Wavenet Technology Pty Ltd. BM2900D 用户手册
Boomer II User Manual & Integrator’s Guide _________________________________________________Installation
BM210012WT37
39
Copyright Wavenet Technology © November 2003
market relatively thin double braid coaxial cables. These cables show
much better isolation than single braid cables, typically by 30 to 40dB.
These double braid cables reduce radiation and RF pick-up when
routed inside a portable device.
much better isolation than single braid cables, typically by 30 to 40dB.
These double braid cables reduce radiation and RF pick-up when
routed inside a portable device.
External antenna, removable and directly connected to the device
You can design a portable device that can use an off-the-shelf, plug-in
antenna, such as a ¼ wave monopole or ½ wave dipole antenna.
Typical gain of these omni directional antennas is 0dBi and 2.14dBi,
respectively.
Cabling demands the same consideration as an internal antenna
application. In a typical laptop application, the antenna must be placed
as far as possible from a display to avoid deflection. This usually
causes a deep null in radiation patterns.
You can design a portable device that can use an off-the-shelf, plug-in
antenna, such as a ¼ wave monopole or ½ wave dipole antenna.
Typical gain of these omni directional antennas is 0dBi and 2.14dBi,
respectively.
Cabling demands the same consideration as an internal antenna
application. In a typical laptop application, the antenna must be placed
as far as possible from a display to avoid deflection. This usually
causes a deep null in radiation patterns.
External, remote antenna
For remote antenna application use the same design approach as
internal designs, including the RF cable routing of the external
connector. You can choose an off-the-shelf mobile antenna of omni
directional ½ wave length.
A double braid coaxial cable such as RG223 from the device to the
antenna is recommended if the cable length is more than a metre. The
difference in cable loss between low cost RG58 and the more
expensive RG223 is approximately 4.5dB per 30 metres. If the cable
must be routed through noisy EMI/RFI environments, a double braid
cable such as RG223 can reduce radiation and pick-up by 30 to 40dB.
For remote antenna application use the same design approach as
internal designs, including the RF cable routing of the external
connector. You can choose an off-the-shelf mobile antenna of omni
directional ½ wave length.
A double braid coaxial cable such as RG223 from the device to the
antenna is recommended if the cable length is more than a metre. The
difference in cable loss between low cost RG58 and the more
expensive RG223 is approximately 4.5dB per 30 metres. If the cable
must be routed through noisy EMI/RFI environments, a double braid
cable such as RG223 can reduce radiation and pick-up by 30 to 40dB.
Fixed Devices
Fixed data device applications use the same design recommendations
as a portable device with a remote antenna.
As for the RF connector of an external antenna, whether it is a plug-in
type or a remote type, the most economical and practical choice is a
TNC threaded connector. TNC has a good frequency response to
7GHz, and leakage is low. A mini UHF threaded connector provides
adequate performance and is an economical choice. If the size of the
TNC and mini UHF connectors becomes critical, consider an SMA
threaded connector or an SMB snap fit connector. (The SMB connector
does not accept an RG58 or RG223 cable).
Fixed data device applications use the same design recommendations
as a portable device with a remote antenna.
As for the RF connector of an external antenna, whether it is a plug-in
type or a remote type, the most economical and practical choice is a
TNC threaded connector. TNC has a good frequency response to
7GHz, and leakage is low. A mini UHF threaded connector provides
adequate performance and is an economical choice. If the size of the
TNC and mini UHF connectors becomes critical, consider an SMA
threaded connector or an SMB snap fit connector. (The SMB connector
does not accept an RG58 or RG223 cable).
Selecting an Antenna
The requirements for the antenna used with the Boomer II OEM
Modem are:
Antenna Gain:
The requirements for the antenna used with the Boomer II OEM
Modem are:
Antenna Gain:
Up to a 12dBd maximum gain antenna
can be used using the module FCC
approvals alone without separate
equipment approval for the host/terminal.
with separation distances as per the
can be used using the module FCC
approvals alone without separate
equipment approval for the host/terminal.
with separation distances as per the