With the advent of high fuel prices, the global warming problem and high operating costs there is a marked trend within the aerospace industry to move towards cleaner, more efficient and lower maintenance aircraft design.
One of the prime movers in this arena is the substantial electrification of the aircraft to replace hydraulic or pneumatic functions with electrical ones, as in the concepts of the More Electric Aircraft (MEA) and of the All-Electric Aircraft (AEA).
Dependent on aircraft size the electrical power requirements range from a few kW up to 800kW for the A380 and 1400kW for the B787. To manage the required higher power ratings in a feasible way, innovative Primary and Secondary Electrical Distribution Network architectures investigated over recent years include intelligent/smart power management systems, the presence of at least one high-voltage dc bus (HVDC, typically 270Vdc or +/-270Vdc) plus a low-voltage dc bus (LVDC, 28Vdc). The LVDC bus is typically generated through bi-directional power converters to interconnect and manage power transfer between the two bus levels, also enabling the addition of energy storage devices, such as batteries, super-capacitors or fuel-cells.
This innovative electrical power distribution network (EPDS) is part of a highly decentralized, modular and flexible, smart-grid, EPDS equipped with enhanced electrical energy management functionalities in order to reduce or even delete the overload capabilities of the main generators thus saving weight and reducing fuel consumption.
Another key objective of the innovative electrical power distribution network is safe and reliable distribution and protection of the electrical generation system and user equipment; with a focus on smart load management (E2-EM), system efficiency, weight reduction, improvement of modularity and reduction of the maintenance costs: better fuel usage will result in lower operational costs and better performances thus justifying the adoption of the innovative power distribution system for the Regional A/C and creating market opportunities for the European industry in face of emerging competitors in line with Clean Sky objectives.
IDEN project delivers an innovative solid-state electrical power distribution system representative of the future Regional A/C. IDEN sub-systems and components provide the backbone of the Regional A/C Iron Bird test rig: through IDEN it is now possible to convert the AC power source into a regulated +270Vdc to be distributed to the connected users through innovative primary and secondary power centres based on solid-state power controllers (SSPC).
Onboard each IDEN sub-system a dedicated controller allows the integration with the A/C CAN network thus actively supporting the implementation of innovative and flexible E2-EM strategies.