I just received my 0.005% 10k resistor and my 0.01% 100 ohm resistors today.
I bought them to set up a poor man's resistance standard to test my meters.
My 1979 vintage Fluke 8375A (that I also got the manual for today) reads the 10k resistor as 9997.7 ohms, and the 100 ohm resistor as 100.020 ohms.
I didn't let it warm up (the calibration procedure says leave it for an hour) so it's still turned on and I'll see what it reads later.
I'm using the resistance probes I built myself (it's not rocket science).
I believe the meter was last calibrated in the late 1990's so it's well overdue. I don't have the equipment to do it myself, and the meter cost only a little more than the resistors.
I'll be happy knowing approximately how (in)accurate it is.
I also have a precision 10V reference (well, as precision as you can get for $10) that I'm going to build up inside an oven (maybe). For $10 you can't get really good temperature stability, so, I'll keep the temperature constant
The manual is really a blast from the past. It includes full calibration procedures, schematics, and fault finding guides. It also lists all the HP equipment you need to calibrate it
OK, so currently the 10K range is reading about 0.02% low and the 100 ohm range is about 0.02% high I'm happy so far. The specs say 0.05% for the 10K range and 0.01% for the other ranges.
It's been on for a while now and it's drifting up maybe 1 or 2 counts in the least significant digit.
I bought them to set up a poor man's resistance standard to test my meters.
My 1979 vintage Fluke 8375A (that I also got the manual for today) reads the 10k resistor as 9997.7 ohms, and the 100 ohm resistor as 100.020 ohms.
I didn't let it warm up (the calibration procedure says leave it for an hour) so it's still turned on and I'll see what it reads later.
I'm using the resistance probes I built myself (it's not rocket science).
I believe the meter was last calibrated in the late 1990's so it's well overdue. I don't have the equipment to do it myself, and the meter cost only a little more than the resistors.
I'll be happy knowing approximately how (in)accurate it is.
I also have a precision 10V reference (well, as precision as you can get for $10) that I'm going to build up inside an oven (maybe). For $10 you can't get really good temperature stability, so, I'll keep the temperature constant
The manual is really a blast from the past. It includes full calibration procedures, schematics, and fault finding guides. It also lists all the HP equipment you need to calibrate it
OK, so currently the 10K range is reading about 0.02% low and the 100 ohm range is about 0.02% high I'm happy so far. The specs say 0.05% for the 10K range and 0.01% for the other ranges.
It's been on for a while now and it's drifting up maybe 1 or 2 counts in the least significant digit.