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BK-1612-1N
BK-1612-1N
The BK-1612-1N is a receiving module that supports dual-band and GPS, GLONASS, GALILEO, BEIDOU, QZSS & NavIC Multi-mode. It has built-in highly integrated receiver chip, supports multi band and multi system cm4f (main frequency 350mhz, 22nm Technology) chip. Besides, it is capable of tracking all global civil navigation systems (GPS, GLONASS, GALILEO, BEIDOU, QZSS, NavIC ) in band L1 and L5. BK-1612-1N module is based on the state of art NavIC architecture, integrating multi-band and multi-system GNSS RF and base band. This newly designed architecture makes this single chip achieve sub-meter level positioning accuracy without correction data from ground-based augmentation station and higher sensitivity, greater for improved jam resistance and multipath, provide a highly robust service in complicated environment. BK-1612-1N module featuring high sensitivity, low power consumption, and fast TTFF. The superior cold start sensitivity allows it to acquire, track, and get position fix autonomously in difficult weak signal environment. The receiver’s superior tracking sensitivity allows continuous position coverage in nearly all outdoor application environments. The high performance signal parameter search engine is capable of testing 16 million time-frequency hypotheses per second, offering superior signal acquisition and TTFF speed.
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BK-1612-15
BK-1612-15
The BK-1612-15 is a receiving module that supports Dual-Band & Multi-Mode. It has built-in highly integrated GNSS receiver chip, supports multi band and multi system cm4f (main frequency 350Mhz, 22nm Technology) chip of Third-generation BEIDOU Navigation Satellite System (BDS-3). Besides, it is capable of tracking all global civil navigation systems (GPS, GLONASS, GALILEO, BEIDOU, QZSS, and SBAS) in allbands. BK-1612-15 module is based on the state of art BDS-3 architecture, integrating multi-band and multi-system GNSS RF and baseband. This newly designed architecture makes this single chip achieve sub-meter level positioning accuracy without correction data from ground-based augmentation station and higher sensitivity, greater for improved jam resistance and multipath, provide a highly robust service in complicated environment. BK-1612-15 module contains positioning engine inside, featuring high sensitivity, low power consumption, and fast TTFF. The superior cold start sensitivity allows it to acquire, track, and get position fix autonomously in difficult weak signal environment. The receiver’s superior tracking sensitivity allows continuous position coverage in nearly all outdoor application environments. The high-performance signal parameter searching engine is capable of testing 16 million time-frequency hypotheses per second, offering superior signal acquisition and TTFF speed.
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SO-1612-15
SO-1612-15
SO-1612-15 is a dual-band GNSS positioning receiving modules that a capable of tracking all global civil navigation systems (BDS, GPS, GLONASS, Galileo, QZSS, IRNSS and SBAS) in all band bands. Built-in highly integrated GNSS receiving chip supports the third generation Beidou Satellite Navigation System (BDS-3). SO-1612-15 module is based on the state of art BDS-3 architecture, integrating multi-band and multi-system GNSS RF and baseband. This newly designed architecture makes this single chip achieve sub-meter level position accuracy without correction data from ground-based augmentation station and higher sensitivity, greater for improved jam resistance and multipath, provide a highly robust service in complicated environment. SO-1612-15 module contains CXD5610GF positioning engine inside, featuring high sensitivity, low power consumption, and fast TTFF. The superior cold start sensitivity allows it to acquire, track, and get position fix autonomously in difficult weak signal environment. The receiver’s superior tracking sensitivity allows continuous position coverage in nearly all outdoor application environments.
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GW-60
GW-60
GW-60, a robust, highly-refined and wearable tool for surfing sports, is the natural heir to the LOCOSYS' Surfing GPS series (GT-31, GW-31, and GW-52), with a character all of their own. It racks up the data of speed, GPS, and distance to help surfers reach the best status in each session. Simple operation brings users get into the swing of it. GW-60 is a reliable partner for all surfers. "SPEED GENIE" records the change between speed and position, and combines with GPS-Doppler for tracking routes. Quick button-operation allows surfers to control the status immediately.
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BKR-1612
BKR-1612
The BKR-1612 is a receiving module that supports Dual-Band & Multi-Mode. It has built-in highly integrated GNSS receiver chip, supports multi band and multi system cm4f (main frequency 350Mhz, 22nm Technology) chip of Third-generation BEIDOU Navigation Satellite System (BDS-3). Besides, it is capable of tracking all global civil navigation systems (GPS, GLONASS, GALILEO, BEIDOU, QZSS, IRNSS and SBAS) in all bands. BKR-1612 module is based on the state of art BDS-3 architecture, integrating multi-band and multi-system GNSS RF and baseband. This newly designed architecture makes this single chip achieve sub-meter level positioning accuracy without correction data from ground-based augmentation station and higher sensitivity, greater for improved jam resistance and multipath, provide a highly robust service in complicated environment. BKR-1612 module contains positioning engine inside, featuring high sensitivity, low power consumption, and fast TTFF. The superior cold start sensitivity allows it to acquire, track, and get position fix autonomously in difficult weak signal environment. The receiver’s superior tracking sensitivity allows continuous position coverage in nearly all outdoor application environments. The high-performance signal parameter searching engine is capable of testing 16 million time-frequency hypotheses per second, offering superior signal acquisition and TTFF speed.
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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
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.
Press Release
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Taiwan Excellence Drone Alliance Visits LOCOSYS Technology, Focusing On Global Positioning Technology And Drone ApplicationsThe Taiwan Excellence Drone Overseas Business Alliance, led by Yen Tung-Piao,visited a leading smart manufacturing enterprise with a delegation includingrepresentatives from AIDC, the Industrial...
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LOCOSYS Showcases Advanced Smart Positioning Technology At New Taipei Electric Vehicle Supply Chain ExpoTo promote the development of Taiwan's electric vehicle (EV) industry and enhance international collaboration, the New Taipei City Government hosted the Electric Vehicle Supply Chain Expo...
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LOCOSYS Technology Unveils New High-Performance SONY GNSS/RTK Global Satellite Positioning ModulesLOCOSYS will showcase its advanced RTK solutions and high-performance GNSS modules, including those powered by Sony’s latest GPS technology, at the 2024 Sensor Expo in Tokyo. These modules,...
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