Novatel Software Version 4.45 OM-20000026 Rev 1 Antenna Ground Planes

B Multipath Elimination Technology

Figure B-3 Illustration of Quadrifilar vs. Microstrip Patch Antennae

Antenna Ground Planes

Nearby objects can influence the radiation pattern of an antenna. Thus, one of the roles of the anten na ground plane

is to create a stabilizing artificial environment on which the antenna rests and which becomes a part of the antenna

structure and its resultant radiation pattern.

A small ground plane (relative to one wavelength at the operating frequency) may have minimal stabilizing effect,

whereas a large ground plane (multiple wavelengths in size) will have a highly stabilizing effect.

Large ground planes also exhibit a shielding effect against RF signal reflections origin ating below the ant enna’s

radiation pattern horizon. This can be a very effective low angle shield when the antenna is elevated on a hill or

other structure above other reflecting surfaces such as vehicles, railway tracks, soil wit h high moistu re content,

water bodies, etc.

One of the drawbacks of a "flat plate" ground plane is that they do provide an above horizon reflective surface for

low angle GPS signals. This means that the flat plate is also a multipath gen erating surface. For pseudorange code

measurements, these multipath signals are too close to cause any significant range errors. However, for carrier

phase measurements, the flat plate can cause significant biases. Even if carrier phase is not being used for range

measurements, the flat plate reflections could be substantial enough to cause signal fades and drop-outs due to

carrier phase reversals from the flat plate reflections (keeping in mind that these problems are most substantial for

low angle signals). It should also be kept in mind that low profile antennas such as the patch an tenna will obviously

be less susceptible to this phenomenon than higher profile quadrifilar and bifilar helix antennas.

The most effective type of multipath reduction ground plane structure is the "choke ring" ground plane. Due to its

surface cavity construction, surface reflections are essentially trapped, thus minimizing the problems encountered

by flat plate ground planes. This is what makes NovAtel’s GPSAntenna model 501 so successful when used with

the NovAtel GPSAntenna Choke Ring Ground Plane.

Figure B-4 Example of GPSAntenna on a Flat Plate vs. Choke Ring Ground Plane

Quadrifilar Elements

Radome Antenna Patch

Dielectric

Patch Ground Plane

Quadrifilar Helix Antenna Microstrip Patch Antenna