CUAV C-RTK 3 G5 Anti-Jamming Spoofing GNSS Module for Drone C-RTK 3 G5 GNSS Module Brief: C-RTK 3 G5 is a next-generation anti-jamming and anti-spoofing high-precision positioning and orientation module from CUAV. It integrates an STM32H5 high-performance processor and GNSS algorithm suite, with support for CAN FD bus. Delivering centimeter-level positioning accuracy and dual-antenna heading measurement, it also establishes a comprehensive signal protection framework that combines high precision with robust defense. It can effectively and effortlessly handle complex environments involving electromagnetic interference, signal spoofing, and high vibration, providing stable, secure, and accurate positioning and orientation support for unmanned systems. Follow us World Drone Market on YouTube to view more videos about the CUAV C-RTK 3 G5. C-RTK 3 G5 GNSS Module Feature: 0.6 cm 0.5 ppm RTK Positioning Accuracy Multi-Constellation Multi-Band GNSS Reception System All-Round Anti-Jamming & Anti-Spoofing Integrated LOCK for Stable Tracking Under High Vibration and Shock 2-Channel EVENT Inputs with Configurable PPS output 20 Hz High Update Rate & CAN FD High-Speed Bus Transmission Dual-Antenna Orientation Replaces Compass and No Calibration Required Compatible with ArduPilot & PX4 C-RTK 3 G5 GNSS Module Specification: C-RTK 3 G5 Basic Parameters Processor STM32H5  Arm°Cortex-M33  250 MHz Hardware Channel 789 pcs Support Constellation and Band GPS: L1C/A 、L2C 、L2PY 、L5 、L1C GLONASS: L1CA 、L2CA 、L2P 、L3 CDMA BeiDou: B11 、B1C 、B2a 、B2I 、B31 、B2b Galileo: E1 、E5a 、E5b 、E6 QZSS: L1C/A 、L1  C/B 、L2C 、L5 、L6 Antenna Support Dual Antenna (configurable single/dual antenna working mode) GNSS Technical Kit AIM (anti-jamming/ anti-spoofing), LOCK (vibration& shock  resistance), APME (multipath mitigation), IONO (ionospheric protection), RAIM (integrity monitoring) Support Service Galileo HAS High-Precision Service (look-ahead function, enabled upon software update), Galileo OSNMA Service Raw Data Output Support/ TF Card Recoding Positioning Accuracy Standalone Accuracy: Horizontal 1.2 m, Vertical 1.9m DGNSS Accuracy: Horizontal 0.4m, Vertical 0.7 m RTK Accuracy: Horizontal 0.6 cm 0.5 ppm Vertical 1 cm 1 ppm Velocity Accuracy 3 cm/s Heading Accuracy At 1 m antenna separation, heading accuracy: 0.15° At 5m antenna separation, heading accuracy: 0.03° Max Update Rate 20 Hz RTK Initialization Time 7s (baseline<40 km) Time Accuracy Related PPS Resolution: 1.4 ns Event Accuracy: <3ns Cold Start Time: <35s(no Ephemeris, no Coarse Position) Hot Start Time: <10s(with Ephemeris, with Coarse Position) Re-Acquisition Time: 1s Tracking and Acquisition Threshold Tracking Threshold: 20 dB/Hz Acquisition Threshold: 30 dB/Hz Built-in Magnetometer RM3100 Measurement Range ±1100μT(wide dynamic magnetic field adaptation) Resolution 13 nT@200 Cycle Count; Detection Sensitivity 2.7 nT at 1Hz Noise Level 15nT@200 Cycle Count; Noise Floor 4pT/√ Hz(1Hz) Linearity 0.50% within ±200μT Protocol DroneCAN Communication Rate 1 Mbit/s(CAN) 8 Mbit/s(CAN FD) Upgrade  Support Support Firmware C-RTK3 M4C Port Type Data  Interface JST GH  1.254P/TYPE-C USB Hardware Parameters Size 55.5×50×16.5 mm [Includes screw holes] Weight 43.5g(Excludes  antenna  and  feeder  cable) Operating  Temperature -10℃~ 80℃ CRA-602 Antenna Specifications Horizontal coverage angle 360° Polarization Right-hand circular polarization Gain(dB) 38±2 Connector  type SMA-J Antenna size Φ40*84.5  mm Antenna  weight 36 g C-RTK 3 G5 GNSS Module Product Description: High-Precision Positioning Centimeter-Level Positioning Dual-Antenna Direction Finding It features centimeter-level RTK positioning accuracy, with a horizontal accuracy of up to 0.6 cm 0.5 ppm and vertical accuracy of up to 1 cm 1 ppm, and an initialization time of only 7 seconds. It supports dual-antenna heading function, enabling measurement of heading & pitch or heading& roll, providing accurate and reliable heading data. It is compatible with multiple positioning modes, such as Standalone and DGNSS, with a velocity accuracy of up to 3 cm/s. Users can switch modes according to the environment and tasks, satisfying the high-precision positioning and attitude perception needs of unmanned systems in complex and dynamic environments. Dual-Antenna Heading Determination Compass-Free Calibration Experience By fixing the dual-antenna baseline length and calculating the baseline vector using carrier phase difference resolution, it outputs heading attitude data with accuracy up to 0.03°. When mounted on a vehicle, it replaces the electronic compass, which is susceptible to magnetic interference, eliminating tedious calibration and providing more stable and reliable orientation. Multi-band Multi-Constellation Reception Full Coverage in Complex Environments Built-in with 789 hardware channels, it simultaneously receives full-band signals from GPS, GLONASS, BeiDou, Galileo, and QZSS. This significantly enhances signal acquisition capability and ensures reliable positioning even in signal-challenged environments such as urban canyons and tree-shaded areas. It is compatible with Galileo HAS high-precision services, and its look-ahead function can be continuously upgraded via firmware updates to maintain technological advancement. STM32H5 Processor High-Performance Core Powered by the STM32H5 high-performance processor featuring 250 MHz main frequency and Arm Cortex-M33 core, it delivers up to 1023 CoreMark of computing performance, providing ample computational support for complex algorithms. Ture High Refresh Rate CAN FD High Update Rate Industry-first integration of CAN FD bus into GNSS positioning module. Compared to traditional CAN, the data rate is increased from 1 Mbps to 8 Mbps. Optimized ArduPilot / PX4 firmware support ensures that the 20 Hz refresh rate is not limited to GNSS module performance but truly serves high-precision navigation, significantly enhancing navigation accuracy. Precise ldentification Interference Detection Display Alert Equipped with dedicated GNSS RF interference detection technology, it accurately identifies the operating frequency band and signal strength of interfering signals. Interference information is pushed in real-time to the smart controller via DroneCAN/ UART interfaces and clearly displayed on the ground station, helping users immediately understand the RF interference environment, effectively avoid risks, and ensure operational safety. All-Round Protection 1 Powerful Anti-Spoofing Leveraging AIM detection technology, satellite reliability is graded, marked, and filtered based on factors such as abnormal spoofing signal characteristics, space-time and space-frequency verification, multi-constellation cross-validation, and inertia coupling. In addition, the OSNMA satellite security authentication mechanism is introduced to provide comprehensive protection against artificial signal spoofing. Incorporates OSNMA satellite-level security authorization mechanism, compatible with Galileo encrypted navigation message authentication technology. This verifies the legitimacy of information at the signal source, effectively resisting positioning tampering caused by forged signal injection. It ensures the authenticity and reliability of the signal source, blocks the risk of forged signal injection, and provides secure positioning for equipment operation. Integrates AIM integrated anti-jamming and spoofing detection, which automatically detects narrowband electromagnetic interference, malicious human interference, and signal spoofing. It can mark and actively mitigate these situations in real time without manual intervention, continuously outputting clean positioning data to prevent intentional interference and detection. All-Round Protection 2 Robust Anti-Jamming Integrates four auxiliary protection technologies—AIM 、 APME 、 IONO 、 RAIM —to systematically address issues such as multipath interference, ionospheric disturbances, data anomalies, and signal suppression, significantly enhancing the positioning stability and reliability of the system in dynamic and complex environments. AlM : Monitors and filters to eliminate electromagnetic interference and signal suppression. APME : Multipath anti-jamming technology reduces errors caused by building-reflected signals. IONO : lonospheric scintillation detection technology, protects against ionospheric disturbance. RAIM : Autonomous integrity monitoring, prevents faulty positioning Integrated LOCK | Resilience Against High-Frequency Vibration and Shock Specifically optimized for severe vibration and shock scenarios, LOCK enables continuous and stable tracking of satellite signals. It significantly reduces the risk of positioning latency in dynamic environments, ensuring continuous and uninterrupted positioning under complex conditions such as high-frequency vibration and rapid movement. Fully Traceable Data Support Local Data Logging Equipped with TF card local storage, it records comprehensive data including GNSS raw data, positioning results, attitude data, and interference logs. This ensures high data security and fast read speeds, facilitating raw data review, analysis, and performance optimization. Extensive Ecosystem Compatibility DroneCAN Communication Protocol Equipped with 1 CAN, 1 UART, and USB 2.0 HS interfaces, it features high extension and rich interfaces. Adopting the DroneCAN protocol, it is fully compatible with ArduPilot & PX4 mainstream open-source platforms. Paired with CUAV open-source controllers, it is suitable for autonomous unmanned systems requiring high-precision positioning and high reliability, including unmanned surface vessels, robots, multi-rotors, VTOL fixed-wing aircraft, and helicopters.