We’re supporting a forward-thinking space organization in their search for a Phased Array Antenna Lead Engineer. This role sits within the System Engineering Department and will lead the definition, development, and full lifecycle execution of phased array antenna subsystems — from requirements to test and integration.
This is a leadership role for an experienced engineer ready to take technical ownership and guide cross-functional teams on mission-critical antenna design.
What you’ll do:
Define and maintain antenna subsystem and unit-level requirements
Lead requirements management activities, including traceability and justification
Drive the development of subsystem architecture and performance budgets
Coordinate with multidisciplinary teams to ensure the architecture meets mission goals
Create and manage verification matrices and detailed test plans
Track development hardware through build matrices
Lead development and execution of the Assembly, Integration, and Test (AIT) plan
Review test data, manage non-compliance, and support automation of data post-processing
What you bring:
Bachelor’s degree in Electrical Engineering or equivalent
10+ years of experience in phased array or active antenna systems
Expertise in beamforming, antenna parameters, and RF subsystem performance
Experience with antenna test environments, including radiated test facilities
Deep understanding of antenna applications in space and/or ground segments
Proficiency with MATLAB, Simulink, and simulation tools
Bonus points for:
Experience with tools like DOORS, Windchill, or Jama
Background in satellite or space programs
Experience creating or using advanced modeling and simulation software
Proven ability to lead independently with minimal oversight
Strong communication skills in English (French is a plus)
We’re working with a forward-thinking space organization looking to bring on a Junior FDIR-FSW Engineer to join their System Engineering Department. In this role, you’ll support fault detection, isolation, and recovery (FDIR) activities, collaborating closely with systems engineers, operations, and subsystem teams to ensure FDIR is aligned across platform and payload designs.
This is a great opportunity for an engineer with foundational experience in satellite systems looking to gain deeper exposure to FDIR processes in an operational environment.
What you’ll do:
Document fault detection actions at the system and subsystem levels for both platform and payload
Collaborate with subsystem, system, and payload teams to review FMECAs and identify effective failure detection and recovery strategies
Provide input to the operations team to ensure FDIR strategies align with ops procedures, manuals, and test activities
Review ICDs and advise the satellite database team on relevant monitors and parameters
Ensure compliance with FDIR requirements across payload, platform, and subsystem design and documentation
Validate operational procedures against the overarching FDIR strategy
Review test artifacts and determine FDIR test success
Contribute to verification and validation matrices for platform and payload FDIR
Support in-orbit testing, anomaly resolution, and integration of FDIR strategies with payload operations
Assist with development of hardware and software ICDs relevant to fault management
What you bring:
Bachelor’s degree in Electrical Engineering, Computer Science, or related field
5+ years of relevant experience (can be supplemented with higher education)
Solid understanding of LEO/MEO satellite systems and architectures
Working knowledge of satellite platforms, payloads, and subsystems
Bonus points for:
Experience in constellation-level FDIR
Background in creating Fault Trees and FMECAs
Familiarity with PUS (Packet Utilization Standard) services
Experience working with payload hardware or development
Proficiency with MS Excel for technical analysis
Strong communication skills in English (French is a plus)
We’re supporting a leading player in the space industry in their search for a Flight Operations Engineer to join their System Engineering Department. This role is focused on the development, implementation, and validation of satellite constellation operations and procedures — supporting mission success from launch through to routine and contingency operations.
What you’ll do:
Conduct trade studies to design and test satellite and constellation operations procedures
Develop in-orbit operations procedures and oversee their execution and training delivery
Build and maintain Satellite Operations Manuals and related test procedures
Define and manage verification and validation matrices for on-orbit commissioning, routine, and contingency ops
Support in-orbit testing, anomaly resolution, and fault detection isolation and recovery (FDIR)
Work with satellite simulators and develop scripts to support operations and testing
What you bring:
Bachelor’s degree in engineering or a related technical field
7+ years of experience in flight or constellation operations
Previous hands-on experience with LEO/MEO satellite operations
Experience with automated satellite ops and in-orbit testing (IOT)
Strong understanding of space and ground segment integration, flight software, satellite database operations, and telemetry structures
Proficiency with Python or similar scripting languages
Bonus points for:
Familiarity with AGI Systems Tool Kit (STK)
Experience using DOORS, Windchill, or Jama for requirements management
Background in constellation operations
Development and testing of automated ops flows and scripts
Modeling or simulation software experience
Proven ability to work independently with minimal supervision
Strong communication skills in English (French is a plus)
We’re supporting an innovative space tech company seeking a Satellite and Payload System Test Authority to join their System Engineering Department. In this role, you’ll define and execute test strategies and methodologies for digital payloads across the full satellite lifecycle — from planning to in-orbit validation.
This position is ideal for an experienced systems engineer with deep technical expertise in satellite communications, phased arrays, and payload testing.
What you’ll do:
Lead trade studies to develop satellite and payload test plans aligned with program verification and validation objectives
Define and implement test methods, test requirements, and oversee test procedure execution
Coordinate test integration with cross-disciplinary teams to meet mission and technical requirements
Maintain verification and validation matrices through the program lifecycle, including on-orbit commissioning
Oversee satellite and payload testing including EGSE definition, test supervision, data analysis, trending, and reporting
Contribute to the development of Satellite Operations Manuals and related training materials
Support in-orbit test campaigns and assist in anomaly resolution efforts
What you bring:
Bachelor’s degree in Electrical Engineering or related field
10+ years of hands-on experience in digital communications systems for the space sector
Experience with LEO, MEO, or GEO satellite communications
Strong understanding of phased array antennas with active elements, signal processing, modulation schemes, and networking
Systems engineering experience across space and ground segment design, integration, and flight software
Proficiency with scripting languages such as Python
Bonus points for:
Experience with constellation operations and multi-satellite environments
Background in developing and testing automated test methodologies
Familiarity with DOORS, Windchill, or Jama for requirements management
Ability to work autonomously and drive initiatives with minimal supervision
Excellent communication skills in English (French is a plus)
We’re working with a fast-growing space company to find a Phased Array Antenna Engineer to join their System Engineering Department. In this role, you’ll play a key part in the design, development, testing, and verification of phased array subsystems for next-gen space systems.
This is a hands-on, cross-functional role where you’ll collaborate across systems and subsystems to meet mission-critical requirements for communications hardware.
What you’ll do:
Define and maintain requirements for antenna subsystems and related components
Manage traceability and justification of parent-child requirements
Support design architecture and performance budgeting at the subsystem level
Collaborate with multi-disciplinary teams to deliver hardware that meets mission objectives
Develop verification matrices and detailed test requirements
Track all development hardware through build matrices
Create and support execution of Assembly, Integration, and Test (AIT) plans
Review test data, evaluate non-compliances, and assist with data post-processing automation
What you bring:
Bachelor’s degree in Electrical Engineering or equivalent
5+ years of relevant experience
Solid background in active antenna system design and beamforming
Hands-on experience with antenna testing and radiated test environments
Familiarity with antenna subsystems in space or ground segment applications
Proficiency in MATLAB, Simulink, and other relevant simulation tools
Bonus points for:
Experience using DOORS, Windchill, or Jama for requirements management
Previous work on space programs
Exposure to modeling or simulation software
Proven ability to work independently with minimal supervision
Strong communication skills in English (French is a plus)
We’re supporting a leading space tech organization on their search for a Satellite Database Engineer to join a team focused on developing mission-critical databases that power the integration, operations, and analytics of complex satellite systems.
This is a highly specialized role ideal for someone with deep experience in MIB-based telemetry and command data, looking to make an impact across mission operations and system performance at scale.
What you’ll do:
Design, develop, and maintain robust satellite telemetry and command databases
Integrate Mission Information Base (MIB) format files into operational ground software
Process large-scale real-time and historical telemetry data in line with CCSDS standards
Architect and optimize databases for high-throughput satellite operations
Deploy scalable solutions using AWS, Azure, or Google Cloud
Automate and process data pipelines using Python, SQL, and shell scripting
Collaborate cross-functionally with ground systems, aerospace engineers, and mission planning teams
Technical toolkit:
Strong experience with MIB files, telemetry parameter structuring, command definitions, and validation tools
Familiarity with CCSDS telemetry and command handling
Proven ability in relational and non-relational data modeling for space applications
Experience in cloud-native databases (e.g. AWS RDS, Azure Cosmos DB, Google BigQuery)
Hands-on with containerization tools like Docker and Kubernetes
Python, SQL, Bash scripting, and use of database APIs
Knowledge of secure database practices including encryption and access control
What you bring:
Bachelor’s or Master’s in Computer Science, Data Science, Aerospace Engineering, or related
10+ years in database development and space systems
Strong background in MIB telemetry and command database design for satellite ops
Understanding of telemetry ground systems and integration into mission control or flight software
Experience supporting LEO/MEO communication constellations
Bonus points for:
Familiarity with space environment, RF systems, or satellite power tech (batteries, solar)
Mentoring junior engineers or leading technical teams
Fluency in French (a plus, not a must)
Proven record of autonomous problem-solving and high-ownership execution
We’re looking for a Platform Electrical Systems Engineer to join a forward-thinking team developing a new generation of telecommunications satellites. This role focuses on the power and electrical infrastructure of the satellite platform — covering everything from interface design to radiation analysis and system-level testing.
If you’re a systems-minded electrical engineer with experience in space power generation, distribution, and failure analysis, this is your chance to make a lasting impact on next-gen satellite architecture.
What You’ll Be Doing:
Manage electrical interface documentation for power, analog, digital, and RF subsystems
Analyze and support the design of power generation, storage, and distribution systems
Perform FMEAs and contribute to failure detection, isolation, and recovery (FDIR) strategies
Prepare and review test plans, procedures, and reports for platform-level validation
Conduct ionizing radiation analyses including total dose and single event effects (SEE)
Create systems engineering documents such as requirement specifications, compliance statements, verification matrices, and design descriptions
Contribute to satellite concept of operations and payload integration activities
Participate in major program milestone reviews: EQSR, SRR, PDR, and CDR
What You’ll Bring:
A bachelor’s degree in electrical engineering or related field
5+ years of experience working on spacecraft electrical systems
Solid understanding of power systems at the platform level, including generation, storage, and distribution
Background in electrical systems engineering, including experience with unit design, harnessing, data bus standards, and system-level testing
Nice to Have:
Knowledge of space environments, RF equipment, and power subsystem technologies including solar arrays and batteries
Experience mentoring or leading junior engineers
Ability to work independently in a fast-paced, cross-functional team
Excellent communication skills in English; knowledge of French is a plus
We’re hiring a Platform RF/EMC Systems Engineer to join a high-impact team working on next-generation satellite platforms. In this role, you’ll ensure electromagnetic compatibility (EMC) across complex RF environments, bridging communications payloads with platform subsystems.
If you’re a specialist in EMC testing, RF system integration, and satellite-level analysis, this opportunity offers the chance to make a direct impact on mission-critical hardware performance.
What You’ll Be Doing:
Perform EMC analyses and interpret unit-level EMC test reports
Analyze communication payload RF transmitter/receiver data and recommend design improvements to ensure EMC with platform subsystems
Develop system-level EMC test plans and lead satellite-level EMC testing
Support grounding, shielding, and wiring harness design for EMC compliance
Troubleshoot RF/EMC issues in integrated satellite systems and Platform Engineering Models (FlatSat)
Contribute to systems engineering documentation: requirements specs, verification matrices, design descriptions, and compliance statements
Participate in key program reviews (EQSR, SRR, PDR, CDR) with internal teams and external stakeholders
What You’ll Bring:
A bachelor’s degree in electrical or aerospace engineering
5+ years of hands-on experience in RF and/or EMC engineering
Extensive experience in large-scale, system-level EMC testing
Familiarity with unit-level EMC testing based on international standards
Strong systems engineering foundation, including digital, RF, and analog design knowledge
Experience with satellite wiring harness design and signal routing strategies
Nice to Have:
Understanding of space environments and satellite communications
Self-motivated with the ability to work independently in fast-paced engineering environments
Leadership qualities or experience mentoring junior engineers
Excellent communication skills in English; French language skills are a plus
We’re hiring a Platform TT&C Systems Engineer to support the design, development, and integration of satellite communication systems. This role focuses on Tracking, Telemetry & Command (TT&C) — the critical communication link between spacecraft and mission control.
If you’re passionate about RF systems, spacecraft communications, and hands-on testing, this opportunity puts you at the core of cutting-edge space programs.
What You’ll Be Doing:
Design TT&C systems across various frequency bands
Conduct system-level link budget analyses
Review antenna scattering analyses and contribute technical insights
Develop and maintain engineering documentation: requirements, compliance statements, verification matrices, and design descriptions
Prepare interface control documents (ICDs) for TT&C integration with other platform subsystems
Troubleshoot TT&C issues in integrated satellite environments and Platform Engineering Models (FlatSat)
Ensure seamless interoperability between the platform TT&C subsystem and payload
Contribute to the overall communications Concept of Operations (ConOps)
Participate in milestone reviews (EQSR, SRR, PDR, CDR) with internal and external stakeholders
What You’ll Bring:
A bachelor’s degree in electrical engineering
5+ years of experience in RF or satellite communications systems
Strong background in RF engineering
Hands-on experience with communications subsystems including transceivers, couplers, filters, and antennas
Familiarity with communication standards and regulations (ITU, CCSDS, ETSI)
Nice to Have:
Understanding of space environment and satellite communications
Experience with satellite tracking and ranging systems
Proven ability to work independently and lead on technical tasks
Strong communication skills in English; French language skills are a plus
Interest or experience in mentoring junior engineers
We’re seeking a Senior FDIR-FSW Systems Engineer to take a leading role in designing, implementing, and validating advanced Fault Detection, Isolation, and Recovery (FDIR) strategies across platform and payload systems.
In this role, you’ll bridge systems engineering and flight software, collaborating with mission-critical teams to ensure spacecraft autonomy and reliability. If you’re passionate about mission assurance and thrive in high-accountability environments, this opportunity is tailor-made for you.
What You’ll Be Doing:
Define FDIR actions at system and subsystem levels for satellite platforms
Document payload-platform interaction strategies for satellite-level FDIR
Collaborate with operations teams to design contingency scenarios
Work with customers to refine and align FDIR strategies
Support the FSW team in implementing and testing FDIR on FlatSat and DSS
Coordinate with AI&T to determine FDIR tests at the spacecraft level
Analyze FMECAs and fault trees to provide isolation and recovery strategies
Align operations procedures, manuals, and test plans with FDIR strategy
Provide inputs to satellite databases for parameter and monitor definitions
Review designs, ICDs, and ConOps to ensure FDIR compliance
Evaluate test artifacts and troubleshoot discrepancies
Create Verification and Validation matrices for FDIR requirements
Support In-Orbit Test (IOT), anomaly resolution, and FDIR strategy refinement
Contribute to ICD development across hardware, software, and databases
What You’ll Bring:
A bachelor’s degree in electrical engineering, computer science, or related discipline
10+ years of relevant experience in space systems engineering or flight software (advanced degrees may offset experience)
Experience with LEO/MEO satellite systems
Background in cross-functional collaboration across engineering disciplines
Knowledge of satellite systems and subsystems, with FMECA and fault tree analysis familiarity
Understanding of fault propagation and system-level recovery techniques
Flight software knowledge related to monitoring and FDIR implementation
Experience testing FDIR in both hardware and software environments
Nice to Have:
Constellation-level FDIR strategy experience
Fault tree development and reliability analysis expertise
Embedded systems FDIR experience
Familiarity with ECSS or PUS services
Experience mentoring junior engineers
Working knowledge of MS Excel and requirements tools (DOORS, Windchill, Jama)
Strong communication skills in English; French language skills are a plus
