VP6300

The patented VeraPhase® technology rivals, and in many aspects, surpasses the performance of choke ring technology but is lighter, smaller, more economical, and requires less power.

The antenna provides the lowest axial ratios (horizon to horizon, over all azimuths) across all received frequencies (<0.5dB at zenith, <2 dB typ. at horizon). It provides exceptional front to back ratios, high efficiency (>70%), a tight PCV (± 1mm), and near constant PCO for all azimuth and elevation angles, over all in-band frequencies. The VP6300 is ideal for GNSS / RTK reference networks, monitoring stations, and other high precision applications.

The VP6300 antenna is capable of receiving GPS L1/L2/L5, GLONASS G1/G2/G3, BeiDou B1/B2, and Galileo E1/E5a+b (11674 – 1254MHz plus 1559-1610MHz). It has consistent performance (gain, axial ratio, PCV, and PCO) across the full bandwidth of the antenna. It provides the lowest axial ratios (horizon to horizon, over all azimuths) across all GNSS frequencies (<0.5dB at zenith, <2 dB at horizon). It has an exceptional front to back ratios, high efficiency (>70%), a tight PCV, and near constant PCO for all azimuth and elevation angles, over all in-band frequencies.

Features

  • Low axial ratio from horizon to horizon
  • Very Tight Phase Center Variation (<1.5mm)
  • Invariant performance from: +2.7 to 24 VDC
  • Space in housing for integrated L1/L2 receivers RTK or other OEM system.

Benefits

  • Broadest tracking elevation
  • Extreme precision
  • Excellent multi-path rejection
  • Great signal to noise ratio
  • IP67, REACH, and RoHS compliant

Mechanical:

Architecture: Crossed Dipoles with Fence
Size: Please refer to Datasheet
Weight: <670g
Attachment Method: 5/8″x11 TPI female
Environmental: IP67, REACH and RoHS compliant

Electrical:

LNA Gain: 35dB or 50dB
Supply Current: <40mA
Supply Voltage: 2.7 to 24 VDC
Noise: 2.5dB typ. at 25°C
Axial Ratio, over full bandwidth: < 0.5 dB at zenith,
P1dB Output: +11 dBm
Phase centre Variation: ± 1.5 mm across all frequencies

For further details, please download the Datasheet.

The patented VeraPhase® technology rivals, and in many aspects, surpasses the performance of choke ring technology but is lighter, smaller, more economical, and requires less power.

The antenna provides the lowest axial ratios (horizon to horizon, over all azimuths) across all received frequencies (<0.5dB at zenith, <2 dB typ. at horizon). It provides exceptional front to back ratios, high efficiency (>70%), a tight PCV (± 1mm), and near constant PCO for all azimuth and elevation angles, over all in-band frequencies. The VP6300 is ideal for GNSS / RTK reference networks, monitoring stations, and other high precision applications.

The VP6300 antenna is capable of receiving GPS L1/L2/L5, GLONASS G1/G2/G3, BeiDou B1/B2, and Galileo E1/E5a+b (11674 – 1254MHz plus 1559-1610MHz). It has consistent performance (gain, axial ratio, PCV, and PCO) across the full bandwidth of the antenna. It provides the lowest axial ratios (horizon to horizon, over all azimuths) across all GNSS frequencies (<0.5dB at zenith, <2 dB at horizon). It has an exceptional front to back ratios, high efficiency (>70%), a tight PCV, and near constant PCO for all azimuth and elevation angles, over all in-band frequencies.

Features

  • Low axial ratio from horizon to horizon
  • Very Tight Phase Center Variation (<1.5mm)
  • Invariant performance from: +2.7 to 24 VDC
  • Space in housing for integrated L1/L2 receivers RTK or other OEM system.

Benefits

  • Broadest tracking elevation
  • Extreme precision
  • Excellent multi-path rejection
  • Great signal to noise ratio
  • IP67, REACH, and RoHS compliant

Mechanical:

Architecture: Crossed Dipoles with Fence
Size: Please refer to Datasheet
Weight: <670g
Attachment Method: 5/8″x11 TPI female
Environmental: IP67, REACH and RoHS compliant

Electrical:

LNA Gain: 35dB or 50dB
Supply Current: <40mA
Supply Voltage: 2.7 to 24 VDC
Noise: 2.5dB typ. at 25°C
Axial Ratio, over full bandwidth: < 0.5 dB at zenith,
P1dB Output: +11 dBm
Phase centre Variation: ± 1.5 mm across all frequencies

For further details, please download the Datasheet.