Proxim Wireless U58-45 User Manual Modified page

Proxim Wireless Corporation Modified page

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Contents

1. Users manual
2. Updated Installation and Maintenance Manual
3. Modified page regarding RF exposure warning
4. Modified page

Modified page

Antenna Type Manufacturer Model Number Mid-band Gain (dBi) Notes1 Foot Flat Panel Gabriel DFPD1-52 23.52 Foot Flat Panel Gabriel DFPD2-52 28RSI A57A24-U 26.5 Not rated @ 5.2 GHz2 Foot Parabolic Gabriel SSP2-52B 28.5RSI P-57C24 29 Not rated @ 5.2 GHzRadio Waves SP2-5.2 28.33 Foot Parabolic Radio Waves SP3-5.2 31.44 Foot Parabolic Gabriel SSP4-52A 34.2RSI P-57B48 34.7 Not rated @ 5.2 GHzRadio Waves SP4-5.2 34.66 Foot Parabolic Gabriel SSP6-52A 37.5RSI P-57A72 38.2 Not rated @ 5.2 GHzRadio Waves SP6-5.2 37.78 Foot Parabolic Gabriel DRFB8-55ASE 40.7 Not rated @ 5.2 GHzRSI P-57A96 40.8 Not rated @ 5.2 GHzFeeder Loss Type Manufacturer Model Number Loss/100' Notes1/2" foam coax Andrew LDF 4-50 6.6 dB add ~0.25 dB per connector5/8" foam coax Andrew LDF 4.5-50 4.7 dB add ~0.25 dB per connectorWaveguide Andrew EW-52 1.2 dB does not include transitionsFormula for determining maximum output power setting for 5.2 GHz U-NII (LE-LAN) Transmitters (@ EIRP=30dBm):Max Tx (dBm) = 30 - G + FLwhere: G = Antenna GainFL = Feeder Loss including connectorsFormula for determining maximum output power setting for 5.7 GHz U-NII (LE-LAN) Transmitters:Max Tx (dBm) = 23 + (Commission Certified Output Power) - G + FLwhere: G = Antenna GainFL = Feeder Loss including connectorsNote: 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 settingthe output power correctly, without the use of an RF power meter. The measurement in Volts is multipliedby 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.