Signal Conditioning

Is the AC waveform a sine wave? What frequency range is it? What are the model numbers of the Magnelab transformers?

Never heard of a 'rope' transducer, how do they work?

-AK2DM

Hey phdieum,

It's odd that one of the DMM's and LabVIEW should agree, while the other DMM does not.

The RMS of a sine waveform should be a/sqrt(2), and the value that it should be is 0.5 while the incorrect number you are getting is 0.71.

I wonder if the Fluke 189 and LabVIEW are giving you a and not the RMS (i.e. 0.71/sqrt(2) = 0.5).

Does this work for other values?

Hey AK2DM, 

The AC waveform for the split-core Magnelab SCT-1250 is basically sinusoidal.  The AC waveform for the rope Magnelab RCT-1800 is not as sinusoidal.  Take a look at the attached pic.  The top graph is the rope signal, the bottom is the split-core signal.  In this pic the two signals are on different circuits, but the top graph is the rope signal and should read 0.05v and not 0.078v.  Strange that the Klein DMM reads the signal correctly at 0.05v while the Fluke DMM and LabView with 9206 reads the 0.078v.

Hey Jake, very strange indeed.  In LabView I populate an array of size 2,500 then take the RMS of this array.  I'm assuming it's dividing by the sqrt (2).  When I measure the signal off the spit-core CT, the Klein DMM, Fluke DMM, and LabView with 9206 all read the correct signal.   It's only on the rope CTs, that I'm getting different readings.  Take a look at the attached photo of the signal.  The top graph is the rope and the bottom the split-core.  These are on different circuits, but you can see the split-core signal is sinusoidal while the top graph the rope signal is not so sinusoidal.  Still strange that the Klein gets the correct reading on that not so sinusoidal signal. 

Ahh- now I see what a rope sensor is!

Is it possible to increase your sampling rate? Those plots look pretty rough.

Are you using an integrator on your rope?

One thing I can think of is maybe you have high frequency harmonics on your line that the Fluke and 9206 are picking up. The Fluke has a bandwidth up to 100KHz, while the Klein is limited to 400Hz.

What type of equipment/machines are on the bus you are monitoring current on?

-AK2DM

Hey AK2DM,

I increased the sampling rate to 1us with no change.  I should have mentioned the plots were only a few samples so the wave could be seen.  The ropes do have built in integrators that are powered with 12v DC. 

I think I found a solution.  By applying avButterworth low-pass filter prior to the getting the RMS, I am able to get the correct voltage signal.  The high-cut off setting for the filter has no effect on the signal, but the low-cut does.  I can essentially tune the low-cut off so that my voltage signal is correct.  Does this make any sense?  Also on different phases of power supply, would the noise be different because it seems each rope CT needs i's own custom tuned low-cut off setting.  I guess this is to be expected on unique phases of power?  Thanks for your help.

-phdieum    

phdieum:

Good work! I would not had expected a triangular waveform, but never have used a rope and an integrator.

Glad you discovered the source and came up with a solution.

-AK2DM