A new technique in reducing self-power consumption in the controller of off-grid solar home system
Reducing the self-power consumption of an off-grid solar home system is an economic model in which consumer employs photovoltaic (PV) system for its own electrical requirements. The latch-based clock gating approach has been employed in existing solar charge controllers to reduce integrated circuit...
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| Published in | International Journal of Power Electronics and Drive Systems Vol. 13; no. 4; p. 2235 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Yogyakarta
IAES Institute of Advanced Engineering and Science
01.12.2022
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Reducing the self-power consumption of an off-grid solar home system is an economic model in which consumer employs photovoltaic (PV) system for its own electrical requirements. The latch-based clock gating approach has been employed in existing solar charge controllers to reduce integrated circuit (IC) power being used in the low-powered intended mode, although the reducing power is limited. This paper presents a self-power reduction technique based on wake-up power and latch-hold time; which minimize power supply during idle time for a solar home system. Wake-up power introduces a push-switch mechanism using typical transistor technology. Latch-hold time function is designed using an operational amplifier and negative-positive-negative (NPN) transistor. A technique with dynamic self-supply mechanism is also introduced for decreasing self-power consumption. The self-power consumption is identified via simulation studies where the result shows that the power usage is 70% lower than traditional approaches. This is determined using a simulated wave-shape analysis. |
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| AbstractList | Reducing the self-power consumption of an off-grid solar home system is an economic model in which consumer employs photovoltaic (PV) system for its own electrical requirements. The latch-based clock gating approach has been employed in existing solar charge controllers to reduce integrated circuit (IC) power being used in the low-powered intended mode, although the reducing power is limited. This paper presents a self-power reduction technique based on wake-up power and latch-hold time; which minimize power supply during idle time for a solar home system. Wake-up power introduces a push-switch mechanism using typical transistor technology. Latch-hold time function is designed using an operational amplifier and negative-positive-negative (NPN) transistor. A technique with dynamic self-supply mechanism is also introduced for decreasing self-power consumption. The self-power consumption is identified via simulation studies where the result shows that the power usage is 70% lower than traditional approaches. This is determined using a simulated wave-shape analysis. |
| Author | Yasin, Zuhaila Mat Noor, Siti Zaliha Mohammad Mohamad, Hasmaini Salim, Nur Ashida Islam, Mohammad Shariful |
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| SubjectTerms | Algorithms Controllers Design Economic analysis Economic models Electrical engineering Energy consumption Energy storage Engineering schools Integrated circuits Operational amplifiers Operations research Photovoltaic cells Power consumption Power management Semiconductor devices Time functions Transistors |
| Title | A new technique in reducing self-power consumption in the controller of off-grid solar home system |
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