kaimdaim Posted January 26, 2020 Report Share Posted January 26, 2020 I have 9 driven electrodes. I want to read (I) and (V) measurements via these probes. Here is the pairing configuration(Current is measured via the first couple ,and the voltage is measured via the second couple):1-2+3-41-2+4-51-2+5-61-2+6-71-2+7-81-2+8-92-3+4-52-3+5-62-3+6-72-3+7-82-3+8-93-4+5-63-4+6-73-4+7-83-4+8-94-5+6-74-5+7-84-5+8-95-6+7-85-6+8-96-7+8-9As seen,the total number of pairings is 21.So,what kind of switching configuration would be the best,in order to save time utmost for measurement process?I would like to get ideas to achieve an optimum design. Quote Link to comment Share on other sites More sharing options...
HarryA Posted January 27, 2020 Report Share Posted January 27, 2020 You need to define " driven electrodes ". Are they two leaded devices? Can they share a common ground? Do you have a set of relays in mind? If so can you use solid state relays? Quote Link to comment Share on other sites More sharing options...
kaimdaim Posted January 27, 2020 Author Report Share Posted January 27, 2020 I made my measurement design just depending on the resistivity measuring technique. I can just add a photo of the instrument which I made and now I wanted to develop it in order to decrease the measurement time by a switching design. Another detail is that during the measurement the electrodes are dipolar.For example,in 1-2+3-4 step,3 is negative pole and 4 is the positive pole,and then in the following step 1-2+4-5 the electrode 4 is the negative pole. That's why switching configuration has become a problem for me.I manually plug the jacks of the paired electrodes according to the order,and get the measurements via 2 multimeters; one of them for V,and the other for I.The first pair of electrodes is to measure the I in miniamperes,and the lateral pair is to measure the values in minivolts. https://imggmi.com/full/2020/1/27/66c8c6ad5b4438c5e49d335e15a4751d-full.jpg.html Quote Link to comment Share on other sites More sharing options...
HarryA Posted January 28, 2020 Report Share Posted January 28, 2020 I do not understand enough what you are doing to be helpful. Can you say, as a model, each electrode is like a wire of different metal (like copper, zinc, iron, etc) placed in an solution such that each creates a different electromotive force (emf) or voltage. Each wire/electrode has a higher emf going from 1 to 9 perhaps? Like wire 1 has 0.1 mv emf, wire 2 has 0.15 mv emf, and so on. Quote Link to comment Share on other sites More sharing options...
kaimdaim Posted January 28, 2020 Author Report Share Posted January 28, 2020 These electrodes stack into ground to estimate resistivity and then electrical tomography of the survey area. Quote Link to comment Share on other sites More sharing options...
HarryA Posted January 28, 2020 Report Share Posted January 28, 2020 There are only 6 unique numbers in each column above. If you used 4 rotary switches with one wafer each that would only require 6 * 4 = 24 contacts. A 6 position switch with one wafer: Quote Link to comment Share on other sites More sharing options...
kaimdaim Posted January 28, 2020 Author Report Share Posted January 28, 2020 Thanks @HarryA; coincidencely I was searching for single pole 6 position rotary switches today...It looks to be the best option, as you already mentioned. Quote Link to comment Share on other sites More sharing options...
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