About Single-ended high voltage inverter
The single-ended (SE) resonant inverter is a type of class E parallel resonant inverter and popularly used in many IH applications due to its lower cost structure and relatively high efficiency.
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About Single-ended high voltage inverter video introduction
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6 FAQs about [Single-ended high voltage inverter]
What is single-ended resonant inverter topology?
Single-ended resonant inverter topology is widely used in domestic induction heating (IH) application due to its concise structure and cost effectiveness. Whereas high resonant voltage caused by the energy trans-fer between load inductor and resonant capacitor in the IH system may negatively affect the operation of system and long-term reliability.
What is a power electronic inverter?
Abstract: A power electronic inverter is developed for a high-frequency induction heating application. The application requires high power for induction melting process of the electric furnace. This power-frequency product represents a significant challenge for today's power semiconductor technology.
Why are single-ended resonant inverters vulnerable to AC voltage variation?
As single-ended resonant inverters adopt small capacitance for DC link to ensure high power factor, the inverter system is vulnerable to the variation in supply AC voltage. Especially, if AC supply is shared with industrial area, voltage variation can occur more frequently.
What is a micro-inverter based on isolated SEPIC converter?
In this paper, a novel micro-inverter based on isolated SEPIC converter is introduced. The active clamp limits the stress voltage along with performing power decoupling function. The proposed circuit has no electrolytic capacitor resulting in life expansion and more reliability for AC module.
What are grid-connected inverters for PV systems?
The grid-connected inverters for PV systems are divided into three categories: centralised inverter topologies, string topologies, and AC modules called micro-inverter [ 4 ]. Owing to eliminating PV panel mismatching and shade effect, the trend of PV systems is toward using AC modules.
How to improve the reliability of micro-inverters?
One of the most effective methods to enhance the reliability and life duration of micro-inverters is achieved by substituting their electrolytic power decoupling capacitor with the film capacitors. In this study, a new DC/AC inverter based on an isolated single-ended primary-inductance converter with an active clamp power decoupling is introduced.