I don't believe the supplies and frequency counters with nixie tube displays that I once used were scanned. The last couple of digits on the displays generally looked like 8s because they appear to flicker about every number instantaneously to the human eye.
Very cool. We have come a long way since those days. Those damn banana jack jumpers were often an issue. Other engineers would break the internal wire through normal wear and tear, throw them all back in the supply drawer anyway. No one seemed to order replacements until we were so short it was becoming a crisis. Then there was that slightly resistive layer of crud that could form on the banana contacts from years of factory 24/7 use (long before clean room methodology hit the test areas). I hated the old bench set ups. You had to check, debug, recheck, repeat until it was rock solid.
If you were using HP devices, they drove each tube individually with a 4-bit flip-flop memory card and a 1 of 10 decoder made from neon lamps on a photosensitive plate. The decoder cards were the brains, memory, and decoder for the unit.
AFAIK, most other manufacturers used custom solutions or scanned with 74141s (I think that's the driver IC) just like LEDs and LCDs are done today. You could do it super fast because neon is instant.
As I recall, there were few HP peripherals on the old bench until I built a rack and stack sequential device tester that supported handlers. None of the old equipment had IEEE488 GPIB interface bus. Much of the new equipment in my rack and stack was HP equipment, all had GPIB.
We used to make the full complement of decoder/drivers at my local Fairchild facility and later at Nat Semi. The internal part name for 74141 was , IIRC.
That's pretty cool. I missed the era where 74 series stuff was designed.
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