn't the guy who did the tie-in.
Maybe it was at that point that I asked about the heat sink, I can’t exactly remember. Anyhow, we shored up a few mechanical issues and started running our initial tests.
The tests were all going well when, without warning, a shower of sparks erupted and a voluminous cloud of pure white smoke billowed from the DC power supply at the far end of the room. Remember the scene in the original Star Trek when they would fire a phaser at some poor, unsuspecting computer, and it would erupt in sparks and white smoke? It was that. Exactly that! Who knew?
But it wasn’t the fault of the DC power supply. It was the fault of the DC to 400 Hz converter. Remember the orange stripe? You probably realized right off that it was a thermal paint stripe. It had turned to whatever color it wasn't ever supposed to turn to. So, our 400 Hz converter was toast, as was the facility’s DC power supply. And the client -- the Navy -- was due in a few hours.
After waiting for someone else to raise their hand (one of the lead electrical engineers, perhaps?) I realized that no one else knew what to do. For some strange reason, I did. From my Heathkit days, the term “Multistable Multivibrator” was stuck in my head. I asked our host if anyone knew how to program and run the analogue computers. We got lucky: someone did.
I asked their expert to make me two circuits. The first circuit needed to be a 400 Hz signal generator. The second circuit needed to be a power amplifier. He hooked up his wires and blocks and connectors, and turned what were probably a few million dollars worth of cutting edge computers (well, what might once have been cutting edge) into a Navy power supply.
He tied an oscilloscope to the terminals to check his work, and we were good. I think we had a little clipping at the top, but it was good enough to run our equipment for the test and eventual Navy demo later that afternoon.
Not what you want to see just before the client shows up!
Engineers submitted their product repair and redesign stories as part of our Frankenstein's Fix competition on EE Life, for a chance to win a Tektronix MSO2024B digital oscilloscope. The deadline was October 26, 2013. Submission details and full contest rules here.