As a Senior Satellite Systems Designer / Engineer focused on Payload Management, you will serve as a key technical leader responsible for coordinating, integrating, and managing payload-related engineering activities across a mission with multiple payload providers. You will act as the primary systems engineering interface between internal teams, external payload suppliers, customers, and satellite bus stakeholders to ensure payload requirements, interfaces, deliverables, test plans, and operational concepts are clearly defined, aligned, and executed.
This role requires strong systems engineering judgment, practical experience with payload-level integration and planning, and the ability to build trusted customer and supplier relationships while guiding external stakeholders toward Kepler’s engineering standards, mission requirements, and verification expectations. You will help ensure that payload designs, documentation, test campaigns, and operational concepts integrate safely and effectively into the broader satellite system.
The ideal candidate has first-hand experience with one or more payload domains such as optical payloads, RF or SIGINT payloads, radar systems, or related mission instrumentation. Success in this role requires the ability to translate payload capabilities and constraints into mission-level scenarios, CONOPS, coverage analysis, test plans, and system budgets including power, thermal, data, and operational timelines.
Key Responsibilities:
- Lead payload systems engineering activities throughout the mission lifecycle, from concept through integration, test, launch, and commissioning.
- Serve as the primary technical interface between customers, payload suppliers, spacecraft engineering teams, and program stakeholders.
- Define, manage, and verify payload requirements, interfaces, and integration plans.
- Coordinate payload accommodation across mechanical, electrical, thermal, software, RF, and operational interfaces.
- Review payload documentation including requirements, interface control documents (ICDs), verification plans, test procedures, and operational concepts.
- Perform mission and systems analysis to assess payload impacts on spacecraft resources, including power, thermal, data handling, pointing, storage, and communications.
- Support payload integration, spacecraft-level testing, verification, anomaly resolution, and launch readiness activities in collaboration with AIT and V&V teams.
- Identify technical risks, resolve integration issues, and ensure alignment between customer expectations and spacecraft capabilities.
- Support payload commissioning and early mission operations as required.
- Mentor junior engineers and contribute to the continued development of payload systems engineering practices.
Required Skills & Qualifications:
- Bachelor's degree in Aerospace Engineering, Electrical Engineering, Systems Engineering, Physics, or a related technical discipline.
- 7+ years of experience in spacecraft systems engineering, payload engineering, mission systems engineering, or a related technical leadership role.
- Experience integrating or supporting spaceflight payloads or complex aerospace instrumentation.
- Experience defining and managing payload or subsystem requirements, interfaces, and verification activities.
- Strong understanding of spacecraft subsystem interactions, including mechanical, electrical, thermal, software, communications, and operational interfaces.
- Experience working directly with customers, suppliers, or external partners in a technical leadership role.
- Experience developing or reviewing engineering documentation such as requirements, ICDs, verification plans, CONOPS, or test procedures.
- Strong analytical and systems thinking skills with the ability to evaluate technical tradeoffs and resolve complex engineering challenges.
- Excellent written and verbal communication skills with the ability to work effectively across multidisciplinary teams.
- Demonstrated ability to leverage AI-assisted engineering and productivity tools to improve engineering efficiency and innovation.
Bonus Points:
- Master's degree in Aerospace Engineering, Systems Engineering, Electrical Engineering, or a related field.
- Experience with one or more payload types, including optical, RF, communications, radar, remote sensing, or scientific instrumentation.
- Experience supporting spacecraft integration and test, environmental testing, or flight verification activities.
- Experience supporting spacecraft commissioning, LEOP, or mission operations.
- Familiarity with mission analysis and modeling tools such as Python, MATLAB, STK, or equivalent.
- Knowledge of industry systems engineering practices and standards (ECSS, NASA, INCOSE, or equivalent).
Salary Range: $125,622 - 175,622 CAD
Actual total compensation will be determined at the Company’s discretion and is based on a variety of job-related factors, which may include, but are not limited to, relevant knowledge, skills, experience, performance, and education and/or training. The Company encourages all qualified applicants to apply, even if the posted salary range does not align with their expectations, as it does not reflect our total compensation package.
Job Type: This is for a current vacancy
Skills Required
- Bachelor's degree in Systems, Aerospace, Electrical Engineering, Physics, or related technical field
- 7+ years experience in systems engineering, spacecraft development, payload engineering, or mission systems engineering
- First-hand experience with payload-level engineering, accommodation, integration, verification, or operations planning for space systems or complex instrumentation
- Experience with one or more payload domains (optical, RF, SIGINT, radar, remote sensing, communications, or related sensors)
- Strong understanding of payload-to-spacecraft interfaces across mechanical, electrical, thermal, data, RF, software, command/telemetry, ground, and operations
- Experience working with external suppliers, customers, or partners in a technical interface role including coordination of deliverables and test plans
- Experience developing or reviewing requirements, ICDs, CONOPS, verification plans, test procedures, and compliance matrices
- Strong mission analysis capability: operational scenarios, coverage and duty-cycle analysis, and translation to system impacts (power, thermal, data, pointing, downlink)
- Willingness and ability to leverage AI-assisted engineering and development tools
- Experience supporting payload integration and test activities including inspection, functional testing, interface validation, anomaly resolution, and system validation
- Strong analytical and problem-solving skills with ability to resolve ambiguity and drive technical closure
- Effective communication skills to present complex payload, mission, and system-level topics to diverse stakeholders
- Ability to balance technical rigor with program constraints including cost, schedule, risk, supplier readiness, and mission assurance
- Master's degree in Systems, Aerospace, or Electrical Engineering or related field
- Experience supporting payload commissioning, LEOP, in-orbit checkout, calibration campaigns, or operational validation
- Experience with mission analysis, simulation, or modeling tools such as Python, MATLAB, STK, or Savoir
- Experience with payload data pipelines, ground segment interfaces, mission operations planning, or data product generation
- Familiarity with environmental, EMC/EMI, RF, optical, or calibration testing and payload functional test campaigns
- Experience with FMECA, FDIR, RAMS, safety analysis, anomaly resolution, or non-conformance management
- Familiarity with space industry standards and systems engineering practices (NASA SE Handbook, ECSS, INCOSE)
- Experience supporting technical subcontract oversight, supplier technical reviews, and mission readiness reviews (SRR, PDR, CDR, TRR, FRR, MRB)
What We Do
Kepler designs, builds, launches, and operates an advanced network of low earth orbit satellites with the ultimate goal of bringing internet to outer space. Today, Kepler serves the needs of earth by connecting machines all around the world using its satellites on orbit and other complementary networks. Through a host of compatible partner equipment we make it easy to use satellite communications in your solution and route data over the best networks.








