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IET Power Electronics Early View Online Version of Record before inclusion in an issue

Open Access

ORIGINAL RESEARCH

Power and signal dual modulation‐based bidirectional communication between intrinsically safe converters

Tan Wang, Dongsheng Yu, Xudong Tang, Samson S. Yu, Yihua Hu

Version of Record online: 20 December 2023

In harsh operating environments, intrinsically safe power converters are required for electronic devices. Reliable communication is the key to ensure good performance of monitoring and coordinated control for intrinsically safe converters. This paper proposes a power and signal dual modulation (PSDM)-based communication method by combining the frequency shift keying (FSK) and phase shift keying (PSK) methods for intrinsically safe parallel-connected converters.

Open Access

THEMED ARTICLE: MODELLING, CONTROL AND APPLICATION OF REDUCED SWITCH MULTILEVEL CONVERTERS

ORIGINAL RESEARCH

Harmonic elimination of a fifteen‐level inverter with reduced number of switches using genetic algorithm

Yogesh Joshi, Shimi Sudha Letha, Farhad Ilahi Bakhsh, Gopal Lal Jaat, Suyash Tilak

Version of Record online: 20 December 2023

This article presents a Fifteen-level inverter topology that has a lesser number of switches (12) and can accommodate isolated DC sources. The total harmonic elimination (THD) of the proposed topology using genetic algorithm is within the IEEE 519 standards. Further, the fifteen-level inverter is implemented in Hardware and firing pulses were generated using dSPACE 1104 controller.

Open Access

ORIGINAL RESEARCH

A non‐isolated single‐switch ultra‐high step‐up DC–DC converter with coupled inductor and low‐voltage stress on switch

Ali Nadermohammadi, Mohammad Maalandish, Ali Seifi, Pouya Abolhassani, Seyed Hossein Hosseini, Murtaza Farsadi

Version of Record online: 20 December 2023

-This paper presents a non-isolated single-switch ultra-high step-up DC–DC converter with a three-winding coupled inductor which is utilized to achieve ultra-high voltage gain with a small amount of duty cycle leading to low conduction losses of the power switch and higher efficiency.

-Due to the utilization of the passive clamp circuit in the structure of the proposed converter, it is possible to select a power switch with low voltage rated and small ON-state resistance, further enhancing the converter efficiency.

-Finally, to accredit the performance of the proposed converter, a 150-W laboratory archetype with an input and output voltage of 20 and 300 V, respectively, at 50-kHz switching frequency is fabricated.

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