[{"data":1,"prerenderedAt":127},["ShallowReactive",2],{"/services/use-cases/c-class-marking":3},{"id":4,"title":5,"body":6,"date":115,"description":116,"extension":117,"meta":118,"navigation":122,"path":123,"seo":124,"stem":125,"__hash__":126},"content/services/use-cases/c-class-marking.md","C Class Marking",{"type":7,"value":8,"toc":107},"minimark",[9,14,31,50,55,62,97,104],[10,11,13],"h2",{"id":12},"description","Description",[15,16,17,18,22,23,26,27,30],"p",{},"The ",[19,20,21],"strong",{},"C-Class marking"," system is part of the European Union’s regulatory framework for ",[19,24,25],{},"unmanned aircraft systems (\nUAS)",", introduced under the ",[19,28,29],{},"EU Drone Regulation (2019/945)",". This classification standardizes the technical and\noperational characteristics of drones to ensure they meet safety, performance, and environmental requirements before\nbeing operated within the European airspace.",[15,32,33,34,37,38,41,42,45,46,49],{},"The C-Class system categorizes drones from ",[19,35,36],{},"C0 to C6",", with each class corresponding to a specific risk level, weight\nrange, and operational constraints. These markings are crucial for drone operators and manufacturers, as they determine\nwhere and how a drone can be legally flown under the ",[19,39,40],{},"Open",", ",[19,43,44],{},"Specific",", or ",[19,47,48],{},"Certified"," categories of operations.",[51,52,54],"h3",{"id":53},"purpose-of-the-c-class-tests","Purpose of the C-Class Tests",[15,56,57,58,61],{},"To obtain a C-Class marking, drones must undergo a series of ",[19,59,60],{},"conformity assessment procedures",". These tests verify\nthat a drone complies with the technical requirements laid out in the regulation. Key aspects evaluated include:",[63,64,65,71,76,81,87,92],"ul",{},[66,67,68],"li",{},[19,69,70],{},"Weight and kinetic energy limits",[66,72,73],{},[19,74,75],{},"Maximum speed and altitude",[66,77,78],{},[19,79,80],{},"Noise emissions",[66,82,83,86],{},[19,84,85],{},"Safety features"," (e.g., low battery warning, geo-awareness, remote identification)",[66,88,89],{},[19,90,91],{},"Fail-safe behavior and secure communications",[66,93,94],{},[19,95,96],{},"Physical robustness and construction quality",[15,98,99,100,103],{},"Testing may be performed in controlled environments, such as ",[19,101,102],{},"indoor wind and weather test centers",", to simulate\nvarious flight conditions and failure scenarios. Certified testing bodies or notified organizations carry out these\nevaluations to ensure consistent standards across the EU.",[15,105,106],{},"By adhering to the C-Class marking system, drone manufacturers and operators can ensure regulatory compliance, improve\npublic safety, and enable broader adoption of drones in commercial, governmental, and recreational applications.",{"title":108,"searchDepth":109,"depth":109,"links":110},"",2,[111],{"id":12,"depth":109,"text":13,"children":112},[113],{"id":53,"depth":114,"text":54},3,null,"Requirements to meet safety, performance, and environmental requirements before being operated within the European airspace.","md",{"image":119,"badge":120},"/img/services/use-cases/image-not-found.png",{"label":121},"Use Case",true,"/services/use-cases/c-class-marking",{"title":5,"description":116},"services/use-cases/c-class-marking","UkONqqyUVVjfKcSmUe1vzFj-Y84DxAqsupu1nRy2ZiU",1774344910798]