The GSG-7 is transforming the GNSS simulation industry by offering unparalleled simulation capabilities, exceptional flexibility, and robust signal capacity. This state-of-the-art GNSS simulator from Safran’s Skydel-based lineup sets a new standard in Global Navigation Satellite System (GNSS) signal testing.
Key Features of the GSG-7 GNSS Simulator:
- User-Friendly Interface: Simplifies GNSS signal simulation for a seamless user experience.
- Compact Design: Delivers high-performance in a convenient, small form factor.
- Advanced Simulation Capabilities: Generates RF signals identical to those from real satellites, enabling comprehensive GPS/GNSS receiver testing in any scenario.
- Powered by Skydel Software: Utilizes the powerful and innovative 1000Hz Skydel software engine.
- COTS Software-Defined Radios (SDRs): Integrates commercial-off-the-shelf SDRs for superior performance.
Whether you need to test positioning, navigation, or timing (PNT) solutions, the GSG-7 provides a reliable, turnkey solution that outperforms the competition in both functionality and ease of use.
Experience the future of GNSS simulation with the GSG-7, the ultimate tool for precise and flexible GNSS signal testing.
Features of the GSG-7 GNSS Simulator:
- 700 Signals: Supports a large number of signals for comprehensive testing.
- Compact Size: 2U rack-mountable or bench-top design.
- Composite Port: All MF/MC signals via a single port.
- Multiple Configurations: Available with up to 3 SDRs.
- Nanosecond Synchronization: Precise synchronization between RF bands.
- High-End RF Quality: Ensures superior signal quality.
- All-In-View Satellite Simulation: Supports all GNSS constellations.
- 1000Hz Simulation Rate: High-speed simulation iteration.
- Low Latency HIL: Minimal delay for hardware-in-the-loop integration.
- Live Sky Time Synchronization: Real-time synchronization with live sky conditions.
- RTK Support: Compatible with Real-Time Kinematic (RTK) positioning.
- High-End Performance: Delivers precision, high resolution, and ultra-high dynamic motion.
- Comprehensive API: Intuitive API available in Python, C#, and C++.
- HIL Integration: Seamlessly integrates with hardware-in-the-loop systems.
- IQ File Generation & Playback: Create and playback IQ files for testing.
- Basic Interference Simulation: Simulate basic signal interference.
- Custom Signal Creation: Ability to create custom signals.
- RF Bands: Supports 1-3 RF bands.
- Maximum Bandwidth: Up to 100 MHz per radio.
- Accelerometer Support: Includes accelerometers for motion simulation.
Interfaces:
- Single RF Output: N-Type connector
- 10 MHz Output: BNC connector
- 1 PPS Output: BNC connector
- 10 MHz Input: BNC connector
- 1 PPS Input: BNC connector
- Antenna Input: SMA connector
- Ports: HDMI, USB, Ethernet
Specifications:
- Size: 2U
- Weight: 11.5 kg (25 lbs)
- Dimensions: Width: 48 cm (19 in), Depth: 41 cm (16 in), Height: 9 cm (3.5 in)
- Power Consumption: 400W
- Line Voltage: 100-240VAC, 50-60 Hz ±10% from IEC60320 (option O) connector
- Operating Temperature: 0°C to 40°C
- Storage Temperature: -15°C to +50°C (non-condensing at 12,000M)
- GPU: 1
