• 8-channels solution based by:
    • Interference resistant NT1069 RF Front-End ICs
    • 50MHz high-performance configurable IF LPFs
    • 14-bit @100MHz ADCs
  • Configurable frequencies suitable for GNSS: GPS, GLONASS, Galileo, BeiDou, IRNSS, QZSS, supported L1,L2,L3,L5,S bands
  • FMC connector for external processing of captured data
  • On-board integrated standard performance GNSS receiver, and upconverter for external receiver.
  • Option with on-board integrated GNSS receiver with unlocked high-performance characteristics (altitude, acceleration etc.)
  • Different possibilities to use anti-jamming algorithms:
    • NT1056_FMC board with NTLab`s NT1056: 8-channel anti-jamming processor
    • IP block provided by Kosminis Vytis for FPGA board (by request)
    • Your own algorithms, implemented to FPGA board like Xilinx VC707

NT1069x8_FMC is a single enclosure evaluation kit that features interference-resistant single channel NT1069 RF ICs. This Evaluation Kit is able to accept GPS, GLONASS, Galileo, BeiDou, NavIC (IRNSS), QZSS GNSS signals in L1, L2, L3, L5, S bands. Only one frequency band at the time is available. The default frequency band assembly option is “L1”. For the L2, L3, L5, S frequency bands, evaluation kit implementation is provided by request.

NT1069x8_FMC allows to process up to 8 RF channels: amplify, down-convert to a fixed Intermediate Frequency (IF) with subsequent additional filtering and digitization by 12 or 14 bit ADC @100MHz. Each RF channel has individual RF input with active antenna supply option. NT1069x8_FMC features the FMC connector, which works as a compact electro-mechanical expansion interface for a daughter card to an FPGA board. Such flexibility with FMC is essential to enable developers to accelerate the development of their applications: Anti-jammer algorithms, Spoof-proof algorithms and others, and check it with the real-time GNSS signals. NT1069x8_FMC has embedded GNSS receivers, which provide the navigation solution in autonomous mode, as well as up-converter (modulator) which provides connection to the external (third-party) GNSS receiver.