ANALYSIS OF HARMONIC CURRENTS IN LED LIGHT LOADS FOR DOMESTIC SECTOR
Lighting is a very important need in all sectors. The global lighting industry is currently developing its products to produce good performance and also save energy. Currently, the use of Light Emitting Diode (LED) lamps is increasing because of their higher performance with more efficient power...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/80933 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Lighting is a very important need in all sectors. The global lighting industry is currently
developing its products to produce good performance and also save energy. Currently, the use of
Light Emitting Diode (LED) lamps is increasing because of their higher performance with more
efficient power consumption compared to previous lamp technologies, such as incandescent
lamps and CFLs. However, previous research has explained other effects due to the use of LED
lights in the form of harmonics, so that LED lights are considered a non-linear load that
produces high harmonic currents. So this is a concern if LED lights are used by consumers,
where the domestic sector is the largest user in Indonesia.
This research will explain the impact of using LED lights by analyzing and also
estimating the harmonic currents produced. The first stage is to characterize the lamps used in
Indonesia by comparing lighting performance and harmonic current standards. The result is an
LED lamp that has the highest efficacy performance of 123 lm/W with a current limit according
to standards. The next stage was testing using these LEDs on a large scale (24 lights) to see the
impact on the laboratory power supply and the PLN electricity network/grid. As a result, the
harmonic current of LED lights has different effects according to the character of the power
supply. The third stage is to estimate using the linear regression method from the measurement
data from the previous stage. The results obtained are regression coefficients for the current and
phase angle of each harmonic order from 1st to 50th order. In the future, these formulas can be
used to simplify the estimation and simulation of LED lighting loads on a larger scale. |
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