Control Strategy for Discontinuous Conduction Mode Boost Rectifier with Low Total Harmonic Distortion and Improved Dynamic Response

Athab, H.S.

doi:10.3844/ajeassp.2008.329.337

Cited by 5 publications

(2 citation statements)

References 9 publications

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“…As can be shown in Fig. 2, DC-DC converter operates in buck or boost mode [12,13,14], respectively, to achieve charge or discharge. In order to meet different charge-discharge requirements, Bi-directional DC-DC converter adopts current mode control that is an outer output voltage control loop and an inner averaged inductor current control loop.…”

Section: B Bi-directional DC -Dc Converter Controlmentioning

confidence: 99%

Research on the Novel Charge-discharge System of Storage Battery

Zhang

Zhou²,

He³

2013

JCP

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At present, the issue of low power factor and harmonic pollution in traditional charge-discharge system is serious, with the development of PWM rectifier technology, A novel main circuit topology of charge-discharge system with a three-phase voltage source PWM rectifier (VSR) and Bi-directional DC-DC converter are applied in this paper. It can be used as battery charging power supply, but also as a discharge load of battery. Regenerative energy is feedback to power grid and the purpose of energy-saving and environmental protection are attained. A charge-discharge simulation model based on constant-current-constantvoltage (CC-CV) charge/ constant-current discharge is established. Simulation results show compared with the traditional charge-discharge system, the novel chargedischarge system can achieve sinusoidal input currents and has lower harmonic pollution, and at the same time complete discharge process of energy to feedback to power gird.

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Section: B Bi-directional DC -Dc Converter Controlmentioning

confidence: 99%

Research on the Novel Charge-discharge System of Storage Battery

Zhang

Zhou²,

He³

2013

JCP

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“…These modes are determined by the inductor whether it completely discharges during the ON state of the power switch or not. The DCM has attractive features such as it requires only one control loop to modulate the ON time, it prevents the diode recovery problems, and diminishes the high switching losses apparent in the CCM [9]. The CCM has the main disadvantage of having a pole in the right hand plane causing the system to oscillate and hence, difficult to control.…”

Section: Dc-dc Boost Converter Modelmentioning

confidence: 99%

Power converter for proton exchange membrane fuel cell

Ngema

Saha

Ijumba

2010

2010 International Conference on Power System Technology

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This paper presents the modelling and simulation of proton exchange membrane (PEM) fuel cell (FC) together with a dc-dc converter and dc-ac inverter. The need for the dc-dc converter arises as a result of the output voltage generated from the FC which fluctuates with variation in load. The FC voltage is therefore, controlled using dc-dc converter to provide a regulated dc voltage output at 220 V for a maximum variation of 5 kW load. The inverter is then used to invert the converter dc voltage to 220 V ac at standard frequency as per customer requirement. The simulations are done in PSCAD and analysis of simulation results has been performed.

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Input Power Factor Improvement Using Sensorless Single-Stage Axial Field PMDC Motor Controller for Arc Welding Process

Paul¹

2020

J. Inst. Eng. India Ser. B

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Control Strategy for Discontinuous Conduction Mode Boost Rectifier with Low Total Harmonic Distortion and Improved Dynamic Response

Cited by 5 publications

References 9 publications

Research on the Novel Charge-discharge System of Storage Battery

Research on the Novel Charge-discharge System of Storage Battery

Power converter for proton exchange membrane fuel cell

Input Power Factor Improvement Using Sensorless Single-Stage Axial Field PMDC Motor Controller for Arc Welding Process

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