WJ Communications SX1115 User Manual UNII
WJ Communications, Inc. UNII
Contents
- 1. Excerpt from Cisco manual showing antenna mounting
- 2. Suhner antenna data
- 3. Hardware manual will be same for UNII but with MPE values shown in WJ test repor
- 4. RadioWave antenna data, page 1
- 5. RadioWave antenna, page 2
- 6. RadioWave antena, page 3
- 7. RSI Comsat patch antenna data, page 1
- 8. RSI patch, page 2
- 9. RSI patch, page 3
- 10. RSI patch, page 4
- 11. Antnenna mount detail, RadioWave 4 ft dish
- 12. Antennas used during tests (antenna list)
- 13. 14 dBi corne antenna data sheet
- 14. Response to 2 Dec request re MPE
- 15. WJ instruction manual with page 7 to be replaced
- 16. Mobil Mark antenna info
- 17. Radio Wave antenna info
- 18. Includes multiple antenna location instructions to installer
- 19. pdf version of MPE info from WJ
- 20. Copy of email sent to you and Kwok re MPE
- 21. Revised antenna installation instruction
Mobil Mark antenna info
Specifications
Frequency: See above
Gain: See above
Bandwidth @2:1 SWR: 200 MHz or better
Impedance: 50 Ohm nominal
Maximum Power: 100 Watts
OD Series Beamwidth: 14o vertical, 360o horizontal
SCR Series Beamwidth: 30o vertical, 60o horizontal
Front-to-Back ratio: 30 dB for SCR Series
Lightning Protection: External protection
recommended
SCR Series Aperture: 3" x 5.5" front face
SCR Panel Size: 3" x 3" each
OD Series Size: 18" length x 1" diameter
Max Wind Velocity: 100 mph, all models
SCR Series Material: Irridited aluminum, ABS
plastic radome material
OD Series Material: ABS Black radome, with
irridited aluminum feed
Weight: <1 lbs, all models
Mounting: Pole or surface mount,
hardware included.
Mounting Dimension: Mounts up to 2" outside
diameter mast
SCR Series Connector: N female attached at
rear of antenna
OD Series Connector: N female
Product
Specifications
Model Numbers
Model Description Frequency
SCR14-5150 14 dBi Corner Reflector 5.15-5.35 GHz
SCR14-5725 14 dBi Corner Reflector 5.72-5.83 GHz
OD9-5250 9 dBi Omnidirectional 5.15-5.35 GHz
OD9-5725 9 dBi Omnidirectional 5.72-5.83 GHz
Special configurations are available upon request.
Please consult factory for more information.
OD Series
SCR Series
Mobile Mark's high frequency antennas are designed for
new microwave systems, including U-NII wireless net-
working applications. These advanced designs accom-
modate the high-speed wideband performance that the
new services will provide.
The directional corner reflectors use a half-wavelength
element configuration. A unique balun fed design pro-
vides high efficiency radiation without skewing the
radiation pattern. The result is excellent bandwidth, gain
3900-B River Road, Schiller Park, IL 60176 Tel: 800-648-2800 or 847-671-6690 Fax: 847-671-6715
Visit our web page at www.mobilemark.com. Specifications subject to change without notice (09/99).
and match over the frequency range. One model covers
both of the lower bands (5.15 - 5.35 GHz) and another
covers the upper band. Each reflector panel is only 3" x
3". The antenna element is protected in an ABS radome,
the panels are irridited for all-weather protection. The
female N connector exits at the back of the corner. The
mounting hardware provided allows for pole or surface
mount, U-bolts are included.
The omni antennas use an array of uniquely phased
elements stacked vertically. This compresses the
antennas beamwidth for vertical gain, while maintaining a
uniform omni pattern in the azimuth. The unique phasing
maintains excellent frequency response. The array is
protected in a black ABS radome. The entire assembly is
only 18 inches long, with the radome diameter only 1".
Windloading on this antenna is negligible. An offset
mounting plate is provided with U- bolts allowing pole,
ceiling or surface/offset mounting. The antenna termi-
nates with a female N connector for maximum reliability.
■14 dBi Corner Reflector for point to
point applications
■9 dBi Omni for multipoint applications
■Models available for 5.15 - 5.83 GHz
■Versatile mounting hardware included
for pole or surface mounting
5 GHz Antennas (Pat.Pend.)
Omni & Directional Site