Spherocopter UAS Indoor System Configuration sheets performances Last update Mar. 4 th 2016 1 of 8
Index 1 Spherocopter UAS family... 3 1.1 Weigh and dimensions... 5 1.2 Flying and Rolling... 6 1.3 Flying for micro aero mapping... 6 2 Spherocopter BASE and Enhanced... 7 2.1 Features and accessories... 7 2.2 Performances... 8 2 of 8
1 Spherocopter UAS family Spherocopter VTOL UAS family is a quad-rotor layout vertical takeoff and landing unmanned system, especially designed for indoor and outdoor applications including: Industrial plant survey and inspections Micro-mapping indoor (i.e. greenhouses plantation monitoring) Home inside inspection Educational/Training purposes Entertainment and recreational Law enforcement and security indoor UAS pilot training 3 of 8
Two version creating the Spherocopter UAS family are sharing the same structural layout, but different avionic system granting modular performances, expandability and prices. Spherocopter base Spherocopter Enhanced The Spherocopter UAVs are made with a full carbon central and full carbon enclose structure body and some aluminum-machined parts. There is a version made in polycarbonate. Carbon frame shows exceptional rigidity, low weight and a very good modularity for great serviceability. The Plexiglas frame give an extended elasticity and a low weight. The propulsion system is based on a quad rotor layout tuned in X configuration ensuring an unobstructed field of view for the camera during translated flight. All Spherocopter UAV versions are equipped with high quality components especially designed to be used on small-unmanned vehicle, ensuring long and trouble-free operation. The following application matrix shows best operation for each version: Spherocopter BaSE Spherocopter Enhanced Home inside inspection Industrial plant inspection Micro-mapping indoor Law enforcement indoor UAS pilot training The following capability matrix shows best match for each version: Spherocopter BaSE Spherocopter Enhanced Automatic flight capability Custom flight/roll programming Payload integration User programmable functions Carbon Fiber structure Ground Movement (Rolling) 4 of 8
Telemetry data Multi UAV operations Follow-me/Training function WiFi connection 1.1 Weigh and dimensions Spherocopter UAV has the following mass (values can change between versions): BASE Enhanced Empty weight (no payload) 0.35 kg 0.25/0.85 kg Typical payload capability 0.20 kg 0.20/0.7 kg Max payload capability (reduced endurance) 0.50 kg 0.4/1 kg Endurance (Max)(*) 15 min 20/35 min Indoor/outdoor with and without cage operations (**) yes yes Diameter 14 inches 14/20 inches (*) the endurance depends by the piloting modes and payload weight (**) Spherocopter can operate without the spherical cage (it is quick and easy to remove it and put back in), clearly the performance without cage are better in particular outdoor, in addition in several countries the legislation admits low-weight UAV (under 250/300 gr) Outdoor Operations without specific registration, this is the case of Spherocopter without cage! 5 of 8
1.2 Flying and Rolling Besides normal UAV rotary wing typical functions, Spherocopter owns original characteristics: 1. It is able to fly and to roll on the ground or inside a piping, it will allow Spherocopter to move inside small or busy scenarios as a ground and flying vehicles 2. The enclose protects the propellers from accidental injury or damages (for the Spherocopter itself and for things or people) 3. The rolling mode allow the endurance increasing of about 5 times(**). 4. The Enclose protects the UAV from any EMC influence since that can work as faraday grid. 5. The Spherocopter can take off and land in any attitude. 1.3 Flying for micro aero mapping Micro Aero mapping mission requires specific performances in order to guarantee best result when all images are post processed into a single geo-tagged mosaic. Each time an image is taken, the UAV position and attitude needs to be logged: a specific feature of the autopilot installed in Spherocopter is capable of recording this set of data. This is not the case of Spherocopter Trend where the camera is mounted on a tiltable frame not granting the necessary accuracy for precise image geo-tagging. The camera needs to be installed in a calibrated bay inside the south polar cap, in order to guarantee that its optical axis will be perfectly perpendicular to ground during flight. 6 of 8
2 Spherocopter BASE and Enhanced Spherocopter BASE is the entry-level version of Spherocopter family especially designed with the following features: Low cost Point and shoot camera (no image geotagging) or GoPro style payload 15 minutes endurance 2.1 Features and accessories RPV operations Flying and rolling capability Position hold and altitude hold capability Come home capability Single payload operation Analog Video link with OSD data 12 Mpx camera mounted on S/N Polar Buy 100 minutes endurance (rolling mode only) Full carbon frame (enhanced), High grade brushless motors with carbon propellers (enhanced) Hand held controller Follow-me and training functions Video receiver and monitor Easy-Battery charger buy 7 of 8
2.2 Performances All performances are referred to standard ISA atmosphere condition: standard ISA atmosphere Air pressure 1013.25 hpa (760 mm Hg) Temperature 15 C (59 F) Air density 1.225 kg/m³ Dropping resistance Thanks to its great elasticity and robustness Spherocopter (polycarbonate version) can crash without sensible damages to its structure MAX Mixed (R&F) Just Rolling Just flying Duration 1 100 Mins 2 40 Mins 100 Mins 2 15Mins Rate of climb 5 m/s (900 ft/min) 2 m/s (350 ft/min) Horiz. speed 15 m/s (30 kts) 8 m/s (15.5 kts) 1 Duration is influenced by flight profile, weather conditions wind, battery state of charge and efficiency. Standard duration is measured in hovering flight, out of ground effect, with standard payload. 2 Maximum duration is the maximum theoretical duration of the battery without safety margin. Frequent flight at the maximum duration will shorten battery life in a very short time. 8 of 8