Software-defined Power: Ideal Energy Efficiency in Isolated Server Rack
Software-defined power is the future of energy technology. We have updated our last server rack video to include the automatic phase balancing which eliminates neutral current and reduces operational costs for data centers.
Key Highlights: Dynamically addressing harmonics and power factor, automatically balancing power loads across the phases, real time streaming server rack data.
With an innovative combination of electronic hardware, computer hardware, and artificial intelligence software, The 3DFS software defined power solution seamlessly integrates into datacenter electrical networks for ideal electrical efficiency, elimination of utility penalties, dynamic stability, and zero waste.
References:
Data Center Power System Harmonics: An Overview of Effects on Data Center Efficiency and Reliability, The Green Grid
Power Protection for Data Centers, ABB
Harmonics in Your Electrical System, Eaton
Mitigating PQ Problems in Legacy Data Centers, SLAC
Experts speak on UPS output Watt, VA, and Power Factor ratings, APC
Impact of Leading Power Factor on Data Center Generator Systems, Schneider Electric
ANALYSIS OF COPPER LOSSES DUE TO UNBALANCED LOAD IN A TRANSFORMER. 4/2015. ARPA:
Okakwu K. Ignatius, Abagun K., Saadu Oluwasogo, S. Emmanuel
http://www.arpapress.com/Volumes/Vol2… Accessed 11/10/2015
Unbalanced voltage supply: The damaging effects on three phase induction motors and rectifiers.
ABB https://library.e.abb.com/public/f6fe… Accessed 11/10/2015
Effects of Phase Imbalance on Data Center Energy Management.
December 2013 Arizona State University: Sushil Gupta, Ayan Banerjee, Zahra Abbasi, and Sandeep K.S. Gupta
https://impact.asu.edu/publication/Hi… Accessed 11/15/2015
Optimal Load Balancing and Energy Cost Management for Internet Data Centers in Deregulated Electricity Markets September 2013.
IEEE http://ieeexplore.ieee.org/xpl/articl… Accessed 11/15/2015
On Energy Management, Load Balancing and Replication.
2009 University of Wisconsin-Madison: Willis Lang, Jignesh M. Patel, Jeffrey F. Naughton http://pages.cs.wisc.edu/~jignesh/eco… Accessed 11/15/2015
Exploring Smart Grid and Data Center Interactions for Electric Power Load Balancing. June 2013
Purdue University: H. Wang, J. Huang, X. Lin and H. Mohsenian-Rad. https://engineering.purdue.edu/~linx/… Accessed 11/15/2015
Data Center Power System Harmonics: An Overview of Effects on Data Center Efficiency and Reliability.
The Green Grid: M. Glinkowksi, L. Simmons, D Loucks, et al. http://www.thegreengrid.org/~/media/W… Accessed 11/10/2015
Power Protection for Data Centers. 2013.
ABB. https://library.e.abb.com/public/c867… Accessed 11/10/2015
Harmonics in Your Electrical System. Eaton.
http://www.newark.com/pdfs/techarticl… Accessed 11/10/2015
Experts speak on UPS output Watt, VA, and Power Factor ratings. 2002.
APC. http://www.ptsdcs.com/whitepapers/12.pdf Accessed 11/10/2015
Impact of Leading Power Factor on Data Center Generator Systems, Schneider Electric.
Neil Rasmussen. http://www.apcmedia.com/salestools/VAVR-9EJ262/VAVR-9EJ262_R0_EN.pdf Accessed 11/10/2015
RAW ScreenGrab from Data Center Rack Demo:
Benjamin Shwartz
Your solution looks to be of best value for companies who operate and own data centers as they pay for everything end to end – however I believe there is enough value in the technology for resellers as well. I would think that when phases are balanced the the amount of UPS run-time and capacity will increase that alone should be your selling point.
Jessica
I am intrigued in this technology, basically you are digitizing the power grid in a data-center.
Smith
This would work so well on audio racks
Ester
Thanks for the great info, it really is useful.
Will
Your link to the paper, “Mitigating PQ Problems in Legacy Data Centers, SLAC”, instead goes to the same location as the previous link, “Harmonics in Your Electrical System, Eaton”.