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The Galaxia® Space Development board is intended to support development of demanding space applications, which require low power, high performance and of course a low single event upset rate.


The Galaxia® development board provides users with a Certus™-NX LFD2NX-40 which is commercial equivalent of the Certus-NX-RT device offered by CAES.


This development board provides an excellent platform for the development of applications including

  • Deployment Cameras

  • Temperature Control Systems

  • Motor and Actuator Control

  • Telemetry and Telecommand processing

  • Health and Usage Monitoring

  • Radiation Beam Testing for design proving

  • Implementing Compression algorithms

  • Implementing Cryptographic security

The development board provides the user with the following Resources


  • Certus™-NX LFD2NX-40

  • 80 IO accessible via PMOD

  • 14 ADC Channels – Including ADC Reference

  • 128 Mbit NOR flash for configuration

  • 256 Kbit MRAM memory

  • 100 MHz Oscillator

  • Lattice In-System Programmable Hardware Management Expander

  • RPi Pico


The Lattice Certus™-NX FPGA provides the user with 40K LUTs, 2.5 Mbit of BRAM, 56 DSP (18x18), 2 ADC and inbuilt 32KHz and 450 MHz Oscillators.


Board information such as Schematics, Assembly, STEP Files and supporting information can be found in the Bit Bucket Repository


It is also possible to deploy RISC-V processors on this development board, using the Lattice Propel tool. Examples of this can be examined in the tutorials below


Propel Builder Hardware Creation

Propel Software Development


Uniquely to this development board is the provision of the RPi Pico which provides the developer with a wide range of capabilities including.

  • Clock Generation – Generation of up to 65MHz reference clock using the PIO.

  • Communications emulation – Emulation of a differential backplane bus

  • Communications Monitoring – Monitoring and logging communications

  • Sensor emulation – Emulation of sensors across the system and implementation of failure modes

  • Complex communications creation – Implementation of a space wire communication protocol between the FPGA and the Pico. This provides a simple interface which can be controlled over the USB communication.

  • Power management and monitoring – Monitoring the power network, to control, monitor and observe the dissipated power as the FPGA design is used for anger or in under testing for example beam line.

Galaxia® Space Development board

  • All shipping via Fedex

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