Latest GPS/GNSS Products in 2023: August Edition

Latest GPS/GNSS Products in 2023: August Edition

Global Positioning System (GPS) and Global Navigation Satellite System (GNSS) products are used in GPS/GNSS applications to determine precise positioning, navigation & timing (PNT) information, as well as used in GNSS testing purposes, GPS anti-jam function and other GPS/GNSS related purposes. GPS/GNSS products include GPS/GNSS modules, GPS/GNSS receivers, GNSS antennas, GNSS testing systems, GPS-anti-jam systems, and more.

everything RF has compiled a list of GPS/GNSS products that are new and trending on everything RF in August. For more information on GPS/GNSS products, visit the GNSS Hub on everything RF, where we keep users up to date with new products, news, whitepapers, webinars, and events.


High Precision GNSS Module for UAV Applications

 The ZED-F9P is a multi-band GNSS module with integrated multi-band Real Time Kinematics (RTK) technology for machine control, ground robotic vehicles, and high precision unmanned aerial vehicles (UAV) applications. This module concurrently uses GNSS signals from all four GNSS constellations (GPS, GLONASS, Galileo, and BeiDou) plus QZSS satellites. This multi-band GNSS receiver delivers centimeter-level accuracy in seconds by combining GNSS signals from multiple frequency bands (L1/L2/L5) and RTK technology. It has a tracking and reacquisition sensitivity of -167 dBm and -160 dBm respectively. The ZED-F9P is available in an SMT package that measures 17.0 x 22.0 x 2.4 mm. Read more


Multi-Band, Highly-Integrated GNSS Receiver for Small and Nanosatellites

The GNSS Receiver DB from Rakon is a GNSS Receiver that is designed for SmallSats and nanosatellites. It supports multiple bands and multiple constellations which enables this daughter-board receiver to process signals from up to 448 channels simultaneously and provides high-performance position, velocity, and timing. This receiver has a Daughter Board format and can be easily integrated into a motherboard or directly into space equipment. It supports passive and active antennas, has time to first fix (TTFF) of less than 45 seconds, a positioning accuracy of 1.2 m, and a velocity accuracy of 3 cm/s. This receiver has a tracking performance of 20 dB-Hz and an acquisition performance of 33 dB-Hz. Read more


Multi-Constellation GNSS Module with Integrated Antenna for Drone Applications

The GNSSNOVA M20072 from Antenova is an Integrated GNSS/GPS Module that can concurrently track GPS, GLONASS, BeiDou, and Galileo satellite constellations. It is based on Mediatek’s AG3335N GNSS chip that is fabricated using a 12 nm process which allows the module to simultaneously track all four satellite constellations and improve positioning accuracy. This module has an integrated omni-directional antenna, a low noise amplifier (LNA), and a SAW filter in a single package. It requires a DC supply of 1.8 V, consumes 9.4 mA of current in tracking GPS mode, 12 mA of current in tracking (GPS) with LNA, and 23.5 mA of current in tracking (GGGB) with LNA mode. The module operates from 1559-1609 MHz. Read more


GNSS Modules for GPS, GLONASS, BDS, Galileo, and QZSS Constellations

The LC76G Series from Quectel are GNSS Modules that support GPS, GLONASS, BDS, Galileo, and QZSS constellations. They have a cold start of 15 s, a warm start of 2 s, and a hot start of 2 s. These GNSS modules have an acquisition sensitivity of -147 dBm, tracking sensitivity of -166 dBm, and reacquisition sensitivity of -159 dBm. They can measure altitude, velocity, and acceleration while operating at a maximum altitude of 10000 m, maximum velocity of 500 m/s & maximum acceleration of 4g. The modules have a horizontal position accuracy of 2 m, velocity accuracy of 0.1 m/s, and acceleration accuracy of 0.1 m/s2. These GNSS modules require a DC supply of 3.3 V and consume less than 36 mA of current. They can be controlled via I2C (up to 400 kbps) and UART (adjustable from 9600-912600 bps) interfaces. Read more


Multi-Constellation GNSS Module with Jamming Rejection

The SE868K5-I from Telit Cinterion is a Multi-Constellation, Multi-Frequency GNSS Module. It has 75 physical acquisition and tracking channels and supports A-GNSS with Ephemeris file injection as well as onboard Ephemeris prediction (A-GPS). This module has EGNOS, WAAS, GAGAN, and MSAS capabilities embedded with correction of positional error correction for augmented accuracy and integrity. It provides jamming rejection and has an embedded SAW for optimal coexistence and LNA for improved performance. This module supports GPS/QZSS, Galileo, GLONASS, BeiDou, and IRNSS constellations. It requires a DC supply of 1.72-1.89 V and consumes less than 62 mW of power. Read more


5-Channel GPS Anti-Jam System for Ground and Marine Applications

The NavGuard 501® SAGE from Mayflower Communications is a GPS Anti-Jam System. It has a 5-channel design and provides simultaneous dual frequency (L1 and L2) GPS protection. This system utilizes a 3.5-inch diameter FRPA footprint and offers an affordable SWaP-C alternative over larger and more expensive existing anti-jam systems. It is a cost-effective alternative for use in GPS contested or denied (NAVWAR) environments and can drive multiple GPS devices from a single antenna and provide full functionality to all connected devices. The system is designed for the submarine OE-538B antenna system and is C/A, SAASM, and M-Code compatible. It also supports Iridium communications. Read more


8-Channel, M-Code GPS Anti-Jamming Processor for Airborne Applications

The 7-6008 from Cobham Aerospace Connectivity is an 8-Channel GPS Anti-Jamming Digital Antenna Control Unit (DACU) that operates in the L1 and L2 bands. It has been designed to be used with an active-controlled reception pattern array (CRPA) receiver unit. This M-Code-compliant anti-jam processor mitigates narrowband interference using an excision process and broadband interference by creating directed nulls in the antenna pattern, resulting in a significant anti-jam protection, even in highly dynamic, multi-jammer environments. It can be used in size and weight-constrained platforms, such as small airborne and unmanned installations. Read more


Space-Qualified L1/L2 Band GPS Receiver for LEO and GEO Applications

The Sentinel® M-Code GPS Receiver from General Dynamics provides PPS position, velocity, and time information for LEO and GEO satellites (with an option for MEO and HEO). It has 32 channels (can go up to 64 channels) with support for C/A, P(Y), and Modernized M-Code (L2C optional) civil signals. This receiver operates in the L1 and L2 bands, has a dual antenna configuration, and allows any channel to be assigned to either antenna. It features integrated anti-jam technology and anti-spoof algorithms to enable superior performance in GPS-contested and denied environments. The receiver is qualified and tested for the space environment (pyrotechnic shock, random vibration, thermal vacuum, radiation) and EMI/EMC (tailored MIL-STD-461F). Read more


Multi-Constellation GNSS Testing System with Record and Replay

The LabSat 3 Wideband Solution from LabSat is a GNSS Testing System with support for recording and replay in the upper L-Band (1559 - 1610 MHz) and lower L-Band (1164 - 1300 MHz). It has 3 RF channels, a recording bandwidth of up to 56 MHz, and supports 6-bit sampling (3-bit I & 3-bit Q) to capture a wide range of live-sky satellite signals. This system has a simple interface with one-touch record/replay and SSD logging without requiring a connected computer. It requires a DC supply from 8 to 30 V and also has an inbuilt battery pack that provides two hours of use. Read more


Real-Time GNSS Simulator for Automotive Applications

The sUTP 5017 from NOFFZ Technologies is a GNSS Simulator that is designed for automotive applications. It supports differential GNSS and multi-vehicle simulation, GNSS satellite orbit modification, unlimited pseudo-range additive ramps, and custom fixed positions. This turnkey solution consists of a modular Skydel GNSS software simulation combined with high-end hardware components for running real-time individual signal simulations. The simulator consists of 2 Software Defined Radios (SDR) with 4 RF channels in total and has a simulation update rate of 1000 Hz. Read more


Compact, Low Cost, Low Noise GPS/GNSS Disciplined Rubidium Oscillator

The LNRClok-1500 from Safran is a compact, smart, low-cost, low-noise GPS/GNSS-disciplined Rubidium oscillator (GPSDO) with an optional integrated GPS / GNSS receiver. This 10 MHz Disciplined Rubidium Oscillator delivers a sine wave output with a phase noise of -145 dBc/Hz at 1 kHz offset, has harmonics of less than -40 dBc and spurious levels of below -80 dBc. The oscillator uses the patented, adaptive SmarTiming+ technology, disciplining the GPS/GNSS reference at 1ns resolution, providing a host of complex time and frequency features in a single package solution, while achieving state-of-the-art performance, reliability and extended lifetime. Read more


Active/Passive Multi-Frequency GNSS Antenna for A-PNT Reception

The 3GNSSX-XX-X from Antcom is a Multi-Frequency GNSS Antenna for assured positioning, navigation, and timing (A-PNT) reception. This RHCP antenna operates across GPS, GLONASS, Galileo, and BeiDou frequencies. It has an option for active (amplified) configuration with an inbuilt low noise amplifier (LNA) that provides a gain of 33 dB with a noise figure of 3.5 dB. The active circuitry is designed to support a wide range of input voltages with low current consumption while the passive design is ideal for installations where the antenna is located close to the receiver. It requires a DC supply (for active configuration) from 2.7 to 15 V and consumes less than 40 mA. Read more


High-Performance L1/L5 Band Permanent-Mount GNSS Antenna

The A.85.A.101111 from Taoglas is a Dual-Band Permanent-Mount GNSS Antenna that operates in the L1 and L5 bands. This right-hand circularly polarized (RHCP) antenna provides an average gain of -1.67 dB, a peak gain of 4.50 dB, and an efficiency of 68%. It has an omnidirectional radiation pattern and consists of integrated LNAs to maintain excellent signal quality throughout the entire signal chain. This antenna features SAW filters that allow for very sharp signal attenuation outside of the intended frequency bands while avoiding a negative impact on in-band signal quality. It operates in the GPS (L5)/GPS (L1), Galileo (E1), GLONASS (G1), and BeiDou (B1) frequency bands. Read more


L1-Band Anti-Jam GNSS Antenna for Ground-Based Applications

The TW3752AJ from Tallysman Wireless is a Single-Band Anti-Jam GNSS Antenna. It employs Tallysman’s unique Accutenna technology to provide 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)]. This RHCP-antenna has an anti-jam feature that modifies the radiation pattern of the GNSS antenna such that it is “deaf” to signals arriving from 10° below and 15° above the horizon while slightly increasing the gain of the antenna at zenith. It has been designed to mitigate out-of-band signals and prevent GNSS antenna saturation. Read more


L1+L5 RHCP Polarized GPS/Timing Antenna

The GP-L1L5-40-N from Radio Waves is a GPS/GNSS Antenna with Frequency 1166 to 1218 / 1559 to 1606 MHz, Gain 40 dBi, Horizontal BW 360 Degree, Operating Temperature (°C) -40 to 60 Degree C. More details for GP-L1L5-40-N can be seen below. Read more



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Publisher: everything RF
Tags:-   AntennaGPSGNSS