Chunling Hao scite author profile

Chunling Hao

3Publications

8Citation Statements Received

205Citation Statements Given

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108

203

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Xi'an Jiaotong University, Harbin Institute of Technology

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Design method and implementation of the fractional‐order inductor and its application in series‐resonance circuit

Hao

Wang

2022

Circuit Theory & Apps

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Summary By using the fractional‐order medium constitutive relations and Maxwell equations, the modeling and theoretical analysis of the fractional‐order inductor (FOI) is investigated in this study. The general formulations of the magnetic property model of FOI core material are derived. This paper proposes a generalized approach to design and implement a single‐component FOI and constructs the independent fractional‐order circuit element in Matlab/Simulink based on the fractional calculus Grünwald–Letnikov (GL) definition. The electrical and magnetic performance of the FOI are characterized in both frequency and time domain by simulation and experimentation. All results show that it is effective to use the proposed method and design guidance to construct the FOI. Furthermore, the results from the application of FOI in the fractional‐order RLλC series‐resonance circuit show that the order has an effect on the characteristics and frequency properties of it.

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A new type of comb pilot in FBMC/OQAM

Hao

Liu

et al. 2018

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Passive realization of the fractional‐order capacitor based on fractional‐order inductor and its application

Hao

Wang

2023

Circuit Theory & Apps

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This paper investigates a new implementation of a passive fractional-order capacitor (FOC) based on a single-component fractional-order inductor (FOI).The significance of this approach lies in providing the fractional-order passive circuit to synthesize an FOC, which avoids the approximation that only depends on the integer-order transfer function and reflects truly the infinitedimensional nature of fractional-order impedance characteristic. For this purpose, the realizable conditions of this passive FOC are obtained and the main ideas of the proposed method are described by examples. The sensitivity of the impedance magnitude and phase angle on required components parameters is also analyzed in order to facilitate the design of the FOC emulator. Furthermore, the bandwidth is extended by modular structures connected in series, and the proposed approach shows an improvement over some previous methods in terms of accuracy. Also, based on the fractional calculus Grünwald-Letnikov definition, a single-component FOI circuit element is packaged to build simulation circuit in Matlab/Simulink, and the effectiveness of the proposed method are validated by simulated and experimental results.In the application of an FOC, the results from in the series-parallel fractionalorder RLC β bandreject filter circuit indicate that the fractional-order counterpart can reduce the ripple and improve the suppression level at a certain frequency, and the peak amplitude and the overshoot decrease initially with decreasing order. Moreover, under the fixed inductance, capacitance, and resistance, the rise time varies almost inversely with order, whereas the setting time is on the decrease as the order is decreasing.

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Chunling Hao

Design method and implementation of the fractional‐order inductor and its application in series‐resonance circuit

A new type of comb pilot in FBMC/OQAM

Passive realization of the fractional‐order capacitor based on fractional‐order inductor and its application

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