Hello All,
I was looking as some of the proposed link paths in discussion. We use the stock equipment and base our PtP links locations on the performance of a stock radio. Has anyone in the group considered using an external RF bi-directional amplifier. Now that we are able to go into our band segment, we could easy employ a 1 or 2 watt, or even a 5 watt amplifier to achieve a greater link distance. Company's (note 1) make Bi-directional RF Amplifiers not quite legal for the commercial market but would be perfectly for Amateur use.
Let me know your thoughts.
Paul...
WD6EBY
http://www.qsl.net/n9zia/wireless/appendixD.html
http://www.ebay.com/sch/i.html?_odkw=WiFi+802.11n+amplifier&_osacat=0&_from=R40&_trksid=p2045573.m570.l1313.TR0.TRC0.H0.X5.8ghz+WiFi+802.11n+amplifier.TRS0&_nkw=5.8ghz+WiFi+802.11n+amplifier&_sacat=0
http://www.l-com.com/wireless-booster-58-ghz-wifi-amplifiers
I was looking as some of the proposed link paths in discussion. We use the stock equipment and base our PtP links locations on the performance of a stock radio. Has anyone in the group considered using an external RF bi-directional amplifier. Now that we are able to go into our band segment, we could easy employ a 1 or 2 watt, or even a 5 watt amplifier to achieve a greater link distance. Company's (note 1) make Bi-directional RF Amplifiers not quite legal for the commercial market but would be perfectly for Amateur use.
Let me know your thoughts.
Paul...
WD6EBY
http://www.qsl.net/n9zia/wireless/appendixD.html
http://www.ebay.com/sch/i.html?_odkw=WiFi+802.11n+amplifier&_osacat=0&_from=R40&_trksid=p2045573.m570.l1313.TR0.TRC0.H0.X5.8ghz+WiFi+802.11n+amplifier.TRS0&_nkw=5.8ghz+WiFi+802.11n+amplifier&_sacat=0
http://www.l-com.com/wireless-booster-58-ghz-wifi-amplifiers
Yeah - some of these are only suitable for 802.11b only - you need to be careful the one you get is suitable for OFDM "g" and "n" modes. There will be quite a price difference between the two (b and g). Speaking of two, if you are using a MIMO radio, then you will need two of these amplifiers to maintain the MIMO feature. Of course, in a PtP link you need the same signal at both ends, so in total you need 4 amplifiers.
Lastly - the LCOM units have an upper power limit of 20 dBm before letting the smoke out of the input side. I would not trust my $80 wireless router not to accidentally make +26 dBm under some unforeseen circumstance. For that reason, you need to make sure to have at least 6 dB of attenuation between the radio and the amplifier - either coax cable or a 50 ohm microwave attenuator in the line.
Good luck.
( transmitter dbm ) + ( Antenna dbi ) = total dBm
http://www.air802.com/fcc-rules-and-regulations.html
http://www.qsl.net/kb9mwr/projects/wireless/pwr.html
The KB9MWR link you supplied has the answer - as long as you are not running spread-spectrum (802.11g is OFDM not SS so OK) then you can put 1500 watts into the coax and no limit on the antenna gain either. Getting a T/R switch that can operate 50 times a second is probably out of the question so separate transmit and receive antennas (with receiver protection) would be required. Efficiency at 2.4 GHz might be 10% and at 5.8 GHz more like 5% so three-phase AC power is going to be required. There are limits on out-of-band, or adjacent band, emissions so some filtering may be needed.
Figure the 2.4 GHz unit wll cost as much as a luxury car; the 5.8 GHz unit will cost as much as a good-sized house.