Novel Current Sharing Schemes for Multiphase Converters with Digital Controller Implementation

Qahouq, Jaber A. Abu; Huang, Li; Huard, D.; Hallberg, Allan

doi:10.1109/apex.2007.357508

Cited by 29 publications

(8 citation statements)

References 17 publications

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“…In [4], [17], current distribution schemes for multi-phase converters are detailed where the current is distributed inversely-proportional to the converters' output impedances by equalizing the duty cycle control signals. This distributes the losses equally among the converters (rather than the current) and improves the overall system efficiency.…”

Section: B Existing Current Sharing/distribution Techniquesmentioning

confidence: 99%

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Efficiency-Based Current Distribution Scheme for Scalable Digital Power Converters

Effler

Halton

Rinne

2011

IEEE Trans. Power Electron.

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Abstract-The trend in next-generation switched-mode power supplies will lead to modular, scalable solutions which deliver power efficiently over a wide range of operation. This paper details a new approach to introduce more advanced control features to improve system efficiency into these scalable solutions. While these methods have been incorporated into multi-phase converters in the past, they all require the distribution of information among the individual converters. An advantage of the proposed method is that it does not require such communication signals between the individual power supplies and is therefore fully scalable and cost effective. A system comprising of individual, smart converters is proposed where each converter regulates its respective output power to a level with high efficiency. Converters not required for the delivered output power are shut down. The proposed approach is analysed theoretically. Implementation details for an FPGA experimental prototype system are given. The system performance for a four converter prototype system is analysed and discussed. The efficiency obtained is compared with the efficiency of a multi-phase system with phase-shedding operation and the efficiency of a system with independent power converters without phase shedding support.

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Section: B Existing Current Sharing/distribution Techniquesmentioning

confidence: 99%

“…This distributes the losses equally among the converters (rather than the current) and improves the overall system efficiency. To achieve this, the system in [17] employs a current sharing procedure, while the system in [4] uses a digital filter.…”

Section: B Existing Current Sharing/distribution Techniquesmentioning

confidence: 99%

Efficiency-Based Current Distribution Scheme for Scalable Digital Power Converters

Effler

Halton

Rinne

2011

IEEE Trans. Power Electron.

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“…Today, a single digital IC can require 20 to 50 Amps [2][3] and as much as 200 Amps in the future [4]. Even though voltage is dropping, the overall power required (Volts x Amps) is increasing from today's 30 to 50 W to 200 W within the next several years.…”

Section: Introductionmentioning

confidence: 97%

Green energy powered multiphase buck converter for microprocessors

Pattnaik

Umre

Khare

2013

2013 4th IEEE International Symposium on Power Electronics for Distributed Generation Systems (PEDG)

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Power supply requirements of new generation microprocessors are one of the problems of latest generation. New generation microprocessors require 40-100A and voltage in the range of 1 V or 2 V. Lower voltages can be obtained from DC-DC converter namely the buck converter. The three phase DC-DC converter of 100W, 12V/1V with efficiency 97% is modeled. With the help of soft switching techniques, this multiphase technology gives excellent transient response and increased efficiency. The input to the DC-DC converter is provided from a hybrid combination of wind and solar system. Owing to the present scenario of the fuel-crisis, renewable energy sources are explored to a greater extent. Renewable energy sources being environment friendly are called as Green Energy Sources.

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“…However, the objective of this method is just to share the processed power in a balanced way. Aiming to improve the overall efficiency of parallel converters some strategies has been recently proposed, as the connection or disconnection of phases in interleaved converters as a function of the load demand [5], the perturbation and observation of power distribution between converters [6], or the employment of digital filters for a passive current sharing [7]. Although these strategies does not ensure that the system will operate with optimal efficiency in all its load range.…”

Section: Introductionmentioning

confidence: 99%

A simple control strategy to increase the total efficiency of multi-converter systems

Dupont

Zaragoza

Rech

et al. 2013

2013 Brazilian Power Electronics Conference

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Abstract-This paper presents a simple control strategy that is employed together with an optimization methodology to achieve optimal efficiency in systems composed by multiple parallel converters. An external loop is responsible for regulating the dc bus voltage and providing a current reference that is weighted in function of the power processed by the system, and then generating optimal current references for each converter. This enable the system to operate with optimal efficiency for all its load range. Experimental results demonstrate the superior performance of the proposed strategy, improving the efficiency of the system in almost 10 % under light load operation in comparison with the conventional strategy of equal power sharing among converters.

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Novel Current Sharing Schemes for Multiphase Converters with Digital Controller Implementation

Cited by 29 publications

References 17 publications

Efficiency-Based Current Distribution Scheme for Scalable Digital Power Converters

Efficiency-Based Current Distribution Scheme for Scalable Digital Power Converters

Green energy powered multiphase buck converter for microprocessors

A simple control strategy to increase the total efficiency of multi-converter systems

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