GP - Divider 2W SMA
GP Divider2-way GNSS signal splitter with SMA connectors 1 port DC pass, 1 port DC block with 330Ω load. Perfect for time servers with antenna preamplifier current measurement GP-Divider is an ultra-compact device intended to use a single GNSS antenna for two receivers. The convenient GNSS port layout makes it possible to connect GP-Divider directly to a receiver without additional RF cables. Compact DesignThe market’s smallest GNSS splitter with an SMA female output connector enables convenient connection to a GNSS receiver’s input port without an additional RF cable. Designed for Time ServersGP-Divider features two GNSS output ports, the first of which is DC pass and the second is DC blocked with a 330 Ohm load. This design is particularly advantageous when time servers are equipped with an onboard antenna current measurement module. Queue-ConnectThe small size and port layout enable connecting GP-Dividers in a queue-like formation. This feature allows you to have an unlimited number of output ports. Supports all GNSSGP-Divider supports all GNSS constellations and covers all frequency bands. Frequency range: 1.15 GHz – 1.65 GHz.
GP Jammer
Multi-channel RF jammer simulator for GNSS and communication systems(Note: The item is available. Distribution only to research institutions and authorities with permission)For research institutions - Write to us also for the receipt of a test license!The GP-Jammer is a software-defined, multi-channel RF jammer simulator specifically designed for the development and testing of GNSS and communication systems under realistic interference conditions. It is ideal for applications in the areas of drone technology, critical infrastructures, research and development.It can be programmed completely freely and also adapted and controlled via Python scripts.Features Multi-channel capability: Supports multiple simultaneous transmission channels, ideal for complex test scenarios.Wide frequency range: Simulates RF interference in the range from 70 MHz to 6 GHz.Open Python library: Allows the creation and adaptation of interference signals with various modulation techniques.Compatibility with Adalm Pluto SDR: Uses custom firmware to efficiently process and transfer IQ data.Powerful modulation techniques: Supports complex modulations such as AWGN, chirp signals and GPS C/A code interference.Diverse application possibilities Drone resilience tests: Evaluation of the resistance of drones to GNSS interference and spoofing attacks.Research and development: Investigation of the effects of various interference signals on communication systems.Security checks: Testing systems for their vulnerability to RF interference in critical infrastructures.Available licenses 1-channel license: For basic tests and single-channel devices.3-channel license: Ideal for GNSS receiver testing across multiple bands.6-channel license: Recommended for comprehensive drone testing, including control, telemetry, and GNSS resilience.Unlimited channels: For advanced test scenarios with multiple sources and complex modulations.
GP Probe DIN L1
The GP-Probe DIN L1 is a cost-effective GNSS interference detector specially designed for the detection of interference by GPS / GNSS spoofing or jamming. This one-channel device scans the 60 MHz spectrum within the L1 frequency band and monitors the accuracy of GNSS signals. It can work autonomously or be used in combination with the GP cloud to provide additional analysis and monitoring capabilities.The main features include spoofing and jamming detection. Anomalies in GNSS signals are detected and classified. The real-time analysis enables immediate action on-site - e.g. automatic disconnection of the time servers, alarm via relay or own procedures via LUA-scripting. The sensor can be seamlessly integrated into existing systems. It is particularly useful for securing critical infrastructures that rely on precise GNSS data, such as time servers or navigation systems.Technical data: Frequenzband: GNSS L1 (1575,42 MHz) Scanbereich: 60 MHz (L1 Band) Unterstützte Konstellationen: GPS L1 C/A QZSS L1 C/A L1S GLONASS L1OF BeiDou B1I/B1C Galileo E1B/C SBAS L1 C/A: WAAS, EGNOS, MSAS, GAGAN Erkannte Störungen: Spoofing und Jamming Überwachung: PPS (Pulse Per Second) Genauigkeit Einsatzmöglichkeiten: Eigenständig oder in Verbindung mit GP-Cloud Datenausgabe: Echtzeitüberwachung mit Anomalieerkennung Spannungsversorgung: 12-48V DCInterfaces:Communication interfaces: network, relay, Lua scripting and othersCloud support: GP cloud compatible for improved analytics and loggingDimensions & Weight:Compact design for easy integration into existing systems139.4x118x25mmMounting: DIN rail (DIN rail) compatible0.5 kgAreas of application:Protection of critical infrastructuresTime servers and navigation systemsPreventive safety monitoring against GNSS interferenceOfficial and civilian applications to secure GNSS-based servicesSpecial features:Real-time interference monitoringAnalysis and classification of GNSS signal disturbancesHigh ability to integrate into existing infrastructuresThrough GPS input and output simple looping into existing RF paths of e.g. weather stations or time servers possible.Options: Hardware Options: PPS: PPS accuracy Measurement - bereits integriert BL: Build in RF Blocker - bereits integriert RL: Relais und RS232 - bereits integriert SCR: Display und Keypad - bereits integriert Software Options: OSP: Software option for basic onboard interference and anomalie detection (Important if sample is to be operated without cloud) - optional (one-time cost / perpetual license) LUA: Develop custom scenarios for external equipment remode control via RS232 with the emdedded LUA scripting engine - optional (one-time cost / perpetual licence) STREAM: Software option for streaming raw GNSS Data via websocket - optional (one-time cost / perpetual licence) Cloud Option: Subscription to GP-Cloud: Advanced spoofing/jamming detection, GNSS signal quality monitoring, 14 days storage of measurement results, 12 month events data storage, Real-time event notifications via RabbitMQ, Webhooks, email Unlimited users Useful, for example, for logging data for later evaluation, for insurance questions or for networking and managing several sensors The cloud option is optional (annual license)The cloud option is pre-selected.The sensor can:Work completely self-sufficient (OSP option)Only work with the cloud (GP-Cloud Subscription)Self-sufficient and working with the cloud (OSP and Cloud Subscription) Please adjust the options accordingly when ordering.For information on integration into your own on-prem cloud, please contact.
GP-Simulator Bundles
GP Simulator 2 – Advanced GNSS Threat Simulation Package(Note: The items are available. Sale only to authorities and research institutions with appropriate permission. Please inquire for reference and prices.)The comprehensive complete kit for advanced tests of GNSS spoofing and jamming. Combines the GP Simulator and GP Jammer platforms with all the necessary hardware to evaluate GNSS vulnerability in time servers, drones and critical infrastructure. Includes software, SDRs, a powerful laptop and RF accessories in a robust, portable case.Includes (Depending on version):GP Simulator 2 – Core License (Perpetual)GP Simulator 2 - Optional GPS Spoofing License (Perpetual)GP Simulator 2 – SDRGP-Jammer – 3-channel license (perpetual)3 × SDRPowerful laptop (Ryzen 7, 32 GB RAM, RTX 4060)Robust Transport Case – NANUK Laptop, BlackComplete set of HF accessories for fast and trouble-free commissioning
Jammerschreck Nano
Jammerschreck NanoThe jammer nano is a completely new development. A complex GNSS analysis hardware was accommodated in the size of a USB stick.Probably the smallest GPS jammer detector based on advanced GNSS analysis in the world!The Jammerschreck nano reliably detects interference in the GPS-L1 band and signals them via sound, vibration or through the LED bar. For example, car jammers can be detected and located in the outdoor field at about 200m and in the car at about 50-70m (example with USB 5 dBm low power jammer).The compact dimensions make it the perfect companion for the pocket or the dashboard. The built-in battery can be easily charged via USB-C and allows continuous operation of 1 month in detection mode (in logging mode even up to 3 months).The Jammerschreck nano works completely self-sufficient.For further analysis, it can also be connected to a smartphone via USB-C and provides exact data on power and SNR. The seamless integration into our web app solution is also available.Features SmallLight2 operation modes – detector (10/s) and logger (1/s)Ultra-compact – ideal for portable use on the body (also stealth mode)Simple 1 button operation - for switching on, muting, battery check...Wide detection radius - approx. 200m in the free field, approx. 50-70m in the vehicleIntegration with smartphone, Android app and our GP web appSize: 113 x 31 x 15mmWeight: approx. 50 gReceiving bands: GPS L1 C/A, Galileo E1B/CAlarm: Speaker, Vibration, 36 LEDsBattery life: up to 1 month in detector modeUp to 3 months in Logger ModeBattery charging time: 90 minutes via USB-CDownload Datasheet
Linnet Mosaic-X5
Linnet Mosaic-X5 – High-Precision RTK GNSS Module Short Description The Linnet Mosaic-X5 is an ultra-compact, multi-frequency RTK GNSS module delivering centimeter-level positioning accuracy. It is designed for demanding applications such as drones, autonomous vehicles, robotics, and industrial navigation. Powered by the high-performance Septentrio Mosaic-X5 receiver, it offers outstanding precision, reliability, and flexibility for professional use. Key Features • Centimeter-level RTK accuracy – precise real-time positioning for professional applications • Multi-constellation GNSS support – compatible with GPS, GLONASS, Galileo, BeiDou, and QZSS • Ultra-compact form factor – ideal for space-constrained installations • MicroSD card slot – onboard data logging for long-term operation • USB-C and UART interfaces – flexible connectivity and fast data transfer • Robust and thermally optimized design – stable performance in demanding environments • Advanced anti-jamming and anti-spoofing technology – reliable positioning even under signal interference • Powerful onboard CPU – supports web-based configuration and NTRIP setup via USB • Open-source software – source code available for custom integrations and development Technical Specifications (Overview) • Dimensions: approx. 54.1 × 54.1 × 14 mm • Weight: approx. 150 g • Power supply: 5 V • Interfaces: USB-C, UART • Supported GNSS bands: GPS L1/L2/L5, GLONASS L1/L2/L5, BeiDou B1/B2/B5, Galileo E1/E5/E6 Applications The Linnet Mosaic-X5 is ideal for: • Drones & UAVs – accurate navigation and flight control • Autonomous vehicles & robotics – reliable high-precision positioning • Industrial applications – tracking, surveying, and automation • Agricultural & construction machinery – precision guidance and control systems Why Choose the Linnet Mosaic-X5? The Linnet Mosaic-X5 combines a compact hardware design with professional-grade GNSS technology, delivering stable, high-accuracy positioning for advanced navigation and positioning systems. It is an excellent choice for developers, OEMs, and system integrators looking for reliable RTK performance in a small form factor. Developed and distributed by Systork, it meets the needs of modern, high-precision GNSS applications.
Wren Mini - GNSS L1/L5 + Mag + DroneCAN
Wren Mini – Compact High-Precision RTK GNSS Module Short Description The Wren Mini is an ultra-compact, high-precision RTK (Real Time Kinematic) GNSS module designed for dynamic applications requiring centimeter-level positioning accuracy. Featuring an integrated high-quality antenna, advanced DroneCAN communication, and a built-in magnetometer, it is optimized for use in UAVs, drones, and other precision navigation systems. Key Features • Integrated high-performance LNA antenna – ensures robust and reliable GNSS signal reception for accurate positioning. Systork • Built-in magnetometer – supports enhanced navigational orientation data critical for drone control. Systork • DroneCAN communication protocol – robust, noise-resistant interface designed for CAN-based UAV systems. Systork • Standard PX4 and ArduPilot connectors – compatible with a wide range of modern UAV flight controllers. Systork • Compact and lightweight design – easy to integrate into drones and other robotic platforms without adding unnecessary weight. Systork • Quectel LC29H RTK chip – supports L1/L5 dual-frequency GNSS signals for fast convergence and centimeter-level accuracy. Systork • Made in France with open-source design – transparency and flexibility for developers and system integrators. Systork Technical Overview • Dimensions: approx. 3.5 × 4.0 × 3.0 cm – compact form factor for easy integration. Systork • GNSS Support: Dual-frequency L1/L5 signals for robust multi-constellation positioning. Systork • Communication Interface: DroneCAN / USB – flexible connectivity options. Systork • Power Supply: 5 V operating voltage. Systork • Current Consumption: ~120 mA (typical). Systork Applications The Wren Mini is especially suited for: • UAVs and Drones – high-precision positioning for autonomous flight systems. • Robotics and autonomous vehicles – precise navigation and dynamic operations. • Rover applications – reliable real-time positioning on moving platforms. • Base station usage – can also be used as part of a ground base for RTK corrections. Why Choose the Wren Mini? The Wren Mini combines compact size with advanced GNSS RTK performance, making it ideal for developers and OEMs working on precision drone platforms and dynamic navigation systems. Its robust communication interfaces, integrated antenna, and magnetometer elevate it above standard GPS modules, delivering fast convergence times and high-accuracy positioning in demanding environments.