Here is a basic explanation and a comment on the patent issue the author is addressing:
1. Antennas are designed to either transmit or receive RF.
2. The antenna is like water spigot for RF energy. If you design the antenna right, you can maximize the amount of RF energy you can get through it. This is equivalent to minimizing the impedance.
3. But, antennas are resonant. In other words the amount of RF that gets through can be maximum at one frequency (or a small range or bandwidth of frequencies), but very bad outside of that range.
4. Antenna designers try all kinds of tricks and techniques--including shapes, elements, delays, etc.--to try to get the antenna to have a broader resonance. An analogy might be the design of a musical instrument like the saxophone.
5. The VSWR the author mentions is a way of charting the resonance of the antenna with respect to frequency, ie. the bandwidth of the antenna.
6. Typical antennas (like a rod or something) have a bandwidth of maybe 5-10% of the center frequency.
7. Fancier antennas like a discone have a fractional bandwidth of up to 10:1.
8. An antenna like the one described by the author claimed to be 100:1.
9. But...even though the antenna may have broad bandwidth...the other factor antenna designers care about is gain (or loss). And this just complicates the design process even more.
Now, what I find most interesting about the author's comments is their suggestion that people continue to reinvent the wheel and then patent it. I too have seen this happen (not necessarily patents, but with other "technology inventions") over the years. I used to work in radio direction finding and every five or ten years someone would claim to have a new way of locating signals--but it's always just the same ideas over and over again. In other words, physics is physics.
msuniverse2026 26 minutes ago [-]
(2006)
Rendered at 07:55:36 GMT+0000 (Coordinated Universal Time) with Vercel.
1. Antennas are designed to either transmit or receive RF.
2. The antenna is like water spigot for RF energy. If you design the antenna right, you can maximize the amount of RF energy you can get through it. This is equivalent to minimizing the impedance.
3. But, antennas are resonant. In other words the amount of RF that gets through can be maximum at one frequency (or a small range or bandwidth of frequencies), but very bad outside of that range.
4. Antenna designers try all kinds of tricks and techniques--including shapes, elements, delays, etc.--to try to get the antenna to have a broader resonance. An analogy might be the design of a musical instrument like the saxophone.
5. The VSWR the author mentions is a way of charting the resonance of the antenna with respect to frequency, ie. the bandwidth of the antenna.
6. Typical antennas (like a rod or something) have a bandwidth of maybe 5-10% of the center frequency.
7. Fancier antennas like a discone have a fractional bandwidth of up to 10:1.
8. An antenna like the one described by the author claimed to be 100:1.
9. But...even though the antenna may have broad bandwidth...the other factor antenna designers care about is gain (or loss). And this just complicates the design process even more.
Now, what I find most interesting about the author's comments is their suggestion that people continue to reinvent the wheel and then patent it. I too have seen this happen (not necessarily patents, but with other "technology inventions") over the years. I used to work in radio direction finding and every five or ten years someone would claim to have a new way of locating signals--but it's always just the same ideas over and over again. In other words, physics is physics.