Hey all,
I work at a school lending out materials and offering advice whenever I can. A student came up to me the other day and was asking about folded dipole antennas. He was constructing a antenna that he built from a schematic in a textbook (This was a few weeks ago so I don't have any dimensions or data). He said he followed the design perfectly and even had a machine etch it onto a PCB.
His problem was his resonate frequency. I believe he was shooting for 15 MHz and ended up with 13MHz as his resonant frequency. Now I know that small little things like transmission line length, self-induced capacitance, etc would cause a small shift in resonance but 13%?
We talked about ways to solve it (i.e. loading coils and adjustable capacitors) but everything just came back down why such a huge gap in resonance. Now I'm only a 3rd year student so my antenna knowledge is limited so I was wondering if any of you guys had any input. I love to trouble shoot and solve problems so this has been eating at me.
Here are a couple of ideas that I have had that may cause a problem:
1. Would a small crack or break in the short between the two ends of the folded di-pole affect the antenna and reduce it to a regular di-pole antenna
2. He was using a comm analyzer to measure the center frequency, could a setting or adjustment error make this 13% possible?
3. These analyzers, in addition to the antenna being tested, are in a small lab about, lets say 25' X 25' and packed to the brim with lockers and computers, not to mention the labs walls are concrete blocks. Could any kind of reflected waves induce a sort of out of phase component knocking the antenna of its center?
I work at a school lending out materials and offering advice whenever I can. A student came up to me the other day and was asking about folded dipole antennas. He was constructing a antenna that he built from a schematic in a textbook (This was a few weeks ago so I don't have any dimensions or data). He said he followed the design perfectly and even had a machine etch it onto a PCB.
His problem was his resonate frequency. I believe he was shooting for 15 MHz and ended up with 13MHz as his resonant frequency. Now I know that small little things like transmission line length, self-induced capacitance, etc would cause a small shift in resonance but 13%?
We talked about ways to solve it (i.e. loading coils and adjustable capacitors) but everything just came back down why such a huge gap in resonance. Now I'm only a 3rd year student so my antenna knowledge is limited so I was wondering if any of you guys had any input. I love to trouble shoot and solve problems so this has been eating at me.
Here are a couple of ideas that I have had that may cause a problem:
1. Would a small crack or break in the short between the two ends of the folded di-pole affect the antenna and reduce it to a regular di-pole antenna
2. He was using a comm analyzer to measure the center frequency, could a setting or adjustment error make this 13% possible?
3. These analyzers, in addition to the antenna being tested, are in a small lab about, lets say 25' X 25' and packed to the brim with lockers and computers, not to mention the labs walls are concrete blocks. Could any kind of reflected waves induce a sort of out of phase component knocking the antenna of its center?
