With the high cost of grid extension and approximately 1.6 billion people still living without electrical services, the solar home system is an important technology in the alleviation of rural energy poverty across the developing world. The performance monitoring and analysis of these systems provide insights leading to improvements in system design and implementation in order to ensure high quality and robust energy supply in remote locations. Most small solar home systems now use charge controllers using pulse width modulation (PWM) to regulate the charge current to the battery. A rapid variation in current and voltage resulting from PWM creates monitoring challenges, which, if not carefully considered in the design of the monitoring system, can result in the erroneous measurement of photovoltaic (PV) power. In order to characterize and clarify the measurement process during PWM, a mathematical model was developed to reproduce and simulate measured data. The effects of matched scan and PWM frequency were studied with the model, and an algorithm was devised to select appropriate scan rates to ensure that a representative sample of measurements is acquired. Furthermore, estimation methods were developed to correct for measurement errors due to factors such as nonzero “short circuit” voltage and current/voltage peak mismatches. A more sophisticated algorithm is then discussed to more accurately measure PV power using highly programmable data loggers. The results produced by the various methods are compared and reveal a significant error in the measurement of PV power without corrective action. Estimation methods prove to be effective in certain cases but are susceptible to error during conditions of variable irradiance. The effect of the measurement error has been found to depend strongly on the duty cycle of PWM as well as the relationship between scan rate and PWM frequency. The energy measurement error over 1 day depends on insolation and system conditions as well as on system design. On a sunny day, under a daily load of about 20 A h, the net error in PV energy is found to be 1%, whereas a system with a high initial battery state of charge under similar conditions and no load produced an error of 47.6%. This study shows the importance of data logger selection and programming in monitoring accurately the energy provided by solar home systems. When appropriately considered, measurement errors can be avoided or reduced without investment in more expensive measurement equipment.
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e-mail: nathaniel.williams@nmmu.ac.za
e-mail: ernest.vandyk@nmmu.ac.za
e-mail: frederik.vorster@nmmu.ac.za
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Monitoring Solar Home Systems With Pulse Width Modulation Charge Control
Nathaniel J. Williams,
Nathaniel J. Williams
Centre for Energy Research, Department of Physics,
e-mail: nathaniel.williams@nmmu.ac.za
Nelson Mandela Metropolitan University
, Port Elizabeth 6031, South Africa
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E. Ernest van Dyk,
E. Ernest van Dyk
Centre for Energy Research, Department of Physics,
e-mail: ernest.vandyk@nmmu.ac.za
Nelson Mandela Metropolitan University
, Port Elizabeth 6031, South Africa
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Frederik J. Vorster
Frederik J. Vorster
Centre for Energy Research, Department of Physics,
e-mail: frederik.vorster@nmmu.ac.za
Nelson Mandela Metropolitan University
, Port Elizabeth 6031, South Africa
Search for other works by this author on:
Nathaniel J. Williams
Centre for Energy Research, Department of Physics,
Nelson Mandela Metropolitan University
, Port Elizabeth 6031, South Africae-mail: nathaniel.williams@nmmu.ac.za
E. Ernest van Dyk
Centre for Energy Research, Department of Physics,
Nelson Mandela Metropolitan University
, Port Elizabeth 6031, South Africae-mail: ernest.vandyk@nmmu.ac.za
Frederik J. Vorster
Centre for Energy Research, Department of Physics,
Nelson Mandela Metropolitan University
, Port Elizabeth 6031, South Africae-mail: frederik.vorster@nmmu.ac.za
J. Sol. Energy Eng. May 2011, 133(2): 021006 (7 pages)
Published Online: March 23, 2011
Article history
Received:
June 14, 2010
Revised:
December 4, 2010
Online:
March 23, 2011
Published:
March 23, 2011
Citation
Williams, N. J., van Dyk, E. E., and Vorster, F. J. (March 23, 2011). "Monitoring Solar Home Systems With Pulse Width Modulation Charge Control." ASME. J. Sol. Energy Eng. May 2011; 133(2): 021006. https://doi.org/10.1115/1.4003586
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