Design Analysis and Development of Inverter Topologies for Industries

Kumari, Sunita; Kumar, Sudhir

doi:10.11591/ijeei.v6i1.300

“…Figure 10 shows the Simulink model of solar cell DC/DC boost converter which receives power from the solar cell with PID and SMC controllers and then it is fed to the 1-Ф cascaded 13-level inverter with grid connected i.e. shown in figure 11 [24]. The proposed 1-Ф hybrid STATCOM based multilevel inverter with solar PV panel is simulated for 13-level output voltage waveform using MATLB/Simulink as shown in figure 12 and combined figure 10, 11 and developed figure 12.…”

Section: -ф Cascaded Multilevel Inverter Interface With Boost Convermentioning

confidence: 99%

A Novel Approach of Controlling the Solar PV Integrated Hybrid Multilevel Inverter

Kumari

¹

,

Kumar

²

2018

IJEEI

Self Cite

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The part of renewable energy systems like solar photovoltaic (PV) and wind power generation (WPG) is playing an energetic role in energy production. The power electronics technology growths have directed to the progresses in the solar power generation and solar PV sources have the potential to progress one of the key providers to the upcoming electricity. Lower voltage rating of solar PV systems requires a high voltage progress converter for parts grid associating with a DC-AC inverter. The solar energy acquired from the solar panel varies with times and solar irradiation. The boost DC/DC converter is used to sustain the constant output voltage achieved from the solar panel using MPPT algorithm and is operated according to the requirement. A 1-Ф cascade 13-level inverter is used to produce 13-level output voltage from the DC supply voltage achieved from PV panels. It offers better-quality sinusoidal output voltage and current waveforms and lower total harmonic distortion. In this paper, the proposed model is designed and the results are verified through simulation using MATLAB/SIMULINK tools.

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“…Figure 10 shows the Simulink model of solar cell DC/DC boost converter which receives power from the solar cell with PID and SMC controllers and then it is fed to the 1-Ф cascaded 13-level inverter with grid connected i.e. shown in figure 11 [24]. The proposed 1-Ф hybrid STATCOM based multilevel inverter with solar PV panel is simulated for 13-level output voltage waveform using MATLB/Simulink as shown in figure 12 and combined figure 10…”

Section: -ф Cascaded Multilevel Inverter Interface With Boost Converter and Solar Panelmentioning

confidence: 99%

A Novel Approach of Controlling the Solar PV Integrated Hybrid Multilevel Inverter

Kumari

¹

,

Kumar

²

2018

IJEEI

Self Cite

5

0

View full text Add to dashboard Cite

The part of renewable energy systems like solar photovoltaic (PV) and wind power generation (WPG) is playing an energetic role in energy production. The power electronics technology growths have directed to the progresses in the solar power generation and solar PV sources have the potential to progress one of the key providers to the upcoming electricity. Lower voltage rating of solar PV systems requires a high voltage progress converter for parts grid associating with a DC-AC inverter. The solar energy acquired from the solar panel varies with times and solar irradiation. The boost DC/DC converter is used to sustain the constant output voltage achieved from the solar panel using MPPT algorithm and is operated according to the requirement. A 1-Ф cascade 13-level inverter is used to produce 13-level output voltage from the DC supply voltage achieved from PV panels. It offers better-quality sinusoidal output voltage and current waveforms and lower total harmonic distortion. In this paper, the proposed model is designed and the results are verified through simulation using MATLAB/SIMULINK tools.

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“…The radio access network comprises of towers, cells that bridges communication between the user with the wireless device and the core network. Basically, the core network will consist of the data network to manage different communication/connection [5]. It is also believed that the core network of 5G is integrated with cloud-based services as well as the internet in order to offer distributed servers.…”

Section: Introductionmentioning

confidence: 99%

Insights on Significant Implication on Research Approach for Enhancing 5G Network System

Bp¹,

Sundaraguru²

2019

IJEEI

0

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With the exponential growth of mobile users, there is a massive growth of data as well as novel services to support such data management. However, the existing 4G network is absolutely not meant for catering up such higher demands of bandwidth utilization as well as servicing massive users with similar Quality of service. Such problems are claimed to be effectively addressed by the adoption of 5G networking system. Although the characteristics of 5G networking are theoretically sound, still it is under the roof of the research. Therefore, this paper presents a discussion about the conventional approach as well as an approach using cognitive radio network towards addressing the frequently identified problems of energy, resource allocation, and spectral efficiency. The study collects the existing, recent researches in the domain of 5G communications from various publications. Different from existing review work, the paper also contributes towards identifying the core research findings as well as a significant research gap towards improving the communication in the 5G network system.

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Design Analysis and Development of Inverter Topologies for Industries

Cited by 3 publications

References 1 publication

A Novel Approach of Controlling the Solar PV Integrated Hybrid Multilevel Inverter

A Novel Approach of Controlling the Solar PV Integrated Hybrid Multilevel Inverter

A Novel Approach of Controlling the Solar PV Integrated Hybrid Multilevel Inverter

Insights on Significant Implication on Research Approach for Enhancing 5G Network System

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