Analysis of non-isolated two phase interleaved high voltage gain boost converter for PV application

Babu, A. Ramesh; Raghavendiran, T. A.

doi:10.1109/iccicct.2014.6993012

Cited by 12 publications

(4 citation statements)

References 14 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Since the number of phases chosen here is 2, the pulses are shifted by 360/2 i.e., 180 degrees apart. The gating pattern is similar for both coupled and uncoupled topologies [11].…”

Section: Gating Patternmentioning

confidence: 83%

Analysis And Experimentation Of Two-Phase Interleaved Boost Converter With Ripple Cancellation Network For Pv Applications

Subramanian¹,

Prasanth²,

Srinivasan³

et al. 2015

ELELIJ

View full text Add to dashboard Cite

Conventional sources like fossil fuels were used earlier to satisfy the energy demands. Nowadays these are being replaced by renewable sources like photo-voltaic sources. Photo-voltaic is a method of generating electrical power by converting the energy from the sun into direct current with the use of semiconductor devices that exhibit photovoltaic effect. They do not cause environmental pollution and do not require any moving parts. Different types of DC-DC Converters have been proposed in literature but Inter-leaved boost Converter (IBC) is widely used because of its fast dynamic response and high power density. This paper presents an analysis of the Ripple Cancellation Network (RCN) based two phase Interleaved boost Converter (IBC) for photo-voltaic applications. The results illustrate that IBC is more efficient than conventional boost converter as it reduces the input current ripple, output voltage ripple, component size and improves its transient response. On adding the Ripple Cancellation Network to the conventional IBC, the output voltage and input current ripple are further reduced without increasing the diode current stress. Simulations are carried out using MATLAB/Simulink software to verify with the theoretical results. Experimental setup is developed for the proposed converter and the results are verified.

show abstract

“…Since the number of phases chosen here is 2, the pulses are shifted by 360/2 i.e., 180 degrees apart. The gating pattern is similar for both coupled and uncoupled topologies [11].…”

Section: Gating Patternmentioning

confidence: 83%

Analysis And Experimentation Of Two-Phase Interleaved Boost Converter With Ripple Cancellation Network For Pv Applications

Subramanian¹,

Prasanth²,

Srinivasan³

et al. 2015

ELELIJ

View full text Add to dashboard Cite

show abstract

“…Thus the new bridgeless PFC converter is introduced to reach 98%of efficiency and 0.99 power factors. The benefit of using this bridgeless converter is only two switches are used and in turn the conduction loss is lesser, control circuit is simple, overall efficiency holds high [1], [2], [6].the different topologies are CUK,SEPIC,ZETA are controlling the DC voltage with only one switch which improves the power quality in AC mains [3].The low power factor and high THD of the power semiconductor is discussed in [4], [5].The DC-DC Resonant converter for PFC using Half Bridge technique [7], [8].The Continuous Conduction Mode of Bridgeless SEPEIC Converter uses the Power Factor Correction Rectifier [9]. SRF Theory using active power filter for renewable energy in [10], quasi resonant converter with single switch and two stage quasi z source DC-DC converter technique discussed in [11], [12] resonant converter using hybrid switching scheme for DC -DC converter [13].…”

Section: Introductionmentioning

confidence: 99%

Power Factor Correction Insepic Converter Fed Hub Motor for Electric Vehicle

Babu,

Geetha*,

Sivachidambaranathan

et al. 2020

IJITEE

View full text Add to dashboard Cite

The paper deals with improvingthe power factor in permanent magnet HUB motor by using Bridgeless SEPIC converter. The input voltage of the HUB motor is controlled to ensure the smooth operation of electric motor. The wide range of input voltage is demonstrated by controlling the speed of the HUB motor using fuzzy controller. Comparative analysis of SEPIC and CUK fed HUB motor is simulated for power factor correction. A SEPIC converter with power factor of 0.939 is achieved and examined with an experimental setup.

show abstract

“…The multilevel inverters are cost effective and also efficient solution for high power to medium voltage DC-AC conversion. [11].The main objective of SCC is to reduce THD value below 3% comparing other technique [16] [17]. The SCMLI structure is based on the proposed by SCC models.…”

Section: Introductionmentioning

confidence: 99%

Simulation of Single Phase Switching Capacitor 49 Level Inverter with Reduced THD

Babu*,

Kumar,

Geetha

2019

IJEAT

View full text Add to dashboard Cite

The study of single phase Switched Capacitors Multi Level Inverter (MLI) is used with Switched Capacitor Converter (SCC) units. The SCC is used to increase the input DC voltage by connecting capacitor in string and shunt. This increassed DC link voltage is converted in to multilevel i.e. 49 level AC output. This SCMLI topology is used to reduce the number of switches, diodes, isolated dc power supply and Total Harmonic Distortion (THD). The SCMLI provides 49 level output voltage using 14 power switches and 3 isolated power supply. The performance of the SCMLI topology is confirmed by using MATLAB simulation result

show abstract

Analysis of non-isolated two phase interleaved high voltage gain boost converter for PV application

Cited by 12 publications

References 14 publications

Analysis And Experimentation Of Two-Phase Interleaved Boost Converter With Ripple Cancellation Network For Pv Applications

Analysis And Experimentation Of Two-Phase Interleaved Boost Converter With Ripple Cancellation Network For Pv Applications

Power Factor Correction Insepic Converter Fed Hub Motor for Electric Vehicle

Simulation of Single Phase Switching Capacitor 49 Level Inverter with Reduced THD

Contact Info

Product

Resources

About