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Loss free resistor-based power factor correction using a semi-bridgeless boost rectifier in sliding-mode control

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DOCUMENT FORMAT • Abstract: • Introduction: • Literature Survey: • System Analysis: • Existing System: • Disadvantages: • Proposed System: • Advantages: • System Requirements: • Block Diagram: • Working Flow Diagram: • Circuit Diagram: • Implementation: • Modules Description: • System Study: • System Testing: • Software Description: • Sample code: • Conclusion: • Future Enhancement: • References: OUR OFFICES @ CHENNAI / TRICHY / KARUR / ERODE / MADURAI / SALEM / COIMBATORE /BANGALORE / HYDRABAD CELL: +91 99436 99916 / 99436 99926 / 99436 99936
LOSS-FREE RESISTOR-BASED POWER FACTOR CORRECTION USING A SEMI-BRIDGELESS BOOST RECTIFIER IN SLIDING-MODE CONTROL TITLE OUR OFFICES @ CHENNAI / TRICHY / KARUR / ERODE / MADURAI / SALEM / COIMBATORE /BANGALORE / HYDRABAD CELL: +91 99436 99916 / 99436 99926 / 99436 99936
ABSTRACT In this paper, a loss-free resistor based on a semi bridgeless rectifier is proposed for power factor correction applications. This particular bridgeless rectifier type is composed of two different boost cells which operate complementarily during each half-line cycle. In case of two unbalanced inductors, many control techniques can produce different inductor current ripples during each half-line cycle that can result in the addition of a dc component to the line current. This paper demonstrates that the application of sliding-mode control by means of hysteretic controllers results in a first-order stable system that can mitigate these harmful consequences due to its capability to ensure the symmetry of the line input current waveform for both positive and negative half-line cycles. Thus, the system does not absorb any dc component from the grid and it is also capable of reducing dramatically the amplitude of the third harmonic. The theoretical predictions have been validated by means of PSIM simulations and experimentally on a prototype of 1 kW which has been controlled using only one sliding control surface. OUR OFFICES @ CHENNAI / TRICHY / KARUR / ERODE / MADURAI / SALEM / COIMBATORE /BANGALORE / HYDRABAD CELL: +91 99436 99916 / 99436 99926 / 99436 99936
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Loss free resistor-based power factor correction using a semi-bridgeless boost rectifier in sliding-mode control

  • 1. OUR OFFICES @ CHENNAI / TRICHY / KARUR / ERODE / MADURAI / SALEM / COIMBATORE /BANGALORE / HYDRABAD CELL: +91 99436 99916 / 99436 99926 / 99436 99936
  • 2. DOCUMENT FORMAT • Abstract: • Introduction: • Literature Survey: • System Analysis: • Existing System: • Disadvantages: • Proposed System: • Advantages: • System Requirements: • Block Diagram: • Working Flow Diagram: • Circuit Diagram: • Implementation: • Modules Description: • System Study: • System Testing: • Software Description: • Sample code: • Conclusion: • Future Enhancement: • References: OUR OFFICES @ CHENNAI / TRICHY / KARUR / ERODE / MADURAI / SALEM / COIMBATORE /BANGALORE / HYDRABAD CELL: +91 99436 99916 / 99436 99926 / 99436 99936
  • 3. LOSS-FREE RESISTOR-BASED POWER FACTOR CORRECTION USING A SEMI-BRIDGELESS BOOST RECTIFIER IN SLIDING-MODE CONTROL TITLE OUR OFFICES @ CHENNAI / TRICHY / KARUR / ERODE / MADURAI / SALEM / COIMBATORE /BANGALORE / HYDRABAD CELL: +91 99436 99916 / 99436 99926 / 99436 99936
  • 4. ABSTRACT In this paper, a loss-free resistor based on a semi bridgeless rectifier is proposed for power factor correction applications. This particular bridgeless rectifier type is composed of two different boost cells which operate complementarily during each half-line cycle. In case of two unbalanced inductors, many control techniques can produce different inductor current ripples during each half-line cycle that can result in the addition of a dc component to the line current. This paper demonstrates that the application of sliding-mode control by means of hysteretic controllers results in a first-order stable system that can mitigate these harmful consequences due to its capability to ensure the symmetry of the line input current waveform for both positive and negative half-line cycles. Thus, the system does not absorb any dc component from the grid and it is also capable of reducing dramatically the amplitude of the third harmonic. The theoretical predictions have been validated by means of PSIM simulations and experimentally on a prototype of 1 kW which has been controlled using only one sliding control surface. OUR OFFICES @ CHENNAI / TRICHY / KARUR / ERODE / MADURAI / SALEM / COIMBATORE /BANGALORE / HYDRABAD CELL: +91 99436 99916 / 99436 99926 / 99436 99936
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