Edgar J. Kaiser
Certified Consultant
Please login with a confirmed email address before reporting spam
Posted:
6 years ago
19 déc. 2018, 05:14 UTC−5
Hi,
in the context of AC/DC the coaxial cable can be replaced by the equivalent circuit. This is a series inductor, series resistor and parallel capacitors. The coaxial cable must be much shorter than any wavelength in the model.
Cheers
Edgar
-------------------
Edgar J. Kaiser
emPhys Physical Technology
www.emphys.com
Hi,
in the context of AC/DC the coaxial cable can be replaced by the equivalent circuit. This is a series inductor, series resistor and parallel capacitors. The coaxial cable must be much shorter than any wavelength in the model.
Cheers
Edgar
Please login with a confirmed email address before reporting spam
Posted:
6 years ago
20 déc. 2018, 20:00 UTC−5
Hi,
in the context of AC/DC the coaxial cable can be replaced by the equivalent circuit. This is a series inductor, series resistor and parallel capacitors. The coaxial cable must be much shorter than any wavelength in the model.
Cheers
Edgar
Thanks for your comment Mr. J. Kaiser,
the approach proposed by you is very rough approximation for my task, since I investigate the effect of coaxial cable length.
Regards
Shant
-------------------
Sh.Arakelyan
>Hi,
>
>in the context of AC/DC the coaxial cable can be replaced by the equivalent circuit. This is a series inductor, series resistor and parallel capacitors. The coaxial cable must be much shorter than any wavelength in the model.
>
>Cheers
>Edgar
Thanks for your comment Mr. J. Kaiser,
the approach proposed by you is very rough approximation for my task, since I investigate the effect of coaxial cable length.
Regards
Shant
Edgar J. Kaiser
Certified Consultant
Please login with a confirmed email address before reporting spam
Posted:
6 years ago
21 déc. 2018, 04:45 UTC−5
I would say, it depends.
The equivalent parameters depend on the length, e.g. the capacitance for a typical 50 Ohm cable is 90 pF/m. The equivalent circuit can be good enough as long as the wavelength of the signal is much larger than the cable length.
If the cable length gets longer than lambda/10 (this limit depends on the accuracy requirements) and you have to take transmission line effects into account you need a different approach.
-------------------
Edgar J. Kaiser
emPhys Physical Technology
www.emphys.com
I would say, it depends.
The equivalent parameters depend on the length, e.g. the capacitance for a typical 50 Ohm cable is 90 pF/m. The equivalent circuit can be good enough as long as the wavelength of the signal is much larger than the cable length.
If the cable length gets longer than lambda/10 (this limit depends on the accuracy requirements) and you have to take transmission line effects into account you need a different approach.
Please login with a confirmed email address before reporting spam
Posted:
6 years ago
21 déc. 2018, 14:10 UTC−5
Modeling the coaxial cable with several lumps per wavelength will provide a good approximation. For "several"- four is enough, eight better, more probably not necessary. Most accurate will be to use T or pi sections.
D.W. Greve
DWGreve Consulting
Modeling the coaxial cable with several lumps per wavelength will provide a good approximation. For "several"- four is enough, eight better, more probably not necessary. Most accurate will be to use T or pi sections.
D.W. Greve
DWGreve Consulting
Please login with a confirmed email address before reporting spam
Posted:
6 years ago
26 déc. 2018, 21:04 UTC−5
Updated:
6 years ago
27 déc. 2018, 02:00 UTC−5
Thanks a lot, for your valuable comments.
-------------------
Sh.Arakelyan
Thanks a lot, for your valuable comments.