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LOCOSYS MZ-1612-UDB dead reckoning (DR) module is the perfect solution for automotive application. MZ-1612-UDB not only supports GPS and BEIDOU, but also has inertial sensors (3-axis accelerometers and 3-axis gyros) to provide dead reckoning. Besides, no need of odometer connection and auto calibration function make it easy to use. With these features, MZ-1612-UDB can reduce position errors in multipath environment and continue to work where GNSS signals are poor or not available, such as tunnels and indoor parking lots, as well as deliver seamless car navigation.

LV-1010-L1 ( L1 Only )

LV-1010-L1

LV-1612-L1 ( L1 Only )

LV-1612-L1

LV-1612-U1 ( L1+UAV )

LV-1612-U1

MG-1010-52Q

LOCOSYS MG-1010-52Q is high-performance GNSS positioning module that is capable of tracking all global civil navigation systems. It supports new GPS L1C and BEIDOU B1C signals. Based on the Airoha AG3352 platform, the MG-1010-52Q can concurrently receive and process signals from all constellations (GPS, GLONASS, BeiDou, Galileo and QZSS), which in combination with the support of SBAS greatly increases the number of visible satellites and enhances positioning accuracy. MG-1010-52Q module is based on the state of ARM® Cortex®-M4 with Floating Unit and Memory Protection Unit to integrate single band and multi-system GNSS RF band. This newly designed architecture makes this single chip achieve 1.5m CEP (open-sky) positioning accuracy representing a 40% improvement over previous generations of devices. The superior cold-start sensitivity allows it to acquire, track, and get position fix autonomously in difficult weak signal environment. Its superior tracking sensitivity allows continuous position coverage in nearly all outdoor application environments.

MG-1612-52Q

LOCOSYS MG-1612-52Q is high-performance GNSS positioning module that is capable of tracking all global civil navigation systems. It supports new GPS L1C and BEIDOU B1C signals. Based on the Airoha AG3352 platform, the MG-1612-52Q can concurrently receive and process signals from all constellations (GPS, GLONASS, BeiDou, Galileo and QZSS), which in combination with the support of SBAS greatly increases the number of visible satellites and enhances positioning accuracy. MG-1612-52Q module is based on the state of ARM® Cortex®-M4 with Floating Unit and Memory Protection Unit to integrate single-band and multi-system GNSS RF band. This newly designed architecture makes this single chip achieve 1.5m CEP (open-sky) positioning accuracy representing a 40% improvement over previous generations of devices. The superior cold-start sensitivity allows it to acquire, track, and get position fix autonomously in difficult weak signal environment. Its superior tracking sensitivity allows continuous position coverage in nearly all outdoor application environments.

MC-1010-18Q

LOCOSYS MC-1010-18Q is high-performance GNSS positioning module that is capable of tracking all global civil navigation systems. It supports new GPS L1C and BEIDOU B1C signals. Based on the Airoha AG3352 platform, the MC-1010-18Q can concurrently receive and process signals from all constellations (GPS, GLONASS, BeiDou, Galileo and QZSS), which in combination with the support of SBAS greatly increases the number of visible satellites and enhances positioning accuracy. The module can achieve 1.5m CEP (open-sky) positioning accuracy representing a 40% improvement over previous generations of devices. The superior cold-start sensitivity allows it to acquire, track, and get position fix autonomously in difficult weak signal environment. Its superior tracking sensitivity allows continuous position coverage in nearly all outdoor application environments. The module supports hybrid ephemeris prediction to achieve faster cold start. One is self-generated ephemeris prediction (called EASY) that is no need of both network assistance and host CPU’s intervention. This is valid for up to 3 days and updates automatically from time to time when GNSS module is powered on and satellites are available. The other is server-generated ephemeris prediction (called EPO) that gets from an internet server. This is valid for up to 14 days. Both ephemeris predictions are stored in the on-board flash memory and perform a cold start time less than 15 seconds. The faster GNSS fixes make it possible to use accurate positioning and navigation services anytime and anywhere with a smaller power budget than previously possible. Available in a cost-optimized version as well as a low-power version which supports for the Adaptive Low Power (ALP) feature in fitness and normal navigation modes.

MC-1010-52Q

LOCOSYS MC-1010-52Q is high-performance GNSS positioning module that is capable of tracking all global civil navigation systems. It supports new GPS L1C and BEIDOU B1C signals. Based on the Airoha AG3352 platform, the MC-1010-52Q can concurrently receive and process signals from all constellations (GPS, GLONASS, BeiDou, Galileo and QZSS), which in combination with the support of SBAS greatly increases the number of visible satellites and enhances positioning accuracy. The module can achieve 1.5m CEP (open-sky) positioning accuracy representing a 40% improvement over previous generations of devices. The superior cold-start sensitivity allows it to acquire, track, and get position fix autonomously in difficult weak signal environment. Its superior tracking sensitivity allows continuous position coverage in nearly all outdoor application environments. The module supports hybrid ephemeris prediction to achieve faster cold start. One is self-generated ephemeris prediction (called EASY) that is no need of both network assistance and host CPU’s intervention. This is valid for up to 3 days and updates automatically from time to time when GNSS module is powered on and satellites are available. The other is server-generated ephemeris prediction (called EPO) that gets from an internet server. This is valid for up to 14 days. Both ephemeris predictions are stored in the on-board flash memory and perform a cold start time less than 15 seconds. The faster GNSS fixes make it possible to use accurate positioning and navigation services anytime and anywhere with a smaller power budget than previously possible. Available in a cost-optimized version as well as a low-power version which supports for the Adaptive Low Power (ALP) feature in fitness and normal navigation modes.

LV-1612-U15 ( L1+L5+UAV )

LV-1612-U15

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.

MC-1010-V2a

LOCOSYS MC-1010-Vxx series are high-performance dual-band GNSS positioning modules that are capable of tracking all global civil navigation systems. They adopt 12 nm process and integrate efficient power management architecture to perform low power and high sensitivity. Besides, concurrent reception of L1 and L5 band signals mitigates the multipath delay and achieves sub-meter position accuracy. The modules support hybrid ephemeris prediction to achieve faster cold start. One is self-generated ephemeris prediction (called EPOC) that is no need of both network assistance and host CPU’s intervention. This is valid for up to 3 days and updates automatically from time to time when GNSS module is powered on and satellites are available. The other is server-generated ephemeris prediction (called EPO) that gets from an internet server. This is valid for up to 14 days. Both ephemeris predictions are stored in the on-board flash memory and perform a cold start time less than 15 seconds. MC-1010-V3x with the active antenna can comply with the sensitivity specification contained in AIS 140 standard. It is the best solution to those customers that design tracking applications in compliance with AIS 140.

MC-1010-V2b

LOCOSYS MC-1010-Vxx series are high-performance dual-band GNSS positioning modules that are capable of tracking all global civil navigation systems. They adopt 12 nm process and integrate efficient power management architecture to perform low power and high sensitivity. Besides, concurrent reception of L1 and L5 band signals mitigates the multipath delay and achieves sub-meter position accuracy. The modules support hybrid ephemeris prediction to achieve faster cold start. One is self-generated ephemeris prediction (called EPOC) that is no need of both network assistance and host CPU’s intervention. This is valid for up to 3 days and updates automatically from time to time when GNSS module is powered on and satellites are available. The other is server-generated ephemeris prediction (called EPO) that gets from an internet server. This is valid for up to 14 days. Both ephemeris predictions are stored in the on-board flash memory and perform a cold start time less than 15 seconds. MC-1010-V3x with the active antenna can comply with the sensitivity specification contained in AIS 140 standard. It is the best solution to those customers that design tracking applications in compliance with AIS 140.

MC-1612a-V2b

LOCOSYS MC-1612a-Vxx is a high-performance dual-band GNSS positioning module that is capable of tracking all global civil navigation systems. It adopts 12 nm process and integrates efficient power management architecture to perform low power and high sensitivity. Besides, concurrent reception of L1 and L5 band signals mitigates the multipath delay and achieves more accurate position. The module supports hybrid ephemeris prediction to achieve faster cold start. One is self-generated ephemeris prediction (called EPOC) that is no need of both network assistance and host CPU’s intervention. This is valid for up to 3 days and updates automatically from time to time when GNSS module is powered on and satellites are available. The other is server-generated ephemeris prediction (called EPO) that gets from an internet server. This is valid for up to 14 days. Both ephemeris predictions are stored in the on-board flash memory and perform a faster cold start. The RF front end of MC-161a-V3b the module is specifically designed to comply with sensitivity specification contained in AIS 140 standard. It is the best solution to those customers that design tracking applications in compliance with AIS 140.

MC-1612-V2b

LOCOSYS MC-1612-Vxx series are high-performance dual-band GNSS positioning modules that are capable of tracking all global civil navigation systems. They adopt 12 nm process and integrate efficient power management architecture to perform low power and high sensitivity. Besides, concurrent reception of L1 and L5 band signals mitigates the multipath delay and achieves sub-meter position accuracy. The modules support hybrid ephemeris prediction to achieve faster cold start. One is self-generated ephemeris prediction (called EPOC) that is no need of both network assistance and host CPU’s intervention. This is valid for up to 3 days and updates automatically from time to time when GNSS module is powered on and satellites are available. The other is server-generated ephemeris prediction (called EPO) that gets from an internet server. This is valid for up to 14 days. Both ephemeris predictions are stored in the on-board flash memory and perform a cold start time less than 15 seconds The RF front end of MC-1612-V3b the module is specifically designed to comply with sensitivity specification contained in AIS 140 standard. It is the best solution to those customers that design tracking applications in compliance with AIS 140.

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.

SO-1612-1N

MC-1010-V3a

LOCOSYS MC-1010-Vxx series are high-performance dual-band GNSS positioning modules that are capable of tracking all global civil navigation systems. They adopt 12 nm process and integrate efficient power management architecture to perform low power and high sensitivity. Besides, concurrent reception of L1 and L5 band signals mitigates the multipath delay and achieves sub-meter position accuracy. The modules support hybrid ephemeris prediction to achieve faster cold start. One is self-generated ephemeris prediction (called EPOC) that is no need of both network assistance and host CPU’s intervention. This is valid for up to 3 days and updates automatically from time to time when GNSS module is powered on and satellites are available. The other is server-generated ephemeris prediction (called EPO) that gets from an internet server. This is valid for up to 14 days. Both ephemeris predictions are stored in the on-board flash memory and perform a cold start time less than 15 seconds. MC-1010-V3x with the active antenna can comply with the sensitivity specification contained in AIS 140 standard. It is the best solution to those customers that design tracking applications in compliance with AIS 140.

MC-1612a-V3b

LOCOSYS MC-1612a-Vxx is a high-performance dual-band GNSS positioning module that is capable of tracking all global civil navigation systems. It adopts 12 nm process and integrates efficient power management architecture to perform low power and high sensitivity. Besides, concurrent reception of L1 and L5 band signals mitigates the multipath delay and achieves more accurate position. The module supports hybrid ephemeris prediction to achieve faster cold start. One is self-generated ephemeris prediction (called EPOC) that is no need of both network assistance and host CPU’s intervention. This is valid for up to 3 days and updates automatically from time to time when GNSS module is powered on and satellites are available. The other is server-generated ephemeris prediction (called EPO) that gets from an internet server. This is valid for up to 14 days. Both ephemeris predictions are stored in the on-board flash memory and perform a faster cold start. The RF front end of MC-161a-V3b the module is specifically designed to comply with sensitivity specification contained in AIS 140 standard. It is the best solution to those customers that design tracking applications in compliance with AIS 140.

LS2008E

LS2008E is a complete standalone GPS smart antenna module, including an embedded patch antenna and GPS receiver circuits. The module can simultaneously acquire and track multiple satellite constellations that include GPS, QZSS, and Galileo. It features low power and small form factor. Besides, it can provide you with superior sensitivity and performance even in urban canyon and dense foliage environment. It is easy to install without both RF connector and coaxial cable that are needed in a separated GPS active antenna. In other words, reduce the cost and size. Also, speed up the time to market by eliminating R&D efforts on RF matching and stability between separated GPS antenna and module. Its far-reaching capability meets the sensitivity requirements of car navigation as well as other location-based applications.

LS20030~2

LS20030 / 31 / 32 series products are complete GPS smart antenna receivers, including an embedded antenna and GPS receiver circuits, designed for a broad spectrum of OEM system applications. The product is based on the proven technology found in LOCOSYS 66 channel GPS SMD type receivers MC-1513 that use MediaTek chip solution. The GPS smart antenna will acquire up to 66 satellites at a time while providing fast time-to-first-fix, one-second navigation update and low power consumption. It can provide you with superior sensitivity and performance even in urban canyon and dense foliage environment. Its far-reaching capability meets the sensitivity requirements of car navigation as well as other location-based applications.This module supports hybrid ephemeris prediction to achieve faster cold start. One is self-generated ephemeris prediction that is no need of both network assistance and host CPU's intervention. This is valid for up to 3 days and updates automatically from time to time when GPS module is powered on and satellites are available. The other is server-generated ephemeris prediction that gets from an internet server. This is valid for up to 14 days. Both ephemeris predictions are stored in the on-board flash memory and perform a cold start time less than 15 seconds.

LS20030~2-2RE

LS20030/31/32-2RE series products are complete GPS smart antenna modules, including an embedded antenna and GPS receiver circuits, designed for a broad spectrum of OEM system applications. The product is based on the proven technology found in LOCOSYS 66 channel GPS SMD type receivers MC-1513-2RE that use MediaTek MT3337E chip solution. The GPS smart antenna will acquire a lot of satellites at a time while providing fast time-to-first-fix and low power consumption. Besides, it can provide you with superior sensitivity and performance even in urban canyon and dense foliage environment. Its far-reaching capability meets the sensitivity requirements of car navigation as well as other location-based applications.

LS2003xU

LS2003xU series products are complete GPS smart antenna receivers, including an embedded antenna and GPS receiver circuits, designed for a broad spectrum of OEM system applications. The product is based on the proven technology found in LOCOSYS 66 channel GPS SMD type receiver MC-1612 that uses MediaTek chip solution. The GPS smart antenna will acquire up to 66 satellites at a time while providing fast time-to-first-fix, one-second navigation update and low power consumption. It can provide you with superior sensitivity and performance even in urban canyon and dense foliage environment. Its far-reaching capability meets the sensitivity requirements of car navigation as well as other location-based applications. This module supports hybrid ephemeris prediction to achieve faster cold start. One is self-generated ephemeris prediction that is no need of both network assistance and host CPU’s intervention. This is valid for up to 3 days and updates automatically from time to time when GPS module is powered on and satellites are available. The other is server-generated ephemeris prediction that gets from an internet server. This is valid for up to 14 days. Both ephemeris predictions are stored in the on-board flash memory and perform a cold start time less than 15 seconds.

LS2003xU-2RE

LS2003xU-2RE series products are complete GPS smart antenna receivers, including an embedded antenna and GPS receiver circuits, designed for a broad spectrum of OEM system applications. The product is based on the proven technology found in LOCOSYS 66 channel GPS SMD type receiver MC-1612-2RE that uses MediaTek chip solution. The GPS smart antenna will acquire up to 66 satellites at a time while providing fast time-to-first-fix, one-second navigation update and low power consumption. It can provide you with superior sensitivity and performance even in urban canyon and dense foliage environment. Its far-reaching capability meets the sensitivity requirements of car navigation as well as other location based applications. The GPS smart antenna supports self-generate orbit prediction, EASYTM, to achieve faster cold start and warm start. The EASYTM is no need of both network assistance and host CPU’s intervention. The predication is valid for up to 3 days and updates automatically from time to time when GPS module is powered on and satellites are available.

LS2003G-G

LS2003G-G series products are complete standalone GNSS smart antenna modules, including an embedded antenna and GNSS receiver circuits, designed for a broad spectrum of OEM system applications. The product is based on the proven technology found in LOCOSYS GNSS SMD type receiver MC-1612-G that uses MediaTek chip solution. It can simultaneously acquire and track multiple satellite constellations that include GPS, GLONASS, GALILEO, QZSS and SBAS. Besides, it can provide you with superior sensitivity and performance even in urban canyon and dense foliage environment. Its far-reaching capability meets the sensitivity requirements of car navigation as well as other location-based applications.

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LV-1612-T15

MZ-1612-UDB