Enjoyed your enthusiasm. Measuring HIGH resistance (and low conductance) quite the expensive rabbit hole when projects come along that demand REAL ACCURACY. Guard voltages, leakage currents, tellurium copper, TCR's and thermal EMF's are some of the genies that emerge from old bottles of college theory, and actually visit you at your work bench 😆.
Muchas gracias por la explicación ,hace pocos estuve investigando esta función del Fluke 87v .Llegué a la misma conclusión. Gracias. Un saludo desde España
Hi friend. How are you? Amazing video!!! I learned this concept, but never applied (to be honest I use the insulation tester when things goes this big haha). It's amazing to learn different methods to apply in our daily work, thanks a lot, you're great! Cheers buddy 🍻
I was just thinking "if I was explaining that, I would misspell it and say nanoseconds instead of nanosiemens" when you said it. Great minds think alike, they say, but I don't know how I managed to think alike a great professional that I admire, like you haha... Thanks a lot, that was very useful content, I'm even thinking about invest in a meter that offer me conductance measurement now, to more refined working.
There is a much easier way to do that calculation. Siemens are the reciprocal of ohms, and vice versa. For instance, 2 ohms of resistance is equivalent to 0.5 siemens of conductivity. Or 20 siemens of conductivity are equivalent to 0.05 ohms of resistance. In the case of your first measurement, just key in 10.05E-9, (10.05 nano), and hit the reciprocal key. The answer is 99.5E6, (99.5 Meg).
Enjoyed your enthusiasm. Measuring HIGH resistance (and low conductance) quite the expensive rabbit hole when projects come along that demand REAL ACCURACY. Guard voltages, leakage currents, tellurium copper, TCR's and thermal EMF's are some of the genies that emerge from old bottles of college theory, and actually visit you at your work bench 😆.
Great demonstration, thank you for taking the time to create this video. 👍👍
Muchas gracias por la explicación ,hace pocos estuve investigando esta función del Fluke 87v .Llegué a la misma conclusión. Gracias.
Un saludo desde España
Good tip Peepaw . So glad to see you again
Hi friend. How are you?
Amazing video!!! I learned this concept, but never applied (to be honest I use the insulation tester when things goes this big haha).
It's amazing to learn different methods to apply in our daily work, thanks a lot, you're great!
Cheers buddy 🍻
I was just thinking "if I was explaining that, I would misspell it and say nanoseconds instead of nanosiemens" when you said it.
Great minds think alike, they say, but I don't know how I managed to think alike a great professional that I admire, like you haha...
Thanks a lot, that was very useful content, I'm even thinking about invest in a meter that offer me conductance measurement now, to more refined working.
Hello Mr. Riggs, I don't know why I said nanoseconds. HaHa. I guess time is on my mind HaHa.
I love this video, Ever..tks Peepaw, 🎩
There is a much easier way to do that calculation. Siemens are the reciprocal of ohms, and vice versa. For instance, 2 ohms of resistance is equivalent to 0.5 siemens of conductivity. Or 20 siemens of conductivity are equivalent to 0.05 ohms of resistance.
In the case of your first measurement, just key in 10.05E-9, (10.05 nano), and hit the reciprocal key. The answer is 99.5E6, (99.5 Meg).
Love this video, and learned! - very unique style ;) - Thank you!
Woww Master bien echó, good work,..🔧
Thank you
Welcome to Fluke 87V society mr PeePaw :)
nice video , thank you !
Master has a dream clock, accept disciples :)
😁👍
goot
This meters are too much expensive in india sir even though I cant afford it 😢
As I saw in video, put same resistors in paralel and multiply at number of resistors. I assume this can work only with identical resistor :)
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