| Home |
| Search |
| Today's Posts |
|
#14
May 28th 05, 11:23 AM
|
|||
|
|||
In sci.electronics.design Tracy Hall wrote:
Thanks, all, for your helpful responses. The general consensus appears to be that a tiny electric dipole will be induced that oscillates transverse to the cable at the same frequency as the carrier. It might possibly leak a tiny amount of energy to the area immediately surrounding the coax, but probably not a significant amount compared to that which is already lost due to imperfections in the cable. Hmm. I suppose that for largish low frequency components in the signal, you might also get the cable bits physically moving, both together, and in relation to each other, which might screw up the impedance a little. |
| Thread Tools | Search this Thread |
| Display Modes | |
|
|
Similar Threads
|
||||
| Thread | Forum | |||
| The "TRICK" to TV 'type' Coax Cable [Shielded] SWL Loop Antennas {RHF} | Antenna | |||
| The "TRICK" to TV 'type' Coax Cable [Shielded] SWL Loop Antennas {RHF} | Shortwave | |||
| Electric and Magnetic fields | Antenna | |||
| Poor quality low + High TV channels? How much dB in Preamp? | Antenna | |||
| Poor quality low + High TV channels? How much dB in Preamp? | Shortwave | |||
Threaded Mode
