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Question about EZNEC simulation of a radiating coax line
We can use EZNEC to simulate the radiation of a coax with a wire as
suggested in the help file "The radiation properties of a coaxial feedline can be modeled by connecting a wire of the coax shield's diameter to the point on the antenna where the shield connects." We then see that the current has a maximum somewhere along that wire. My question: Why do we have a maximum? Is is because some current is also going up from the source outside the coax?, In that case, some kind of constructive and destructive interference could happen on the outside of the coax due to phases differences between the two currents, creating maximum and also nodes. Or is there another reason explaining that maximum? |
Question about EZNEC simulation of a radiating coax line
ve2pid wrote:
We can use EZNEC to simulate the radiation of a coax with a wire as suggested in the help file "The radiation properties of a coaxial feedline can be modeled by connecting a wire of the coax shield's diameter to the point on the antenna where the shield connects." We then see that the current has a maximum somewhere along that wire. My question: Why do we have a maximum? Is is because some current is also going up from the source outside the coax?, In that case, some kind of constructive and destructive interference could happen on the outside of the coax due to phases differences between the two currents, creating maximum and also nodes. Or is there another reason explaining that maximum? The current can be caused by either of two mechanisms, or both: conduction or induction. Conducted current occurs when, for example, a coaxial line is connected to a dipole. Current from the inside of the shield splits and part goes into the antenna and part goes down along the outside of the shield. This can be effectively stopped with a current balun (common mode choke). Induced current will be zero if the transmission line is symmetrically placed with respect to a symmetrical antenna which has equal currents in the two halves. But in other cases, the fields from various parts of the antenna won't sum to zero at the location of the transmission line, so current will be induced on it. Current baluns can reduce this current also, but it generally takes at least two, spaced a quarter wavelength apart. Now for the question. You have a maximum for the same reason you have maxima and minima along an antenna -- in fact, a transmission line with common mode current *is* an antenna, and radiates the same as any other one. The maxima and minima can be explained as the envelope of traveling current waves reflecting from an open end (or current balun or other discontinuity) and interfering with each other. These are known as standing waves, because the positions of the maxima and minima stay in the same places and don't move. A lookup of "standing waves" will bring you a lot more information, and I'm sure some good graphics, to further explain it. Roy Lewallen, W7EL |
Question about EZNEC simulation of a radiating coax line
ve2pid wrote:
My question: Why do we have a maximum? The Z0 of the outside braid is somewhere in the ballpark of a few hundred ohms. The impedance at the transmitter ground is usually low. Of course there are reflections that develop standing waves. -- 73, Cecil, IEEE, OOTC, http://www.w5dxp.com |
Question about EZNEC simulation of a radiating coax line
Roy Lewallen wrote:
The maxima and minima can be explained as the envelope of traveling current waves reflecting from an open end (or current balun or other discontinuity) and interfering with each other. These are known as standing waves, because the positions of the maxima and minima stay in the same places and don't move. Roy, since you understand the above, you must also understand that the mostly unchanging phase of that standing wave current (relative to the source current) cannot be used to predict the delay through a wire or a loading coil. How about correcting your previous postings on that subject? Your reports of unmeasurable phase shift through loading coils are supported by EZNEC and are completely meaningless as far as predicting the delay through a loading coil or even through a wire. -- 73, Cecil, IEEE, OOTC, http://www.w5dxp.com |
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