High power low-loss resonant-type multi-level inverter

The multilevel inverter is attracting the specialist in medium and high voltage applications, among its types, the cascade H bridge Multi-Level Inverter (MLI), commonly used for high power and high voltage applications. The main advantage of the conventional cascade (MLI) is generated a large number of output voltage levels but it demands a large number of components that produce complexity in the control circuit, and high cost. Along these lines, this paper presents a brief about the non-conventional cascade multilevel topologies that can produce a high number of output voltage levels with the least components. The non-conventional cascade (MLI) in this paper was built to reduce the number of switches, simplify the circuit configuration, uncomplicated control, and minimize the system cost. Besides, it reduces THD and increases efficiency. Two topologies of non-conventional cascade MLI three phase, the Nine level and Seventeen level are presented. The PWM technique is used to control the switches. The simulation results show a better performance for both topologies. THD, the power loss and the efficiency of the two topologies are calculated and drawn to the different values of the Modulation index (ma).

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Performance Research of Seven Level Multi-Level Inverter with Reduced Switches using Various PWM Techniques

International Journal of Recent Technology and Engineering - 2 ◽

10.35940/ijrte.b1028.0882s819 ◽

2019 ◽

Vol 8 (2S8) ◽

pp. 1149-1154

Keyword(s):

High Power ◽

Harmonic Distortion ◽

Total Harmonic Distortion ◽

Switching Topology ◽

Switching Loss ◽

Medium Voltage ◽

Switching Losses ◽

Multi Level ◽

Low Efficiency ◽

Performance Research

A inverter is basically a device that usually converts DC to AC voltage without causing any power loss, applicable to only low to medium voltage applications. But in case of medium to high power applications, it has demerits like high switching losses, reduced cost and low efficiency. To overcome these demerits a Multilevel inverter applicable to high voltage and high-power applications which have low total harmonic distortion (THD) is introduced. This paper is mainly focused on seven-level inverter with five switches and four dc sources. with low total harmonic distortion, less switching loss without adding any complexity to the circuit. The switching topology is integrated with various SPWM techniques like Phase Disposition (PD), Phase Opposition Disposition (POD) and Anti Phase Opposition Disposition (APOD). For better performance of the inverter above three PWM techniques will be compared and analyzed to find the low THD configuration. The simulation of switching topology is done by MATLAB/Simulink.

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A Low Loss, High Power Variable Laser Attenuator

Laser Induced Damage in Optical Materials: 1984 ◽

10.1520/stp23111s ◽

2008 ◽

pp. 93-93-7

Author(s):

SR Foltyn ◽

JE Griggs ◽

LJ Jolin ◽

JH Roberts ◽

D Keaton

Keyword(s):

High Power ◽

Low Loss

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The impact of a recessed Δ-shaped gate in a vertical CAVET AlGaN/GaN MIS-HEMT for high-power low-loss switching applications

Journal of Computational Electronics ◽

10.1007/s10825-021-01816-2 ◽

2021 ◽

Author(s):

A. Danielraj ◽

Sanjoy Deb ◽

A. Mohanbabu ◽

R. Saravana Kumar

Keyword(s):

High Power ◽

Low Loss ◽

The Impact

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A Wideband and Low-Loss Spatial Power Combining Module for mm-Wave High-Power Amplifiers

IEEE Access ◽

10.1109/access.2020.3033623 ◽

2020 ◽

Vol 8 ◽

pp. 194858-194867

Author(s):

Artem Roev ◽

Parastoo Taghikhani ◽

Rob Maaskant ◽

Christian Fager ◽

Marianna V. Ivashina

Keyword(s):

High Power ◽

Power Amplifiers ◽

Low Loss ◽

Power Combining ◽

Spatial Power Combining

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Low loss, fully-printed, ferroelectric varactors for high-power impedance matching at low ISM band frequency

International Journal of Microwave and Wireless Technologies ◽

10.1017/s1759078719000643 ◽

2019 ◽

Vol 11 (7) ◽

pp. 658-665

Author(s):

Daniel Kienemund ◽

Nicole Bohn ◽

Thomas Fink ◽

Mike Abrecht ◽

Walter Bigler ◽

...

Keyword(s):

High Power ◽

Power Level ◽

Impedance Matching ◽

Input Power ◽

Low Loss ◽

Band Frequency ◽

Power Matching ◽

Metal Insulator Metal ◽

Ferroelectric Varactors ◽

Suppression Technique

AbstractLow loss, ferroelectric, fully-printed varactors for high-power matching applications are presented. Piezoelectric-induced acoustic resonances reduce the power handling capabilities of these varactors by lowering the Q-factor at the operational frequency of 13.56 MHz. Here, a quality factor of maximum 142 is achieved with an interference-based acoustic suppression approach utilizing double metal–insulator–metal structures. The varactors show a tunability of maximum 34% at 300 W of input power. At a power level of 1 kW, the acoustic suppression technique greatly reduces the dissipated power by 62% from 37 W of a previous design to 14.2 W. At this power level, the varactors remain tunable with maximum 18.2% and 200 V of biasing voltage.

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