Randy, the null repeats at - IIRC - odd ½-λ intervals. so if the cable was cut to a length equal to an odd multiple of ½ of the wavelength (1/2, 3/2, 5/2, etc.) you would see the null at the transmitter end repetitively. Regarding your reference to microwave, it doesn't matter what the frequency range is - it could be HF, VHF, UHF of SHF. so you could make this occur as long as your cable was cut to ½ wavelength. This only becomes "difficult" at HF frequencies, where ½ of a wavelength might be, for example, 40 meters long for the 80m band. But when you get to VHF your cable is now considerably more "manageable", such as for 2m - only 1 meter long, or approximately a bit over 3'.
I also think I remember that voltage and current are at opposites along the cable - where voltage is lowest, current is highest. and vice versa. I'm not in radio as a profession, so I don't work with this stuff on a day-to-day basis - therefore my memory may be a bit foggy regarding this phenomenon. Now putting on my flame-proof underwear. ;-) 73 de Mark - N9WYS _____ From: Repeater-Builder@yahoogroups.com On Behalf Of R. K. Brumback Quote from Jesse: "When you are using a VSWR meter you are measuring voltage, if you move the meter to a different spot on the cable, the voltage is different, therefore it gives you a different reading." This now makes more sense to me as I once saw a feed line demonstration with voltage and current sleds showing the difference at different points along the line. At some places the voltage was null (as with any sine wave). I don't see how this could happen at the antenna port of a transmitter unless it was microwave as the cabling from the tuner to the output connector is not near ½ wave. Also to Alan, I appreciate your sympathy for us "little people" but I do find this very interesting. And as you can see, the experts sometimes need a tune up. Randy W4CPT -----Original Message----- From: Repeater-Builder@yahoogroups.com On Behalf Of Jesse Lloyd Sent: Monday, August 27, 2007 12:48 PM To: Repeater-Builder@yahoogroups.com Subject: Re: [Repeater-Builder] Duplexers The length of coax doesn't effect impedance. Trimming the coax effects what is read on the VSWR meter because what is actually happening is that there is an interference pattern created when you have a mismatch on the end of feedline. This pattern is sinusoidal and changes in voltage and current along the line, in 1/2 wave periods. You will find max voltage peaks and min voltage peaks. Also current will go up and down too. When you are using a VSWR meter you are measuring voltage, if you move the meter to a different spot on the cable, the voltage is different, therefor it gives you a different reading. Now if you put a voltage null at your transmitter, what would happen? Normally with high SWR your transmitter will get hot because its dissipating the reflected power into its heatsink. If you put it at a voltage null, I would suspect that the SWR would not get dissipated by the transmitter as much as if you put it at a voltage peak. The standing waves are still there, there is still a mismatch, you will get the same power out, but its just not going to hurt your transmitter as much because of the heat. The only time coax length makes a difference to power out is if your using it in a matching stub, or a matching section ie. if you take 1/4 wave of 75 ohm cable put it on the end of 50 ohm cable you will get a match with a 112.5 ohm load. You make an interesting point though, why does the cabling of duplexer's need to be a certain length. I would suspect that its because they are looped and make an inductor. This then is part of the LC filtering, and changing the length effects L. But I could be wrong on that. Jesse On 8/27/07, R. K. Brumback <[EMAIL PROTECTED] <mailto:[EMAIL PROTECTED]> org> wrote: I have heard this point argued for years. "Does trimming the coax affect the SWR?" If the length of coax has an affect on impedance, then how could it not affect power out? We strive to maintain 50 ohms at the tail of all devices to match the end load. GE puts matching networks in their Mastr II's. I have taken a MFJ-259 and soldered a PL259 only at one end and then started trimming the coax down and watched the impedance change significantly with each cut. Duplexers come with precise lengths of cabling. I have heard that trimming coax only fools the meter. Not being an engineer with millions worth of equipment I can only make a SWAG (scientific wild ass guess) as to whether coax length makes a difference in power out. Randy W4CPT No virus found in this incoming message. Checked by AVG Free Edition. Version: 7.5.484 / Virus Database: 269.12.6 - Release Date: 8/24/2007 12:00 AM No virus found in this outgoing message. Checked by AVG Free Edition. Version: 7.5.484 / Virus Database: 269.12.6 - Release Date: 8/24/2007 12:00 AM