Opto-Mechanical Design Engineer
Work with the brightest minds, including ex-ISRO scientists and global space industry experts, at one of the select few companies in the country pioneering cutting edge EO payloads.
Seeking an Optomechanical Engineer to design, develop, and optimize mechanical configurations and interfaces for advanced optical payloads, collaborating with cross-functional teams to create and test innovative payload systems for Earth observation in Low Earth Orbit.
About KaleidEO
KaleidEO, a subsidiary of SatSure, is an upstream leader in Earth Observation, building a full-stack company from India.
As an analytics-first payload innovator, we focus on building next-gen payloads tailored for industry-specific applications.
Our high-resolution, optical, multispectral payloads, equipped with edge computing and wide coverage capabilities, maximize the value generated from every pixel of satellite imagery.
Rooted in SatSure’s legacy of delivering last-mile applications across sectors like Utilities, Aviation, Agriculture, BFSI and Climate Action, KaleidEO offers modular solutions for the entire EO value chain spanning payload development, launch, mission operations, and data analytics
At KaleidEO, we are committed to shaping the future of Earth Observation and putting Indian space tech on a global map, and we invite you to be part of this exciting journey.
Roles and Responsibilities
- As an Optomechanical engineer at KaleidEO, you will be designing, developing, and optimizing mechanical configurations and interfaces for complex optical payloads to be used for earth observation.
- It will require a close working relationship with optical engineers, satellite/payload system engineers, and other stakeholders to design, build, and test new complex payload systems for use in Low Earth Orbit.
- Design opto-mechanical systems using appropriate tools from initial design concept to detailed final design.
- Perform FEA of mechanical systems oriented to determine frequency response, mechanical stresses, and deformations due to dynamic forces and loads, including thermal load cases.
- Drive and maintain the mechanical alignment budget at the system level.
- Derive build and test procedures for the payload along with the optical designer and AIT engineers/partners. Derive calibration procedures for the assembly
- Research and select COTS/custom materials and parts appropriate for the design,create and manage payload-level BoMs and contribute to interface controls document
- Review possible layouts/orientations to optimize design elements. Design, assemble, and test mechanical parts including ground support equipment for lab testing on imager prototypes and flight models.
- Produce/manage the production of manufacturing drawings to enable the designs to be manufactured and support manufacturing processes.
- Maintain a design log, summarising each step in the design, and development process. Present in design reviews
- Work with cross-functional global teams with external stakeholders.
Qualifications
- Bachelor’s in mechanical engineering, master's preferred or closely related subject.
- Work experience of 5 years in opto-mechanical systems.
Must have
- Experience with designing precision opto-mechanical systems with a strong understanding of optical metrology and optical testing methods.
- Proven experience working with CAD (Solidworks or Siemens NX), generating detailed toleranced mechanical fabrication drawings.
- Experience in the design of electromechanical mechanisms, precision mechanics, and/or precision motion control is desirable.
- Demonstrated experience in performing FEA - model simplification, simulation, and analysis. Specifically for optical-structural performance for static deformations, modal analysis, and thermal deformation.
- Excellent analytical, problem-solving, verbal, and written communication skills.
Good to have
- Basic understanding of multiple domains of satellite engineering, such as space systems, sensors, in-orbit operations, and the effect of thermomechanical distortions on image quality.
- Experience in designing for high-reliability space environments– designing for launch survivability, vacuum, and on-orbit thermal conditions (STOP).
- Experience with the design and fabrication of glass/composite/metallic/ceramic assemblies, epoxies, mechanisms, and electrical components in the context of opto-mechanical systems.
- Basic knowledge of optical design.
- Designing, analyzing, modeling, and simulating heat transfer and thermal management solutions.
Interview Process
- Introductory call
- Interview rounds (ideally up to 3-4 rounds)
- Culture Round / HR round
No of positions: 1
- Expected Month of Joining: ASAP
Benefits
Medical Health Cover for you and your family including unlimited online doctor consultations
We believe family comes first. That’s why we offer Maternity, Paternity, Marriage and Bereavement Leave, so you can be there when it matters most.
We ensure every member of the team gets an opportunity to participate at international events and conferences.
Access to mental health experts for you and your family.
Dedicated allowances for learning and skill development.
