Clyde Space Solar Panel

The first flight mode is due for delivery next year as per the uk space agency which.

Clyde space solar panel.

The big dog of our cubesat range is the epic 12u. Clyde space solar panel glasgow company aac clyde space has been chosen to develop a solar panel for moog s sl omv or small launch orbital manoeuvring vehicle. Find out more about space as a service and browse through our satellite bits and epic spacecraft via our online store today. Boasting large deployable solar arrays and enhanced pointing not to mention our flight proven avionics core our epic 6u class is the ideal choice for both commercial and government missions.

Aac clyde space provides rapidly manufactured spacecraft services and solutions designed with quality and innovation in mind for the small satellite market. Aac clyde space will develop the new solar panel to power the vehicle under a contract worth 340 000 awarded by us based moog. One such project involves us company moog who are developing a small launch orbital manoeuvring vehicle sl omv in reading berkshire on behalf of lockheed martin. Moog has selected glasgow based aac clyde space to develop a new solar panel to power the vehicle in a contract worth 340 000 with the first flight mode due for delivery in 2021.

For missions requiring perfomance longevity and that bit more space in the trunk our epic 6u class is just the job. Moog has selected glasgow based aac clyde space to develop a new solar panel to power the vehicle in a contract worth 340 000 with the first flight mode due for delivery in 2021. With up to 8u of available payload volume or 12u of payload on our 16u option and the ability to accomodate large arrays of deployable solar panels this class of cubesat offers increased performance whilst still boasting the same proven avionics core. The side solar panels are designed to fit at the side plates of our cubesat structures.

The sl omv is designed to carry satellites which do not have their own propulsion system to their desired orbits a capability which will be needed for the deployment of constellations. The purpose of these panels is to provide maximum power generation from any side of the satellite.