Your search keyword '"Mao, Hangyin"' showing total 3 results

1. Inclusion of Current Limiter Nonlinearity in the Characteristic Analysis of Sustained Subsynchronous Oscillations in Grid-Connected PMSGs.

Author

Wu, Tianhao, Jiang, Qirong, Shair, Jan, Mao, Hangyin, and Xie, Xiaorong

Subjects

*CURRENT limiters, *PERMANENT magnet generators, *ELECTRON tube grids, *OSCILLATIONS, *PHASE-locked loops, *TRANSFER functions

Abstract

The interactions between permanent magnet synchronous generators (PMSGs) and weak grids may cause negatively damped or growing subsynchronous oscillation (SSO). The growing-SSO would evolve into a sustained-SSO when it is predominantly governed by the nonlinearities in the PMSG's converter control, such as current limiter. Most of the existing frequency-domain modeling and stability analysis methods are in the small-signal sense and thus unable to consider the impact of such nonlinearities. Besides, these methods can hardly give vital information to characterize the sustained-SSO, for instance, the magnitude. This paper presents a detailed characteristic analysis of the sustained-SSO while accounting for the effect of current limiter nonlinearity. First, a single-input-single-output (SISO) frequency-domain model of the PMSG is developed. This SISO model comprises the transfer functions of outer-/inner-loop controls and phase-locked loop (PLL). The nonlinear part, i.e., current limiter, is incorporated into the model using the describing function (DF) method. Then, the equivalent transformation on the system's closed-loop characteristic equation is used to separate the SISO model into independent linear and nonlinear parts. This separation enables the use of the DF-based Nyquist criterion for evaluating the system stability and determining oscillation attributes, such as the magnitude and frequency. Both the analytic results and time-domain simulations reveal that the current limiter has a significant impact on the characteristics of the sustained-SSO. [ABSTRACT FROM AUTHOR]

Published

2021

2. Limit Induced Bifurcation of Grid-Connected VSC Caused by Current Limit.

Author

Xing, Guangzheng, Min, Yong, Chen, Lei, and Mao, Hangyin

Subjects

*IDEAL sources (Electric circuits), *VOLTAGE-frequency converters, *PHASE-locked loops, *EIGENVALUES

Abstract

This letter demonstrates a new instability scenario of grid-connected voltage source converter (VSC) - limit induced bifurcation (LIB) caused by the current reference limit from the outer control loop. When the current reference reaches limit, the control structure of the VSC and the equations of the system switch. The outer control loop is actually removed from the equations. The eigenvalues of the system change as well. When the current limit exceeds a critical value, the system may immediately become oscillatorily unstable when encountering the limit and LIB occurs. Eigenvalue analysis is conducted and time-domain simulation is utilized to verify the results. [ABSTRACT FROM AUTHOR]

Published

2021

3. Improvement of DC Breakdown Strength of the Epoxy/POSS Nanocomposite by Tailoring Interfacial Electron Trap Characteristics.

Author

Aslam, Farooq, Li, Zhen, Qu, Guanghao, Feng, Yang, Li, Shijun, Li, Shengtao, and Mao, Hangyin

Subjects

*ELECTRON traps, *EPOXY resins, *BREAKDOWN voltage, *ELECTRON transport, *ELECTRON affinity, *LASER-induced breakdown spectroscopy, *EPOXY coatings

Abstract

To date, breakdown voltage is an underlying risk to the epoxy-based electrical high voltage (HV) equipment. To improve the breakdown strength of epoxy resin and to explore the formation of charge traps, in this study, two types of polyhedral oligomeric silsesquioxane (POSS) fillers are doped into epoxy resin. The breakdown voltage test is performed to investigate the breakdown strength of neat epoxy and epoxy/POSS composites. Electron traps that play an important role in breakdown strength are characterized by thermally stimulated depolarized current (TSDC) measurement. A quantum chemical calculation tool identifies the source of traps. It is found that adding octa-glycidyl POSS (OG-POSS) to epoxy enhances the breakdown strength than that of neat epoxy and epoxycyclohexyl POSS (ECH-POSS) incorporated epoxy. Moreover, side groups of OG-POSS possess higher electron affinity (EA) and large electronegativity that introduces deep-level traps into epoxy resin and restrain the electron transport. In this work, the origin of traps has been investigated by the simulation method. It is revealed that the functional properties of POSS side group can tailor an extensive network of deep traps in the interfacial region with epoxy and enhance the breakdown strength of the epoxy/POSS nanocomposite. [ABSTRACT FROM AUTHOR]

Published

2021