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Registered Member #2431
Joined: Tue Oct 13 2009, 09:47PM
Location: Chico, CA. USA
Posts: 5639
Following up on my previous related thread here: i really need help figuring this out, Ive tried over the past 2 weeks to read the help file, but i just dont see how to get a useful result.
Im grateful to "2spoons" for his help, but i need a step-by-step click-by-click example on a file like this one, so i can see how its done.
]twocircles.zip[/file]
The larger outer circle would be the enviromental boundary, the left circle should be 14kv and right should be 0 volts, while the free space should be oil dielectric which is in the materials library. (in inches)
TY for any help.
EDIT: this pdf is helping, ill try again tomarrow morning. FEmm ]tutorial-electrostatic.pdf[/file]
Registered Member #2431
Joined: Tue Oct 13 2009, 09:47PM
Location: Chico, CA. USA
Posts: 5639
Im trying to do some analysis on the field distrubution on the HV resistors seen below.
--On the left, the long resistors are 20kV, 75Mohm, which had the blue silicone removed via sandpaper. This resistor is thus destroyed.
--On the right, the shorter resistors are 14kV, 125Mohm, MEK was used to removed the silicone which came off so easily this resistor is probably still useable.
*Notice the bottom 0.2 inches are different, and would have a different field distrubution, presumably.
Registered Member #1792
Joined: Fri Oct 31 2008, 08:12PM
Location: University of California
Posts: 527
Looks like you've set the top right two line segments to 1V as well the two line segments they are facing. The "inner" two line segments should be 1V and the outer two should be 0V if you're following the tutorial. See below:
Registered Member #2431
Joined: Tue Oct 13 2009, 09:47PM
Location: Chico, CA. USA
Posts: 5639
Mattski wrote ...
Looks like you've set the top right two line segments to 1V as well the two line segments they are facing. The "inner" two line segments should be 1V and the outer two should be 0V if you're following the tutorial. See below:
Ooops! your right.
Yay! (i changed the field from 0-1V to 0-1kV just to see what would happen)
Registered Member #1321
Joined: Sat Feb 16 2008, 03:22AM
Location:
Posts: 843
Patrick I'm curious as to why you want to model these resistors? Is it just so you can learn how to do field simulations, or is there some other reason?
Registered Member #2431
Joined: Tue Oct 13 2009, 09:47PM
Location: Chico, CA. USA
Posts: 5639
jpsmith123 wrote ...
Patrick I'm curious as to why you want to model these resistors? Is it just so you can learn how to do field simulations, or is there some other reason?
Reason: HV oscilloscope probes, high bandwidth.
Ive been thinking about Marco Denicolai's tesla coil + 600kV 10MhZ probe. Field analysis has proved to be important in desinging low capactance high bandwidth probes. (I think ive been following his work since 2000 or 2001 ?! WOW thats like about 10 years.)
At he gives a good explanation of the field arrrangement and step response vs time.
My current thinking has me wanting to simulate grading plates for field control, on the top and bottom of the resistor string.
EDIT: Im going to presume that the funny greek symbol here (Epsilon sub X, and Epsilon sub Y), means dielectric constant or permitivity? I also assume some materials can show polarized field propagation? thus the different fields ?
Registered Member #1792
Joined: Fri Oct 31 2008, 08:12PM
Location: University of California
Posts: 527
wrote ... EDIT: Im going to presume that the funny greek symbol here (Epsilon sub X, and Epsilon sub Y), means dielectric constant or permitivity? I also assume some materials can show polarized field propagation? thus the different fields ?
Yep, it's relative dielectric constant. Materials which are anisotropic (as opposed to isotropic) can have a material property such as dielectric constant which depends on the direction in which the field is applied. I'm not aware of common dielectrics which exhibit dielectric anisotropy though, generally you need to have a crystal for anisotropy.
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How to use FEMM 4.2, need help.
