Testing of fluorescent DC lamps for Solar Home Systems

Narvarte, Luís; Muñoz, Javier; Lorenzo, E.

doi:10.1002/pip.396

Cited by 11 publications

(7 citation statements)

References 6 publications

(2 reference statements)

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“…A crest factor close to a sinusoidal wave is better for the fluorescent tube lamp. The higher crest factor and low voltage operation is responsible for the end blackening of the fluorescent tube lamp [44]. Voltage wave shapes of higher crest factor is responsible for the lower service life of the fluorescent lamps used in the SHS [45].…”

Section: Crest Factor Of the Voltage Waveformmentioning

confidence: 99%

Off-grid electrification with solar home systems: An appraisal of the quality of components

Chowdhury

Mourshed

2016

Renewable Energy

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a b s t r a c tSolar home systems (SHS) are seen as an attractive option for off-grid electrification in rural areas in developing countries. The combined effect of declining photovoltaic module costs and success in microfinance has resulted in increased SHS installations in emerging economies in Asia such as Bangladesh. Majority of the SHS components are now manufactured locally with the exception of PV cells. Considering the role of component quality in SHS performance, technical quality of four key SHS components: solar panel, battery, charge controller and lamp circuit (inverter) from market-leading manufacturers were evaluated in this study in laboratory settings, against national and international standards. All of the tested components met some evaluation criteria in their respective categories but none met all. Key performance failures were found to be related to inverter efficiency, reverse polarity protection in charge controllers and battery capacity, which are critical for optimum performance of the system. Findings in this study point towards an ineffective regulatory mechanism for quality assurance and the protection of consumer rights, which needs to be rectified for maintaining public confidence and sustaining the growth of SHS based off-grid electrification.

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Section: Crest Factor Of the Voltage Waveformmentioning

confidence: 99%

Off-grid electrification with solar home systems: An appraisal of the quality of components

Chowdhury

Mourshed

2016

Renewable Energy

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“…The main quality criterion for PV decentralized applications is reliability. In previous works , several technical specifications and testing procedures have been developed to evaluate the quality of lamps for solar home systems: lamp reliability under normal, extreme and abnormal operation conditions and lamp luminosity. From this point of view, the main characteristic of LED lamps that has to be reviewed is their reliability and, consequently, their lifetime.…”

Section: Introductionmentioning

confidence: 99%

Temperature‐controlled light‐emitting diode lamp for photovoltaic rural applications

Calderón¹,

Fernández-Ramos

Narvarte

2011

Progress in Photovoltaics

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In recent years, interest in light-emitting diode (LED) lighting has been growing because of its high efficacy, lifetime and ruggedness. This paper proposes a better adaptation of LED lamps to the technical requirements of photovoltaic lighting domestic systems, whose main quality criteria are reliability and that behave as voltage power supplies. As the key element of reliability in LED lamps is temperature, a solution is proposed for driving LED lamps using voltage sources, such as photovoltaic system batteries, with a control architecture based on pulse width modulation signal that regulates the current applied according to the LED lamp temperature. A prototype of the LED lamp has been implemented and tested to show its good performance at different temperatures and at different battery voltages.

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“…[3][4][5] To a great extent, this paper follows along the lines of the Universal Technical Standard for Solar Home Systems 6 and the consecutive testing campaigns of commercial PV components. [7][8][9] It should be made clear that this particular approach for technical quality assurance does not involve the accreditation of testing laboratories by international certification bodies (ISO 25) 10 as a prerequisite. Instead, it is based on the idea that technical quality in PV rural electrification is more a matter of will than of technical sophistication.…”

Section: Introductionmentioning

confidence: 99%

On the specification and testing of inverters for stand-alone PV systems

Muñoz

Lorenzo

2005

Prog. Photovolt: Res. Appl.

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Inverter features are reviewed from a PV systems perspective, with a view to contributing to possible codes, procurement specifications and testing procedures, in order to assure the technical quality of these systems. A laboratory testing campaign has been carried out on a representative set of 16 currently available inverters and a set of the most common AC appliances. The results of the tests are discussed with the aim of divulging the particular features of operating AC appliances in PV systems and the provisions to be taken into account in PV system design. The development of testing procedures has followed the motto 'keep it as simple as possible', in order to make their application easier in conventional laboratories in developing countries.

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Testing of fluorescent DC lamps for Solar Home Systems

Cited by 11 publications

References 6 publications

Off-grid electrification with solar home systems: An appraisal of the quality of components

Off-grid electrification with solar home systems: An appraisal of the quality of components

Temperature‐controlled light‐emitting diode lamp for photovoltaic rural applications

On the specification and testing of inverters for stand-alone PV systems

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