GNSS & GPS Antennas

Maximize your GNSS receiver's positioning performance with the optimal GPS or GNSS antenna for your application. NovAtel provides a wide range of high precision options.

VEXXIS® Series Antennas

The VEXXIS GNSS-800 and GNSS-500 series antennas offers high performance solutions and superior tracking performance for your application needs

High Performance GNSS & GPS Antennas

Performance of a choke ring antenna without the size and weight. Features high phase center stability and low phase center offset. Ideal for survey, ground mapping, agriculture, construction and mining, temporary and permanent reference station applications

Compact GNSS & Compact GPS Antennas

Smaller GNSS antennas in a range of form factors designed for specific applications. Typical applications include unmanned vehicles, aircraft, agriculture, construction and mining

Fixed Reference GNSS Antennas

Delivers exceptional availability and high precision in permanently installed and continuously operating applications. Typical applications include network RTK reference stations and CORS systems

OEM Component Antennas

OEM antenna modules that can be quickly and easily integrated into OEM manufacturers' proprietary equipment

GPS Anti-Jam Technology (GAJT®) | GPS Anti-Jam

Single-enclosure GPS anti-jam technology (GAJT®)

All NovAtel antennas (except the GNSS 750 reference station antenna*) meet the European Union's Restriction of Hazardous Substances (RoHS). All antennas meet the Waste Electrical and Electronic Equipment (WEEE) and Registration, Evaluation, Authorization and Restriction of Chemical Substances (REACH) Directives. FAA Airworthiness Certification is available on avionic models.

*The GNSS-750 antenna is not within the scope of the RoHS directive. It is intended to be used as a Reference Station antenna at a fixed location over a long period of time and as such it qualifies to use the “Large-Scale Fixed Installation” RoHS scope exemption.

What is a GPS Antenna and how does it work?

A GPS antenna is a device designed to receive and amplify the radio signals transmitted on specific frequencies by GPS satellites and convert then to an electronic signal for use by a GPS receiver. The output of the GPS antenna is fed into a GPS receiver which can compute the position.