What Are the Limits of Frequency and Current for Wireless Device Antennas?

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The discussion explores the limits of frequency and current for wireless device antennas, emphasizing that while there are no theoretical limits, practical constraints exist. Frequencies below 1 Hz and extremely high currents can be achieved, but the size of the antenna becomes a significant factor. Coiling antennas can increase inductance, affecting the resistance to current changes, which may limit signal amplitude. Tuning circuits to specific frequencies involves creating resonance, with practical limits on capacitance determined by budget rather than physics. Overall, the efficiency of antennas is influenced by their design and the physical constraints of their environment.
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I have a weird question I think... I'de like to know how low a frequency and how high a current can a wireless device transmit.

eg, radio frequency is over 1000s of Hz, can it be much lower than that?When you receive a radio signal to an antenna, a small current is generated which is interpreted as sound. How high can that current be?

If there's no limit to the amperage generated at the receiving end, how can you calculate it?
10x!
 
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well, just check the electromagnetic spectrum chart, somewhere higher or lower, it won't be a radio signal anymore.
 
It's not a weird question at all.

There are no limits. But there are practical limits. For example, if you start
off by saying that you have a 1 MegaWatt transmitter, then you can determine
how large your antenna has to be if you fix the frequency in order to achieve
a certain efficiency.

You can make a 0.00001 Hz tansmitter and deliver billions of amps through
the antenna. Just not on the Earth because the planet is too small to hold the
antenna.
 
re

low frequency antenna don't have to be a long piece of wire, you can have large coil of wire that when unwound is just as long.
 
waht said:
low frequency antenna don't have to be a long piece of wire, you can have large coil of wire that when unwound is just as long.

I'm not an electrical engineer, so this is partly a question. It seems to me that coiling the antenna would give it a higher inductance, and therefore a higher resistance to change in current. Doesn't that limit the amplitude of the signal you can transmit/receive?

Also, I was thinking about the frequency of the receiving circuit. From what I've heard, you "tune" to a specific frequency by creating a circuit that has a natural frequency at that of the desired radiation, creating a resonance. Might there be practical limits to the natural frequency of this circuit? How large can one make a capacitance in practice?
 
The area of the coil would have to go up in order for it to be an efficienct radiator.
The number of turns won't make it more effieicient but it would change the way
you would drive the antenna. Look up "Radiation Resistance" to discover how.

The practical limit on capacitance is set by your budget. Bill Gates could
afford many many Farads.
 

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