FPGA based Implementation of Frequency and Phase Matching Technique for Grid Tied Applications

A grid tied inverter converts DC voltage into AC voltage, while synchronizing it with the supply line phase and frequency. This paper presents an efficient, robust, and easy-to-implement grid tie mechanism. First, the grid tie mechanism was simulated in software using LabVIEW and Multisim. Then, the...

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Bibliographic Details
Published in:arXiv.org 2019-09
Main Authors: Uzair Nadeem, Atif, Muhammad Shahzaib, Ahmed, Rizwan, Touqeer, Hassan, Hamood Ur Rahman Khawaja
Format: Article
Language:English
Subjects:
Algorithms
Computer simulation
Electric converters
Electric potential
Hardware
Phase locked loops
Phase matching
Real time
Synchronism
Voltage
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Summary:A grid tied inverter converts DC voltage into AC voltage, while synchronizing it with the supply line phase and frequency. This paper presents an efficient, robust, and easy-to-implement grid tie mechanism. First, the grid tie mechanism was simulated in software using LabVIEW and Multisim. Then, the whole system was practically implemented on hardware. A prototype hardware was developed to produce AC voltage from solar panels. Phase and frequency of the generated voltage were synchronized with those of a reference sinusoidal signal. The synchronization mechanism was digitally implemented on an FPGA, which also controlled the whole system. We achieved real time frequency matching with an improved Zero Crossing Detection (ZCD) technique. Phase matching was also achieved in real time using a modified Phase Locked Loop (PLL) algorithm, which retains stability while being simpler than the general PLL algorithm. Experiments demonstrated that the proposed grid tied system reliably synchronized the phase and frequency of the voltage generated by the implemented hardware with those of the reference grid voltage.
ISSN:2331-8422