Switching-loss reduction technique in active power filters without auxiliary circuits

Keyphrases

• Reduction Method 100%
• Active Power Filter 100%
• Auxiliary Circuit 100%
• Switching Loss Reduction 100%
• Switching Losses 40%
• Switching Noise 30%
• Control Strategy 20%
• Filtering System 20%
• Design Criteria 10%
• Noise Reduction 10%
• Fundamental Frequency 10%
• Economic Benefits 10%
• Power System Harmonics 10%
• Soft-switching Technique 10%
• Frequency Analysis 10%
• Harmonic Frequency 10%
• Reactive Power 10%
• Initial Cost 10%
• System Switching 10%
• Current Quality 10%
• V(V) 10%
• Operating Voltage 10%
• Proportional Gain 10%
• Voltage Controller 10%
• Integral Gain 10%
• DC Link 10%
• Reactive Current 10%
• DC-link Voltage Regulation 10%
• Adaptive Dc-link Voltage 10%
• Current Harmonic Compensation 10%

Engineering

• Switching Loss 100%
• Active Power Filter 100%
• Loss Reduction 100%
• Control Strategy 20%
• Filter System 20%
• Experimental Result 10%
• Economic Benefit 10%
• Simulation Result 10%
• Design Criterion 10%
• Current Harmonic 10%
• Initial Cost 10%
• Reactive Power 10%
• Operating Voltage 10%
• Proportional Gain 10%
• Dc Voltage 10%
• Integral Gain 10%
• Dc Link Voltage 10%
• Frequency Analysis 10%
• Harmonics 10%