Abstract
With the large-scale development and application of offshore wind resources, the proportion of powered electronic equipment in power systems is increasing, which leads to the reduction of traditional mechanical inertia and system oscillation. To solve the above problems, this paper takes the grid connected converter of an offshore full power fan as the research object, deduces the “inertia” expression and physical significance of its inner and outer loop controller, and compares it with the mechanical inertia motion equation to obtain a unified mathematical expression. On this basis, combined with the control bandwidth and Rouse criterion, the discrimination method of system stability is proposed, and the correlation of the internal and external control parameters of the full power fan grid connected converter and its influence on the grid connected stability of offshore fans are explained according to the derived judgment expression. Finally, the correctness and scope of application of the theoretical analysis and judgment method are verified by PSCAD/EMTDC time-domain simulation software.
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