Hi,
Me and a friend are debating why you shouldn't have more than 4 repeaters (the 5-4-3 rule). I agree that there is a reason why that rule exists, but I don't fully understand where it comes from.
I know I am wrong, but I don't know where. I say that if each repeater can clean up the signal at the other end of a 100M Cat5 cable, I don't see why there can't be say 10 repeaters in a row.
If we divide the problem into sub-problems (each sub-problem being from the "out" end of the Nth repeater, in a 100M Cat5 cable and in the "in" end of the Nth+1 repeater), and each sub-problem is correct, I don't see why the whole problem shouldn't work. Suppositing this is true, say the first repeater receives a signal without errors (because of the 100M standard is respected). So when it repeats the signal to its other end, it sends out the same error-free (but amplified) signal. If the next repeater is within 100M of the first one, it should receive an error-free signal also, etc etc.
To me, when a repeater receives a correct signal, it can send it to the next one without errors if the 100M standard is respected... no matter how many repeaters there were before the Nth one, if it has an error-free signal, it should be able to continue the communication...
They probably decided on 4 repeaters because of the latency time, or the time needed to re-send the frames if a tramission fails... but we can't agree or anything, hehehe. Tell me where I am wrong.
Me and a friend are debating why you shouldn't have more than 4 repeaters (the 5-4-3 rule). I agree that there is a reason why that rule exists, but I don't fully understand where it comes from.
I know I am wrong, but I don't know where. I say that if each repeater can clean up the signal at the other end of a 100M Cat5 cable, I don't see why there can't be say 10 repeaters in a row.
If we divide the problem into sub-problems (each sub-problem being from the "out" end of the Nth repeater, in a 100M Cat5 cable and in the "in" end of the Nth+1 repeater), and each sub-problem is correct, I don't see why the whole problem shouldn't work. Suppositing this is true, say the first repeater receives a signal without errors (because of the 100M standard is respected). So when it repeats the signal to its other end, it sends out the same error-free (but amplified) signal. If the next repeater is within 100M of the first one, it should receive an error-free signal also, etc etc.
To me, when a repeater receives a correct signal, it can send it to the next one without errors if the 100M standard is respected... no matter how many repeaters there were before the Nth one, if it has an error-free signal, it should be able to continue the communication...
They probably decided on 4 repeaters because of the latency time, or the time needed to re-send the frames if a tramission fails... but we can't agree or anything, hehehe. Tell me where I am wrong.