Science and Research

Motors and controls are used in many research applications. Our motion control systems serve the special properties and performance characteristics needed in demanding scientific experiments:

  • Bespoke motor designs and geometries
  • Highly accurate direct drives (picometer and microrad)
  • Direct drives, torque motors with large diameter >1m and torque >100.000Nm
  • 3D-torque motors (spherical)
  • Extremely fast motors
  • Precise time and phase synchronisation between many axes
  • Vacuum compatibility
  • Radiation resistance
  • etc.

Do you have technical questions or need a quote?

Contact us today to talk to an experienced RECKONIC engineer!

Open Contact-Form

Interesting Applications:

  • Astronomy, in the optical and infra-red spectrum
  • Radio-astronomy
  • Semiconductor physics - chopper systems
  • Medical research - Nystagmography and Human training centrifuges
  • Manipulators for radio-acrive environments
  • Collimators for the LHC at CERN
LHC Collimation (see case study)
Telescope on Gran Canaria
Rotating Chair - Nystamorgraphy
"Desdemona" - Training System for Pilots and Astronauts

Current Research Projects

RECKONIC is an important partner of industry and of many Universities and research institutes, when special applications for Motion Control are demanded or Motion Control technologies themselves are to be improved.

We supply both fast and precise motor and positioning systems for research applications, including systems with many axes etc.

We are also involved in many research projects at national and European leave.

研究奖:通过研究创新 2020/2021
Research Award: Innovative Through Research 2020/2021 
中小企业中央创新计划
Central Innovation Program For Small and Medium-sized Enterprises 

Research Projects At national and European Level

Research Project Logo Paper
ADEPT Advanced Electric Powertrain Technology  
AktiWa Actively erased pressure roller    
E-SEMA Electric Smart Electro-Mechanical Actuator for gas turbine engines    
MaTE Magnet-free traction motors for electromobility    
PitchER Magnetless pitch drive in wind turbines by using electric transverse flux reluctance machines.    
SKLEWU (Komrol) SCalable SiC power electronics for converters and inverters (compact and robust power electronics)    
TEMA-UAV Design and Evaluation of Fault-Tolerant Electro-Mechanical Actuators for Flight Controls of Unmanned Aerial Vehicles
Transinno Innovative linear motor of high force density with passive stator based on transversal technology    

We are also a R&D partner of the early development departments of the German automobile industry.

Do you have technical questions or need a quote?

Contact us today to talk to an experienced RECKONIC engineer!

Open Contact-Form

TEMA-UAV: Design and Evaluation of Fault-Tolerant Electro-Mechanical Actuators for Flight Controls of Unmanned Aerial Vehicles

Electro-mechanical actuators (EMAs) are a primary actuation technology for unmanned aerial vehicles (UAVs). Intensive research has been conducted for designing and evaluating fault-tolerant EMAs for flight controls of UAVs to ensure their compliance with new airworthiness requirements for safe operation over civilian zones. The state-of-the-art research involves several fault-tolerant architectures for EMAs based on parallel electric motors or a single motor with internal fault-tolerant features. In this study, a fault-tolerant architecture is introduced, comprised of two serial electric motors driven by two isolated controllers and a health monitoring system. The procedures of developing various fault-tolerant features are discussed with a deep focus on designing health monitoring functions and evaluating their influence on the overall actuator stability and availability. This work has been conducted and evaluated based on operational data for ALAADy: a heavy gyrocopter-type UAV at DLR (German Aerospace Center).