2011 International Conference on Power Engineering, Energy and Electrical Drives 2011
DOI: 10.1109/powereng.2011.6036419
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A design criteria for torque ripple reduction in Switched Reluctance Generators

P. Lobato
1
,
João Martins
2
,
A. J. Pires
3
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Cited by 7 publications
(4 citation statements)
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“…The SR machine is inherently a variable speed drive that can be easily controlled and matched to its load by controlling the instants of energising and de-energising the stator phases [20]. Furthermore, robustness and simple construction (only concentrated coils on the stator), control flexibility, high power density, high fault tolerance and good efficiency in a wide speed range [21,22], make this machine suitable for direct drive energy converters and attractive for harsh environmental applications [23][24][25][26].…”
Section: Introductionmentioning
confidence: 99%

Scale models formulation of switched reluctance generators for low speed energy converters

Lobato
1
,
Dente2,
Martins
3
et al. 2015
IET Electric Power Applications
20
0
9
0
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“…The SR machine is inherently a variable speed drive that can be easily controlled and matched to its load by controlling the instants of energising and de-energising the stator phases [20]. Furthermore, robustness and simple construction (only concentrated coils on the stator), control flexibility, high power density, high fault tolerance and good efficiency in a wide speed range [21,22], make this machine suitable for direct drive energy converters and attractive for harsh environmental applications [23][24][25][26].…”
Section: Introductionmentioning
confidence: 99%

Scale models formulation of switched reluctance generators for low speed energy converters

Lobato
1
,
Dente2,
Martins
3
et al. 2015
IET Electric Power Applications
20
0
9
0
View full textAdd to dashboardCite
“…A existência desta região de sobreposição permite que, durante a comutação, duas fases adjacentes possam ser acionadas. Este fato auxilia na redução da oscilação do conjugado eletromagnético [17].…”
unclassified

Método Analítico Eficiente para o Cálculo das Indutâncias em Máquinas de Relutância Variável com Núcleo do Tipo C

Gomes1,
Teixeira2,
Moreira3
et al. 2019
Eletrônica de Potência
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“…Conforme citado na introdução deste trabalho, um dos principais obstáculos que limita a utilização de geradores de relutância variável são as oscilações do conjugado eletromagnético devido às saliências do circuito magnético. Desta forma, pesquisas recentes propõem, desde a utilização de novas técnicas de controle [29], [30], [31] como a alteração das dimensões do núcleo magnético ou das especificações dos enrolamentos de fase que possam auxiliar na minimização das oscilações no conjugado [32]. Além da oscilação no conjugado eletromagnético, esforços para a redução de vibrações e de ruídos acústicos produzidos por esse tipo de gerador vem sendo alvo de pesquisas nos últimos anos [33], [34], [35].…”
Section: Gerador De Relutância Variávelunclassified
“…Um GRV-C de 3 fases com número de polos do rotor igual a 8, por exemplo, possui uma distância angular ε igual a 15. De acordo com [32], a presença da sobreposição permite que haja fluxo de corrente em pelo menos duas fases adjacentes durante a comutação, reduzindo a oscilação no conjugado eletromagnético. Logo, aconselha-se fazer δm maior do que zero conforme ilustra a Figura 4.3.…”
Section: Arcos Polaresunclassified

Gerador de relutância variável com núcleo do tipo C

Teixeira1
0
0
0
0
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