2020 IEEE International Conference on Environment and Electrical Engineering and 2020 IEEE Industrial and Commercial Power Syst 2020
DOI: 10.1109/eeeic/icpseurope49358.2020.9160724
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A Fully FPGA Implementation of SVPWM for Three-phase Inverters without External Reference Signals

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Cited by 6 publications
(5 citation statements)
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“…In order to show the generality of our HW architecture, we also implemented it in a low performance FPGA like Xilinx Artix 7 [34] whose 4.75% and 0.75% of LUT and FF are used. Indeed, although our system needs more resources than other like [25] even to the +2.35 and +1.27 times the required LUT and FF, respectively, or like [17] even to the +1.21 and +1.66 times the required LUT and FF, respectively, the possibility of setting several configurations of the output three-phase voltages in real-time justifies such increase. Moreover, the executive time results equal to three system clock periods and it is due to the presence of FFs between the combinational blocks of the system for the data consistency.…”
Section: Fpga Implementationmentioning
confidence: 98%
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“…In order to show the generality of our HW architecture, we also implemented it in a low performance FPGA like Xilinx Artix 7 [34] whose 4.75% and 0.75% of LUT and FF are used. Indeed, although our system needs more resources than other like [25] even to the +2.35 and +1.27 times the required LUT and FF, respectively, or like [17] even to the +1.21 and +1.66 times the required LUT and FF, respectively, the possibility of setting several configurations of the output three-phase voltages in real-time justifies such increase. Moreover, the executive time results equal to three system clock periods and it is due to the presence of FFs between the combinational blocks of the system for the data consistency.…”
Section: Fpga Implementationmentioning
confidence: 98%
“…Such approach is unwanted when one needs a stand alone or an independent controller. On the other hand, other solutions use an internal memory [25] where the values of the dwell-times are stored for a fixed f C and f SW , but without the possibility to vary them in real-time. We overcome such limits and, although it is based on the approach to store the dwell-times in an internal memory of the controller, our HW architecture satisfies the following points:…”
Section: Theory Of the Proposed Hw Architecturementioning
confidence: 99%
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“…However, there are several effort to implement SVPWM technique in FPGA controllers in order to simplify and to reduce the complexity of the algorithm, and there are solutions based on CORDIC algorithms [19] or on Look-Up table approaches [20], [21] and that can use DSPs [22] or external flash memory with an external signal reference [23]. However, there are some drawbacks: firstly, in the case of the external PCs or DSPs, one needs powerful hardware that limits the fields of applications, like stand-alone applications because SVPMW signal generator requires external reference signals; secondly, although hardware architectures based on LUT reduce the complexity and do not require external resources, the variations of the three-phase output waveform are only possible for multiple values of the reference value [20], [21], [24]. Moreover, FPGA manufactures provide FPGA core Intellectual Property modules to implement SVPWM technique, but they cannot be modified in order to optimize the resource for a specific applications as well as to improve the algorithm.…”
Section: Introductionmentioning
confidence: 99%
“…It means that the proposals of the state-of-art need further hardware or software tools increasing the cost, the space and the complexity of the power system; differently, ours overcomes such limitations. Finally, compared with [10], in this paper we propose a procedure to optimize the resource of the controller in terms of the minimum LUT size and length of its cells as well as the possibility to change the switching frequency in real-time.…”
Section: Introductionmentioning
confidence: 99%