Key Features
| No | Product | Features |
| 1 | Advanced GNSS Reception | Supports RNSS signal reception from BeiDou-3 and GPS satellites, including B1C, B1I, and GPS L1 civil signals, ensuring stable positioning performance for compact UAV and robotic platforms. |
| 2 | Multi-Type Anti-Jamming | Provides strong protection at B1 and L1 frequency bands, this enables resilient navigation continuity in complex electromagnetic environments. |
| 3 | Field-Upgradable Architecture | Supports serial-port firmware upgrades for both the anti-jamming module and integrated GNSS receiver, enabling rapid capability updates and lifecycle extension. |
| 4 | Built-In Self-Test (BIT) | Integrated self-diagnostics and status monitoring functions provide real-time health awareness for mission-critical autonomous systems. |
| 5 | Data Output | NMEA 0183 / ublox protocol output (PVT output can be customized) |
| 6 | Port Type | TTL and RF dual integration modes |
| 7 | Weight and power | Lightweight ≤130 g and low power consumption ≤6 W 5–17 VDC (12 V recommended) |
Technical Specifications
| NO. | Parameter | Specification |
| 1 | Frequency | B1C, B1I and GPS L1 |
| 2 | Anti-jamming | 95 dB ISR (single source) |
| 3 | Multi-jammer | Up to 3 jammers |
| 4 | Position Accuracy | ≤10 m under jamming |
| 5 | Velocity Accuracy | ≤0.2 m/s |
| 6 | Timing Accuracy | ≤100 ns |
| 7 | Power Input | 5–17 VDC (12 V recommended) |
| 8 | Power Consumption | ≤6 W |
| 9 | Dimensions | 65 × 65 × 21 mm |
| 10 | Weight | ≤130 g |
Typical Applications
• Premium UAVs for ISR, mapping, and tactical reconnaissance
• Compact inspection robots for industrial facilities and energy assets
• Portable UGVs for patrol, EOD, and perimeter security
• High-value autonomous payload carriers
• Smart mobile platforms requiring resilient GNSS navigation
It is similar to the 8/16/32 Element CRPA anti-jamming terminal, GAPS65 fully compatible with mainstream open-source flight controllers including PX4, Ardupilot, Pixhawk, and V5+ platforms, enabling rapid integration without modifying navigation algorithms.
