Ideal for precision agriculture, autonomous vehicle tracking and guidance, and other applications where precision matters, the TW3929E embedded triple band GNSS antenna with L-Band from Tallysman provides superior multi-path signal rejection, a linear phase response, excellent axial ratios, and tight Phase Centre Variation (PCV).
The TW3929E features a precision tuned, twin circular dual feed, stacked patch element. The signals from the two orthogonal feeds are combined in a hybrid combiner, amplified in a wide-band LNA, then band-split for narrow filtering in each band and further amplified prior to recombination at the output.
Providing enhanced protection against high level sub-harmonic signals like LTE and near frequency signals such as WiFi, the TW3929E also includes an LNA pre-filter.
Tallysman offers custom tuning services to optimize the performance of the TW3929E for any OEM installation environment.
The TW3929E is housed in a through-hole mount, weather-proof enclosure for permanent installations. An L-Bracket or Pipe Mount are available for non-rooftop installation. A 100mm ground plane is included and recommended for all installations.
- Precision GPS Position
- Triple Frequency RTK Receivers
- Mission Critical GPS Timing
- Military & Security
- Network Timing and Synchronization
- Very low Noise Preamp: < 2.5dB
- Axial ratio: < 2dB typ.
- Tight Phase Center Variation (PCV)
- LNA Gain 26 dB typ.
- Low current: 12 mA typ.
- ESD circuit protection: 15 KV
- Invariant performance from: +2.5 to 16VDC
- Ideal for triple band RTK surveying systems
- Great multipath rejection
- Increased system accuracy
- Great signal to noise ratio
- REACH and RoHS compliant
The TW3929E embedded triple band GNSS antenna with L-Band from Tallysman is available through Canal Geomatics. If you would like more information about this product, please feel free to get in touch with us by completing the Request Pricing form.
TW3929E Low Current Triple Band GNSS antenna with L-Band Correction (28dB) – 33-3929E-xx-yyyy
Where xx = connector type, yy = shape and colour of radome and zzzz = cable length in mm (where applicable)