Hi Joe, come to think of it, other than amongst one of the first DMM I used in college, the 8000A was also the first digital DMM I actually own (about 10 years ago). Nice to see someone who share the same love for this old meter, there is nothing that speaks vintage equipment louder than full mechanical push buttons.
I wouldn't say I have a love for the meter. After it was damaged a second time and I could no longer obtain parts from Fluke to service it, I would say if anything I developed antipathy towards it and the company who produced it. Mainly I know what damaged it and couldn't believe that a meter sold to the military would be such a princess. I vowed never to buy another Fluke product.
Then I conducted a pretty big test of several handheld meters to see how electrically robust they were. Several of these were Fluke branded. Some from Phillips, some Fluke, some from the USA and other from China. I pushed all of the meters to their failure point using low energy transients, similar to what had damaged my 8000A. Because of my disdain for Fluke, I subjected the 8000A to further transients causing additional damage.
I ran these tests for myself but made some videos for the people who wanted to follow along. In the end I had to admit that Fluke had learned some very important lessons on how to design a robust meter. They are no longer the little princesses they were.
So lets say after all the abuse, it was time for some redemption.
Have you had experience in playing with the period and HF ADJ calibration? Did you observe the same thing I did? I am leaning towards there is an error in the manual, which is hard to believe given it is an old Fluke.
Sure, I have some experience with it. Not looking over your shoulder when you were working, I did not observe what you did. That may sound obvious but I really have no idea what equipment you used, how you had it setup.
As one of the first step in the calibration, the Period Adjustment does not work as described in the manual. I used a pair of freshly NIST calibrated and adjusted frequency counters to measure the period between TP4 and TP5, both counters came up with a reading around 154ms, the trim pot for period (R20) had very little effect on changing it, and it is far from the 100ms stated in the calibration procedure. The same observation had been reported in a couple other older posts on this forum, so I am not alone.
Well, it's the internet and I can imagine the skill level of people working on them varies a fair amount. What I can do is show you some data off of my 8000A. From this, maybe you will see the problem. I suspect you didn't follow the procedures.
Let's start with R20. From the manual, they state:
4-26. Use the following procedure to adjust the 8000A measurement period:
a. Connect the frequency counter between TP5 and TP4(common) and shown in Figure 4-1.
b. Set the frequency counter to the time interval operating mode.
c. Using the appropriate adjusting tool, adjust R20 (PERIOD), shown in Figure 4-1 for a positive waveform portion of 100 ms +/- 5us. Variations of the time period should be <= +/-15us.
Seems clear to me but I can see someone jumping to the conclusion that they want you to measure the reciprocal of the frequency but that is not what they are saying.
LeCroy149: Showing the waveform in question. The DSO is NOT the right tool to use and the manual is clear about that but I have shown it to make it clear what they have asked you to measure. The "positive waveform portion of 100 ms +/- 5us", not the period.
PIC1: The manual is clear about using a frequency counter. I have an old HP5328A that supports making this measurement. Basically using two channels, one set to trigger in the rising edge, the other on the falling and measuring the time between these two events. I have a GPS that is used to derive the reference clock for my equipment. The timing error for what we are doing is negligible.
The procedure wants you to make sure the "Variations of the time period should be <= +/-15us." Here you can watch the counter to see the how stable my 8000A is.
https://youtu.be/qSqEX3nuF7cNow, I suspect that should answer your question as I assume did not make the measurement correctly but if not, lets move on.
On to measuring AC V, it was about 2-3 % high. The calibration procedure suggested changing "HF ADJ" (C3), again, its effect on the readout was minimal and I could not bring it within spec.
So I decided to experiment with R20 in AC V calibration (since it was ineffective in changing the period anyway), interestingly, I was able to bring AC V measurement to be spot on (where changing C3 had been a futile attempt). I tried two AC source, one at 20kHz (as specified by the manual), the other at 60Hz, they both read spot on now.
PIC2: The procedure wants 19.0V at 20KHz to set C3. In order to obtain the waveform, I use my Arb to drive a small signal step up transformer and my bench meter to monitor it's output.
PIC3: Here you can see my 8000A measuring the waveform. The manual states adjust C3 for a display of 18.79 to 19.21.
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