GNSS-DUAL

GNSS-DUAL

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GNSS-DUAL is a dual-frequency GNSS compass module that designed for applications requiring accurate dual-antenna GNSS-based heading. The dual-antenna GNSS-based heading is not subject to magnetic interference. Unlike a standard GNSS module that can only estimate heading based on the movement, GNSS-DUAL provides an accurate heading even while the vehicle is stationary. It is capable of concurrently tracking all global civil navigation systems, including GPS, GLONASS, GALILEO, BEIDOU and QZSS. It acquires both L1 and L5 signals at a time while providing accurate heading between dual antennas. GNSS-DUAL adopts 12nm process and integrates efficient power management architecture to become one of the leading groups with the lightest weight and lowest power consumption on the market.

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LVR3-1612

LVR3-1612

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LV-1612-U15

LV-1612-U15

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LOCOSYS has introduced the LV-1612-U15, a high-performance L1 + L5 dual-band, multi-constellation GNSS receiver module engineered for applications requiring robust navigation performance and precise positioning. The module simultaneously receives and tracks signals from all major global navigation satellite systems, including GPS, GLONASS, Galileo, BeiDou, QZSS and SBAS. By combining multi-constellation tracking with dual-frequency signal processing, the LV-1612-U15 significantly improves positioning accuracy, satellite availability and signal robustness. This architecture enables reliable navigation performance across a wide range of operating environments, including dense urban areas, open skies and electromagnetically challenging conditions. Leveraging advanced satellite signal processing algorithms and multi-frequency positioning techniques, the module delivers enhanced solution stability and improved navigation accuracy under diverse satellite visibility scenarios, making it well suited for next-generation high-precision GNSS applications. At the core of the LV-1612-U15 is a highly integrated GNSS receiver chipset and positioning engine built on an advanced RF and baseband integration architecture. The module incorporates a Cortex-M4F processing core operating at 350 MHz, fabricated in 22-nm technology and housed in a compact 4 × 4 mm package, enabling high computational performance while maintaining excellent power efficiency. Through advanced signal search strategies and intelligent positioning algorithms, the receiver can evaluate tens of millions of time-frequency hypotheses per second, substantially improving signal acquisition capability and reducing time-to-first-fix (TTFF). Its outstanding cold-start sensitivity and tracking performance allow the receiver to rapidly obtain and maintain position fixes even under weak-signal or partially obstructed environments. In addition, the multi-frequency architecture enables sub-meter-level positioning accuracy without reliance on ground-based augmentation systems, further enhancing solution reliability. As a highly integrated GNSS module, the LV-1612-U15 is designed to streamline system development and lower the barrier to integrating high-performance satellite positioning capabilities. RF circuitry, baseband processing, filtering, amplification stages, positioning algorithms and system interfaces are fully optimized and pre-integrated within the module. This eliminates the need for complex RF design and GNSS signal tuning at the system level, allowing developers to rapidly incorporate reliable positioning functionality into their products. By adopting the LV-1612-U15 module, engineering teams can significantly reduce hardware design complexity, shorten RF calibration cycles, simplify system integration and mitigate development risks, while accelerating product development timelines and reducing overall time-to-market. These characteristics make the module particularly attractive for applications requiring rapid product deployment and high operational stability. For UAV and high-reliability navigation applications, the LV-1612-U15 further incorporates enhanced anti-jamming and anti-spoofing capabilities. The module provides satellite signal quality indicators and interference monitoring information within its output messages, enabling host systems to determine whether positioning degradation or loss of lock is caused by external signal interference or spoofing attempts. This capability allows system designers to implement real-time mitigation strategies, such as switching to alternative navigation modes or triggering safety control mechanisms. As a result, overall system resilience and operational safety can be significantly improved. With its combination of high-precision positioning performance, strong interference resilience and simplified integration, the LV-1612-U15 is particularly well suited for UAV navigation, aerial inspection, aerial imaging, swarm flight control, smart logistics and a wide range of IoT-based tracking and positioning devices, providing a stable and efficient GNSS solution for emerging autonomous and intelligent navigation systems. To ensure long-term product reliability and consistent manufacturing quality, LOCOSYS operates under the internationally recognized automotive quality management standard IATF 16949 for product design, manufacturing and quality assurance processes. Originating from the stringent requirements of the automotive electronics industry, this quality framework encompasses comprehensive design verification, supply chain management, manufacturing process control and continuous improvement practices. By adhering to the IATF 16949 quality management system, LOCOSYS ensures that each product meets rigorous standards for performance, stability and traceability. This commitment to quality provides customers with a reliable and durable GNSS solution while reinforcing the LV-1612-U15’s competitiveness in industrial, UAV and other high-reliability navigation markets.

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RTK-1010

RTK-1010

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The RTK-1010 is a high-performance dual-band GNSS RTK module that designed for applications requiring centimeter level positioning accuracy. It adopts 12 nm process and integrate efficient power management architecture to perform low power and high sensitivity. The module supports concurrent reception of GPS, GLONASS, BeiDou, GALILEO, and QZSS to improve the availability and reliability of RTK solution even in the harsh environment.

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RTK-1612

RTK-1612

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The RTK-1612 is a high-performance dual-band GNSS RTK module that designed for applications requiring centimeter level positioning accuracy. It adopts 12 nm process and integrate efficient power management architecture to perform low power and high sensitivity. The module supports concurrent reception of GPS, GLONASS, BeiDou, GALILEO, and QZSS to improve the availability and reliability of RTK solution even in the harsh environment.

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RTK-DUAL

RTK-DUAL

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RTK-DUAL series is a dual-frequency multi-constellation RTK module that designed for applications requiring accurate dual-antenna GNSS-based heading and RTK centimeter level positioning accuracy. The dual antenna GNSS-based heading is not subject to magnetic interference. Unlike a standard dual-frequency multi-constellation RTK Module that can only estimate heading based on the movement, RTK-DUAL provides an accurate heading even while the vehicle is stationary. It is capable of concurrently tracking all global civil navigation systems, including GPS, GLONASS, GALILEO, BEIDOU and QZSS. It acquires both L1 and L5 signals at a time while providing heading between dual antennas and RTK position. RTK-DUAL adopts 12nm process and integrates efficient power management architecture to become one of the leading groups with the lightest weight and lowest power consumption on the market. Paired with our dual-frequency low power helical antennas, it can extend the usage time of battery powered drones, robotic lawn mowers, automated logistics vehicles, etc.

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LH-1256AR-D / LH-1256AR-E

LH-1256AR-D / LH-1256AR-E

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LH-1256AR-D is an four constellations multi-band GNSS helix antenna for L1 ,L2 ,L5 and L-bands of GPS/QZSS, GLONASS, GALILEO, BEIDOU and IRNSS. This antenna's small size, light weight, and low power consumption make it ideal for applications requiring RTK-level positioning accuracy, such as autonomous vehicles, drone displays, aerial photography, high-precision mapping, remote sensing, traffic control, and public safety. The LH-1256AR-E is a compact and lightweight four-constellation multi-band GNSS helix antenna, supporting L1, L2, L5, and L-bands of GPS/QZSS, GLONASS, GALILEO, BEIDOU systems. This antenna is designed to deliver reliable and accurate GNSS reception across multiple satellite systems, making it versatile for diverse operational needs in challenging environments.

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LH-105A2-B / LH-105AR-D / LH-105AR-DC / LF-105A2-B

LH-105A2-B / LH-105AR-D / LH-105AR-DC / LF-105A2-B

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LH-105A2-B and LH-105AR-D and LH-105AR-DC are active dual-frequency GNSS antenna for L1 and L5 bands of GPS/QZSS, GLONASS, GALILEO , BEIDOU and IRNSS. The antenna is light and low power consumption that is ideal for applications requiring RTK level positioning accuracy, such as self-driving vehicle, drone display, aerial photography, high precision mapping, remote sensing, traffic control and public security. LOCOSYS LF-105A2-B embedded antenna is designed for high precision positioning and offers superior satellite signal tracking, including GPS, GLONASS, GALILEO, and Beidou service. It supports multiple frequency bands, including L1 and L5, enhancing its capability to receive more accurate and reliable signals from different constellations. The antenna is equipped with an SMA connector, allowing for easy integration with various devices and systems. Its RTK level positioning accuracy makes it ideal for applications such as surveying, mapping, hand-held device, and various UAV operations, where precision and reliability are critical. The multi-frequency support and SMA interface ensure stable connections, mitigating issues like signal interference and multipath errors, ensuring robust performance in challenging environments.

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LP-105A-C

LP-105A-C

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Omni-8181-P15

Omni-8181-P15

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LOCOSYS Omni-8181-P15 Patch Antenna is a high-performance, low-profile, multi-constellation active GNSS ceramic patch antenna supporting GPS, BDS, GLONASS, Galileo, and QZSS satellite systems, covering L1 + L5 frequency bands. The antenna integrates a high-quality ceramic patch radiating element with a low-noise active amplification circuit, effectively enhancing reception sensitivity and overall positioning performance. Its low-profile flat structure provides an optimal balance of aesthetics, mechanical robustness, and installation flexibility, making it well suited for outdoor fixed installations, industrial equipment enclosures, as well as communication and timing systems. The antenna is equipped with a standard N-type (N-J / N plug) RF connector and RG316/U waterproof coaxial cable, enabling seamless compatibility with a wide range of GNSS receivers, communication devices, and time synchronization modules. From an RF and mechanical design perspective, the LOCOSYS Omni-8181-P15 Patch Antenna features an IP67-rated waterproof and dustproof enclosure, providing complete protection against dust ingress and ensuring reliable operation under prolonged exposure to wind, sunlight, and rain (long-term submersion is not recommended). The antenna incorporates an internal low-noise amplifier (LNA) and a high-selectivity front-end filter, effectively suppressing noise and adjacent-band interference while significantly improving signal-to-noise ratio (SNR) and positioning stability. The antenna provides an active gain of 28 dB and integrates ESD and surge protection circuitry to mitigate the impact of electrostatic discharge and transient voltage events on the receiving system. The standard cable length is 3 meters, fully shielded with high-coverage braided isolation, and mechanically reinforced at the cable-to-connector junction to enhance resistance to pulling and rotational stress. For installation flexibility, the antenna base supports either 3M industrial-grade high-performance adhesive mounting or M12 plated nut mounting, while the enclosure adopts a low-profile circular design optimized for superior antenna radiation performance. The LOCOSYS Omni-8181-P15 Patch Antenna is independently designed and manufactured by LOCOSYS Technology, leveraging decades of expertise in GNSS antenna engineering, RF circuit design, high-frequency electromagnetic simulation, and system integration. From the initial design stage, the product adheres to international industrial and telecommunications standards, encompassing antenna radiation pattern optimization, impedance matching, filter and amplifier architecture, as well as comprehensive interference immunity and environmental reliability validation. The manufacturing process implements a rigorous quality management and testing system, including incoming material inspection, in-process quality control, RF performance measurements, environmental and durability testing, and 100% final inspection prior to shipment to ensure consistent performance and long-term reliability. Backed by its robust R&D capabilities and stringent quality management system, the Omni-8181-P15 Patch Antenna delivers high-accuracy and highly reliable GNSS reception even in high-noise, electromagnetically complex, and harsh environmental conditions, making it an ideal solution for communication base stations, timing and synchronization systems, intelligent transportation, AMR/AGV/UAV/UGV platforms, energy monitoring equipment, vehicular systems, and autonomous positioning applications.

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LP-105AR-C

LP-105AR-C

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The LOCOSYS LP-105AR-C multi-band (GPS L1/L5、GLONASS L1OF、BDS B1/B2a、Galileo E1/E5a、QZSS L1/L5、NavIC) active GNSS/RTK antenna is composed of 50*50*6mm laminated 40*40*4mm ceramic dielectric antenna. The compact design, excellent price-to-performance ratio, and versatile mounting choices provide customers with a fast, easy, and reliable multi-band antenna solution. The LP-105AR-C antenna is a perfect match to LOCOSYS RTK series solutions (for example, RTK-1010、RTK-1612、RTK-M300…), supporting L1 and L5 bands. The LP-105AR-C includes a high-performance multi-band RHCP dual-resonance, dual-feed patch antenna element, a built-in high-gain LNA with SAW pre-filtering, and a 5-meter antenna cable with an SMA connector.

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AeroStar X1

AeroStar X1

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LS-125-A/LS-125F-A

LS-125-A/LS-125F-A

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LS-125-A is a four-star multi-frequency satellite navigation antenna. The antenna has the characteristics of high gain, miniaturization, high sensitivity, multi-system compatibility and high reliability, which can effectively meet the needs of users. LS-125F-A is a high-precision air-type multi-band measurement antenna that supports the reception of satellite navigation signals from multiple systems such as BDS, GPS, GLONASS, and Galileo. The antenna uses air medium technology and features high gain, good circular polarization performance, high positioning accuracy, and good reception performance at low elevation angles. It can be used in areas such as driver training, unmanned driving base station reference station networking requirements, and high-precision mapping.

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TT01

TT01

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HAWK A1e (52Q + e-compass)

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HAWK A2e (V2b + e-compass)

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HAWK A3e (V3b + e-compass)

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HAWK R1 ( RTK-1612 )

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HAWK R2 ( RTK-1612 + e-compass)

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