IDENTIFICATION OF ELECTROMAGNETIC INTERFERENCE ON THE DC SIDE OFF-GRID PHOTOVOLTAIC INVERTER USING DC LINE IMPEDANCE STABILIZATION NETWORK
Identification of electromagnetic interference in the form of conducted emission noise caused by the inverter on the Off-Grid photovoltaic (PV) system has been successfully carried out and the quality description of the inverter related to its compatibility with the electromagnetic environment co...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/49328 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Identification of electromagnetic interference in the form of conducted emission
noise caused by the inverter on the Off-Grid photovoltaic (PV) system has been
successfully carried out and the quality description of the inverter related to its
compatibility with the electromagnetic environment could be obtained by
comparing the results of conducted emission noise measurement by inverter with
the limits that exist on the standard. DC Line Impedance Stabilization Network
(DC-LISN) is used as a noise receiver from the inverter and forward it to the
Spectrum Analyzer and EMI Receiver measuring devices and acts as noise
absorber from the voltage source so that it does not interfere with the
measurement results. CISPR 16-1-2:2014 Standard is used as a guide for the
design of DC-LISN designs and as a determination of the requirements for the
fulfillment of DC-LISN as a measurement device of conducted emission noise
inverter. The DC-LISN characteristics are impedance and insertion loss at a
frequency of 150 kHz – 30 MHz was evaluated using an analytic method in the
form of a transfer function (Bode Plot) and verified against the LT-Spice software
simulation method. The results of these two methods serve as a reference for
validation of the measurement results of DC-LISN impedance and insertion loss.
The tolerance limit allowed by the standard, i.e. the impedance value is still in the
range of ± 20% of the impedance value required by the standard and the insertion
loss value is still below the maximum limit (-40 dB) has been met by DC-LISN so
that this device could use as a measurement tool for conducted emission noise
from inverter. The setup of conducted emission noise measurements is based on
the CISPR 25: 2016 standard. Three modes were applied to measure conducted
noise emission inverters, namely noise floor, no load, and load variation modes.
Loads such as LED lights with different power, chargers, solder, and electric fan
were used to determine the noise generated by the inverter due to the addition of
load on the AC side. Three inverter samples with different power capacities,
namely 200 W, 300 W, and 700 W were measured by applying the three modes. In
this research, samples of 200 W and 300 W inverters were identified as inverters
that did not meet the electromagnetic compatibility conditions because they had
several Quasi Peak (QP) and Average Peak (AVP) values that exceeded the QP
and AVP limits on the IEC 62920: 2017 standard. On the other hand, a sample of
700 W is identified as an inverter that has met the electromagnetic compatibility
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requirements in the form of conducted emission due to the absence of QP and
AVP values that are above the limits allowed by the standard.
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