Imaging.

CAPABILITIES

Optical Design & Engineering

• Full turn-key optical design capabilities
• Compact optical designs to meet constrained mass/volume requirements
• Optical design/analysis in Zemax, FRED, and CodeV
  • Lens design
  • Sensor selection
  • Optical sensitivity and Monte Carlo analyses
  • Monte Carlo tolerance analyses
  • Specular/non-specular stray light analyses
  • Illumination source selection and
  • delivery optics
  • Beam propagation
  • Field illumination uniformity
  • High powered lasers
• Atmospheric modeling using internally developed wave propagation tools, MODTRAN, and HELEEOS​

Opto-Mechanical Design

• Mechanical layout trades support the concept design phase
• Expert design for thermal and structural stability
• Design for manufacturing and assembly (DFMA)

CASE STUDY

SkySat Imaging Constellation

SkySat is a LEO satellite constellation of Earth observation satellites providing sub-meter resolution images, videos, and analytic services. To date, 19 second generation SkySat satellites have been successfully launched by four different launch vehicles and are currently in operation by Planet.

Quartus engineers supported the SkySat program for several years, from pre-PDR concept development through qualification and acceptance testing. The 2nd generation SkySat system presented several engineering challenges:

• The structural architecture needed to be robust enough for launch qualification on a variety of launch vehicles, leading to challenging, enveloped random vibration environments.
• A new propulsion system required a redesign of the core structural architecture with minimal mass and payload dynamic environment impacts.
• The sensitive optical payloads required minimizing structural dynamic amplification through the bus structure.
• Multi-phase CFD required to predict on-orbit propellant dynamic loads.
• Thermal distortion analysis required for sun-synchronous orbit.
  • Temperature mapping from on-orbit thermal analyses.