Institution
University of Maribor
Education•Maribor, Slovenia•
About: University of Maribor is a education organization based out in Maribor, Slovenia. It is known for research contribution in the topics: Population & KEKB. The organization has 3987 authors who have published 13077 publications receiving 258339 citations. The organization is also known as: Univerza v Mariboru.
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TL;DR: The results indicated a new way of preparing and stabilizing highly reactive C6-aldehydes on cellulose, and their exploitation in the development of new nanocellulose-based materials.
72 citations
TL;DR: It was found that almost complete removal of atrazine was accomplished with an excess of polymer after 48 hours at room temperature, and compared, polymer beads of identical chemistry but lower porosity showed significantly slower action (near complete removal after 72 hours).
72 citations
TL;DR: In this article, the authors search for lepton-flavor-violating tau > lV(0) decays, where l is an electron or muon and V-0 is one of the vector mesons rho(0), phi, omega, K*(0).
72 citations
TL;DR: The present contribution wishes to shed light on some important issues relating to different challenges that had to and still have to be mastered as well as various capabilities which were rewarded by mastering some of the challenges during the development of the advanced mixed-integer process synthesizer (MipSyn), the successor of the process synthesiser PROSYN-MINLP.
72 citations
TL;DR: In this article, a new hysteresis window method is proposed as a solution for avoiding the operational dead zone that exists at the transition between buck and boost operating modes in all noninverting buck-boost converters.
Abstract: A new hysteresis window method is proposed as a solution for avoiding the operational dead zone that exists at the transition between buck and boost operating modes in all noninverting buck–boost converters. In addition, this method also eliminates the discontinuities in the converter's steady-state output voltage transfer characteristic, which is a function of the duty cycle. The converter's output voltage function is surjective and, therefore, smooth mode transitions are achieved. The negative effects of operating within the dead zone are shown by the presence of subharmonics in the output voltage, increased output voltage ripple, poor regulation, and the instability of the converter during the transition between buck and boost operating modes. The dead-zone avoidance technique proposed in this paper eliminates all these issues while at the same time ensures highly efficient operation of the converter. An additional advantage of the technique is its simplicity, which allows for implementation into low-cost digital signal controllers, as well as into analog control circuits. The advantageous features of the proposed approach were evaluated on the basis of comparisons with three other dead-zone avoidance approaches and the initial case, which does not utilize any dead-zone avoidance technique. All the experiments were carried out on a purpose-built prototype of a noninverting buck–boost converter with magnetically coupled inductors.
72 citations
Authors
Showing all 4077 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Ignacio E. Grossmann | 112 | 776 | 46185 |
| Mirjam Cvetič | 89 | 456 | 27867 |
| T. Sumiyoshi | 88 | 855 | 62277 |
| M. Bračko | 87 | 738 | 30195 |
| Xin-She Yang | 85 | 444 | 61136 |
| Matjaž Perc | 84 | 400 | 22115 |
| Baowen Li | 83 | 477 | 23080 |
| S. Nishida | 82 | 678 | 27709 |
| P. Križan | 78 | 749 | 26408 |
| S. Korpar | 78 | 615 | 23802 |
| Attila Szolnoki | 76 | 231 | 20423 |
| H. Kawai | 76 | 477 | 22713 |
| John Shawe-Taylor | 72 | 503 | 52369 |
| Matjaz Perc | 57 | 148 | 12886 |
| Mitja Lainscak | 55 | 287 | 22004 |