Proxim Wireless Corporation U58-45 Manual Do Utilizador
Antenna Type
Manufacturer
Model Number
Mid-band Gain (dBi)
Notes
1 Foot Flat Panel
Gabriel
DFPD1-52
23.5
2 Foot Flat Panel
Gabriel
DFPD2-52
28
RSI
A57A24-U
26.5
Not rated @ 5.2 GHz
2 Foot Parabolic
Gabriel
SSP2-52B
28.5
RSI
P-57C24
29
Not rated @ 5.2 GHz
Radio Waves
SP2-5.2
28.3
3 Foot Parabolic
Radio Waves
SP3-5.2
31.4
4 Foot Parabolic
Gabriel
SSP4-52A
34.2
RSI
P-57B48
34.7
Not rated @ 5.2 GHz
Radio Waves
SP4-5.2
34.6
6 Foot Parabolic
Gabriel
SSP6-52A
37.5
RSI
P-57A72
38.2
Not rated @ 5.2 GHz
Radio Waves
SP6-5.2
37.7
8 Foot Parabolic
Gabriel
DRFB8-55ASE
40.7
Not rated @ 5.2 GHz
RSI
P-57A96
40.8
Not rated @ 5.2 GHz
Feeder Loss Type Manufacturer
Model Number
Loss/100'
Notes
1/2" foam coax
Andrew
LDF 4-50
6.6 dB
add ~0.25 dB per connector
5/8" foam coax
Andrew
LDF 4.5-50
4.7 dB
add ~0.25 dB per connector
Waveguide
Andrew
EW-52
1.2 dB
does not include transitions
Formula for determining maximum output power setting for 5.2 GHz U-NII (LE-LAN) Transmitters (@ EIRP=30dBm):
Max Tx (dBm) = 30 - G + FL
where: G = Antenna Gain
FL = Feeder Loss including connectors
Formula for determining maximum output power setting for 5.7 GHz U-NII (LE-LAN) Transmitters:
Max Tx (dBm) = 23 + (Commission Certified Output Power) - G + FL
where: G = Antenna Gain
FL = Feeder Loss including connectors
Note: All Western Multiplex radios require professional installation.
Note: Western Multiplex U-NII devices have a built-in calibrated Tx Power Output Voltage port to aid in setting
the output power correctly, without the use of an RF power meter. The measurement in Volts is multiplied
by 10 for a measurement in dBm. e.g. 1.0 V = 10 dBm; 2.0 V = 20 dBm, 1.5 V = 15 dBm; 0.5 V = 5 dBm; etc.
the output power correctly, without the use of an RF power meter. The measurement in Volts is multiplied
by 10 for a measurement in dBm. e.g. 1.0 V = 10 dBm; 2.0 V = 20 dBm, 1.5 V = 15 dBm; 0.5 V = 5 dBm; etc.