Parameter Optimization of Thyristor Snubber Circuit in LSTF Quench Protection System

The Large-scale Superconductor Test Facility (LSTF) is an important part of comprehensive research facilities in support of China Fusion Engineering Test Reactor (CFETR). In order to protect the superconducting magnets from being damaged in quench accident, the Quench Protection System (QPS) should be designed to commutate the energy stored in the coils. The snubber circuit is used to reduce the reverse recovery current and voltage of thyristor in QPS, and it can impact the reliability and stability of the QPS. In general, the studies of snubber circuit are focused on the DC turn-off process of thyristor used in HVDC, which has small turn-off current. However, the turn-off current can reach to 100 kA in the QPS of LSTF. In this paper, a thyristor reverse recovery model is described, and the key parameters of reverse recovery current are obtained from the testing experiment. Based on the transient analysis of snubber circuit, a systematic approach is used to minimizing the resistance and capacitance of snubber circuit of QPS working condition is proposed. By the MATLAB simulation and comparison, minimum parameters of snubber circuit were obtained, and proved that the approach can improve the reliability and stability of system, while reduce the cost of QPS.

[1]  Song Bai Park,et al.  Determination of thyristor reverse recovery current parameters , 1988 .

[2]  A. Kardo-Sysoev,et al.  Efficiency Study of a 2.2 kV, 1 ns, 1 MHz Pulsed Power Generator Based on a Drift-Step-Recovery Diode , 2013, IEEE Transactions on Plasma Science.

[3]  J P Di Sarro,et al.  A Scalable SCR Compact Model for ESD Circuit Simulation , 2010, IEEE Transactions on Electron Devices.

[4]  R.S. Chokhawala,et al.  A snubber design tool for p-n junction reverse recovery using a more accurate simulation of the reverse recovery waveform , 1989, Conference Record of the IEEE Industry Applications Society Annual Meeting,.

[5]  Min Wang,et al.  RC Snubber Circuit Design for ITER PF Converter Module , 2015 .

[6]  J.J. Liou,et al.  An Improved Compact Model of Silicon-Controlled Rectifier (SCR) for Electrostatic Discharge (ESD) Applications , 2008, IEEE Transactions on Electron Devices.

[7]  Iqbal Husain,et al.  Equilibrium Point Analysis and Power Sharing Methods for Distribution Systems Driven by Solid-State Transformers , 2018, IEEE Transactions on Power Systems.

[8]  Peng Fu,et al.  Concept Design of CFETR Tokamak Machine , 2014, IEEE Transactions on Plasma Science.

[9]  M.T. Li,et al.  A simple model of high-power thyristor and its application in EML transient analysis , 2009, 2009 IEEE Pulsed Power Conference.

[10]  J.H. Chow,et al.  Interarea Model Estimation for Radial Power System Transfer Paths With Intermediate Voltage Control Using Synchronized Phasor Measurements , 2009, IEEE Transactions on Power Systems.

[11]  Jiawu Zhu,et al.  Electromagnetic, mechanical and thermal performance analysis of the CFETR magnet system , 2015 .