TW5790 Smart GNSS Antenna; High Precision; IMU; L-Band; u-blox ZED-F9R + NEO-D9S

The TW5790 is a multi-band (L1/L2), multi-constellation integrated GNSS receiver/antenna with Inertial Measurement Unit (IMU) (for Untethered Dead Reckoning) and integrated L-Band receiver for PointPerfect Flex PPP-RTK corrections. The TW5790 is capable of providing sub 1 meter accuracy stand-alone, sub 6 cm accuracy with PointPerfect Flex PPP-RTK corrections and sub 1 cm accuracy with local or network commercial RTK corrections, such as Point One Navigation Polaris RTK or Swift Navigation Skylark Precision Positioning. Combined with the IMU to achieve Sensor Fusion, TW5790 supports the most demanding positioning applications in the most challenging environments, such as dense urban-canyon and off-grid positioning. 

Interference Resilience

The TW5790 incorporates a latest generation multi-band (L1/ L2) GNSS receiver with a Tallysman Accutenna™ multi-band (L1/ L2) dual feed patch. The state of the art GNSS receiver supports concurrent tracking of all four major constellations (GPS, BeiDou, Galileo and GLONASS ) in multiple frequency bands, offering high availability for RTK solutions with a quick convergence time. The multi-band (L1/L2) architecture is the most effective method for the removal of ionospheric error. The TW5790 employs multi-stage filtering with low noise figure LNAs, combined with the dual feed Accutenna™, which greatly improves the rejection of multi-path signal interference. The IMU Sensor Fusion further mitigates effects of severe multi-path reflections and provides continuous position availability during periods of GNSS outages caused by signal obstruction offering exceptional performance to meet the most challenging precise positioning applications.

Precise Point Positioning

The TW5790 offers support for a broad range of corrections services (RTCM RTK, networked PPP-RTK or PointPerfect Flex PPP-RTK over L-Band ) allowing performance optimization according to each application’s unique requirements. The concurrent multi-band (L1/L2) access to all four satellite constellations improves the receiver’s convergence capability to deliver a quick, precise and reliable position solution which is resilient to ionospheric errors and improves resilience against interference and jamming. As an RTK rover, The TW5390 accepts RTCM RTK messaged from a base station, Virtual Reference Station or SPARTN SSR message type via the PointPerfect subscription service.

The TW5790 provides sub 6 cm positioning accuracy in conjunction with PointPerfect Flex PPP-RTK corrections and sub 1 cm accuracy with RTK.  The TW5790 is compatible with commercial RTK services such as Point One Navigation’s Polaris RTK and Swift Navigation’s Skylark Cx and Skylark Nx RTK.  TW5790 can receive PointPerfect Flex PPP-RTK corrections over L-Band when outside of terrrestrial networking coverage. 

Features

  • Integrated L-Band corrections receiver for exceptional precision (NEO-D9S)
  • Improved noise immunity with multi-band GNSS receiver
  • Improved multi-path rejection with Dual feed Accutenna™
  • Multi-band GNSS receiver is unaffected by ionospheric errors
  • High-reliability timing with an expansive constellation array
  • High position availability in urban environment with IMU Sensor Fusion
  • PPP-RTK PointPerfect Flex Augmentation compatible
  • RTK Rover configuration
  • Point One Navigation Polaris RTK and Swift Navigation Skylark Cx and Nx RTK compatible
  • 5V operation
  • USB 2.0 signalling or RS-232
  • Industrial grade IP67 enclosure
  • Rugged magnetic mount
  • 1.5M cable lengths with USB Type A male standard
  • L1/L5 option available

TW3752AJ Accutenna® Anti-Jam Single-Band GNSS Antenna

The TW3752AJ is a precision high-gain GNSS antenna built with Tallysman’s unique Accutenna® technology, providing single-band GPS/QZSS-L1, GLONASS-G1, Galileo-E1, and BeiDou-B1 coverage, including the satellite-based augmentation system (SBAS) available in the region of operation [WAAS (North America), EGNOS (Europe), MSAS (Japan), or GAGAN (India)].

Features

  • Accutenna® technology
  • Great axial ratio (2.0 dB typ.)
  • Low LNA noise (3.0 dB typ.)
  • High-rejection SAW filter
  • High-gain LNA (50 dB typ.)
  • Low current (30 mA typ.)
  • Wide voltage input range (2.5 to 12 VDC)
  • ESD circuit protection (15 kV)
  • IP67 weather-proof housing
  • RoHS and REACH compliant

Benefits

  • Operates under ground-based jamming
  • Circular polarization throughout the full bandwidth
  • Superior multipath signal rejection
  • Excellent signal-to-noise ratio
  • Great out-of-band signal rejection
  • Increased system accuracy
  • Ideal for harsh environments

TW3900P Passive Triple-Band GNSS Antenna + L-Band

The TW3900P is a precision-tuned triple-band Accutenna® technology antenna providing GPS/QZSS-L1/L2/L5, GLONASS-G1/G2/G3, Galileo-E1/E5a/E5b, BeiDou-B1/B2a/B2b, NavIC-L5, and is especially designed for precision triple-frequency positioning.

Features

  • Low axial ratio (< 2.0 dB typ.)
  • Tight phase centre variation
  • ESD circuit protection (15 kV)
  • IP69K, REACH, RoHS, and S-9401.V1.0 compliant
  • EN45545-2, EN50121, EN50155, and EN61373 compliant

Benefits

  • Excellent multipath rejection
  • Increased system accuracy
  • Excellent signal-to-noise ratio

HC871SXF eXtended Filter (XF) Dual-Band Helical Antenna

The patented HC871SXF helical antenna is designed for precision positioning, covering the GPS/QZSS-L1/L2, GLONASS-G1/G2, Galileo-E1, and BeiDou-B1 frequency bands, including the satellite-based augmentation system (SBAS) available in the region of operation [WAAS (North America), EGNOS (Europe), MSAS (Japan), or GAGAN (India)].

Tallysman’s eXtended Filter (XF) antenna technology has been designed to mitigate out-of-band signals and prevent GNSS antenna saturation. The radio frequency spectrum has become more congested as new LTE bands are activated and their signals or harmonic frequencies [e.g. 800MHz x 2 = 1600MHz (GLONASS-G1)] can affect GNSS antennas and receivers. In North America, planned Ligado signals at 1525 – 1536 MHz can especially impact GNSS antennas that support space-based Lband correction services (1539 – 1559 MHz). New LTE signals in Europe [Band 32 (1452 – 1496 MHz)] and Japan [Bands 11 and 21 (1476 – 1511 MHz)] have also been observed to interfere with GNSS signals. In addition, Inmarsat satellite communication (uplink: 1626.5 – 1660.5 MHz) can also affect GNSS signals. Tallysman’s custom XF filtering mitigates all existing signals and new Ligado and LTE signals, enabling the antennas and attached GNSS receivers to perform optimally.

Features

  • Very low noise preamp (2.5 dB typ.)
  • Axial ratio (≤ 0.5 dB at zenith)
  • LNA gain (28 dB typ.)
  • Low current (15 mA typ.)
  • ESD circuit protection (15 kV)
  • Invariant performance from 2.5 to 16 VDC
  • IP69K, REACH, and RoHS compliant

Benefits

  • Extremely light (23 g)
  • Ideal for RTK and PPP surveying systems
  • Excellent RH circular polarized signal reception
  • Great multipath rejection
  • Increased system accuracy
  • Excellent signal-to-noise ratio
  • Industrial temperature range
  • Rugged design, ideal for harsh environments

HC990XF Extended-Filter Full-Band GNSS Low-Profile Helical Antenna + L-Band

The patent-pending HC990XF eXtended-filter low-profile helical antenna is designed for precision positioning, covering the GPS/QZSS-L1/L2/L5, QZSS-L6, GLONASS-G1/G2/G3, Galileo-E1/E5a/E5b/E6, BeiDou-B1/B2/B2a/B3, and NavIC-L5 frequency bands, including the satellite-based augmentation system (SBAS) available in the region of operation [WAAS (North America), EGNOS (Europe), MSAS (Japan), or GAGAN (India)], as well as L-band correction services.

The HC990XF antenna supports Tallysman’s eXtended Filtering (XF) technology. Worldwide the radio frequency spectrum has become congested as many new LTE bands have been activated, and their signals or harmonic frequencies can affect GNSS antennas and receivers. In North America, the planned Ligado service, which will broadcast in the frequency range of 1526 to 1536 MHz, can affect GNSS signals. Similarly, new LTE signals in Europe [Band 32 (1452 – 1496 MHz)] and Japan [Bands 11 and 21 (1476 – 1511 MHz)] have also affected GNSS signals. Tallysman’s XF technology mitigates all these signals.

Features

  • Very low noise preamp (2.5 dB typ.)
  • Axial ratio (≤ 0.5 dB at zenith)
  • High LNA gain (28 dB typ., 35 dB typ.)
  • Low current (26 mA typ., 32 mA typ.)
  • ESD circuit protection (15 kV)
  • Invariant performance from 2.5 to 16 VDC
  • REACH and RoHS compliant

Benefits

  • Extremely light (45 g)
  • Excellent RH circular polarized signal reception
  • Great multipath rejection
  • Increased system accuracy
  • Excellent signal-to-noise ratio
  • Industrial temperature range

SSL889XF Extended-Filter Housed Dual-Band GNSS Low-Profile Antenna

The SSL889XF employs Tallysman’s unique Accutenna technology providing dual band GPS L1/L2, GLONASS G1/G2/G3, Galileo E1/E5b, and BeiDou B1/B2 coverage and is specially designed for precision dual-frequency positioning where light weight is important.

The SSL889XF features a precision-tuned, 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 XF filtering in each band and further amplified prior to recombination at the output.

The radio frequency spectrum has become more congested as new LTE bands are activated and their signals or harmonic frequencies [e.g. 800MHz x 2 = 1600MHz (GLONASS-G1)] can affect GNSS antennas and receivers. In North America, planned Ligado signals at 1525 – 1536 MHz can especially impact GNSS antennas. New LTE signals in Europe [Band 32 (1452 – 1496 MHz)] and Japan [Bands 11 and 21 (1476 – 1511 MHz)] have also been observed to interfere with GNSS signals. In addition, Inmarsat satellite communication (uplink: 1626.5 – 1660.5 MHz) can also affect GNSS signals. Tallysman’s XF antennas have been designed to mitigate out-of-band signals and prevent GNSS antenna saturation. Tallysman’s custom XF filtering mitigates all existing signals and new Ligado and LTE signals, enabling the antennas and attached GNSS receivers to perform optimally.

The SSL889XF antenna is available in three mechanical configurations. Configuration 1,2, and 3 as shown.

Features

  • Very low noise preamp (2.5 dB)
  • Axial ratio (< 2.0 dB typ.)
  • Tight phase centre variation
  • High-gain LNA (28 dB typ.)
  • Low current (25 mA typ)
  • ESD circuit protection (15 kV)
  • Invariant performance from 2.5 to 16 VDC
  • IP67, REACH, and RoHS compliant

Benefits

  • Lightweight (45 g)
  • Excellent RH circular polarized signal reception
  • Great multipath rejection
  • Increased system accuracy
  • Excellent signal-to-noise ratio
  • Industrial temperature range

TW7972XF Extended-Filter Triple-Band GNSS Antenna + L-Band

The TW7972XF is a precision-tuned surface mount triple-band Accutenna® technology antenna providing coverage for triple-band GPS/QZSS-L1/L2/L5, GLONASS-G1/G2/G3, Galileo-E1/E5a/E5b, BeiDou-B1/B2b/B2a, NavIC-L5, including the satellite-based augmentation system (SBAS) available in the region of operation [WAAS (North America), EGNOS (Europe), MSAS (Japan), or GAGAN (India)], plus L-Band correction services. It is especially designed for precision triple-frequency positioning.

Features

  • Very low noise preamp (< 2.5 dB typ.)
  • Low axial ratio (< 2.0 dB at zenith)
  • Tight phase centre variation
  • High-gain LNA (32 dB typ.)
  • Low current (45 mA typ.)
  • ESD circuit protection (15 kV)
  • Invariant performance from 2.5 to 16 VDC
  • IP67, REACH, and RoHS compliant

Benefits

  • Excellent interference mitigation
  • Excellent multipath rejection
  • Increased system accuracy
  • Excellent signal-to-noise ratio

SSL990XF Extended-Filter Housed Full-Band GNSS Low-Profile Antenna

The patent-pending SSL990XF low-profile cross dipole antenna with parasitic resonators is designed for precision positioning, covering the GPS/QZSS-L1/L2/L5, QZSS-L6, GLONASS-G1/G2/G3, Galileo-E1/E5a/E5b/E6, BeiDou-B1/B2/B2a/B3, and NavIC-L5 frequency bands, including the satellite-based augmentation system (SBAS) available in the region of operation [WAAS (North America), EGNOS (Europe), MSAS (Japan), or GAGAN (India)], as well as L-band correction services. 

The SSL990XF utilizes Tallysman’s latest wideband antenna element design. The antenna element provides 67 MHz of signal bandwidth supporting the entire upper GNSS band and L-Band corrections (1539 – 1606 MHz) and 136 MHz of the lower band signal bandwidth (1164 – 1300 MHz). The other key component of the antenna is the axial ratio, which is a measure of how well the antenna captures the broadcast Right Hand Circular Polarized (RHCP) signal and mitigates the reflected LHCP signals. 

The Tallysman SSL990XF has a high peak gain of 2.5 dBi and ≤ 1.5 dB (typical) axial ratio at zenith, enabling excellent multipath mitigation and a very precise phase centre. The SSL990XF features Tallysmans eXtended Filter (XF) and industry-leading low current, low-noise amplifier (LNA) that includes an integrated low-loss pre-filter to prevent harmonic interference from high-amplitude signals, such as 700 MHz band LTE and other near-band cellular signals. As the radio frequency spectrum has become more congested, the signals or harmonic frequencies of new LTE bands [e.g. 800MHz x 2 = 1600MHz (GLONASSG1)] can affect GNSS antennas and receivers. In North America, planned Ligado signals at 1525 – 1536 MHz can especially impact GNSS antennas that support space-based L-band correction services (1539 – 1559 MHz). New LTE signals in Europe [Band 32 (1452 – 1496 MHz)] and Japan [Bands 11 and 21 (1476 – 1511 MHz)] have also been observed to interfere with GNSS signals. In addition, Inmarsat satellite communication (uplink: 1626.5 – 1660.5 MHz) can also affect GNSS signals. The new Tallysman XF antennas have been designed to mitigate out-of-band signals and prevent GNSS antenna saturation. Tallysman’s custom XF filtering mitigates all existing signals and new Ligado and LTE signals, enabling the antennas and attached GNSS receivers to perform optimally. 

Weighing only 88g, the light and compact SSL990XF features a precision-tuned cross dipole element that provides an excellent axial ratio. The SSL990XF is housed in a weatherproof (IP67) enclosure and is mounted using either adhesive tape or a mounting collar that includes a water proofing O-ring. Two antenna cable connector options are available the first is a female SMA and the second is an MCX. It is an ideal antenna for precision UAV and all applications where lightweight and precision matter. 

Features

  • Very low noise preamp (2.5 dB typ.) 
  • Axial ratio (≤ 1.5 dB at zenith) 
  • High LNA gain (28 dB typ. | 35 dB typ.) 
  • Low current (25 mA typ. | 31 mA typ.) 
  • ESD circuit protection (15 kV) 
  • Invariant performance from 2.2 to 16 VDC 
  • REACH and RoHS compliant 

Benefits

  • Extremely light (88g)
  • Excellent RH circular polarized signal reception
  • Great multipath rejection 
  • Increased system accuracy
  • Excellent signal-to-noise ratio 
  • Industrial temperature range

AJ977XF Anti-Jamming Triple Band GNSS Antenna

The AJ977XF supports GPS/QZSSL1/L2/L5, GLONASS-G1/G2/G3, Galileo-E1/E5a/E5b, BeiDou-B1/B2a/B2b, and NavIC-L5 frequency bands, including the satellite-based augmentation system (SBAS) available in the region of operation [WAAS (North America), EGNOS (Europe), MSAS (Japan), or GAGAN (India)].

The AJ977XF Anti-Jamming antenna is designed to mitigate interference and jamming signals broadcast from near ground-based transmitters. The radiation pattern of the Low Elevation Angle Nulling Antenna (LEANA) provides 20 dB (Typical) wideband suppression for all GNSS band signals received at an elevation angle of 0° through to approximately 15°. This level of attenuation will mitigate a 600 Watt jamming signal broadcast at an elevation angle of 10°, 100m or greater away from the AJ977XF antenna. The combination of Tallysman’s low elevation angle nulling radiation pattern, and eXtended Filtering (deep filters and high IP3 (prevents saturation in the presence of noise)) technologies provides a one-two punch to jamming and radio frequency noise. At the same time, the AJ977XF’s radiation pattern above 20° elevation angle provides excellent gain and a phase center that supports accurate and precise positioning.

Tallysman’s eXtended Filter (XF) antenna technology has been designed to mitigate out-of-band signals and prevent GNSS antenna saturation. In North America, Ligado signals at 1525 – 1536 MHz can especially impact GNSS antennas that support space-based L-band correction services (1539 – 1559 MHz). New LTE signals in Europe [Band 32 (1452 – 1496 MHz)] and Japan [Bands 11 and 21 (1476 – 1511 MHz)] have also been observed to interfere with GNSS signals. In addition, Inmarsat satellite communication (uplink: 1626.5 – 1660.5 MHz) can also affect GNSS signals. Tallysman’s custom XF filtering mitigates all existing signals and new Ligado and LTE signals, enabling the antennas and attached GNSS receivers to perform optimally.

The Tallysman AJ977XF antenna is ideal for all mission-critical positioning, navigation and timing applications.

Features

  • Great axial ratio (1.0 dB typ.)
  • Low LNA noise (2.5 dB typ.)
  • High-rejection XF Filtering
  • High-gain LNA (40 dB typ.)
  • Wide voltage input range (2.5 to 16 VDC)
  • ESD circuit protection (15 kV)
  • IP67 weather-proof housing
  • RoHS and REACH compliant
  • 20dB attenuation at 0-15° Elevation

Details

  • Operates under ground-based jamming
  • Circular polarisation throughout the full bandwidth
  • Superior multipath signal rejection
  • Excellent signal-to-noise ratio
  • Excellent out-of-band signal rejection
  • Increased system accuracy
  • Ideal for noisy RF environments

TW3885LXF Dual-Band (L1/L5) GNSS Antenna

The TW3885LXF is a precision-tuned dual-band Accutenna® technology antenna providing GPS/QZSS-L1/L5, GLONASS-G1/G3, Galileo-E1/E5a/E5b, BeiDou-B1/B2a/B2, NavIC-L5 plus L-Band correction services, including the satellite-based augmentation system (SBAS) available in the region of operation [WAAS (North America), EGNOS (Europe), MSAS (Japan), or GAGAN (India)].

Tallysman’s eXtended Filter (XF) antenna technology has been designed to mitigate out-ofband signals and prevent GNSS antenna saturation. The radio frequency spectrum has become more congested as new LTE bands are activated and their signals or harmonic frequencies [e.g. 800MHz x 2 = 1600MHz (GLONASS-G1)] can affect GNSS antennas and receivers. In North America, planned Ligado signals at 1525 – 1536 MHz can especially impact GNSS antennas that support space-based L-band correction services (1539 – 1559 MHz). New LTE signals in Europe [Band 32 (1452 – 1496 MHz)] and Japan [Bands 11 and 21 (1476 – 1511 MHz)] have also been observed to interfere with GNSS signals. In addition, Inmarsat satellite communication (uplink: 1626.5 – 1660.5 MHz) can also affect GNSS signals.
Tallysman’s custom XF filtering mitigates all existing signals and new Ligado and LTE signals, enabling the antennas and attached GNSS receivers to perform optimally.

The TW3885LXF 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 wideband LNA, then band-split for narrow filtering in each band and further amplified prior to recombination at the output. The TW3885LXF offers excellent axial ratio and a tightly grouped phase centre variation.

Ideal for timing, autonomous vehicle tracking and guidance, precision agriculture, and other applications where precision matters, The TW3885LXF provides superior multipath signal rejection, a linear phase response, and tight phase centre variation (PCV).

The TW3885LXF is housed in a through-hole mount, weatherproof enclosure for permanent installations. L-bracket (PN 23-0040-0) or pipe mount (23-0065-0) are available. A 100mm ground plane is provided with the antenna, which ensures optimal antenna performance. See TW3000 Installation and Waterproofing Guide: https://www.tallysman.com/resource/tallysman-tw3000-gnss-antenna-waterproofing-guide/

Features

  • Very low noise preamp (< 2.5 dB typ.)
  • Low axial ratio (< 2.0 dB typ.)
  • Tight phase centre variation
  • High-gain LNA (35 dB typ.)
  • Low current (32 mA typ.)
  • ESD circuit protection (15 kV)
  • Invariant performance from 2.5 to 16 VDC
  • IP69K, REACH, RoHS compliant

Details

  • Excellent multipath rejection
  • Increased system accuracy
  • Excellent signal-to-noise ratio
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