A Monopolar Symmetrical Hybrid Cascaded DC/DC Converter for HVDC Interconnections

With the rapid development of voltage source converter-based high-voltage direct current (HVdc) transmission, it is an irresistible trend that HVdc grid will come into being. High-voltage and high-power dc/dc converters will serve as dc transformers in HVdc grid to interconnect dc lines with different voltage ratings. This article proposes a monopolar symmetrical dc/dc converter which is composed of cascaded half-bridge submodules and series-connected insulated-gate bipolar transistors. This hybrid topology features low capital costs, high efficiency, small footprint, and bidirectional power transfer capability. Operation principle, parameter design, and the control strategies of this topology are introduced. A 480-MW, +/- 500 kV/+/- 160 kV monopolar symmetrical dc/dc converter is simulated to verify its performance and evaluate the efficiency. In addition, a downscaled prototype rated at 2.4 kW, +/- 300 V/+/- 100 V has been built and tested. Experimental results further validate the effectiveness of the proposed dc/dc converter.

Automated summary

The article introduces a hybrid topology of a monopolar symmetrical dc/dc converter with features of low cost, high efficiency, small footprint, and bidirectional power transfer capability. Experimental results verify its performance and effectiveness.