Numerical modeling of the voltage sensors for quench detection in the TPX TF and PF conductors

Author

Wang, Pei-Wen ; Schultz, Joel H. ; Pillsbury, Robert D., Jr.

Author_Institution

Plasma Fusion Center, MIT, Cambridge, MA, USA

Volume

2

fYear

1995

fDate

30 Sep-5 Oct 1995

Firstpage

1335

Abstract

The voltage sensors in the TPX superconducting TF and PF magnets are designed to pick up the resistive voltage once the conductor quenches and becomes normal. This is one of the quench detection systems needed to protect the rather expensive magnets. Because the magnets are operating in a high-noise environment, the sensors would experience inductive voltages (noise). It is important to estimate the noise level and design a system with high signal to noise ratio. The numerical model described in this paper includes 3-D eddy currents assuming the worst condition, i.e., plasma disruption. The voltages induced in both parallel and helical cowound sensors are calculated. Several differencing schemes to eliminate the noise levels are compared and a new scheme is suggested

Keywords

fusion reactor design; fusion reactor materials; fusion reactors; superconducting magnets; 3D eddy currents; TPX PF conductors; TPX TF conductors; helical cowound sensors; high-noise environment; inductive voltages; noise; numerical modeling; parallel sensors; plasma disruption; quench detection; resistive voltage; signal to noise ratio; superconducting PF magnets; superconducting TF magnets; voltage sensors; Conductors; Magnetic sensors; Noise level; Numerical models; Protection; Signal design; Superconducting device noise; Superconducting magnets; Voltage; Working environment noise;

fLanguage

English

Publisher

ieee

Conference_Titel

Fusion Engineering, 1995. SOFE '95. Seeking a New Energy Era., 16th IEEE/NPSS Symposium

Conference_Location

Champaign, IL

Print_ISBN

0-7803-2969-4

Type

conf

DOI

10.1109/FUSION.1995.534474

Filename

534474