RTU Research Information System
Latviešu English

Publikācija: DC Microgrid for Robotic Manufacturing – Field Demonstration and Laboratory Experience

Publication Type Scientific article indexed in SCOPUS or WOS database
Funding for basic activity National Research Programme
Defending: ,
Publication language English (en)
Title in original language DC Microgrid for Robotic Manufacturing – Field Demonstration and Laboratory Experience
Field of research 2. Engineering and technology
Sub-field of research 2.2 Electrical engineering, Electronic engineering, Information and communication engineering
Research platform Energy and Environment
Authors Armands Šenfelds
Ansis Avotiņš
Leonīds Ribickis
Pēteris Apse-Apsītis
Keywords Active frontend, C power supply, Microgrid, Power Supply
Abstract Paper present real manufacturing application based approach to DC based power supply and infrastructure verification. Alternative solutions for improved management of power flows and integration of renewable energy sources has become an interesting topic and discussions of alternative DC related power infrastructure with respect to existing technology. Since modern manufacturing solutions implement industrial robot manipulators more detailed evaluation of possible opportunities regarding DC based supply has been introduced. Typical distribution of units and respective electrical power flows present need for power measurement equipment with multipoint functionality experiments. Obtained practical measurement results enable evaluation of DC based energy distribution system potential compared to existing solution and future operation scenarios including energy storage and buffering approaches. Implementation of single AC/DC converter unit has been evaluated in laboratory conditions with respect to power quality within DC distribution link.
DOI: 10.24084/repqj17.260
Hyperlink: http://www.icrepq.com/icrepq19/260-19-senfelds.pdf 
Reference Šenfelds, A., Avotiņš, A., Ribickis, L., Apse-Apsītis, P. DC Microgrid for Robotic Manufacturing – Field Demonstration and Laboratory Experience. Renewable Energy and Power Quality Journal (RE&PQJ), 2019, Vol. 17, pp.194-197. e-ISSN 2172-038X. Available from: doi:10.24084/repqj17.260
Additional information Citation count:
  • Scopus  0
ID 30195